CN103993581A - Afforestation, water conservancy, water storing, disaster prevention, power generation, shipping, river overturning and land reclamation system engineering - Google Patents

Abstract

The invention discloses afforestation, water conservancy, water storing, disaster prevention, power generation, shipping, river overturning and land reclamation system engineering which is composed of ecological afforestation engineering, natural energy lake governing engineering, natural energy river governing engineering, siphon sand discharging and power generation engineering and river overturning water force and wind force dragon boat land reclamation engineering. The damming and siphon power generation irrigation technology and the cultivation biotechnology are used for blocking mud on a hillside and the foot of a hill, a retaining dam is built to raise the water levels of rivers and lakes, natural energy force is used for controlling the water levels of the rivers and the lakes, a river overturning water force and wind force dragon boat is used for deeply excavating large and small rivers and large and small external flow lakes so as to improve the water storing amount of the rivers entering the lakes and the external flow lakes and the navigation and irrigation capability, the river overturning water force and wind force dragon boat is used for overturning deposited silt in front of the dam, then the siphon power generation technology is used for making silt water used for power generation, irrigation and land reclamation at a lower position, a siphon is used for sucking accumulated water in a barrier lake, so that the flood of the barrier lake does not damage the life and production of downstream people, a river embankment is renovated, the river overturning water force and wind force dragon boat is used for deeply excavating a river bed, a water storing river reach is built, the water storing amount and the navigation and irrigation capability of the rivers are improved, the silt water is led into a distant place of a sea entrance of the rivers, and the deposited silt forms a new coastline.

Description

The water storage of transforming mountains and rivers take precautions against natural calamities generating shipping turn over river marine reclamation land system engineering

Technical field

The present invention be utilize nature ability administer the water storage of lake, the mountains and rivers take precautions against natural calamities development electric industry shipping with turn over technical field under the marine reclamation land of river, Here it is, and river marine reclamation land system engineering is turned in the water storage generating shipping of taking precautions against natural calamities of transforming mountains and rivers.

Background technology

Since how many 10000 years, nature ability has brought up lake, the existing mountains and rivers of China situation, even to this day, the upstream of great rivers, even also built dam or building dam, middle reaches, and obtain certain generating capacity, the large koppie of part has had forest greenweed, but the desertification of the Northwest is also being carried out, soil erosion is also very serious, cause rivers and lakes barrage also silting up, so that also there is difficulty in drinking water, to having to accelerate the period of improvement, but it is easier said than done to administer lake, the mountains and rivers comprehensively, adopt at present artificial afforestration, because lack of water is made progress unhappy, artificial desilting is still effective, but manpower consumption is too large, it is effective that flow-sediment regulation rushes river row's silt engineering initial stage, probably only can waste the water yield later, China is the many and few country in Plain in a mountain region, so many plateau, mountain region, pass through gully, gully enters brook river, bring silt into great rivers and lakes, severe water and soil erosion is out of control, a large amount of sedimentations are in rivers and lakes bottom, cause rivers and lakes bottom to be raised, water-holding quantity reduces, a large amount of fresh water ocean that flow into the sea in vain, the problem of reality is how could block quickly silt to flow to rivers and lakes, how could quickly the silt that deposits rivers and lakes bottom be removed, this is that the present invention attempts to solve the bottom before sedimentation rivers and lakes dam, raise the problem of water-bed face, silt is blocked under the waist and the foot of the hill of hills and mountains, the silt of big or small rivers and lakes bottom is entered to seashore limit, to build new coastline with silt, to reducing drought and waterlogging mud-stone flow disaster, to silt water being used for to generating and irrigating, irrigate ability to the navigation that improves rivers and lakes, to staying some in rivers and lakes valuable fresh water more, to meeting people's drinking water needs.

Summary of the invention

One kind of forestry and water conservation storage Disaster shipping fanjiang power system engineering by ecological conservancy land reclamation projects, natural can cure Lake Engineering, Natural can govern river engineering, power engineering siphon flushing, turn the force of the wind dragon boat river reclamation project composition, will use dams, irrigation siphon power generation technology and biotechnology cultivation sediment blocking the foot of the mountainside, building dams to improve water rivers and lakes, rivers and lakes with a natural ability to control the water level, with the force of the wind turning the river deepened dragon boat size rivers , deepened the size of the outflow of the lake, in order to improve the river and into the lake outflow of irrigation water storage capacity and navigable lake, with the force of the wind dragon boat flip turn river dam sediment deposition, and then siphon power generation technology in the sand at low water is used for power generation, irrigation and reclamation, water siphoned out of the lake, making the production of downstream flooding will not endanger people's lives, remediation river embankment, with the force of the wind dragon boat turn deepen the river bed, the construction of water storage river, improve navigable rivers and irrigation water storage capacity, the sediment water toward the distant rivers and estuaries, so that the formation of new shoreline sediment deposition, the present invention is trying to solve technical problems technical solution is: ecological conservancy project, the status quo is a thousand Shan Wan ditch into streams, streams with sediment into rivers and lakes, dams blocking sediment deep groove bamboo grass green all over the foothills, intercepting sediment storage dam construction mountainside deep groove in the size of the place, in the foothills of suitable land to build their storage dams, will stop in front of the dam sediment will be stored in the dam torrents, slow the speed of flood flows into rivers and lakes, with siphon water from the dam to the foot of the mountain reservoir for power generation, with a generating capacity siphon power generation unit, to build on top of the hill cellar storage on forest infiltration in the dry season to prevent fires, reduce or avoid forest fires, land irrigated with water siphon device generation after generation, or directly with siphon water drip irrigation of crops, in order to reduce the amount of water evaporation , excess water import rivers, bamboo rattan suitable for plant growth in the region, along the foot of the ravine from the naturally cultivated bamboo rattan plant breeding, forest cover to block the sediment will form a permanent band, at not bamboo dryland plants grow along the foot of the ravine with a pot of drip irrigation method planting potatoes, rattan, grass land plants climb, spread to a large area after blocking sediment, delaying the formation of flood sudden rainstorm to rivers time to make rain, snow have more time to wet earth, eliminate or reduce flooding, the construction of solar power plants or wind farms in Rock Hill, Rock Hill area on the mountain layer, with the digging of suitable storage plus indigenous culture crops, Rock Hill on the layer by setting layout planting pit mining law, placed in the planting hole at the bottom of a plastic bucket, or ceramic barrel, or making cement barrels, drums join in the soil, the rain water flows through layers of rock on the introduction of the barrel moist soil, planting pit planting suitable plants or crops cultivated in the dry desert areas of dry lake river surface barrier layer, such as the laying of bitumen to the product storage rain snow and surface water, will transform the size of the sand dunes into a ladder in ladder Construction of the sand pit planting, planting pit can add water, put the soil storage container, in such containers suitable for the cultivation of plants or planting crops, planted in the sand above the pit block building greenhouses, construction pits for planting Drip irrigation network, drip irrigation water with the product storage or redeployment of water plants or planted their crops prone to mudslides or landslides in the area of the street, next to the building, construction lateral guide ditch, ditch the rain toward the top both sides of the surface beneath the rain gutter with vertical guide toward existing drains, it will not rain while immersed in the mountains collapse or flow, or people living in the street near the gravel or rocks at the hillside, pre-built structural reinforcement of the mountain, with a large amount of money to repair in order to avoid disaster reconstruction, good governance through the mountains to prevent the flow of sediment with water, avoid flash floods caused by human and animal deaths, avoid flash floods caused significant property damage peoples and countries, to avoid flash floods caused by house down the road collapse disaster, avoid flash floods caused by local social panic, nature can cure Lake project, quicksand mud flows millions of years, deposited lake, lake rise, widening the lake, reducing water storage capacity, increased evaporation surface, now we must plan construction scale outflow of the lake, in the dry season, the lake water exits the lake mud with a backhoe out, construction Hudi lake along the lines set in the lake at the outflow section, Hukou build dams, use to improve rivers into the lake, the water and reduce the outflow of the lake outflow lakes, rivers into the lake bottom combine the technical measures to improve the storage capacity of the lake outflow of rivers and lakes, rivers and drain into the lake to improve the throughput capacity of lakes, rivers and drain into the lake to improve navigable lake irrigation capacity, improve the dam embankment and reduce the bottom, so that the outflow of rivers and lakes into the lake has a water storage capacity is set so that the outflow of the lake above the outer surface of the water year-round lake water, and has swallowed maximum flood capacity planning artificial wetland construction, too many wetlands will increase evaporation, build more storage tanks, lakes, reservoirs, lakes and reservoirs network storage tank construction, will be stored in the rainy season floods Pool Lake library, with the black night of excess hydro wind power, through the pump pipe network over the rivers and lakes of water input storage Pool Lake library network, reducing the flow of river water into the sea, in the absence of the ability of navigable rivers, from upstream to downstream, in a certain section of the building height difference of river dams , the water inside the dam through a siphon water generation after generation device into the next dam, or when not in power along siphon water to crops, livestock, or to supply drinking water or sediment dam bottom row into a useless low-lying land, the land is there no land reform, which both use the potential energy of water, reducing the amount of the loss and the evaporation of water, but also to control the amount of water for crops, but also to facilitate the supply of drinking water in the dry season when the upstream section of the river deepened such that it can store more water, navigable for river segment has the ability to build a high embankment, turning the river by the force of the wind dragon boat around the clock automatically with the river upstream from the mouth , or by way of staging relay flip bottom sediment, so sediment flowing downstream with the river eventually flows into the estuary, so that sediment in the rivers into the sea port reclamation, with the force of the wind turning the river bottom sediment dragon boat flip approach to deepening the river bottom surface, the following procedure, the first step, selected river systems, determining the main river systems of the rivers into the sea, the second step, clear sank in the main rivers in solids, eradicate unwanted deposition of the main rivers in the sand Heap Milton sandbar, straightened river segment to the third step, according to the main rivers and estuaries flow direction, wind force by turning the river into the sea dragon boat flip underwater sediment deposition until dredging the seabed to the original, so flip sediment deposition along the coastline, the fourth step, along the upper reaches of the estuary to the river, the wind power segment with a turn of the river dragon boat flipping back and forth non-stop day and rivers center waterway, and gradually expand to flip the center of the waterway to the set width, until cleared river silt to the original underside until there navigable rivers segment capacity after dredging is completed, turn the river still kept the force of the wind dragon boat upstream to and from the rivers and coastline flip between deposition of new sediment, the fifth step, the force used to turn the river Wind dragon boat cleaning and main rivers and lakes have entrance, close to the main river between the lakes with no outlet through rivers and waterways construction, making export of lakes, with the force of the wind turning the river clean-up of the original non-export dragon boat lake, located along given lake water to its original straight dredging the bottom, after dredging is completed, still kept flipping back and forth new sediment deposition, so flip sediment export from the lake into the main rivers, lakes and export a large throughput ability, the sixth step, the force of the wind dragon boat with turning the river into the lake to clean up rivers and lakes, along both sides of these rivers, heightening reinforcement Zhichui surface diversion embankment construction, the dredging of these rivers flow into the lake bottom to the original, it has Good navigable water storage capacity, the seventh step, the above ways dredging rivers and other water systems selected to set the standard, and thus individually segmented phases dredge river dredging construction, after a number of years will eventually put all river dredge that has clear water rivers and lakes, has built a dam for the river, the river section between the two from the downstream section of the dam construction and dredging the above paragraph by paragraph to the upstream section, with the force of the wind turning the river mud deposited dragon boat flip sand, silt will be mixed with a siphon water upstream to downstream dam at boot suitable areas in the region siphon hydroelectric power station construction, power generation will be introduced into the low-lying siphon water from the sediment outflow in the area of crop irrigation water network construction After the crop irrigation water supply network siphon hydroelectric power station with a generating capacity of the night, to set the depth of dredging in lakes, rivers, lakes embankment and into the lake embankment built to set height, build dams in the lake outlet dam embankment, built on the site of the dam embankment suitable for one or two individuals shaped dam gates and dam door controls, door herringbone Dam square by two doors, two bearing support columns and two limit column constituted by the dam embankment height door throughput maximum draft decision height and water sailing ship, the maximum width of the door's width from the dam embankment throughput required quantity and ship navigation decisions by the thickness of the door threshold selected manufacturing materials and structural design decisions, dam gates height above the surface of the water in the lake year round to maintain appropriate water outside the door, two-door panels fit in the outer upper and lower end of the end face of the symmetry center of the site, set a fixed stainless steel wire rope structure, with a vertical line perpendicular to the longitudinal plane of symmetry center door as a benchmark , on the inside of the door (doorway side) near the threshold of the upper and lower parts of the set from the baseline at the distance, has installed rotating ring structure, located in the inner side of the lake two doorways bearing reinforced concrete support column is its weight to bear on both sides of the door The pressure difference between the load components, at its upper and lower ends at the site with the corresponding upper and lower stainless steel rotating cylinder surface mounting ring, end at the next lower cylinder surface has a flanged edge stopper on the end face of the cylinder surface features thrust bearings, the inner diameter of the upper and lower surfaces of the cylinder and the bearing surface supporting the column welded steel mesh, suits bearing support column next to the cylinder surface at the upper and lower rotating ring, are provided with a door mounting structure corresponding to the mount, where the rotation the upper end of the ring is provided with a bearing surface of the support column cylinder thrust bearing set Face cooperating Park board, the park board will pass the door of gravity bearing support columns, the lower stainless steel rotating ring suit to flanged edges stop moving under the surface of stainless steel cylinder bearing support column will rotate on a stainless steel ring stainless steel cylinder kit to bearing surface of the support column, lifting door, stainless steel rotating ring mount, and mounting structure corresponding door connected to the rotatable positioning bolt the doors, set off on the inside of the dam embankment at a set distance threshold limit columns, door opening angle is limited stopper column limit column so that the center of the vertical plane of symmetry is not parallel to the door and doorway that make the door longitudinal vertical plane of the center bearing support column axis on both sides to maintain a certain water pressure, it has the ability to automatically turn off two-door panels, where the Hukou dam has a vertical arc in the doorway at the vertical sides surface dam embankment construct that allows the end face of the door when the switch can be turned smoothly in the two-door panel off adult shape, the vertical arc and two-door board another face contact and seal leak, located on both sides of the door dam embankment dam dam gate pillars at each door panel control device consists of a stainless steel wire rope, respectively, a pulley with reinforced concrete pillars, two valves, a hollow trapezoid body and constitute a chute with a pulley in the dam embankment corresponds to the inside of the door of the lake at a fixed stainless steel wire rope structure, namely the head of the stainless steel wire rope fixed to the structure of the corresponding door, holding the rope pulley another head corresponding respectively to bypass the face, through the embedded corresponds to the dam Tsutsumiuchi stainless steel tube, which is installed at a fixed position corresponding to the trapezoid vertical plane, perpendicular to the center line of the embedded steel pipe to vertical trapezoidal body on the rope of rope through the tube into the steel tube is provided with compatible with its internal diameter colloidal seal, located on the outside of the dam embankment hollow trapezoid body is under the surface of the reinforced concrete hollow member inclined plane inclined plane transverse section in the front and rear sides of the appropriate parts of the place, there are suits two long embedded The four stainless steel roller curved panels, front and rear center line of the two curved plates with the long arc of the roller parallel to the centerline, and are perpendicular to the sides of the vertical surface of the hollow trapezoid body, the slope of oblique planes the required force and trapezoid body adapted decline, falling a distance equal to the trapezoid body dam door stickers synthetic herringbone state, around the bearing support column to column defined limit the opening of the dam gates from the site of the installation of wire rope draw the arc chord, adding water after the sliding force of the hollow trapezoid is greater than the power needed to pull open the door dam bar door open, with the door after opening the dam, the dam water pressure decreases with both sides of the door, decline in force when pulling the dam hollow trapezoid body go door open and full column limit, limit column minus the bear falling water pressure forces the sides of the dam gates pulling power, when the need to close the dam gates, just When you start a water pump on the top surface of the hollow trapezoid body, the hollow trapezoid body of water pumped out of the lake within the park, so that the force of the hollow trapezoid body fell less than two board gate dam water pressure difference, the dam gates connected by a rope, pulling the hollow trapezoid shape adult off automatically shift so that the corresponding surfaces of the embankment dam abutting end faces of the hollow trapezoid, and the other water pump on the top surface of the hollow body is an open trapezoid dam doors, plus the pump inlet hose connected with the lake, the outlet pipe and the hollow space of the trapezoid body communicates with the hollow trapezoid body adapted chute is a waterless channel, build dams on the outside The cross section and the trapezoidal concave chute body inclined planar surface and the mating sides, the moving distance is greater than the length of the chute when the gate is fully open trapezoid of the dam, the dam is usually the door is closed, so that the lakes and rivers into the lake there is more than the amount of water, when a ship to be out of the dam gate, open water pump water into the hollow body of the ladder, open the doors so that the ship through the dam, and then pumps out and then the hollow trapezoid body of water, so that the dam door is closed, When the outer surface of the water above the lake the lake water (flood), water pressure opened the dam lake outside the door, external water flow to the lake the lake, making the lake and the river into the lake when the water reached the level of maximum flood, during which also To continue to add to the space of the trapezoid body of water to make rope and dam gates connected in tension, when the flood will recede, the lake water will drain the lake, dam door is automatically closed, then open the trapezoid body plus water pump plus its space to slow the closing speed of the dam gates, to avoid damage to the dam gates, to keep the water at a high level within the lake, when the lake water level is below the lake water level outside, there are ships need to be out the door or to the lake dam When the outside water supply, repeat the above operation, subject to timely close the dam gates to keep the water level in the lake and river into the lake inside, do not let this part of the water into the sea of white self, deepening rivers and lakes, sediment deposition before the existing dam The flip, into the sea waterway extending the use to turn the river force wind dragon boat to finish, turning the river force wind dragon boat using rivers and lakes flow hydro and wind cutting flip underwater sediment, using tidal flow hydro and wind cutting flip extending into the sea fairway underwater sediment, so that sediment deposition in the coastal zone is set to form a new reclamation of coastal fanjiang, turning the river by the force of the wind dragon boat hull, drifting tanks, rudder, hob drum, plow blade arc panel, hydraulic drives and dragon boat sailing wind power generating power system structure, the force of the wind turning the river dragon boat different from the existing ships, is the use of hydro wind sailing in the bottom of the boat, is the use of underwater sediment hob drum flip boat, is In both the outside bottom plow blade arc panel equipped boat is equipped boat drifting tank, hob drum rotation turn underwater sediment move around the rudder back and forth swing plow blade cutting arc panel on the ship's side underwater sediment, turning the river force wind dragon boat hull upside down on the surface of the base plate and the inner surface of the front and rear horizontal trapezoid body, trapezoid body inclined plate with two vertical side plates large inverted trapezoid body corresponding obtuse and welding end, surrounded by a square face and the two roof vertical side plates, front and rear end faces of the swash plate corresponding to the weld, which constitute the hull of a hollow inverted trapezoid, square transverse section of the hull, the hull is less than the overall height of the lower surface of the deck to the bottom of the river from flipping the sediment to be smaller than the width the width of the river waters, inverted trapezoidal hull interior space can be layered required function can be used as ballast in cargo or passenger vessel ship, where the bottom is set for the installation of wind gear hydraulic cabin, the cabin space is provided around Wind mounting platform hydraulic gear, dragon boat sailing and power generation systems, set top floor space around the front and rear cab, in the center of the hull longitudinal vertical plane of symmetry has a structure located beneath the front and rear cockpit rudder installed, below the front and rear cockpit front and rear hydraulic rotor on top of the ramp plate welded under a forward pivot as a rudder joystick backward projecting slats, rudder located hull longitudinal axis joystick center to the vertical plane of symmetry, streamlined hollow closed The rudder is fixed to the suit and the lever, the lever on the front section of the swash plate, respectively, extends through the cockpit, the fulcrum of the lever assembly produced on the inside surface of the cockpit swash plate mounted on the upper end of the lever of a manual steering wheel, installation of automatic control mechanism on the bottom of the steering wheel rod segment manually, in order to deflect the rudder blade plow arc cutting the hull outside panel sediment, water tank installed in drifting around the cabin roof at the top of the ramp is a vertical flat plate, with its surrounding the end face of the inner surface of the boat, the side plates of a lower layer of the top plate, the swash plate corresponding to the welding surface, to form a storage space of triangular cross section, suitable parts of the hull of the tank before and after the rise and fall with a water valve, water valve with a tube to the hull external water tank connected to the body and communicating with the drain pump and matching drain valves and tubes, when the hull needs to sink, open the water valve, when the hull needs to go up, open the drain pump, in order to adjust the cutter drum flip surrounding the depth of sediment along the two vertical inverted trapezoidal side of the hull has installed wind capacity external hydraulic rotor drive shaft and wheel torque stretch double-wall, double wall overhanging the U-shaped cross section, U-shaped outer wall and a bottom (top) plate to the protective member, the outer surface of the vertical plate is flush with the hull, U-shaped opening end surface corresponding to the surface of the welded to the hull, the outer wall of the double-extending end surface of the U-shaped opening the outer surface of the hull corresponding to the space formed by welding, is the installation of the transmission wheel, the first stage producing the torque transmission shaft and the rope Mi closed annular space, the outer wall of the space extends a height greater than the double of the wind, the hydraulic diameter of the rotor wheel, the spatial width greater than the thickness of the drive wheel, double wall inside wall is load-bearing components, extended double-wall installation both hydraulic rotor wind rotor bearing walls, but also water, gas flow channel cross in the construction When the U-shaped cross-section was extended on a double wall, the first ends of the shaft with the bearing flange shaft torque produced wind or hydro capacity torque shaft, two were installed to set the vertical size of the inside wall In the production of torque perpendicular to the axis of the inner wall surface of the inner side,When its axis is horizontal and the state of the ball bearing mounted with the corresponding flange surface of the welded along its periphery to the inner wall, the drive wheel to the shaft section, respectively, through the suit inner side surface of the outer wall of the aperture and radial positioning pin so that the drive shaft, the torque capacity of all axes are thus assembled into the member, but also so that the front and rear reel assembly into the drum member, when all components are well prepared, for mounting the blades of the wind axis of the torque produced parts, and in the portion of the hull plate set arranged neatly so that the axis of the torque capacity of the wind perpendicular to the axis of the central vertical longitudinal symmetry plane of the hull, along the bottom edge of the inner wall surface of the corresponding top plate welded to the hull, along the adjacent parts butt welding end, if there is the gap between the adjacent components, then fill the gap with the corresponding surface of the welded sheet butt end surface of the hull along its roof, so that it became a two build the inner wall of the overhang on the double hull plate wall, using the same method, the bottom of the front driving after driving downward along the front swash plate, the swash plate to the rear of the hull bottom sides of the predetermined region, a bottom wall panel is installed for the hydraulic capacity of the blade member and the torque of the shaft corresponding to the set position of the hull surface of the welding, the front and rear parts of the reel drum near the inner wall of the bottom plate corresponding to the hull bottom surface of the inclined welding along the butt welding end adjacent components, and in the cabin before and after the segment corresponding to the swash plate Welding fill the gap plates, there are gaps in the weld fill the gap with matching plates, which became two underwater build a double wall overhanging the inside wall, until the ring ropes after primary drive installed, then along Hull two inverted trapezoidal side wall panels welded to make wall panels flush with the hull plates, and finally with slats welded seal, the outer wall extending on both sides of the hull form a double drive wheel -level transmission ring rope The operation of the space, and the horizontal base plate mounted on the swash plate around the junction of the outer wall extending hob double drum is a closed hollow cylinder, having an outer diameter larger than the hydraulic diameter of the impeller rotor, the outer diameter of the cylinder surface On axial dislocation welded hob covered the entire surface of the drum, hob has dug move underwater sediment hooks mounted on the left and right front side of the hull near the overhanging double wall inclined drum hob ends of the shaft, the same support structure and hydraulic end of the shaft on which the rotor, the rotational power of the hob plate of the drum shaft is of hydraulic torque transmission capacity of the rotor disc, an annular bead of a first gear stage coupled to the drive plate on the hydraulic drive means to drive, but it must be conducive to the rotational direction of turning the bottom sediment, the hob is mounted on the left front side of the drum in front of the inclined bottom wall of the overhanging double plow blade arcs panel by plowing blade the first arc plate and mounting panel, the inclined outer wall of the double-extending mounting plate welded on the base plate with the corresponding end face of its inner end and the outer surface of the corresponding panel portion of the arc welding head is triangular plowing to slightly inclined manner to the hull bottom and the lower end surface of the arc with its welding end panel so that the sediment plowing blade can be scooped backward along the inside surface of the inner arc of the hull of the panel, in order to reel drum and hydraulic rotor flip, so that sediment with water to flow downstream, hydraulic rotor wind power plant by hydro, wind rotor with bearing flange, oil system, the secondary transmission mated to the ring rope and pulley drum and constitute , hydro, wind rotor having the same or similar structures, are from the (hydro, wind) producing torque axis, Short axis (move water jug) blades, support bearings, brake system components and turn the column structure, if the outside Press and other highly stretched double wall design, the hydro, wind rotor axis also by high-install, if extended by a wavy line double wall design, the hydro, wind rotor axis height torque capacity installed with wavy lines, etc. water, the direction of rotation of the wind rotor may be all in the clockwise direction, the counterclockwise direction is also full, but also by two adjacent rotors in opposite directions to each other, producing a torque shaft and the hydraulic capacity of the wind torque shaft has a similar structure, are used High strength stainless alloy casting processed segmented welded hollow long axis of the assembly, casting, each center embedded through a stainless steel tubing, machining, two adjacent pass with internal and external spline fit twist, with internal and external cylindrical segment to maintain concentricity requirements, according to hydro, wind rotor shaft torque produced each of the total length of the segment design, paragraph by paragraph, processing, will be processed and each segment piecewise butt end face in the ring groove welded and polished smooth, constitute a structure, length, straightness qualified production torque axis, producing a wind dragon boat hydro power plant in the production of the desired torque shaft, a double off the wall overhanging the inside surface of the inside wall Without prejudice to paragraph mounted on the intermediate shaft minor axis of blade rotation on short branches prevail along the middle axis of the shaft surface segment equidistant spiral line, and so on through the embedded angle machining stainless steel pipe used to install short fulcrum radial holes, equidistant herein, the angle of the axis of the torque produced by machining a helix in a 360 ° turn to set the length of each set of radial holes of a number of holes, i.e., the average number of radial holes set length , average angle of 360 °, the torque produced when the length of the shaft particularly when the shaft may remain in certain parts of one or more of a space for mounting the bearing support, the first radial hole from the beginning until the completion of the last machining the radial hole in the processing section of each of the two ports and the radial holes of the sleeve outer diameter surface of the bearing hole of the interference fit, the shaft diameter corresponding to the inner diameter of the bearing surface and the surface of the sleeve shaft moving with short branched, in each of The inner diameter of the intermediate portion of the sleeve bearing surface of a deposit processing oil ring groove, when the sleeve is pressed into the corresponding hole in the bearing sleeve of the bearing surface of a bus ring and the outer end of the shaft torque capacity is flush mounted in the sleeve Short axis of the bearing is made of high-strength finish stainless alloy forging member corresponding surfaces of both the sleeve bearing to the shaft oil remaining between the ring groove engraved number of axially uniform Through the thin groove lubricants, lubricating oil will be produced through the center hole of the torque shaft, lubricate the ball (column) bearing the bearing housing through the filling hole, short sleeve bearing fulcrum, Short axis corresponding to the two sleeve bearings surface of the outer end portion of the shaft, respectively, machining of the mounting ring seal ring groove, and the seal ring are mounted respectively processing a body of the blade mounting post flower, respectively, the axial dimensions of the sleeve corresponding to the two bearing surface of the outer end face of the shaft After mating annular groove, the annular groove in the outer surface of the shaft end of the respective processing and the blade mounting cylinder internal splines slidably mating with external splines, keyways requires several external spline mounting post in the body of the blade through the outer spline spline Set the installation of a rotating cylinder two spline teeth of the blade, the inner spline and the outer spline teeth radial direction end surface of the spline teeth of the radial end face of the securement bond, and the center plane of symmetry of the two leaves of leaf folder 90 ° to each other angle, in the central plane of symmetry of the two leaves foliage at an angle 90 ° to each other state conditions, the installation of the cylinder is perpendicular to the plane of symmetry center foliage drill a hole brake, brake cylinders on both sides of the installation the hole in the opposite direction, respectively, a mounting hole of a brake to the brake column, the column inner end of the inner and outer brake splines can not be rotated, the outer end of the column and the brake torque of the shaft is welded to the production system of the surface of the pivot member cooperate with the short branches 90 ° angle to the axis, the braking surface of the column in contact with the full length of the pivot member made turn, then, the center plane of symmetry of the blade leaf and capacity with a torque axis of the plane, the other end of the support shaft and the short blade plane perpendicular to the axis of the shaft center of symmetry of the foliage yield torque, the brake on the column does not contact the transfer member surface is made, the shaft torque is produced when the rotated angle of 180 °, with the center plane of symmetry of the original leaf axis of the torque produced with the in the opposite direction of rotation of the blade plane to plane with the axis perpendicular to the axis of symmetry center foliar torque capacity, while the original center of symmetry axis perpendicular to the plane of the foliage produced torque shaft blades, at the moment, which leaves the central plane of symmetry and producing foliar torque axis of the same plane, while the column on which the braking torque of the shaft with corresponding production system transfer member surface contact mindful turn, attracts the wind vane shaft torque produced each of the short fulcrum, move the water cycle in turn leaves are so operation, the coupling studs and the blade support shaft is mounted to a cylinder of high strength stainless alloy forging member within the outer section of the inner section is provided with a spline space to accommodate the short external splined section of the support shaft, the cylindrical the other end of the slat on both sides of the triangular mounting plate connected to the cylinder center line in the cylinder by mounting a slat processing channel fitted inside the end section of the blade along the channel is provided with a rivet hole or two rows , the inner end surface of the blade is fitted to the rear riveted the inner channel, if the blade is stainless steel sheets had to be welded along the channel, move the wind blades, the blades move the water board is positive trapezoid inside the short side of its top edge, fitted with a channel connecting the outer long side of the bottom sheet, two symmetrical centerline of the hypotenuse, when fitted to the centerline of its symmetry axis deviates from a set of short distance from the fulcrum, the blades on the short axis of the pivot shaft is not symmetrical, the center plane of symmetry of the blade leaf is the short axis of the support shaft into the area ranging from two leaf portions, the small size of the arc inclined surface made into a streamlined surface when the wind or water, or blowing leaves When washed, the large area of the large driving force by an external force, resulting in a short direction force toward the support shaft is rotated, causing rotation of the short blade fulcrum force zo large projected area, which could cause a short rapid rotation of the support shaft, when Short axis when a 90 ° angle, the center plane of symmetry in the blade leaf axis of the torque produced at the same plane, the transfer member is made to block the production of mounting a brake torque of the shaft cylinder on the column, producing a torque shaft mounted on the short fulcrum is only transferred, this time, the blade incur the greatest impetus, the driving force of the leaf surface from the center axis of the shaft torque capacity for action radius of torque, the role of the stream to welcome impetus in the center of the leaf total thrust Save dorsal thrust vector difference between the fluid resistance, the product of the vector difference The radius of the blade is facing the flow is transmitted to the shaft torque producing force torque, while at the other end of which a short supporting shaft vane the face of said center plane perpendicular to the axis of the shaft into the torque capacity, the operation of the blade facing the fluid with a bluff arc, the fluid passing from the leaf blades of the blade where the pressure difference between the resistance of the resistance of the center of the vector distance to the axis of the shaft torque capacity for action radius of the drag torque, which is the difference between the role of the radius vector of the product and the resistance is transmitted to the blade shaft torque capacity torque reaction force, when Ying-flow foliage turned 180 °, the original Foliar center of symmetry axis of the plane and producing torque with plane blades are pushed up to the flow is reversed (Short shaft end visual), which operate with a streamlined arc facing the fluid produced on the production of torque shaft resulting in When the torque reaction force at the same time, the original plane of the blade perpendicular to the axis of the shaft torque produced foliar center of symmetry in the same direction simultaneously turned 180 °, so that the fluid pressure of the leaf and the leaf into the central plane of symmetry the axis of the shaft with the plane of the torque capacity, resulting in the production of a positive force torque on the torque shaft, which when the two blades movable pushed Short shaft torque shaft rotated 180 °, i.e., the torque produced when a turn driven shaft, Two blades were a short fulcrum shaft torque resulting in production was a positive force by the resistance torque and torque, twice the positive force torque minus twice the drag torque of the torque difference between the two is a short blade support shaft so that production Effective torque torque generated by the effective torque capacity torque shaft rotation in promoting the process of a revolution is based on incomplete sine law change because the blade thickness, producing torque shaft diameter, and only turned to producing torque shaft diameter blade surface after the corresponding angle varies by sine law, but in a shaft torque produced by the helix angles equidistant install more than one set of short fulcrum, each revolving 360 ° helix angle torque producing multiple sets of multi-axis Root Short axis while rotating each group of at least two short support shafts, each of short blades fitted with two fulcrums, so that each group has at least one short blade fulcrum on the production of the torque shaft axis is force torque, rotor rotation direction of the wind and hydraulic rotor has nothing to do with the wind or water flow direction by design, where each group is installed with the shaft torque produced only minimal structural support shaft at both ends with two short blades unit to illustrate, if the design decisions of the wind rotor or hydraulic rotor rotates clockwise (heading left of the observation), simply turn produce torque shaft, in the short axis of the support shaft axis is perpendicular to the horizontal axis of the torque produced, there are two cases: 1, the torque produced at the bottom of the blade shaft, on the short axis of the support shaft that a large portion of leaf area in myopia in leaf side, and the small area of that part of the leaf blade are in the far end side of the shaft in a torque producing The large area of that part of the blade leaf to the left of the vertical axis of the plane of torque capacity, the torque produced in the area of the blade axis below the major part of the leaf on the right axis of the vertical plane of the torque produced when the air flow against the DRAGON sailing directions from, to push the top of the blades counterclockwise flow (top Short shaft end face) to the central plane of symmetry of its foliage and produce torque shaft axis with a plane full length turn, while the torque produced in the leaves below the leaf axis of symmetry Go to the center plane perpendicular to the axis of the torque capacity, with its end facing to the streamlined flow of fluid to the top of the blade is greater than the driving force of the lower resistance of the blade, resulting in the production of torque in the clockwise direction of rotation of the shaft, when the air flow stream carrying DRAGON sailing direction from, the bottom leaves behind a fluid driven counterclockwise (looking up under the short end face fulcrum) to the central plane of symmetry of its foliage and produce torque shaft axis with a plane full length turn, while the torque produced in the foliage symmetry axis side blades a central plane perpendicular to the axis of the shaft torque is produced, with its end facing the back of a streamlined flow of fluid is greater than the driving force of the blade on top of the lower resistance of the blade, resulting in the production of torque shaft is still clockwise, 2, in the production of the lower blade shaft of the torque on the short axis of the support shaft portion of a large area of the blade leaf are in hyperopic side, and a small portion of the blade leaf in the area of the end of myopia, the area of the blade axis side of the torque capacity the major part in the left side of the vertical plane foliar axis of the torque capacity, the torque produced in the area of the blade axis below the major part of the leaf on the right axis of the vertical plane of the torque produced when the air flow against the direction of navigation DRAGON Come, come streaming push the top of the blade clockwise (top Short shaft end face) to the central plane of symmetry of its foliage and produce torque shaft axis with a plane full length turn, while the foliage produced in the leaves below the central plane of symmetry axis torque transfer perpendicular to the axis of the torque capacity, with its end facing to the streamlined flow of fluid to the top of the blade is greater than the driving force of the lower resistance of the blade, resulting in the production of torque in the clockwise direction of rotation of the shaft, when the air flow direction of the water flow carrying a sail DRAGON years, leaves behind a fluid driven clockwise bottom (Bottom end face under short fulcrum) to the central plane of symmetry of its foliage and produce torque shaft axis with a plane full length turn, while producing torque in the shaft center plane of symmetry square foliage leaves turn perpendicular to the axis of the torque capacity, with its end facing the back of a streamlined flow of fluid is greater than the driving force of the blade on top of the lower resistance of the blade, resulting in the production of the torque shaft is still rotating clockwise Similarly, if the wind design decisions hydraulic rotor or rotor is rotated counterclockwise direction (heading left of the observation), simply turn produce torque shaft, in the short axis of the support shaft torque axis perpendicular to the horizontal axis of producing the same, there are two cases: one, in producing torque shaft beneath the blade, the blade on a large area of the short axis of the support shaft in the portion of the foliage in myopia end, and the small area of that part of the blade are in the far end of the leaf, leaf area produced in a large torque axis side That part of the foliage in the birth right of the torque shaft axis vertical plane, and in the leaf area of large capacity torque shaft beneath the foliage in the production of that part of the left side of the plane perpendicular to the axis of the shaft torque when the air flow direction against the dragon boat sailing from, to promote the flow beneath the blade counterclockwise (looking up under the short pivot shaft end face) to the central plane of symmetry of its foliage and produce torque shaft axis with a plane full length turn, while producing torque in the shaft side leaves and foliage to the central plane of symmetry the vertical axis of the torque capacity, with its end facing to the streamline flow of the fluid is greater than the driving force of the blade on top of the lower resistance of the blade, resulting in the production of torque in the counterclockwise direction of the axis of rotation, when the air flow direction of the water flow from the navigation carrying DRAGON Behind the top blade counterclockwise push fluid (top Short-axis end face) to the central plane of symmetry of its foliage and produce torque shaft axis with a plane full length turn, while the torque produced in the leaves below the leaf to the central plane of symmetry axis perpendicular to the axis of the torque capacity, with its end facing the back of a streamlined flow of fluid to the top of the blade is greater than the driving force of the lower resistance of the blade, resulting in the production of torque in the counterclockwise direction of the axis of rotation remains, 2, producing a torque on the shaft below the leaves, large leaf area on the short axis of the support shaft portion of the leaf surface in the far side in all, and a small portion of the blade leaf in the area of the end of myopia, a large portion of the leaf blade area of the shaft-side torque capacity face on the right axis of the vertical plane torque capacity, while at the bottom of the leaf area of large capacity torque shaft that part of the foliage in the vertical axis of the left flat torque produced when air flow direction against the dragon boat from sailing to flow push leaves beneath counterclockwise (looking up under the short fulcrum end face) to the central plane of symmetry of its foliage and produce torque shaft axis with a plane full length turn, while producing torque in the shaft center plane of symmetry square leaf blade to the shaft torque capacity perpendicular to the axis, with its end facing to the streamline flow of the fluid is greater than the driving force of the blade on top of the lower resistance of the blade, resulting in the production of torque in the counterclockwise direction of the axis of rotation, when the air flow direction of the water flow from the carrying DRAGON sail behind the fluid push the top of the blades counterclockwise (top Short shaft end face) to the central plane of symmetry of its foliage and produce torque shaft axis with a plane full length forward, while at the bottom of the leaf producing torque shaft leaves the face of said center plane and go the vertical axis of the torque capacity, with its end facing the back of a streamlined flow of fluid to the top of the blade is greater than the driving force of the lower resistance of the blade, resulting in the production of torque in the counterclockwise direction is the axis of rotation remains, that is, water or wind rotor design decisions the direction of rotation of the rotor, either clockwise or counterclockwise direction selected rotation, each with two options, just decided to install a brake arrangement producing torque shaft pillar and turn the system on to the cylinder member leaves, but once a decision After the hydraulic rotor rotation direction or wind rotor decided, will not change the flow direction is changed, according to the established power of the rotor rotation direction are due to occupy some space on the shaft torque produced water or gas, wind vane incurred or Hydraulic driven only by an incomplete sine function changes after that produce torque shaft footprint is invalid operation area of the blade, each of hydro, wind capacity torque shaft lateral segment of the two axes of the outer segment, has the drive wheel and the inner splines mating external splines, the splines extending outer end of the inner shaft of the drive wheel has a pin hole for the drive shaft to the radial positioning of the through port of the stainless steel tubing used in the tube Welding mouth sealed outer spline undercut on the inside of the ring groove across the extended segment inside wall of the double wall portion is provided with a graphite bearing fitted at the center of the aperture surface mating seal ring a shaft section, provided with a connection moving with the inner race of the bearing section, the shaft section and the bearing cap fitted to the graphite surface of the central aperture of the mating seal ring, the bearing supporting the shaft with the torque produced on the outer side of the flange pore surface of the center hole is provided with a graphite ring fitted into the annular groove ring and the graphite ring ring is fitted, a bearing outer ring in an interference fit section surface of the central aperture and the aperture face the ball (column) continuation of the aperture surface and ring face and bearing cap match, in the end face of the ring has glands and mounting holes around the bearing cap mating screw pile hole, and equipped with screw piles, bearing cap is a feature the inner and outer short barrel of the cylinder member, the inner end face of the short cylinder and the bearing ring corresponding to the ring surface of the inner race press fit, a short cylindrical outer ring end surface of the outer race of the bearing surface contact with the corresponding ring, inside a short cylindrical outer ring groove depth is greater than the height of the cylinder, provided with radial holes through the production of lubricating oil in the torque shaft center axis of the cylinder above the bottom plane of the ring, the center of the hole on the outside of the lubricant pore surface of the graphite ring is fitted with a ring groove ring and the ring is fitted with a graphite ring mating surface of the corresponding axis, the outer surface of the outer end of the short cylinder is provided and in the housing of a mating screw pile ring bore, the installation of a lubricating oil into the filler opening of the cylinder is at the top of the installation of a lubricating nipple back to the column just below the orifice, the support shaft in each of the short production of each of the wind torque shaft The ends of the shaft are installed vanes move, on both sides of a shaft section each of the torque capacity of the wind axis of the bearing are installed with a flange, constitutes a wind rotor, the wind rotor DRAGON required are installed to set the top plate portion of the hull overhanging the inside wall of the double wall, constitutes the power source of the wind power plant DRAGON, both ends of each of the short axis of the support shaft in each of the hydraulic capacity of the torque shaft move the water on the blades are installed on both sides of the shaft portion axis of each of the hydraulic torque capacity are installed with a flange bearing on the rotor to form a hydraulic, the hydraulic rotor DRAGON desired surface are mounted to the hull set on the lower portion of the outer wall extending inside the double wall, and the power source constitutes a hydraulic power unit DRAGON, the wind rotor in the water are installed, with a manifold inlet in communication with all the feed nozzle, In the inlet manifold of the appropriate parts of a pipeline connecting the roof down through the hull by oiling the valve and pump out the oil port connectivity, pump inlet orifice and into the oil valves, oil tank communicates with a manifold oil return with all back nozzle connected in the back portion of the oil manifold connected to a suitable return line down through the hull roof, through the oil return valve door and back to the tank is communicated back to the oil tank after cooling and purification join oil tank, pipelines, return pipe welded in place through the hull roof sealed, which wind up the transmission oil system, in accordance with a structure similar to the way the system can also be composed of oil hydraulic actuators, hydraulic power needed to wind dragon boat were power output drum passed by the first, second transmission mechanism, and then by the power output of the drum will move to pass good enough equipment, wind rotor drive mechanism from the first stage of the installation is located on the outer sides of the hull above the water stretch a double wall plate within a row of the wind rotor shaft producing a torque transmission wheel shaft at both ends, the two rope drive ring, and the four connections with matching drum pulley configuration, the drive means for the wind, where the use of adjacent rotating wind rotor layout in the opposite direction, the two pre-hang stretched outside the outer double dragon boat interior wall panels circular drive in front of the power machine cabin rope connecting the outer drum groove wound clockwise circle, always upward to the top deck square hole parts corresponding pulley double wall, bypassing the front pulley the face, along the roof surface on the hull forward, in front of the first ring groove drive wheel clockwise winding circle, then In the second round of the drive winding counterclockwise around the ring groove, so that the anti-land will drive along a circular rope wrapped around the drive wheel ring groove, until the last one finished winding drive wheel, holding the drive along the top ring rope After bypassing the forward deck behind the pulley hole, has been down in the cabin after connecting power machine drum winding clockwise around the outer tank, installed in the cabin roof with a power connection between the front and rear drum tensioner pulley on the surface of the two transmission ring rope tensioning device for hydraulic transmission, the same, using the adjacent hydraulic rotor rotation direction opposite layout, the two pre-stretched double hang outside the interior wall in dragon boat drive outside of the ring ropes board cabin before connecting power machine drum wrapped around the inner tank clockwise downward momentum around pulley Face square hole at the cabin floor, holding the rope along the power transmission ring cabin floor Under the surface, bypassing the hull bottom and front pulley inclined plate junction, through the power machine cabin floor to the bottom of the cab floor, in front of the exterior oblique flat side to stretch along the first drive wheel within a double wall perimeter clockwise, counterclockwise winding around on the second drive wheel, so that a reversal in the drive along the ring rope wrapped around the drive wheel ring groove, through the power of this double cabin wall, in Hob junction on the drum drive wheel counterclockwise perimeter, which after a cis-trans to a rope wrapped around the drive ring ring groove in the drive wheel to the hull bottom and posterior oblique plate junction, in its corresponding to the drive wheel counterclockwise hob drum perimeter, through the (post-) power during extended double cabin wall, outside the lateral posterior oblique flat stretch at the double wall, an anti- A drive along the ring rope wrapped around the drive wheel of the ring groove until the outside bottom (after) the cab floor on the last stretch of a double wall inside drive wheel anti-(cis) wound around the clock, holding the drive ring rope, along the outer inclined plate after a double wall at the bottom surface of the stretch, bypassing the junction of the pulley, leading to a corresponding backplane connection drum at the rear side of the mouth, bypassing the mouth of the pulley side up, in the an inner ring connected to the rotor winding slot is completed, the connection between before and after the drum is mounted on the surface of the roof of the cabin under dynamic tension pulley drive this root rope tensioning ring, two at the front and rear cabin roof surface of the connection on the switch The first stage is a cylindrical member having the same structure as the drive transmission and common to the second stage, the channel connected to the drum on the outside of the drum, respectively, for the first stage ring gear Chan around the rope, the groove track on the inside of the drum respectively, for the second stage transmission around the ring ropes, Face channel on the inside of the drum diameter greater than the diameter of the outer channel Face drum on two same components that have the same layout as the second stage of the transmission mechanism, good enough is good enough for the device to connect a device connection and front cabin, a cabin, and after, before and after referred to here only for narrative convenience, in fact, water dragon boat is around, regardless of the wind, because it can not turn can directly forward and backward straight line sailing, here with the second stage transmission and front cabin is good enough equipment to connect power to be explained, the second stage transmission mechanism is connected by a pair of former common drum, a second transmission ring rope, one pair front and rear steering wheels, a power output of two drum tensioning pulley and belt clutch constitute around, holding a secondary drive in the left ring rope connected to a large diameter drum channel CW Chan around good, and have been to After bypassing the left side of the front steering wheels, along the transverse (or anti)-clockwise wound well within the drum at an output power of the central vertical longitudinal symmetry plane of the hull of the left channel, the right side of the power output of the rotor groove Anti within the channel (or cis) wound after a good hour, and then right back to bypass the right of the steering wheel in the right side of the connection of a large-diameter drum channel CW Chan around well after the right turn back after bypass After the pulley, across the hull on the left side of the steering wheel after the bypass, so that the secondary transmission ring rope to form a square layout formation in vivo and corresponding member of the ship in two cabin roof after turning power between the drive pulley against the installation of a ring rope Only tension pulleys, so that the secondary drive rope tightly close the annular working surface of the member to bypass it, the rotation direction and the rotation direction of the two power output of both the drum and the front propeller shaft of the gearbox input torque consistent connecting the work drum, and the rotation direction rear side holding the two generators consistent shaft, which drives the winding direction of the ring can be adjusted to match the rope, the drive mechanism in the first stage, the working diameter of the drive wheel is greater than its wound diameter, so that it performs a first acceleration stage, in the second-stage transmission mechanism, the drive ring rope winding drum is connected to the large diameter of the drum diameter and its working diameter greater than the operating power output of the winding drum, be it a second acceleration stage, before the two-stage hydraulic actuator composed of the wind rotor to the wind power unit hydraulic Longchuanhe by two levels, the drive mechanism of the wind power plant can be converted into hydraulic energy and mechanical energy of the propeller or by the generator into electrical energy, where the propeller and gearbox, generator power is good enough equipment, wind dragon boat into the water when the water as long as there is wind or water, the power plant is in start state, the current side after two power output shaft of the clutch drum and the corresponding engagement structure of the generator input shaft, the power unit is in the power generation state, to provide power to the DRAGON, when power generation is stopped, the input clutch torque is started ahead of the propeller with a corresponding power output of the first two transmission shaft of the drum structural axis bite, so water wind dragon boat sailing forward, if hydro wind great, but do not need high speed sailing, you can start behind the turbine, while it sailed, while power generation, the energy stored in the battery, After the suspended anchor, generator sets can start after generation, to save battery power transmission, sailing backwards when you need to start the rear propeller, stern becomes the bow, drove to the destination, when you need partial rotation steering wheel bias in the desired direction, which is the water dragon boat navigation and operation of wind way, if removing the plow blade arc panel, drifting tank, will replace hydraulic cutter drum rotor, is a surface water or wind dragon boat warships , surface water wind dragon boat did not bow stern of the points, that is to say the surface water wind dragon boat sail forward or backward navigation, without turning upside down the bow, both sailing downwind, upwind against the current, sailing upwind, downwind sailing against the current of rivers on, but also along the waves downwind, Nilang against the wind, against the wind along the waves, the wind Nilang sailing in the ocean, is not afraid of high wind and waves, I'm afraid no wind sailing in still water environment, if anchored in the wind-rich Water flowing waters can also become power stations, wind dragon boat as if the water hydraulic aircraft landing platform, the top deck is the apron and runway landing below the top deck is the hangar and maintenance workshops, a suitable site on the top deck to install hydraulic type driven lifting platform, used in aircraft and other equipment up and down the hangar beneath hangar space for installation of the wind is a wind rotor transmission device, you can set the elevator to the following layers in each cabin hangar suitable site.

Be arranged on the syphon TRT at syphon low level place by an impeller service depot, an impeller, front and back tube connector and two generators form, impeller service depot is the combined member of one and half cylinders and square body, on process mould, be that arc lower end is the corresponding surface soldered in upper end of square biside plate with two curved ends of a cambered plate and upper end, weld corresponding surface with two blocks of rectangular laths of technique before and after the nearly base of square body side plate, determine the parallelism of biside plate with process mould, determine that with process mould the inner surface of cambered plate determines the radius size of impeller, axial dimension using the thickness of process mould as impeller, unload after process mould, make impeller service depot become the ducted body of a sizing, taking the inner surface of cambered plate as benchmark, determine the center of rotation of impeller in service depot, taking center of rotation as benchmark, on biside plate, process respectively the screw blind hole that on the bearing block flange dish that two end axles is installed, match in a circle hole, on biside plate, match with two end axles axial plane in machining center hole respectively, impeller is a member that high strength alloy steel die forging forms through fine finishining, the axial dimension of the central axis of impeller equals the width of blade, two axial end face area of the central axis of impeller are processed with the internal spline matching with the external splines of two end axles, internal spline outside is processed with the aperture surface matching with the outer diametric plane of two end axles, in order to keep being connected of impeller middle spindle and two end axles, spread out of moment of torsion and axiality requirement, on impeller middle spindle one circle radial blade to meet stream blade face can be simple sagittal plane, also can be cambered surface radially, arc cambered surface blade that can also be complicated, the inner section of two end axles is provided with the external splines that matches with the internal spline of impeller middle spindle and the cylinder section for keeping the aperture surface of axiality to match, be provided with the shaft part matching with the hole face of the centre bore through impeller service depot side plate, on shaft part outside biside plate, be from inside to outside provided with successively the cylinder matching with bearing flange dish inside diameter surface Chu Mi envelope structure, be provided with and the moving cylinder coordinating of ball bearing inside race, be provided with the cylinder matching with bearing cover inside diameter surface Chu Mi envelope structure, outer end section at end axle is provided with the structure matching with generator shaft joint, the aperture plane place of the inner side of the bearing support of flanged dish is provided with the annular groove of the close ring of setting-in graphite, and be embedded with the close ring of graphite and match with end axle corresponding cylinder, the aperture surface section continuing after annular groove is provided with the structure with ball bearing outer race interference fit, the screw hole that its outside end face is provided with on bearing cover, match in a circle hole, the hole that its flange is provided with on impeller service depot side plate, a circle screw hole matches, the inner side of bearing cover is provided with the inside and outside short cylinder that is inserted in bearing support outer end aperture surface, the ring end face of interior short cylinder withstands the correspondence surface of ball bearing inside race, the ring end face of outer short cylinder is joined with the corresponding Surface Contact of ball bearing outer race, the degree of depth of the annular groove between inside and outside short cylinder is greater than the height of two short cylinders, at the vertical plane place of its axis of mistake of this degree of depth bearing cover cylinder corresponding to difference in height, the hole, footpath of boring its axis of mistake directly over it communicates with annular groove, a pump nozzle is installed at upper aperture place, a pump nozzle is installed at lower aperture place, in the aperture surface section of bearing cover outer end, be provided with the annular groove of the close ring of setting-in graphite, and be embedded with the close ring of graphite and match with end axle corresponding cylinder, if be lubricated with lubrication oil, by oil filler point and outage composition oil system, if be lubricated with lubricating cream, priming cup is installed on oil filler point, at outage, leakage of oil cup is installed, regularly change, when impeller and end axle process, quiet dynamic balancing machine carry out balance qualified after, take off two end axles, in two end axles, install bearing support, impeller is installed to from square hole below in the service depot of impeller, to be installed on impeller middle spindle with the two end axles of bearing support, bearing support is installed to screw on the biside plate of impeller service depot, wheel rotor is measured the gap between blade axial end and corresponding side surface, measure the gap between blade radial end face and corresponding cambered plate, and place on record, under the condition that there is no grating, by the screw-driving on bearing support, boost from aperture with a square plate matching with impeller service depot square hole, while making the gap test piece of the side's of being placed on plate upper surface encounter the radial end face of a blade, by square plate in level, wheel rotor, in the time that the radial end face of every a slice blade can be scraped gap test piece, along the groove surface soldered corresponding to side plate of square plate both sides, take out gap test piece, tube connector before and after installing, the upstream face of front tube connector is that weld with footpath is relative with syphon in cross section, garden, downstream end face is band skewback square opening end face, upper reversible deflector is turned back at the soffit place facing to impeller middle spindle, along square end surface and the welding of epimere square opening of upper reversible deflector, below spill end face and the welding of hypomere square opening, make siphonal upstream line be connected and communicate with the import of impeller service depot, the upstream face of rear tube connector is square end surface, the corresponding end face welding of outlet with impeller service depot, the cross section, garden in rear tube connector downstream and the butt welding of syphon corresponding end face, siphonal downstream line is connected with irrigation network, build the support platform of syphon TRT at the base plate place of impeller service depot, end facing to impeller is installed two generators axisymmetrically, the central axis of impeller and the power shaft of generator in be connected under starting state condition time, the valve of slowly opening a syphon high position is until valve wide open, high-order current siphon pipe is towards the diffluence of impeller service depot, the blade turning in the square duct under the soffit of impeller middle spindle is impacted in entrance in impeller service depot, promote impeller rotates in service depot, the radial end face of each blade forwards minimum clearance place to, current reach maximum value to this blade motive force, when this blade turns over behind minimum clearance place, the diffluence of current direction syphon low level pipeline section, every a slice blade on impeller all promotes impeller so again and again, high-order waterpower in syphon is passed through impeller middle spindle, the moment of torsion that it is produced is passed to the armature spindle of generator, the magnetic line of force of its stator is cut in the rotation of generator amature, change the high-order hydraulic energy in syphon into electric energy.

A kind of looped cord braider of annular shackle line that hydraulic energy and wind power energy is changed into dragon-boat navigating power or electric energy is produced, looped cord braider is by a column moving runner, a column pulley, vertical type motor and a looped cord braider with belt forms, what column moving runner was installed is a vertical axis of rotation, vertical axis of rotation is fixed on the basis of factory building with a supporting seat with thrust bearing, be arranged on the vertical axis of rotation in the supporting seat of thrust bearing, a belt pulley is installed on the shaft part above supporting seat, be installed on a vertical variable-speed motor with a belt matching with it, on the shaft part above belt pulley, install and fix a column moving runner, column pulley sleeve is loaded on vertical axis, vertical axis is arranged on the double track of factory building with four wheel pedestals with one, vertical axis can move and fix with pedestal, to adapt to the needs of the looped cord of producing different size, on pedestal, the upright column moving runner that standing facing each other is set with a pulley on the shaft part of vertical axis, the tangent line of the work plane of the work plane of pulley and column moving runner is in same level, on the factory building foundation at tangent line position, install and fix a looped cord braider at nearly column moving runner, and make center line and the column moving runner of looped cord braider, column pulley work plane tangent line coincides, looped cord braider machine is by the outer truncated cone of a clamshell type, truncated cone cylinder in a clamshell type, a clamshell type reel, lead frame, one Gent system annular heart yearn and a clamping hoop type prop up and are configured to, the special annular heart yearn of different model is manufactured the looped cord of different size, outside clamshell type on the conical surface of the truncated cone, arrogant footpath end face is manufactured with a circle helicla flute to path end face, helicla flute transfers axial groove to approaching path end face, spiral fluted size is greater than one rope dimensions of looped cord to be made, on its bigger diameter end face, process a centre bore, the aperture central tube external diameter surface overhanging with reel of the nearly large footpath of centre bore section matches, the centre bore of path end face, the internal diameter of reel central tube is greater than the diameter of making rope, the center of the center of centre bore and helicla flute exit axial groove is in the same axis plane of clamshell type Outer Taper, there is the size of a setting for weaving at Qie Liang center, in clamshell type, the inner conical surface of the truncated cone matches with the outer truncated cone external surface of clamshell type, on its external diameter cylinder, process two circles the hole of ball is installed, the degree of depth in hole is less than the diameter of ball, the cylinder section of ball is installed, ball face matches with the inner groove face of clamping hoop type support, outside corresponding to clamshell type, on the end face at the notch place of truncated cone bigger diameter end surface helix groove, a lead frame is installed, lead frame is the half-set with pulley, the curved plate of support is screwed truncated cone cylinder corresponding position place in the clamshell type of bigger diameter end, its lath perpendicular to curved plate is provided with an open channel, the width of conduit matches with pulley working surface diameter, the length of conduit is greater than the length of the roll of clamshell type reel, the thickness of pulley working surface diameter axial dimension and lath is suitable, the center in a wheel body outside of pulley is provided with a little axle with annular groove, install in the open channel of lath with pulley working surface diameter cover, the anchor ring of two inner sides of pulley clips the correspondence surface of lath and can move by Zi You Roll, annular groove on little axle matches with spiral fluted notch, the width of this annular groove is suitable with one rope dimensions of looped cord to be made, the roll of clamshell type reel is the pipe of splitting that stretches out two ends ring flat-plate, the external diameter of two ends ring flat-plate and in the size of splitting between pipe, the space required with one rope Rao Full reel that turns around a looped cord to be made thereon, two ends are split ring flat-plate intrados and are split the corresponding surface soldered of pipe, after laminating, use and split the short tube that tube outer diameter matches and be locked, the pipeline section that stretches out ring flat-plate foreign minister is pressed in the centre bore of the outer truncated cone of clamshell type, make the axis of clamshell type reel and the centre bore coaxial line of the outer truncated cone of clamshell type, special annular heart yearn is the center line of manufacturing looped cord, with the both ends of the surface of wire carry out butt welding or with two inclined-planes carry out to welding, postwelding polishes flat smooth, or glued joint with non-metal wire, become special annular heart yearn, the length of run of special annular heart yearn is greater than the length of run of preparing looped cord, manufacture annular heart yearn and looped cord according to user's requirement, the clamping hoop type support of the outer truncated cone cylinder of fixing clamshell type is the horizontal divided ring body member with bearing, the inner ring surface of divided ring body is provided with the annular groove matching Yu Roll pearl face, be provided with in divided ring body horizontal plane outside the installation lath that closes Roll pearl face for pasting, by the bolt of installing on lath, truncated cone cylinder in clamshell type is installed on clamping hoop type support, the below hemizonid of clamping hoop type support is fixed on factory building foundation with the lower end base plate of bearing, straight plate connecting bottom board on base plate and lower hemizonid, the height of straight plate make the center of horizontal divided ring body and the work plane of column moving runner suitable, directly over upper hemizonid, be provided with the structure of injecting lubricating cream, in the time manufacturing looped cord, special annular heart yearn on column moving runner Chan after a circle, walk around column pulley, put into type reel, in the hole of the outer truncated cone of clamshell type, after combining type reel, one rope that is manufactured with small sections two statures is turned around on reel, the head that is leading this strand rope is put into the helicla flute of the outer truncated cone of clamshell type, by this stature and special annular heart yearn in suitable location welding or bonding, and make it smooth smooth, joint is shifted near to the small end face of the outer truncated cone of clamshell type, get togather truncated cone cylinder in clamshell type, attach it on clamping hoop type support and fix it, open buncher, band rope and special annular heart yearn move simultaneously, inside and outside driving clamshell type by spiral fluted rope in movement, truncated cone cylinder rotates in clamping hoop type support, what make that rope one goes around turns around on special annular heart yearn, when special annular heart yearn is wound after a circle, special toroidal cores tape the rope turning around by the centre bore of clamshell type Outer Taper, rope is constantly wound between the thigh of its rope, until by the rope on clamshell type reel around complete be upper, take off another small sections of rope along glueing joint between thigh or welding, and after making it smooth, this just can manufacture looped cord or annular wire rope.

Brief description of the drawings

Below in conjunction with drawings and Examples, the present invention is further described.

Fig. 1 is check dam dam, exit of a lake controlling device for doors plane figure sketch.

Fig. 2 turns over the longitudinal diagrammatic cross-sectional view of river power wind-force dragon-boat fore hull section.

Fig. 3 turns over the installation of river power wind-force dragon-boat leading portion one-level transmission annular wire rope longitudinally to analyse and observe layout sketch.

Fig. 4 is that layout sketch is overlooked in the installation of turning over river power wind-force dragon-boat forward engine room secondary transmission annular wire rope.

Fig. 5 is the fundamental diagram of one group of short fulcrum blade on the product torque axis of power rotor.

Fig. 6 is structure and the operating principle sketch of syphon generation power device.

In Fig. 1,1, chute, 2, hollow prismatoid, 3, dykes and dams, 4, stainless steel tube, 5, stainless steel wire rope, 6, pulley pillar, 7, splayed, 8, limited post, 9, reinforced concrete pillar, 10, two door-plates, 11, herringbone, 12, dam door, 13, exorheic lake.

In Fig. 2,15, waterpower rotor, 16, double-deck wallboard, 17, screw, 18, the water tank that drifts along, 19, the cutter head cambered plate that plows, 20, hobboing cutter rotating cylinder, 21, gearbox, 22, rotating cylinder, 23, generator, 24, base plate, 25, double-deck wallboard, 26, wind rotor, 27, turn to, 28, rudder, 29, driver's cabin, 30, top board, 31, tiltedly dull and stereotyped, 32, side plate, 33, hull, 34, cabin.

In Fig. 3,36, wallboard, 37, axle, 38, drive, 39, drive, 40, pulley, 41, connect rotating cylinder, 42, wire rope, 43, pulley, 44, pulley, 45, wallboard, 46, axle, 47, drive, 48, top board, 49, hull, 50, tiltedly dull and stereotyped, 51, cabin, 52, deck, 53, pulley, 54, wire rope, 55, base plate.

In Fig. 4,58, bearing, 59, pulley, 60, large footpath rotating cylinder, 61, wire rope, 62, generator, 63, pulley, 64, generator, 65, pulley, 66, large footpath rotating cylinder, 67, bearing, 68, pulley, 69, cabin, 70, rotating cylinder, 71, gearbox, 72, rotating cylinder, 73, gearbox, 74, pulley.

In Fig. 5,78, center line, 79, brake posts, 80, blade, 81, axis, 82, center line, 83, brake posts, 84, blade, 85, axis, 86, short fulcrum, 87, system turns member, 88, short fulcrum, 89, system turns member, 90, brake posts, 91, produce torque axis, 92, system turns member.

In Fig. 6,95, tube connector, 96, service depot, 97, impeller, 98, blade, 99, tube connector.

In Fig. 1, dam controlling device for doors is by chute (1), hollow prismatoid (2), dykes and dams (3), stainless steel tube (4), stainless steel wire rope (5), pulley pillar (6), splayed (7), limited post (8), reinforced concrete pillar (9), door-plate (10), herringbone (11), dam door (12), exorheic lake (13) composition, in the time that two door-plates (10) are closed into herringbone (11), dam door (12) is closed, the water of exorheic lake (13) does not outflow, naval vessel can not pass through, when the water surface of exorheic lake (13) is when being communicated with the flood peak water surface of rivers with it, flood is automatically pushed two door-plates (10) open and is formed splayed (7), flood is swallowed in exorheic lake (13), in the time that flood is decorporated, two door-plates (10) of exorheic lake (13) cut out automatically, the river level of exorheic lake (13) and inflow exorheic lake (13) thereof is raise, when the water surface of exorheic lake (13) is when being communicated with the water surface of rivers with it, there is naval vessel will pass through dam door (12), open the make-up water pump interior water filling of empty body wherein on hollow prismatoid (2) end face, strengthen the sliding force of hollow prismatoid (2), hollow prismatoid (2) glides along inclined end face chute (1), pull through the stainless steel tube (4) being embedded in dykes and dams (3), walk around the pillar (6) of pulley and door-plate (10) is connected between two stainless steel wire rope (5), make two door-plates (10) in the time that reinforced concrete pillar (9) changes into splayed (7), limited post (8) stop, allow naval vessel pass through dam door (12), or rivers water filling outside lake, when naval vessel is by after dam door (12), or complete after external water filling, in the time that needs are closed dam door (12), open the outside draining of suction pump on hollow prismatoid (2) end face, the sliding force of hollow prismatoid (2) is reduced, two door-plates (10) promote door-plate (10) at the pressure difference value of splayed (7) location plate face both sides, dam door (12) is closed automatically, and drag hollow prismatoid (2) by stainless steel tube (4) and reset to herringbone (11).

In Fig. 2, the hull (33) that turns over river power wind-force dragon-boat is by base plate (24), front and back tiltedly dull and stereotyped (31), the inversion prismatoid that biside plate (32) and the corresponding end face of top board (30) are welded, on the orthogonal top board of biside plate (32) and top board (30), be provided with overhanging double-deck wallboard (25) for wind rotor (26) is installed in biside plate (32) and front and back tiltedly dull and stereotyped (31), the orthogonal respective panels face of base plate (24) is provided with the overhanging double-deck wallboard (16) for waterpower rotor (15) is installed, be arranged on overhanging double-deck wallboard (25), (16) wind rotor (26) on and waterpower rotor (15), respectively by the drive of secondary transmission annular wire rope and its winding, the transmission system that rotating cylinder and the pulley of walking around form, the moment of torsion of wind rotor (26) and waterpower rotor (15) acquisition is transported to the power stage rotating cylinder (22) that is arranged on cabin (34), on the front axle of power stage rotating cylinder (22), be provided with the clutch matching with gearbox (21) power shaft of controlling screw (17) rotating speed, its rear axle is provided with the clutch matching with the power shaft of generator (23) rotor, in the time turning over the navigation of river power wind-force dragon-boat, power stage rotating cylinder (22) is communicated with gearbox (21), wind power energy and hydraulic energy are changed into the mechanical energy of screw (17), cause and turn over river power wind-force dragon-boat sailed onward, when dragon-boat sailed onward, if add water in the water tank that drifts along (18), make hull (33) sink to the bottom, will stir subaqueous deposit silt by the moving hobboing cutter rotating cylinder (20) of transmission annular rope belt, the cutter head cambered plate (19) that plows of both sides will be ploughed the silt that turns over both sides, make the silt stirring with current direction downstream, in the time need to stirring the silt in hull (33) outside, direction of operating rudder (28) in driver's cabin (29), the cutter head cambered plate (19) that makes to plow is ploughed on the left of shipwreck body (33) or the silt sediment on right side, thereby widen the water surface of rivers, when turning over river power wind-force dragon-boat while berthing, power stage rotating cylinder (22) is communicated with generator (23), wind power energy and hydraulic energy are changed into electric energy, turn to (27) of wind rotor (26) and waterpower rotor (15) are determined as required by designer.

In Fig. 3, leading waterpower rotor one-level transmission annular wire rope (42) in the inner groove of front connection rotating cylinder (41) along time pin Chan wind backward under, walk around pulley (43) forward, walk around pulley (40) along the base plate of front tilting overhanging double-deck wallboard forward, after top is arranged on waterpower and produces the upper Shun Shi Zhen Chan of first drive (38) on torque axis (37) and wind, continue after on adjacent drive, anti-Shi Zhen Chan winds, with a drive (39) along an anti-mode Rao Guo Roll swivel cylinder, along Chan on the drive on the overhanging double-deck wallboard in hull (49) base plate (55) below around, until be wound around last drive of tilting overhanging double-deck wallboard top, rear, leading one-level transmission annular wire rope (42) downward along the base plate of rear tilting overhanging double-deck wallboard, walking around pulley with pulley (43) phase suitable location, after upwards in the inner groove of rear connection rotating cylinder, Shun Shi Zhen Chan winds, connect between rotating cylinder waterpower rotor one-level transmission annular wire rope (42) tensioning in front and back with tension pulley block (44), make it be close to the work plane that was wound around member, leading wind rotor one-level transmission annular wire rope (54) in the outer groove of front connection rotating cylinder (41) along time pin Chan wind backward on, walk around pulley (53), along top board (48) upper surface of hull (49) forward, after when suitable on the drive (47) of the wind-force product torque axis (46) on the overhanging double-deck wallboard (45) on being arranged on hull (49) top board (48), pin Chan winds, anti-Shi Zhen Chan walks around adjacent drive backward, walk around after the whole drives on the overhanging double-deck wallboard (45) on top board (48) along an anti-square formula Chan with one, leading this transmission annular wire rope (54) along top board (48) forward, walking around pulley with pulley (53) phase suitable location, after on rear connection rotating cylinder, Shun Shi Zhen Chan winds downwards, connect between rotating cylinder wind rotor one-level transmission annular wire rope (54) tensioning in front and back with tension pulley block (44), make it be close to the work plane that was wound around member, Here it is with base plate (55) and front and back tiltedly dull and stereotyped (50), the inversion prismatoid dragon-boat hull (49) that biside plate and top board (48) are welded, with the space between base plate (55) and deck (52) as cabin (51), by one-level transmission annular wire rope (42), (54) be arranged in cabin (51), make one-level transmission annular wire rope (42), (54) can form the one-level transmission system of waterpower wind power device.

In Fig. 4, on the working platform in mmi machine cabin (69), be provided with and be symmetrical in the vertical flat left and right gearbox (71) (73) of the longitudinal symmetrical centre of hull, gearbox is connected with the screw that stretches out cabin (69) respectively, gearbox rear axle faces respectively left and right power stage rotating cylinder (70) (72), the rear axle of rotating cylinder (70) (72) faces respectively left and right generator (62) (64), gearbox, the rotating shaft of power stage rotating cylinder and generator has axiality requirement, the front and back shaft part of power stage rotating cylinder (70) (72) is provided with the clutch that gearbox is connected with generator, the left and right bearing (58) (67) in mmi machine cabin (69) connects rotating cylinder by left and right and is bearing in its both sides, be greater than the working surface diameter of outside two rotating cylinders at the working surface diameter of the large footpath rotating cylinder (60) (66) in left and right bearing (58) (67) inner side, also be greater than the working surface diameter of power stage rotating cylinder (70) (72), leading transmission annular wire rope (61) after the large footpath of left clever rotating cylinder (60) winds along (instead) hour hands, walk around forward angle pulley (68), after power stage rotating cylinder (70) winds along (instead) hour hands, after winding, upper anti-(suitable) hour hands of power stage rotating cylinder (72) walk around angle pulley (74) to the right backward again, after winding clockwise on large footpath, right side rotating cylinder (66), walk around backward again angle pulley (65), walk around angle pulley (59) left, (69) form a square formation layout with relevant device in cabin to make transmission annular wire rope (61), with tension pulley block (63) on one section of wire rope between two angle pulleies (59) (65) by its tensioning, the surface that transmission annular wire rope (61) was wound around at it is close to, in the time that waterpower wind power device is sent to the path rotating cylinder side of left and right connection rotating cylinder by one-level transmission annular wire rope by moment of torsion, the large footpath rotating cylinder (60) (66) of inner side passes through second level transmission annular wire rope (61) by the mode of relay, the torque transfer that waterpower wind power device is produced is to power stage rotating cylinder (70) (72), connect gearbox and drive screw to rotate with clutch on it, or connection generator generates electricity, also can connect gearbox simultaneously, generator, at after engine room, identical structure and layout are also housed.

In Fig. 5, this momentary status is: myopia is vertical with product torque axis (91) axis apart from blade (84) blade face s ymmetry center plane on the left of producing torque axis (91) upper short fulcrums (86), short fulcrum (86) right side blade (84) blade face s ymmetry center plane and product torque axis (91) axis are in same plane, before and after blade, the symmetrical center line (78) of (up and down) end face and the axis (85) of short fulcrum (86) have a setpoint distance, the axis (85) of short fulcrum (86) is divided into blade face area the two parts that do not wait, axis (85) front (on) side blade face area little, thereafter (under) side blade face area large, the axis of brake posts (79) [dotted line shows] is perpendicular to right side blade (84) blade face s ymmetry center plane, the axis of brake posts (79) has 90 ° of angles with the braking surface that the system on product torque axis (91) turns member (87), at this moment, the outer face of left side blade (84) is facing to incoming flow, the difference of blade face, the both sides pressure that incoming flow skims over from blade face acts on produces (91) thrusts of torque axis, this thrust can not make to produce torque axis (91) and produce moment of torsion, and producing torque axis (the blade and blade face s ymmetry center plane on 91 right sides and product torque axis (91) axis same plane, connect myope about the large end face of short fulcrum (86) axis (85) area, the little end face of area is away from the person of looking, hide and producing torque axis (91) right side, flow through the fluid coming because the resistance shelves that produce torque axis (91) diametral plane are scraped the blade face less than it, the blade blade face on right side is in invalid active region, this in a flash, myopia is apart from like water off a duck's back for producing moment of torsion at the blade (84) that produces the short fulcrum of this root (86) two ends on torque axis (91), fortunately a short fulcrum (88) lower leaflet (80) the blade face s ymmetry center plane of long sight distance on product torque axis (91) is vertical with product torque axis (91) axis, before and after blade, the symmetrical center line (82) of (left and right) end face and the axis (81) of short fulcrum (88) have a setpoint distance, the axis (81) of short fulcrum (88) is divided into leaf area the two parts that do not wait, blade face area little front, blade face area large rear, the axis of brake posts (83) [dotted line shows] is perpendicular to lower leaflet (80) blade face s ymmetry center plane, the axis of brake posts (83) has 90 ° of angles with the braking surface that the system on product torque axis (91) turns member (92), short fulcrum (88) top blade and blade face s ymmetry center plane and product torque axis (91) axis are in same plane, and be located at its brake posts (90) of installing on cylinder perpendicular to blade face s ymmetry center plane and turn member (89) Surface Contact spline with the system being located on product torque axis (91), at this moment, this blade is just with the long-pending motive force of causing incoming flow of maximum fluoran stream surface, making to produce torque axis (91) rotates, in the time that this blade rotates an angle with product torque axis (91), make the blade on the upper right side of short fulcrum (86) produce invalid active region, scrape off facing to the blade face of this blade from producing the fluid flowing through torque axis (91) below, because this blade is large at the area of myopia end about short fulcrum (86) axis, the end face that faces toward the short fulcrum of this blade is looked, fluid starts this blade and clockwise rotates an angle, make short fulcrum (86) the same angle of rotating in same direction simultaneously, meanwhile, make on blade (84) blade face, short fulcrum (86) the left side also same angle of while rotating in same direction, because left side blade (84) is large about the blade face area of short fulcrum (86) axis below, in the time that this blade forwards product torque axis (91) top to, the fluid that flows through product torque axis (91) top rotates left side blade (84) inhour, on the left of producing torque axis (91), look facing to the end face of short fulcrum (86), left side blade (84) rotates same angle with short fulcrum (86) inhour, fluid to the effect of short fulcrum (86) two ends blade under, make blade (84) blade face, original left side s ymmetry center plane and produce torque axis (91) axis in plumbness, transfer to rapidly and its axis isoplanar state, and the blade face s ymmetry center plane of original right side blade and product torque axis (91) axis are in isoplanar state, transfer to rapidly with its axis in plumbness, in the time that right side blade forwards 90 ° of angles to along with short fulcrum (86), and the brake posts (79) being located on its erection column perpendicular to blade face s ymmetry center plane turns member (87) Surface Contact spline with the system being located on product torque axis (91), at this moment, producing the blade (84) in torque axis (91) long sight end left side with the increase of its corner, cause the increase of the motive force of fluid to this blade (84), when blade (84) forward to produce torque axis (91) directly over time, the motive force that blade (84) causes fluid arrives maximum value, meanwhile, originally the blade directly over product torque axis (91), along with the rotation of torque axis (91), the motive force of causing fluid reduces gradually from maximum value, at this moment, arrive invalid active region, at the blade producing in two short fulcrum two end axles of this group of torque axis (91), producing torque axis (91) in promotion rotates in the process at 90 ° of angles, the short fulcrum of each root has a blade from the motive force that can not cause fluid to the maximum impetus that causes fluid, from the maximum impetus that causes fluid to the motive force that can not cause fluid, in other words, two blades on (91) one groups of two short fulcrums of product torque axis are under mutual coordinated, every promotion is produced torque axis (91) and is turned 360 ° of angles, every a slice blade produces promotion moment of torsion to producing torque axis (91) in 180 ° of angular regions, two blades on a short fulcrum in 360 ° of angular regions to produce torque axis (91) produce promote moment of torsion, but, be located at short the number of axle of producing on torque axis (91) and be no less than two, press short the number of axle that the equidistant equal angles of helix arranges, turning 360 ° of axial planes that angle turns over distances around product moment of torsion axial plane is one group, short the number of axle in one group is larger, the moment of torsion that sheet leaf makes to produce torque axis rotation just steadily, produce the short fulcrum group number of installing on torque axis more, blade face area is larger, the driving torque that produces torque axis acquisition is just larger.

In Fig. 6, be arranged on the syphon generation power device at syphon low level place by an impeller service depot (96), an impeller (97), front and back tube connectors (99) (95) and two generators form, impeller (97) service depot (96) is the combined member of one and half cylinders and square body, on process mould, be that arc lower end is the corresponding surface soldered in upper end of square biside plate with two curved ends of a cambered plate and upper end, weld corresponding surface with two blocks of rectangular laths of technique before and after the nearly base of square body side plate, determine the parallelism of biside plate with process mould, determine that with process mould the inner surface of cambered plate determines the radius size of impeller (97), axial dimension using the thickness of process mould as impeller (97), unload after process mould, make impeller service depot (96) become the ducted body of a sizing, taking the inner surface of cambered plate as benchmark, determine impeller (97) in service depot the center of rotation of (96), taking center of rotation as benchmark, on biside plate, process respectively the screw blind hole that on the bearing block flange dish that two end axles is installed, match in a circle hole, on biside plate, match with two end axles axial plane in machining center hole respectively, the axial dimension of the central axis of impeller (97) equals the width of blade (98), two axial end face area of the central axis of impeller (97) are processed with the internal spline matching with the external splines of two end axles, internal spline outside is processed with the aperture surface matching with the outer diametric plane of two end axles, in order to keep being connected of impeller (97) central axis and two end axles, spread out of moment of torsion and axiality requirement, on impeller (97) central axis one circle radial blade (98) to meet stream blade face can be simple sagittal plane, also can be cambered surface radially, arc cambered surface blade (98) that can also be complicated, the inner section of two end axles is provided with the external splines that matches with the internal spline of impeller (97) central axis and the cylinder section for keeping the aperture surface of axiality to match, be provided with the shaft part matching with the hole face of the centre bore through impeller service depot (96) side plate, on shaft part outside biside plate, from inside to outside there is successively the cylinder matching with bearing flange dish inside diameter surface Chu Mi envelope structure, be provided with and the moving cylinder coordinating of ball bearing inside race, be provided with the cylinder matching with bearing cover inside diameter surface Chu Mi envelope structure, outer end section at end axle is provided with the structure matching with generator shaft joint, the aperture plane place of the inner side of the bearing support of flanged dish is provided with the annular groove of the close ring of setting-in graphite, and be embedded with the close ring of graphite and match with end axle corresponding cylinder, the aperture surface section continuing after annular groove is provided with the structure with ball bearing outer race interference fit, its outside end face is provided with shaft-cup one and encloses the screw hole matching in hole, the hole that its flange is provided with on impeller (97) service depot (96) side plate, a circle screw hole matches, the inner side of bearing cover is provided with the inside and outside short cylinder that is inserted in bearing support outer end aperture surface, the ring end face of interior short cylinder withstands the correspondence surface of ball bearing inside race, the ring end face of outer short cylinder coordinates with the corresponding Surface Contact of ball bearing outer race, in the aperture surface section of the outside of interior short cylinder, be provided with the annular groove of the close ring of setting-in graphite, and be embedded with the close ring of graphite and match with end axle corresponding cylinder, the degree of depth of the annular groove between inside and outside short cylinder is greater than the height of two short cylinders, at the vertical plane place of its axis of mistake of degree of depth bearing cover cylinder corresponding to difference in height, directly over it, boring an oil filler point communicates with annular groove, under it, boring an outage communicates with annular groove, if be lubricated with lubrication oil, by oil filler point and outage composition oil system, if be lubricated with lubricating cream, priming cup is installed on oil filler point, leakage of oil cup is installed at outage place, regularly change, when impeller (97) and end axle process, quiet dynamic balancing machine carry out balance qualified after, take off two end axles, in two end axles, install bearing support, impeller (97) is installed to from square hole below in the service depot (96) of impeller (97), to be installed to the two end axles of bearing support on impeller (97) central axis, bearing support is installed to screw on the biside plate of impeller (97) service depot (96), wheel rotor (97) is measured the gap between blade (98) axial end and corresponding side surface, measure the gap between blade (98) radial end face and corresponding cambered plate, and place on record, under the condition that there is no grating, by the screw-driving on bearing support, boost from aperture with a square plate matching with impeller (97) service depot (96) square hole, while making the gap test piece of the side's of being placed on plate upper surface encounter the radial end face of a blade (98), at the party's plate during in level, wheel rotor (97), in the time that the radial end face of every a slice blade (98) can be scraped gap test piece, along the groove surface soldered corresponding to side plate of square plate both sides, take out gap test piece, tube connector (99) (95) before and after installing, the upstream face of front tube connector (99) is that weld with footpath is relative with syphon in cross section, garden, downstream end face is for bringing reversible deflector square opening end face, upper reversible deflector is turned back at the soffit place facing to impeller (97) central axis, along square end surface and the welding of epimere square opening of upper reversible deflector, below spill end face and the welding of hypomere square opening, make siphonal upstream line be connected and communicate with the import of impeller (97) service depot (96), the upstream face of rear tube connector (95) is square end surface, the corresponding end face welding of outlet with impeller (97) service depot (96), the cross section, garden in rear tube connector (95) downstream and the butt welding of syphon corresponding end face, siphonal downstream line is connected with irrigation network, build the support platform of syphon TRT at the base plate place of impeller (97) service depot (96), end facing to impeller (97) is installed respectively a generator axisymmetrically, at the central axis of impeller (97) and the power shaft of generator in the time being connected under starting state condition, the valve of slowly opening a syphon high position is until valve wide open, high-order current siphon pipe is towards impeller (97) service depot (96) diffluence, the blade (98) turning in the square duct under the soffit of impeller (97) central axis is impacted in entrance in impeller (97) service depot (96), promote impeller (97) rotates in service depot (96), the radial end face of each blade (98) forwards minimum clearance place to, current reach maximum value to this blade (98) motive force, when this blade (98) turns over behind minimum clearance place, the diffluence of current direction syphon low level pipeline section, every a slice blade (98) on impeller (97) all promotes impeller (97) so again and again, high-order waterpower in syphon is by impeller (97) service depot (96), the moment of torsion that it is produced is passed to the armature spindle of generator, the magnetic line of force of its stator is cut in the rotation of generator amature, change the high-order hydraulic energy in syphon into electric energy.

Claims (3)

1. A forestry and water conservation storage Disaster shipping fanjiang power system engineering by ecological conservancy land reclamation projects, natural can cure Lake Engineering, Natural can govern river engineering, power engineering siphon flushing, turn the force of the wind dragon boat river reclamation the project, whose features are: the use dams, irrigation siphon power generation technology and biotechnology cultivation sediment blocking the foot of the mountainside, building dams to improve water rivers and lakes, rivers and lakes with a natural ability to control the water level of the river by turning force Wind Dragon Boat deepened size rivers, deepened the size of the outflow of the lake, in order to improve the river into the lake and outflow of the lake for irrigation water storage and navigation capabilities, using the force of the wind dragon boat flip turning dam the river sediment deposition, and then siphon power generation technology in the post office The sediment water for power generation, irrigation and reclamation, water siphoned out of the lake, making the production of downstream flooding will not harm people's lives, remediation river embankment, with the force of the wind dragon boat turn deepen the river bed, the construction River water storage, improve water storage and irrigation capacity navigable rivers, the sediment water toward the distant rivers and estuaries, allowing the formation of new shoreline sediment deposition, the present invention is trying to solve technical issues technical solutions are: ecological conservancy project , the status quo is Qianshan Wan ditch into streams, streams with sediment into rivers and lakes, dams blocking sediment deep groove bamboo grass green all over the foothills, intercepting sediment storage dam construction mountainside deep groove at the size, in its foothills suitable land to build storage dams blocked the sediment in the dam, the dam will be stored in flash floods, delaying flood flows into rivers and lakes of the speed with siphon water from the dam to the foot of the mountain reservoir for power generation, power generation using a siphon power generation unit, to build on top of the cellar storage, infiltration into the forest in the dry season, to prevent fires, reduce or avoid forest fires, use water for irrigation fields siphon power plant generation later, or directly with siphon water drip irrigation of crops, in order to reduce evaporation of water, excess water import rivers, bamboo rattan plant growth in appropriate areas, along the foot of the ravine from the naturally cultivated bamboo rattan plant breeding, forest cover to block the sediment will form a permanent band In dryland inappropriate bamboo plants grow along the foot of the ravine with a pot of drip irrigation method planting potatoes, rattan, grass land plants climb, spread to a large area after blocking sediment, delaying the formation of flood storm step to rivers time to make rain, snow moist earth have more time to eliminate or reduce flooding, the construction of solar power plants or wind farms in Rock Hill, Rock Hill area on the mountain layer, with the digging storage plus indigenous crops suitable for cultivation in the layer by setting the layout of Rock Hill law mining planting pit, placed in a plastic bucket at the bottom of the pit planting or ceramic barrel, or making cement barrels, drums join in the soil, the rain water flows through layers of rock on introduction barrel moist soil, planting pit planting suitable plants or crops cultivated in the dry desert areas of dry lake river surface barrier layer, such as the laying of bitumen to the product storage rain snow and surface water, will be transformed into a ladder of sand dunes size , in a building on the sand ladder planting pits, can join in the planting pit water, store the container soil, planting in such containers suitable for the cultivation of plants or crops planted in the sand above the pit block building greenhouses, building use Drip irrigation network in planting pit, drip irrigation with water or redeployment of product storage water their plants or crops planted, prone to mudslides or landslides in the area of the street, next to the building, construction lateral guide ditch, the top of the ditch rain towards both sides, the ground beneath the rain gutter with vertical guide toward existing drains, it will not rain while immersed in the mountains collapse or flow, or people living near the roadside gravel slopes or rock at the pre-construction reinforcement structure of the mountain, in order to avoid post-disaster reconstruction with a large amount of money to repair, good governance through the mountains to prevent the flow of sediment with water, avoid flash floods caused by human and animal deaths, avoid flash floods caused significant property damage peoples and nations, Avoid flash floods caused by the collapse of houses down the road hazard, avoid flash floods caused by local social panic, nature can cure Lake project, quicksand mud flows millions of years, deposited lake, lake rise, widening the lake, reducing water storage capacity, increased evaporation surface, Now we must plan the construction scale outflow of the lake, in the dry season, the lake water exits the lake mud with a backhoe out, construction Hudi lake along the lines set in the lake at the outflow section, stopped construction of Hukou dams, rivers into the lake using the increase, the outflow of the lake water and reduce the outflow of lakes, rivers into the lake bottom combine the technical measures to improve the storage capacity of the lake outflow of rivers and lakes, rivers and lakes to improve the throughput capacity of the outflow of the lake to improve the Lake outflow of rivers and lakes, irrigation navigation capacity, improve the dam embankment and reduce the bottom, so that the outflow of rivers and lakes into the lake has a water storage capacity is set so that the outflow of the lake above the outer surface of the water year-round lake water, and has swallowed the largest flood Capacity Planning artificial wetland construction, too much will increase the evaporation of wetlands, build more storage tanks, lakes, reservoirs, lakes and reservoirs network storage tank construction will be stored in the rainy season floods Pool Lake library, black night with excess water wind power generation, through the pump pipe network will rivers and lakes over of water input cistern Lake library network, reducing river water into the sea traffic, in the absence of navigable capacity of the river, from upstream to downstream, in there rivers segment construction a certain height difference dams, the water inside the dam through a siphon water generation after generation device into the next dam, or when not in power along siphon water to crops, livestock, or to supply drinking water, or the dam sediment sand into the low-lying land useless, as there is land reform uselessly, which both use the potential energy of water, reducing the amount of the loss and the evaporation of water, but also to control the amount of water to crops, but also to facilitate the supply of drinking water, In the dry season, deepened the upstream section of the river such that it can store more water for the rivers navigable sections have the ability to build a high embankment, turning the river by the force of the wind dragon boat around the clock automatically from the upstream and river mouth, or flip the bottom sediment relay segmented way, so that the flow of sediment downstream with the river and eventually flows into the estuary, so that sediment in the rivers into the sea port reclamation, with the force of the wind turning the river bottom sediment dragon boat flip ways to deepen the river bottom surface, according to the following procedure, the first step, selected river systems, determining the main river systems of the rivers into the sea, the second step, clear sank in the main rivers in solids, the main rivers eradicate unwanted Milton deposited sand shoals, go straighter river segment, the third step, according to the main rivers and estuaries flow direction, wind force by turning the river into the sea dragon boat flip underwater sediment deposition until dredging the seabed to the original, so that sediment deposition flip along the coastline, the fourth step, along the upper reaches of the estuary to the river, the river segments with a turning force of the wind dragon boat day 亱 kept flipping back and forth rivers and waterways center, turning center and gradually expand the waterway to set width, to the original river dredging until underside, after paragraph until a navigable river dredging capacity is completed, turn the river still kept the force of the wind dragon boat upstream to and from the river sediment deposition flip between the new coastline, the fifth step, by turning river clean-up and the main force of the wind dragon boat inlet rivers lakes, close to the main river between the lakes without outlet waterway construction through rivers, making export of lakes, with the force of the wind turning the river clean-up of the original non-export dragon boat lake, Setting the water along the lake to its original straight dredging the bottom, after dredging is completed, still kept flipping back and forth new sediment deposition, so flip sediment export from the lake into the main rivers, and lakes with large export The throughput capacity, the sixth step, the force of the wind dragon boat with turning the river into the lake clean up rivers and lakes, along both sides of these rivers, heightening reinforcement embankment construction diversion Zhichui surface, these rivers flow into the lake bottom dredging to the original, so it has good storage navigation capabilities, the seventh step, the above ways dredging rivers and other water systems selected to set the standard, and thus sub-stages one by one dredge river dredging construction, after a number of years will eventually put all River dredge, making rivers and lakes have clear water, has built a dam for the river, the river section between the two from the downstream section of the dam construction and dredging the above paragraph by paragraph to the upstream section, turning the river by the force of the wind dragon boat flip deposition sediment, sediment will be mixed with a siphon water upstream to downstream dam at boot suitable areas in the region siphon hydroelectric power station construction, power generation after the sediment water outflow from the siphon import low-lying land, building irrigation of crops in the region water network, with a generating capacity of hydroelectric power stations at night to siphon crop irrigation water supply network, to set the depth of dredging in the lake, the lake embankment and into rivers and lakes to set the height of the embankment construction, the construction of dams in the dam lake outlet dike, built at the site of the dam embankment suitable for one or two individuals shaped dam gates and dam door controls, herringbone dam gates by two square door, two bearing support columns and two limit column constituted by the dam height door throughput embankment height and water depth determines the maximum draft sailing ship, the door's width from the dam embankment throughput of water and ships sailing the desired maximum width determines the thickness of the door is determined by the selected manufacturing materials and structural design, the dam gates threshold height above the surface of the water in the lake year round to maintain appropriate water outside, two-door panels fit in the central part of the lateral symmetry of the end face of the upper and lower end, set a fixed stainless steel wire rope structure, with a vertical line perpendicular to the longitudinal plane of symmetry center door for benchmarks in the inside door (doorway side) near the threshold of the upper and lower parts of the set from the baseline at the distance, a mounting structure rotating ring, the inner side of the lake in the doorway of two reinforced concrete support columns are bearing the weight of the door and two bear pressure difference between the load member side, at the site of its upper and lower ends with the corresponding upper and lower stainless steel rotating cylinder surface mounting ring, end at the next lower cylinder surface has a stopper flange edge, located on the end face of the cylinder surface thrust bearings, inner diameter surface of the upper and lower surfaces of the cylinder and bearing support column welded steel mesh, packaged in load-bearing columns supporting the upper and lower rotating ring at the lower surface of the cylinder are provided with door mounting structure corresponding to the mount, where the Turn the upper end face of the ring is provided with a bearing surface of the support column cylinder thrust bearing set Face cooperating Park board, the park board will pass the door of gravity bearing support columns, the rotating ring Set Stainless Steel Stainless steel load-bearing support column to the next stop at the edges of the cylinder moving flange surface will suit to the stainless steel cylinder rotating ring at the bearing surface of the stainless steel support columns, lifting door, stainless steel rotating ring mount, and the corresponding door installation structure connected to the rotatable positioning bolt the doors, set off on the inside of the dam embankment at a set distance threshold limit columns, door opening angle is limited stopper column limit column so that the vertical plane of symmetry center door and doorway are not parallel, that is to make the central longitudinal vertical plane door bearing support columns on both sides of the axis to maintain a certain water pressure, it has the ability to automatically turn off two-door panels, where Hukou dam has an arc in the doorway at the sides of the vertical plane vertical embankment dam construction, the structure of the door at the end face of the switch can be turned smoothly, when the two-door panel off adult-shaped, two-door board with another arc vertical face contact and seal leak, located on both sides of the door dam dam embankment dam gate control device at each door panels respectively, by a stainless steel wire rope, a pulley with a reinforced concrete pillars, two valves, a hollow trapezoid body and a chute constitute the pillar with a pulley located at the dam corresponds to the inside of the door embankment of the lake at a fixed stainless steel wire rope structure, namely the head of the stainless steel wire rope fixed to the structure of the corresponding door, holding the rope pulley another head corresponding respectively to bypass the face, through the pre- Dam Tsutsumiuchi corresponding buried steel pipe, it is fixed to a vertical position corresponding to the trapezoid, the center line of the embedded steel pipe perpendicular to the vertical trapezoid body, provided on the rope of rope through the tube into the stainless steel tube There are matched with its internal diameter colloidal seal, located on the outside of the dam embankment hollow trapezoid body is under the surface of the reinforced concrete hollow member inclined plane inclined plane transverse section in the front and rear sides of the appropriate parts of the place, there are suits embedded two long stainless steel roller 4 curved panels, the center line of the front and rear panels of the two curved arc with the center line of the long roller parallel and perpendicular to the sides of the vertical surface of the hollow trapezoid body, oblique oblique plane degree of decline in the force required trapezoid body adapted, trapezoid body falling from a distance equal to the dam door stickers synthetic herringbone state support columns around the load-bearing columns defined to limit the opening of the dam gates, the installation of wire rope parts When the chord length of the hollow trapezoid sliding force of the water after the arc is greater than the draw bar to open the door pulling force required to open the door the dam, the dam with the door open, the water pressure in both sides of the dam decreases the gate , the decline in the force pulling the hollow trapezoid body dam door open and go full column limit, limit column is subjected to water pressure fell force minus sides of the dam gates of pulling power, when the need to close the dam gates, only time required to start a water pump on the top surface of the hollow trapezoid body, the hollow trapezoid body of water pumped out of the lake, so the decline is smaller than the force of the hollow trapezoid body dam gate two board water pressure difference through the dam gates rope connected thereto, pulling the hollow trapezoid shape adult off automatically shift so that the corresponding surfaces of the embankment dam abutting end faces of the hollow trapezoid, and the other water pump on the top surface of the hollow body is a trapezoid the door for opening the dam The added water pump inlet hose connected with the lake, the outlet has a hollow tube and space trapezoid body communicates with the hollow trapezoid body adapted chute is a waterless channel, built dams outside The concave cross section of the chute and the side surfaces of the trapezoidal body and cooperating oblique plane, the movement distance is greater than the length of the chute when the gate is fully open trapezoid of the dam, the dam is usually the door is closed, so that the lakes and rivers exist Lake How the amount of water, when a ship to be out of the dam gate, open water pump water into the hollow body of the ladder, open the doors so that the ship through the dam, and then pumps out and then the hollow trapezoid body of water, so that the dam door is closed, when the the outer surface of the water when the lake is higher than the lake water (flood), water pressure opened the dam lake outside the door, external water flow to the lake the lake, making the lake and the river into the lake when the water reached the maximum flood level, and this period, but also continue to add water to the space trapezoid body, make rope and dam gates connected in tension, when the flood will recede, the lake water will drain the lake, dam door is automatically closed, then open the add on the trapezoid body pump water to their space to slow the closing speed of the dam gates, to avoid damage to the dam gates, to keep the water at a high level within the lake, when the lake water level is below the lake water level outside, there are ships need to be out of the dam of the lake outside the door or When the water supply, repeat the above operation, subject to timely close the dam gates to keep the water level in the lake and river into the lake inside, do not let this part of the white water into the sea from the rivers and lakes deepened, before the existing dam sediment deposition flip, into the sea waterway extends will be used to turn the river force wind dragon boat to finish, turning the river force wind dragon boat using rivers and lakes flow hydro and wind cutting flip underwater sediment, using tidal flow hydro and wind cutting flip extending into the sea lanes of the water sediment sand, so that sediment deposition in the coastal zone is set to form a new reclamation of coastal fanjiang, turning the river by the force of the wind dragon boat hull, drifting tanks, rudder, hob drum, plow blade arc panels, hydraulic Wind drives and dragon boat navigation and power generation power system structure, the force of the wind turning the river dragon boat is different from existing ships, is the use of water in the bottom of the wind sail boat, is the use of underwater sediment hob drum flip boat, is in bottom plow blade fitted with two lateral panels arc boat is equipped boat drifting tank, hob drum rotation turn underwater sediment move around the front and rear rudder swing plow blade cutting arc panel on the bottom side of the ship sediment, turning the river force wind dragon boat hull is upside down on the floor surface and the inner surface of the front and rear horizontal trapezoid body, trapezoid body inclined plate with two vertical side plates large inverted trapezoid body corresponding obtuse and welding end, around the end face of the square plate with two vertical side panels, front and rear end faces of the swash plate corresponding to the weld, which constitute the hull of a hollow inverted trapezoid, square transverse section of the hull, the hull is less than the overall height of the lower surface of the deck to the bottom of the river from which to flip a width smaller than the river sediment The surface width, inverted trapezoidal hull interior space may be required function stratification, can be used as ballast cargo ship or passenger ship, where the bottom is set for the installation of wind gear hydraulic cabin in the front and rear cabin space with a hydro wind power transmission device, install the platform dragon boat navigation and power generation systems, set top floor space around the front and rear cab in the hull longitudinal vertical plane of symmetry center located beneath the front and rear cockpit has installed rudder structure around the bottom in the cockpit welding a piece of stretched forward and backward, respectively, as the rudder lever on the top of the front and rear hydraulic rotor swash plate under the fulcrum of the slats, rudder axis joystick is located in the center of the hull longitudinal vertical plane of symmetry, sleek suits and hollow closed rudder fixed on the lever, the lever on the front section of the swash plate, respectively, extends through the cockpit, the production of the lever plate in the inclined inner side surface of the cockpit on the pivot assembly, the upper end of the joystick to manually install the wheel, in the manual steering mounting rod on the bottom section of the automatic control mechanism, in order to deflect the rudder blade plow arc cutting the hull outside panel sediment, water tank installed in drifting around the cabin roof at the top of the ramp is a vertical flat plate, with its surrounding face and boats the lower surface of the top plate of a layer of the body, the side plates, the welding surface of the swash plate corresponds to form a storage space of triangular cross-section, suitable for the front and rear parts of the ship drifting with a tank of water valves, water pipes and the vessel body with the valve body and the external water tank connection interlinked with drainage pumps and matching drain valves and tubes, when the hull needs to sink, open the water valve, when the hull needs to go up, open the drain pump, in order to adjust the cutter drum flip sediment the depth of the hull along the periphery of two inverted trapezoid has a mounting plate perpendicular to the wind, the outer shaft and the hydraulic transmission of torque producing rotor wheel extending double wall, the outer wall extending double U-shaped in cross section, the outer wall U-shaped plate and the bottom (top) plate to the protective member, the outer surface of the vertical plate is flush with the hull, U-shaped opening end surface corresponding to the surface of the welded to the hull, outwardly extending U-shaped double wall opening corresponds to the outer end surface of the hull space formed by surface welding, is to install the drive wheel, producing torque shaft and the first stage transmission ring rope closed space, extended double-wall space height greater than wind, hydro rotor diameter of the impeller, its width is greater than the drive space thickness, double wall round the inside wall is load-bearing components, both overhanging double-wall installation hydraulic rotor wind rotor bearing walls, but also water, gas flow channel cross section in the construction of U When shaped overhang double wall, the first ends of the shaft with the bearing flange shaft torque produced wind or hydro capacity torque shaft, respectively mounted on two longitudinal dimension of the inside wall set in production the torque axis of the inner wall perpendicular to the inner side surface,When its axis is horizontal and the state of the ball bearing mounted with the corresponding flange surface of the welded along its periphery to the inner wall, the drive wheel to the shaft section, respectively, through the suit inner side surface of the outer wall of the aperture and radial positioning pin so that the drive shaft, the torque capacity of all axes are thus assembled into the member, but also so that the front and rear reel assembly into the drum member, when all components are well prepared, for mounting the blades of the wind axis of the torque produced parts, and in the portion of the hull plate set arranged neatly so that the axis of the torque capacity of the wind perpendicular to the axis of the central vertical longitudinal symmetry plane of the hull, along the bottom edge of the inner wall surface of the corresponding top plate welded to the hull, along the adjacent parts butt welding end, if there is the gap between the adjacent components, then fill the gap with the corresponding surface of the welded sheet butt end surface of the hull along its roof, so that it became a two build the inner wall of the overhang on the double hull plate wall, using the same method, the bottom of the front driving after driving downward along the front swash plate, the swash plate to the rear of the hull bottom sides of the predetermined region, a bottom wall panel is installed for the hydraulic capacity of the blade member and the torque of the shaft corresponding to the set position of the hull surface of the welding, the front and rear parts of the reel drum near the inner wall of the bottom plate corresponding to the hull bottom surface of the inclined welding along the butt welding end adjacent components, and in the cabin before and after the segment corresponding to the swash plate Welding fill the gap plates, there are gaps in the weld fill the gap with matching plates, which became two underwater build a double wall overhanging the inside wall, until the ring ropes after primary drive installed, then along Hull two inverted trapezoidal side wall panels welded to make wall panels flush with the hull plates, and finally with slats welded seal, the outer wall extending on both sides of the hull form a double drive wheel -level transmission ring rope The operation of the space, and the horizontal base plate mounted on the swash plate around the junction of the outer wall extending hob double drum is a closed hollow cylinder, having an outer diameter larger than the hydraulic diameter of the impeller rotor, the outer diameter of the cylinder surface On axial dislocation welded hob covered the entire surface of the drum, hob has dug move underwater sediment hooks mounted on the left and right front side of the hull near the overhanging double wall inclined drum hob ends of the shaft, the same support structure and hydraulic end of the shaft on which the rotor, the rotational power of the hob plate of the drum shaft is of hydraulic torque transmission capacity of the rotor disc, an annular bead of a first gear stage coupled to the drive plate on the hydraulic drive means to drive, but it must be conducive to the rotational direction of turning the bottom sediment, the hob is mounted on the left front side of the drum in front of the inclined bottom wall of the overhanging double plow blade arcs panel by plowing blade the first arc plate and mounting panel, the inclined outer wall of the double-extending mounting plate welded on the base plate with the corresponding end face of its inner end and the outer surface of the corresponding panel portion of the arc welding head is triangular plowing to slightly inclined manner to the hull bottom and the lower end surface of the arc with its welding end panel so that the sediment plowing blade can be scooped backward along the inside surface of the inner arc of the hull of the panel, in order to reel drum and hydraulic rotor flip, so that sediment with water to flow downstream, hydraulic rotor wind power plant by hydro, wind rotor with bearing flange, oil system, the secondary transmission mated to the ring rope and pulley drum and constitute , hydro, wind rotor having the same or similar structures, are from the (hydro, wind) producing torque axis, Short axis (move water jug) blades, support bearings, brake system components and turn the column structure, if the outside Press and other highly stretched double wall design, the hydro, wind rotor axis also by high-install, if extended by a wavy line double wall design, the hydro, wind rotor axis height torque capacity installed with wavy lines, etc. water, the direction of rotation of the wind rotor may be all in the clockwise direction, the counterclockwise direction is also full, but also by two adjacent rotors in opposite directions to each other, producing a torque shaft and the hydraulic capacity of the wind torque shaft has a similar structure, are used High strength stainless alloy casting processed segmented welded hollow long axis of the assembly, casting, each center embedded through a stainless steel tubing, machining, two adjacent pass with internal and external spline fit twist, with internal and external cylindrical segment to maintain concentricity requirements, according to hydro, wind rotor shaft torque produced each of the total length of the segment design, paragraph by paragraph, processing, will be processed and each segment piecewise butt end face in the ring groove welded and polished smooth, constitute a structure, length, straightness qualified production torque axis, producing a wind dragon boat hydro power plant in the production of the desired torque shaft, a double off the wall overhanging the inside surface of the inside wall Without prejudice to paragraph mounted on the intermediate shaft minor axis of blade rotation on short branches prevail along the middle axis of the shaft surface segment equidistant spiral line, and so on through the embedded angle machining stainless steel pipe used to install short fulcrum radial holes, equidistant herein, the angle of the axis of the torque produced by machining a helix in a 360 ° turn to set the length of each set of radial holes of a number of holes, i.e., the average number of radial holes set length , average angle of 360 °, the torque produced when the length of the shaft particularly when the shaft may remain in certain parts of one or more of a space for mounting the bearing support, the first radial hole from the beginning until the completion of the last machining the radial hole in the processing section of each of the two ports and the radial holes of the sleeve outer diameter surface of the bearing hole of the interference fit, the shaft diameter corresponding to the inner diameter of the bearing surface and the surface of the sleeve shaft moving with short branched, in each of The inner diameter of the intermediate portion of the sleeve bearing surface of a deposit processing oil ring groove, when the sleeve is pressed into the corresponding hole in the bearing sleeve of the bearing surface of a bus ring and the outer end of the shaft torque capacity is flush mounted in the sleeve Short axis of the bearing is made of high-strength finish stainless alloy forging member corresponding surfaces of both the sleeve bearing to the shaft oil remaining between the ring groove engraved number of axially uniform Through the thin groove lubricants, lubricating oil will be produced through the center hole of the torque shaft, lubricate the ball (column) bearing the bearing housing through the filling hole, short sleeve bearing fulcrum, Short axis corresponding to the two sleeve bearings surface of the outer end portion of the shaft, respectively, machining of the mounting ring seal ring groove, and the seal ring are mounted respectively processing a body of the blade mounting post flower, respectively, the axial dimensions of the sleeve corresponding to the two bearing surface of the outer end face of the shaft After mating annular groove, the annular groove in the outer surface of the shaft end of the respective processing and the blade mounting cylinder internal splines slidably mating with external splines, keyways requires several external spline mounting post in the body of the blade through the outer spline spline Set the installation of a rotating cylinder two spline teeth of the blade, the inner spline and the outer spline teeth radial direction end surface of the spline teeth of the radial end face of the securement bond, and the center plane of symmetry of the two leaves of leaf folder 90 ° to each other angle, in the central plane of symmetry of the two leaves foliage at an angle 90 ° to each other state conditions, the installation of the cylinder is perpendicular to the plane of symmetry center foliage drill a hole brake, brake cylinders on both sides of the installation the hole in the opposite direction, respectively, a mounting hole of a brake to the brake column, the column inner end of the inner and outer brake splines can not be rotated, the outer end of the column and the brake torque of the shaft is welded to the production system of the surface of the pivot member cooperate with the short branches 90 ° angle to the axis, the braking surface of the column in contact with the full length of the pivot member made turn, then, the center plane of symmetry of the blade leaf and capacity with a torque axis of the plane, the other end of the support shaft and the short blade plane perpendicular to the axis of the shaft center of symmetry of the foliage yield torque, the brake on the column does not contact the transfer member surface is made, the shaft torque is produced when the rotated angle of 180 °, with the center plane of symmetry of the original leaf axis of the torque produced with the in the opposite direction of rotation of the blade plane to plane with the axis perpendicular to the axis of symmetry center foliar torque capacity, while the original center of symmetry axis perpendicular to the plane of the foliage produced torque shaft blades, at the moment, which leaves the central plane of symmetry and producing foliar torque axis of the same plane, while the column on which the braking torque of the shaft with corresponding production system transfer member surface contact mindful turn, attracts the wind vane shaft torque produced each of the short fulcrum, move the water cycle in turn leaves are so operation, the coupling studs and the blade support shaft is mounted to a cylinder of high strength stainless alloy forging member within the outer section of the inner section is provided with a spline space to accommodate the short external splined section of the support shaft, the cylindrical the other end of the slat on both sides of the triangular mounting plate connected to the cylinder center line in the cylinder by mounting a slat processing channel fitted inside the end section of the blade along the channel is provided with a rivet hole or two rows , the inner end surface of the blade is fitted to the rear riveted the inner channel, if the blade is stainless steel sheets had to be welded along the channel, move the wind blades, the blades move the water board is positive trapezoid inside the short side of its top edge, fitted with a channel connecting the outer long side of the bottom sheet, two symmetrical centerline of the hypotenuse, when fitted to the centerline of its symmetry axis deviates from a set of short distance from the fulcrum, the blades on the short axis of the pivot shaft is not symmetrical, the center plane of symmetry of the blade leaf is the short axis of the support shaft into the area ranging from two leaf portions, the small size of the arc inclined surface made into a streamlined surface when the wind or water, or blowing leaves When washed, the large area of the large driving force by an external force, resulting in a short direction force toward the support shaft is rotated, causing rotation of the short blade fulcrum force zo large projected area, which could cause a short rapid rotation of the support shaft, when Short axis when a 90 ° angle, the center plane of symmetry in the blade leaf axis of the torque produced at the same plane, the transfer member is made to block the production of mounting a brake torque of the shaft cylinder on the column, producing a torque shaft mounted on the short fulcrum is only transferred, this time, the blade incur the greatest impetus, the driving force of the leaf surface from the center axis of the shaft torque capacity for action radius of torque, the role of the stream to welcome impetus in the center of the leaf total thrust Save dorsal thrust vector difference between the fluid resistance, the product of the vector difference The radius of the blade is facing the flow is transmitted to the shaft torque producing force torque, while at the other end of which a short supporting shaft vane the face of said center plane perpendicular to the axis of the shaft into the torque capacity, the operation of the blade facing the fluid with a bluff arc, the fluid passing from the leaf blades of the blade where the pressure difference between the resistance of the resistance of the center of the vector distance to the axis of the shaft torque capacity for action radius of the drag torque, which is the difference between the role of the radius vector of the product and the resistance is transmitted to the blade shaft torque capacity torque reaction force, when Ying-flow foliage turned 180 °, the original Foliar center of symmetry axis of the plane and producing torque with plane blades are pushed up to the flow is reversed (Short shaft end visual), which operate with a streamlined arc facing the fluid produced on the production of torque shaft resulting in When the torque reaction force at the same time, the original plane of the blade perpendicular to the axis of the shaft torque produced foliar center of symmetry in the same direction simultaneously turned 180 °, so that the fluid pressure of the leaf and the leaf into the central plane of symmetry the axis of the shaft with the plane of the torque capacity, resulting in the production of a positive force torque on the torque shaft, which when the two blades movable pushed Short shaft torque shaft rotated 180 °, i.e., the torque produced when a turn driven shaft, Two blades were a short fulcrum shaft torque resulting in production was a positive force by the resistance torque and torque, twice the positive force torque minus twice the drag torque of the torque difference between the two is a short blade support shaft so that production Effective torque torque generated by the effective torque capacity torque shaft rotation in promoting the process of a revolution is based on incomplete sine law change because the blade thickness, producing torque shaft diameter, and only turned to producing torque shaft diameter blade surface after the corresponding angle varies by sine law, but in a shaft torque produced by the helix angles equidistant install more than one set of short fulcrum, each revolving 360 ° helix angle torque producing multiple sets of multi-axis Root Short axis while rotating each group of at least two short support shafts, each of short blades fitted with two fulcrums, so that each group has at least one short blade fulcrum on the production of the torque shaft axis is force torque, rotor rotation direction of the wind and hydraulic rotor has nothing to do with the wind or water flow direction by design, where each group is installed with the shaft torque produced only minimal structural support shaft at both ends with two short blades unit to illustrate, if the design decisions of the wind rotor or hydraulic rotor rotates clockwise (heading left of the observation), simply turn produce torque shaft, in the short axis of the support shaft axis is perpendicular to the horizontal axis of the torque produced, there are two cases: 1, the torque produced at the bottom of the blade shaft, on the short axis of the support shaft that a large portion of leaf area in myopia in leaf side, and the small area of that part of the leaf blade are in the far end side of the shaft in a torque producing The large area of that part of the blade leaf to the left of the vertical axis of the plane of torque capacity, the torque produced in the area of the blade axis below the major part of the leaf on the right axis of the vertical plane of the torque produced when the air flow against the DRAGON sailing directions from, to push the top of the blades counterclockwise flow (top Short shaft end face) to the central plane of symmetry of its foliage and produce torque shaft axis with a plane full length turn, while the torque produced in the leaves below the leaf axis of symmetry Go to the center plane perpendicular to the axis of the torque capacity, with its end facing to the streamlined flow of fluid to the top of the blade is greater than the driving force of the lower resistance of the blade, resulting in the production of torque in the clockwise direction of rotation of the shaft, when the air flow stream carrying DRAGON sailing direction from, the bottom leaves behind a fluid driven counterclockwise (looking up under the short end face fulcrum) to the central plane of symmetry of its foliage and produce torque shaft axis with a plane full length turn, while the torque produced in the foliage symmetry axis side blades a central plane perpendicular to the axis of the shaft torque is produced, with its end facing the back of a streamlined flow of fluid is greater than the driving force of the blade on top of the lower resistance of the blade, resulting in the production of torque shaft is still clockwise, 2, in the production of the lower blade shaft of the torque on the short axis of the support shaft portion of a large area of the blade leaf are in hyperopic side, and a small portion of the blade leaf in the area of the end of myopia, the area of the blade axis side of the torque capacity the major part in the left side of the vertical plane foliar axis of the torque capacity, the torque produced in the area of the blade axis below the major part of the leaf on the right axis of the vertical plane of the torque produced when the air flow against the direction of navigation DRAGON Come, come streaming push the top of the blade clockwise (top Short shaft end face) to the central plane of symmetry of its foliage and produce torque shaft axis with a plane full length turn, while the foliage produced in the leaves below the central plane of symmetry axis torque transfer perpendicular to the axis of the torque capacity, with its end facing to the streamlined flow of fluid to the top of the blade is greater than the driving force of the lower resistance of the blade, resulting in the production of torque in the clockwise direction of rotation of the shaft, when the air flow direction of the water flow carrying a sail DRAGON years, leaves behind a fluid driven clockwise bottom (Bottom end face under short fulcrum) to the central plane of symmetry of its foliage and produce torque shaft axis with a plane full length turn, while producing torque in the shaft center plane of symmetry square foliage leaves turn perpendicular to the axis of the torque capacity, with its end facing the back of a streamlined flow of fluid is greater than the driving force of the blade on top of the lower resistance of the blade, resulting in the production of the torque shaft is still rotating clockwise Similarly, if the wind design decisions hydraulic rotor or rotor is rotated counterclockwise direction (heading left of the observation), simply turn produce torque shaft, in the short axis of the support shaft torque axis perpendicular to the horizontal axis of producing the same, there are two cases: one, in producing torque shaft beneath the blade, the blade on a large area of the short axis of the support shaft in the portion of the foliage in myopia end, and the small area of that part of the blade are in the far end of the leaf, leaf area produced in a large torque axis side That part of the foliage in the birth right of the torque shaft axis vertical plane, and in the leaf area of large capacity torque shaft beneath the foliage in the production of that part of the left side of the plane perpendicular to the axis of the shaft torque when the air flow direction against the dragon boat sailing from, to promote the flow beneath the blade counterclockwise (looking up under the short pivot shaft end face) to the central plane of symmetry of its foliage and produce torque shaft axis with a plane full length turn, while producing torque in the shaft side leaves and foliage to the central plane of symmetry the vertical axis of the torque capacity, with its end facing to the streamline flow of the fluid is greater than the driving force of the blade on top of the lower resistance of the blade, resulting in the production of torque in the counterclockwise direction of the axis of rotation, when the air flow direction of the water flow from the navigation carrying DRAGON Behind the top blade counterclockwise push fluid (top Short-axis end face) to the central plane of symmetry of its foliage and produce torque shaft axis with a plane full length turn, while the torque produced in the leaves below the leaf to the central plane of symmetry axis perpendicular to the axis of the torque capacity, with its end facing the back of a streamlined flow of fluid to the top of the blade is greater than the driving force of the lower resistance of the blade, resulting in the production of torque in the counterclockwise direction of the axis of rotation remains, 2, producing a torque on the shaft below the leaves, large leaf area on the short axis of the support shaft portion of the leaf surface in the far side in all, and a small portion of the blade leaf in the area of the end of myopia, a large portion of the leaf blade area of the shaft-side torque capacity face on the right axis of the vertical plane torque capacity, while at the bottom of the leaf area of large capacity torque shaft that part of the foliage in the vertical axis of the left flat torque produced when air flow direction against the dragon boat from sailing to flow push leaves beneath counterclockwise (looking up under the short fulcrum end face) to the central plane of symmetry of its foliage and produce torque shaft axis with a plane full length turn, while producing torque in the shaft center plane of symmetry square leaf blade to the shaft torque capacity perpendicular to the axis, with its end facing to the streamline flow of the fluid is greater than the driving force of the blade on top of the lower resistance of the blade, resulting in the production of torque in the counterclockwise direction of the axis of rotation, when the air flow direction of the water flow from the carrying DRAGON sail behind the fluid push the top of the blades counterclockwise (top Short shaft end face) to the central plane of symmetry of its foliage and produce torque shaft axis with a plane full length forward, while at the bottom of the leaf producing torque shaft leaves the face of said center plane and go the vertical axis of the torque capacity, with its end facing the back of a streamlined flow of fluid to the top of the blade is greater than the driving force of the lower resistance of the blade, resulting in the production of torque in the counterclockwise direction is the axis of rotation remains, that is, water or wind rotor design decisions the direction of rotation of the rotor, either clockwise or counterclockwise direction selected rotation, each with two options, just decided to install a brake arrangement producing torque shaft pillar and turn the system on to the cylinder member leaves, but once a decision After the hydraulic rotor rotation direction or wind rotor decided, will not change the flow direction is changed, according to the established power of the rotor rotation direction are due to occupy some space on the shaft torque produced water or gas, wind vane incurred or Hydraulic driven only by an incomplete sine function changes after that produce torque shaft footprint is invalid operation area of the blade, each of hydro, wind capacity torque shaft lateral segment of the two axes of the outer segment, has the drive wheel and the inner splines mating external splines, the splines extending outer end of the inner shaft of the drive wheel has a pin hole for the drive shaft to the radial positioning of the through port of the stainless steel tubing used in the tube Welding mouth sealed outer spline undercut on the inside of the ring groove across the extended segment inside wall of the double wall portion is provided with a graphite bearing fitted at the center of the aperture surface mating seal ring a shaft section, provided with a connection moving with the inner race of the bearing section, the shaft section and the bearing cap fitted to the graphite surface of the central aperture of the mating seal ring, the bearing supporting the shaft with the torque produced on the outer side of the flange pore surface of the center hole is provided with a graphite ring fitted into the annular groove ring and the graphite ring ring is fitted, a bearing outer ring in an interference fit section surface of the central aperture and the aperture face the ball (column) continuation of the aperture surface and ring face and bearing cap match, in the end face of the ring has glands and mounting holes around the bearing cap mating screw pile hole, and equipped with screw piles, bearing cap is a feature the inner and outer short barrel of the cylinder member, the inner end face of the short cylinder and the bearing ring corresponding to the ring surface of the inner race press fit, a short cylindrical outer ring end surface of the outer race of the bearing surface contact with the corresponding ring, inside a short cylindrical outer ring groove depth is greater than the height of the cylinder, provided with radial holes through the production of lubricating oil in the torque shaft center axis of the cylinder above the bottom plane of the ring, the center of the hole on the outside of the lubricant pore surface of the graphite ring is fitted with a ring groove ring and the ring is fitted with a graphite ring mating surface of the corresponding axis, the outer surface of the outer end of the short cylinder is provided and in the housing of a mating screw pile ring bore, the installation of a lubricating oil into the filler opening of the cylinder is at the top of the installation of a lubricating nipple back to the column just below the orifice, the support shaft in each of the short production of each of the wind torque shaft The ends of the shaft are installed vanes move, on both sides of a shaft section each of the torque capacity of the wind axis of the bearing are installed with a flange, constitutes a wind rotor, the wind rotor DRAGON required are installed to set the top plate portion of the hull overhanging the inside wall of the double wall, constitutes the power source of the wind power plant DRAGON, both ends of each of the short axis of the support shaft in each of the hydraulic capacity of the torque shaft move the water on the blades are installed on both sides of the shaft portion axis of each of the hydraulic torque capacity are installed with a flange bearing on the rotor to form a hydraulic, the hydraulic rotor DRAGON desired surface are mounted to the hull set on the lower portion of the outer wall extending inside the double wall, and the power source constitutes a hydraulic power unit DRAGON, the wind rotor in the water are installed, with a manifold inlet in communication with all the feed nozzle, In the inlet manifold of the appropriate parts of a pipeline connecting the roof down through the hull by oiling the valve and pump out the oil port connectivity, pump inlet orifice and into the oil valves, oil tank communicates with a manifold oil return with all back nozzle connected in the back portion of the oil manifold connected to a suitable return line down through the hull roof, through the oil return valve door and back to the tank is communicated back to the oil tank after cooling and purification join oil tank, pipelines, return pipe welded in place through the hull roof sealed, which wind up the transmission oil system, in accordance with a structure similar to the way the system can also be composed of oil hydraulic actuators, hydraulic power needed to wind dragon boat were power output drum passed by the first, second transmission mechanism, and then by the power output of the drum will move to pass good enough equipment, wind rotor drive mechanism from the first stage of the installation is located on the outer sides of the hull above the water stretch a double wall plate within a row of the wind rotor shaft producing a torque transmission wheel shaft at both ends, the two rope drive ring, and the four connections with matching drum pulley configuration, the drive means for the wind, where the use of adjacent rotating wind rotor layout in the opposite direction, the two pre-hang stretched outside the outer double dragon boat interior wall panels circular drive in front of the power machine cabin rope connecting the outer drum groove wound clockwise circle, always upward to the top deck square hole parts corresponding pulley double wall, bypassing the front pulley the face, along the roof surface on the hull forward, in front of the first ring groove drive wheel clockwise winding circle, then In the second round of the drive winding counterclockwise around the ring groove, so that the anti-land will drive along a circular rope wrapped around the drive wheel ring groove, until the last one finished winding drive wheel, holding the drive along the top ring rope After bypassing the forward deck behind the pulley hole, has been down in the cabin after connecting power machine drum winding clockwise around the outer tank, installed in the cabin roof with a power connection between the front and rear drum tensioner pulley on the surface of the two transmission ring rope tensioning device for hydraulic transmission, the same, using the adjacent hydraulic rotor rotation direction opposite layout, the two pre-stretched double hang outside the interior wall in dragon boat drive outside of the ring ropes board cabin before connecting power machine drum wrapped around the inner tank clockwise downward momentum around pulley Face square hole at the cabin floor, holding the rope along the power transmission ring cabin floor Under the surface, bypassing the hull bottom and front pulley inclined plate junction, through the power machine cabin floor to the bottom of the cab floor, in front of the exterior oblique flat side to stretch along the first drive wheel within a double wall perimeter clockwise, counterclockwise winding around on the second drive wheel, so that a reversal in the drive along the ring rope wrapped around the drive wheel ring groove, through the power of this double cabin wall, in Hob junction on the drum drive wheel counterclockwise perimeter, which after a cis-trans to a rope wrapped around the drive ring ring groove in the drive wheel to the hull bottom and posterior oblique plate junction, in its corresponding to the drive wheel counterclockwise hob drum perimeter, through the (post-) power during extended double cabin wall, outside the lateral posterior oblique flat stretch at the double wall, an anti- A drive along the ring rope wrapped around the drive wheel of the ring groove until the outside bottom (after) the cab floor on the last stretch of a double wall inside drive wheel anti-(cis) wound around the clock, holding the drive ring rope, along the outer inclined plate after a double wall at the bottom surface of the stretch, bypassing the junction of the pulley, leading to a corresponding backplane connection drum at the rear side of the mouth, bypassing the mouth of the pulley side up, in the an inner ring connected to the rotor winding slot is completed, the connection between before and after the drum is mounted on the surface of the roof of the cabin under dynamic tension pulley drive this root rope tensioning ring, two at the front and rear cabin roof surface of the connection on the switch The first stage is a cylindrical member having the same structure as the drive transmission and common to the second stage, the channel connected to the drum on the outside of the drum, respectively, for the first stage ring gear Chan around the rope, the groove track on the inside of the drum respectively, for the second stage transmission around the ring ropes, Face channel on the inside of the drum diameter greater than the diameter of the outer channel Face drum on two same components that have the same layout as the second stage of the transmission mechanism, good enough is good enough for the device to connect a device connection and front cabin, a cabin, and after, before and after referred to here only for narrative convenience, in fact, water dragon boat is around, regardless of the wind, because it can not turn can directly forward and backward straight line sailing, here with the second stage transmission and front cabin is good enough equipment to connect power to be explained, the second stage transmission mechanism is connected by a pair of former common drum, a second transmission ring rope, one pair front and rear steering wheels, a power output of two drum tensioning pulley and belt clutch constitute around, holding a secondary drive in the left ring rope connected to a large diameter drum channel CW Chan around good, and have been to After bypassing the left side of the front steering wheels, along the transverse (or anti)-clockwise wound well within the drum at an output power of the central vertical longitudinal symmetry plane of the hull of the left channel, the right side of the power output of the rotor groove Anti within the channel (or cis) wound after a good hour, and then right back to bypass the right of the steering wheel in the right side of the connection of a large-diameter drum channel CW Chan around well after the right turn back after bypass After the pulley, across the hull on the left side of the steering wheel after the bypass, so that the secondary transmission ring rope to form a square layout formation in vivo and corresponding member of the ship in two cabin roof after turning power between the drive pulley against the installation of a ring rope Only tension pulleys, so that the secondary drive rope tightly close the annular working surface of the member to bypass it, the rotation direction and the rotation direction of the two power output of both the drum and the front propeller shaft of the gearbox input torque consistent connecting the work drum, and the rotation direction rear side holding the two generators consistent shaft, which drives the winding direction of the ring can be adjusted to match the rope, the drive mechanism in the first stage, the working diameter of the drive wheel is greater than its wound diameter, so that it performs a first acceleration stage, in the second-stage transmission mechanism, the drive ring rope winding drum is connected to the large diameter of the drum diameter and its working diameter greater than the operating power output of the winding drum, be it a second acceleration stage, before the two-stage hydraulic actuator composed of the wind rotor to the wind power unit hydraulic Longchuanhe by two levels, the drive mechanism of the wind power plant can be converted into hydraulic energy and mechanical energy of the propeller or by the generator into electrical energy, where the propeller and gearbox, generator power is good enough equipment, wind dragon boat into the water when the water as long as there is wind or water, the power plant is in start state, the current side after two power output shaft of the clutch drum and the corresponding engagement structure of the generator input shaft, the power unit is in the power generation state, to provide power to the DRAGON, when power generation is stopped, the input clutch torque is started ahead of the propeller with a corresponding power output of the first two transmission shaft of the drum structural axis bite, so water wind dragon boat sailing forward, if hydro wind great, but do not need high speed sailing, you can start behind the turbine, while it sailed, while power generation, the energy stored in the battery, After the suspended anchor, generator sets can start after generation, to save battery power transmission, sailing backwards when you need to start the rear propeller, stern becomes the bow, drove to the destination, when you need partial rotation steering wheel bias in the desired direction, which is the water dragon boat navigation and operation of wind way, if removing the plow blade arc panel, drifting tank, will replace hydraulic cutter drum rotor, is a surface water or wind dragon boat warships , surface water wind dragon boat did not bow stern of the points, that is to say the surface water wind dragon boat sail forward or backward navigation, without turning upside down the bow, both sailing downwind, upwind against the current, sailing upwind, downwind sailing against the current of rivers on, but also along the waves downwind, Nilang against the wind, against the wind along the waves, the wind Nilang sailing in the ocean, is not afraid of high wind and waves, I'm afraid no wind sailing in still water environment, if anchored in the wind-rich Water flowing waters can also become power stations, wind dragon boat as if the water hydraulic aircraft landing platform, the top deck is the apron and runway landing below the top deck is the hangar and maintenance workshops, a suitable site on the top deck to install hydraulic type driven lifting platform, used in aircraft and other equipment up and down the hangar beneath hangar space for installation of the wind is a wind rotor transmission device, you can set the elevator to the following layers in each cabin hangar suitable site.

According to the one described in right 1 transform mountains and rivers water storage take precautions against natural calamities generating shipping turn over river marine reclamation land system engineering, it is characterized in that: be arranged on the syphon TRT at syphon low level place by an impeller service depot, an impeller, front and back tube connector and two generators form, impeller service depot is the combined member of one and half cylinders and square body, on process mould, be that arc lower end is the corresponding surface soldered in upper end of square biside plate with two curved ends of a cambered plate and upper end, weld corresponding surface with two blocks of rectangular laths of technique before and after the nearly base of square body side plate, determine the parallelism of biside plate with process mould, determine that with process mould the inner surface of cambered plate determines the radius size of impeller, axial dimension using the thickness of process mould as impeller, unload after process mould, make impeller service depot become the ducted body of a sizing, taking the inner surface of cambered plate as benchmark, determine the center of rotation of impeller in service depot, taking center of rotation as benchmark, on biside plate, process respectively the screw blind hole that on the bearing block flange dish that two end axles is installed, match in a circle hole, on biside plate, match with two end axles axial plane in machining center hole respectively, impeller is a member that high strength alloy steel die forging forms through fine finishining, the axial dimension of the central axis of impeller equals the width of blade, two axial end face area of the central axis of impeller are processed with the internal spline matching with the external splines of two end axles, internal spline outside is processed with the aperture surface matching with the outer diametric plane of two end axles, in order to keep being connected of impeller middle spindle and two end axles, spread out of moment of torsion and axiality requirement, on impeller middle spindle one circle radial blade to meet stream blade face can be simple sagittal plane, also can be cambered surface radially, arc cambered surface blade that can also be complicated, the inner section of two end axles is provided with the external splines that matches with the internal spline of impeller middle spindle and the cylinder section for keeping the aperture surface of axiality to match, be provided with the shaft part matching with the hole face of the centre bore through impeller service depot side plate, on shaft part outside biside plate, be from inside to outside provided with successively the cylinder matching with bearing flange dish inside diameter surface Chu Mi envelope structure, be provided with and the moving cylinder coordinating of ball bearing inside race, be provided with the cylinder matching with bearing cover inside diameter surface Chu Mi envelope structure, outer end section at end axle is provided with the structure matching with generator shaft joint, the aperture plane place of the inner side of the bearing support of flanged dish is provided with the annular groove of the close ring of setting-in graphite, and be embedded with the close ring of graphite and match with end axle corresponding cylinder, the aperture surface section continuing after annular groove is provided with the structure with ball bearing outer race interference fit, the screw hole that its outside end face is provided with on bearing cover, match in a circle hole, the hole that its flange is provided with on impeller service depot side plate, a circle screw hole matches, the inner side of bearing cover is provided with the inside and outside short cylinder that is inserted in bearing support outer end aperture surface, the ring end face of interior short cylinder withstands the correspondence surface of ball bearing inside race, the ring end face of outer short cylinder is joined with the corresponding Surface Contact of ball bearing outer race, the degree of depth of the annular groove between inside and outside short cylinder is greater than the height of two short cylinders, at the vertical plane place of its axis of mistake of this degree of depth bearing cover cylinder corresponding to difference in height, the hole, footpath of boring its axis of mistake directly over it communicates with annular groove, a pump nozzle is installed at upper aperture place, a pump nozzle is installed at lower aperture place, in the aperture surface section of bearing cover outer end, be provided with the annular groove of the close ring of setting-in graphite, and be embedded with the close ring of graphite and match with end axle corresponding cylinder, if be lubricated with lubrication oil, by oil filler point and outage composition oil system, if be lubricated with lubricating cream, priming cup is installed on oil filler point, at outage, leakage of oil cup is installed, regularly change, when impeller and end axle process, quiet dynamic balancing machine carry out balance qualified after, take off two end axles, in two end axles, install bearing support, impeller is installed to from square hole below in the service depot of impeller, to be installed on impeller middle spindle with the two end axles of bearing support, bearing support is installed to screw on the biside plate of impeller service depot, wheel rotor is measured the gap between blade axial end and corresponding side surface, measure the gap between blade radial end face and corresponding cambered plate, and place on record, under the condition that there is no grating, by the screw-driving on bearing support, boost from aperture with a square plate matching with impeller service depot square hole, while making the gap test piece of the side's of being placed on plate upper surface encounter the radial end face of a blade, by square plate in level, wheel rotor, in the time that the radial end face of every a slice blade can be scraped gap test piece, along the groove surface soldered corresponding to side plate of square plate both sides, take out gap test piece, tube connector before and after installing, the upstream face of front tube connector is that weld with footpath is relative with syphon in cross section, garden, downstream end face is band skewback square opening end face, upper reversible deflector is turned back at the soffit place facing to impeller middle spindle, along square end surface and the welding of epimere square opening of upper reversible deflector, below spill end face and the welding of hypomere square opening, make siphonal upstream line be connected and communicate with the import of impeller service depot, the upstream face of rear tube connector is square end surface, the corresponding end face welding of outlet with impeller service depot, the cross section, garden in rear tube connector downstream and the butt welding of syphon corresponding end face, siphonal downstream line is connected with irrigation network, build the support platform of syphon TRT at the base plate place of impeller service depot, end facing to impeller is installed two generators axisymmetrically, the central axis of impeller and the power shaft of generator in be connected under starting state condition time, the valve of slowly opening a syphon high position is until valve wide open, high-order current siphon pipe is towards the diffluence of impeller service depot, the blade turning in the square duct under the soffit of impeller middle spindle is impacted in entrance in impeller service depot, promote impeller rotates in service depot, the radial end face of each blade forwards minimum clearance place to, current reach maximum value to this blade motive force, when this blade turns over behind minimum clearance place, the diffluence of current direction syphon low level pipeline section, every a slice blade on impeller all promotes impeller so again and again, high-order waterpower in syphon is passed through impeller middle spindle, the moment of torsion that it is produced is passed to the armature spindle of generator, the magnetic line of force of its stator is cut in the rotation of generator amature, change the high-order hydraulic energy in syphon into electric energy.

According to the one described in right 1 transform mountains and rivers water storage take precautions against natural calamities generating shipping turn over river marine reclamation land system engineering, it is characterized in that: a kind of looped cord braider of annular shackle line that hydraulic energy and wind power energy is changed into dragon-boat navigating power or electric energy is produced, looped cord braider is by a column moving runner, a column pulley, vertical type motor and a looped cord braider with belt forms, what column moving runner was installed is a vertical axis of rotation, vertical axis of rotation is fixed on the basis of factory building with a supporting seat with thrust bearing, be arranged on the vertical axis of rotation in the supporting seat of thrust bearing, a belt pulley is installed on the shaft part above supporting seat, be installed on a vertical variable-speed motor with a belt matching with it, on the shaft part above belt pulley, install and fix a column moving runner, column pulley sleeve is loaded on vertical axis, vertical axis is arranged on the double track of factory building with four wheel pedestals with one, vertical axis can move and fix with pedestal, to adapt to the needs of the looped cord of producing different size, on pedestal, the upright column moving runner that standing facing each other is set with a pulley on the shaft part of vertical axis, the tangent line of the work plane of the work plane of pulley and column moving runner is in same level, on the factory building foundation at tangent line position, install and fix a looped cord braider at nearly column moving runner, and make center line and the column moving runner of looped cord braider, column pulley work plane tangent line coincides, looped cord braider machine is by the outer truncated cone of a clamshell type, truncated cone cylinder in a clamshell type, a clamshell type reel, lead frame, one Gent system annular heart yearn and a clamping hoop type prop up and are configured to, the special annular heart yearn of different model is manufactured the looped cord of different size, outside clamshell type on the conical surface of the truncated cone, arrogant footpath end face is manufactured with a circle helicla flute to path end face, helicla flute transfers axial groove to approaching path end face, spiral fluted size is greater than one rope dimensions of looped cord to be made, on its bigger diameter end face, process a centre bore, the aperture central tube external diameter surface overhanging with reel of the nearly large footpath of centre bore section matches, the centre bore of path end face, the internal diameter of reel central tube is greater than the diameter of making rope, the center of the center of centre bore and helicla flute exit axial groove is in the same axis plane of clamshell type Outer Taper, there is the size of a setting for weaving at Qie Liang center, in clamshell type, the inner conical surface of the truncated cone matches with the outer truncated cone external surface of clamshell type, on its external diameter cylinder, process two circles the hole of ball is installed, the degree of depth in hole is less than the diameter of ball, the cylinder section of ball is installed, ball face matches with the inner groove face of clamping hoop type support, outside corresponding to clamshell type, on the end face at the notch place of truncated cone bigger diameter end surface helix groove, a lead frame is installed, lead frame is the half-set with pulley, the curved plate of support is screwed truncated cone cylinder corresponding position place in the clamshell type of bigger diameter end, its lath perpendicular to curved plate is provided with an open channel, the width of conduit matches with pulley working surface diameter, the length of conduit is greater than the length of the roll of clamshell type reel, the thickness of pulley working surface diameter axial dimension and lath is suitable, the center in a wheel body outside of pulley is provided with a little axle with annular groove, install in the open channel of lath with pulley working surface diameter cover, the anchor ring of two inner sides of pulley clips the correspondence surface of lath and can move by Zi You Roll, annular groove on little axle matches with spiral fluted notch, the width of this annular groove is suitable with one rope dimensions of looped cord to be made, the roll of clamshell type reel is the pipe of splitting that stretches out two ends ring flat-plate, the external diameter of two ends ring flat-plate and in the size of splitting between pipe, the space required with one rope Rao Full reel that turns around a looped cord to be made thereon, two ends are split ring flat-plate intrados and are split the corresponding surface soldered of pipe, after laminating, use and split the short tube that tube outer diameter matches and be locked, the pipeline section that stretches out ring flat-plate foreign minister is pressed in the centre bore of the outer truncated cone of clamshell type, make the axis of clamshell type reel and the centre bore coaxial line of the outer truncated cone of clamshell type, special annular heart yearn is the center line of manufacturing looped cord, with the both ends of the surface of wire carry out butt welding or with two inclined-planes carry out to welding, postwelding polishes flat smooth, or glued joint with non-metal wire, become special annular heart yearn, the length of run of special annular heart yearn is greater than the length of run of preparing looped cord, manufacture annular heart yearn and looped cord according to user's requirement, the clamping hoop type support of the outer truncated cone cylinder of fixing clamshell type is the horizontal divided ring body member with bearing, the inner ring surface of divided ring body is provided with the annular groove matching Yu Roll pearl face, be provided with in divided ring body horizontal plane outside the installation lath that closes Roll pearl face for pasting, by the bolt of installing on lath, truncated cone cylinder in clamshell type is installed on clamping hoop type support, the below hemizonid of clamping hoop type support is fixed on factory building foundation with the lower end base plate of bearing, straight plate connecting bottom board on base plate and lower hemizonid, the height of straight plate make the center of horizontal divided ring body and the work plane of column moving runner suitable, directly over upper hemizonid, be provided with the structure of injecting lubricating cream, in the time manufacturing looped cord, special annular heart yearn on column moving runner Chan after a circle, walk around column pulley, put into type reel, in the hole of the outer truncated cone of clamshell type, after combining type reel, one rope that is manufactured with small sections two statures is turned around on reel, the head that is leading this strand rope is put into the helicla flute of the outer truncated cone of clamshell type, by this stature and special annular heart yearn in suitable location welding or bonding, and make it smooth smooth, joint is shifted near to the small end face of the outer truncated cone of clamshell type, get togather truncated cone cylinder in clamshell type, attach it on clamping hoop type support and fix it, open buncher, band rope and special annular heart yearn move simultaneously, inside and outside driving clamshell type by spiral fluted rope in movement, truncated cone cylinder rotates in clamping hoop type support, what make that rope one goes around turns around on special annular heart yearn, when special annular heart yearn is wound after a circle, special toroidal cores tape the rope turning around by the centre bore of clamshell type Outer Taper, rope is constantly wound between the thigh of its rope, until by the rope on clamshell type reel around complete be upper, take off another small sections of rope along glueing joint between thigh or welding, and after making it smooth, this just can manufacture looped cord or annular wire rope.