CN108425801A - A kind of model wind generating device with real time temperature monitoring function - Google Patents

Abstract

The invention discloses a kind of model wind generating devices with real time temperature monitoring function, its structure balances empennage after including, connect shaft, slowing-down structure, rotary electrification fan blade, head, fan blade connector, temperature detector, thermometric groove, connection support bar, firm banking, the groove on the right side of empennage is balanced afterwards to insert embedded in the left side of connection shaft, the right end of connection shaft is vertically welded in the left side of slowing-down structure, fan blade connector is movably connected in the right side of slowing-down structure by ball bearing, the present invention by equipped with slowing-down structure, equipment can be braked in time when equipment rotating speed is excessively high, the rotation axis of deceleration mechanism and equipment is set to rub, slow down in time to equipment, the speed of equipment is set to be lowered rapidly, prevent the rotating mechanism of equipment from overloading, power generation process is set to become more safe.

Description

A kind of model wind generating device with real time temperature monitoring function

Technical field

The present invention is a kind of model wind generating device with real time temperature monitoring function, belongs to wind power generation plant neck Domain.

Background technology

Wind-power electricity generation refers to that the kinetic energy kept watch switchs to electric energy.Wind is a kind of energy of not public hazards, non-using wind-power electricity generation Chang Huanbao, and the electric energy that can be generated is very huge, therefore more and more countries more pay attention to wind-power electricity generation, wind energy is as one The clean regenerative resource of kind, is increasingly paid attention to by countries in the world.Its amount of accumulateing is huge, and global wind energy is about 2.74 × 10 ^9MW, wherein available wind energy is 2 × 10^7MW, the water energy total amount than that can be developed and used on the earth is also 10 times big.

But prior art people excessively pay attention to the rotating speed of generator, the rotating speed of continuous lifting means shaft, in the hope of generating More electric energy, being promoted to certain amplitude in rotating speed can not enough decline and can overload, and the mechanical organ in equipment is caused to carry Power reaches capacity, and machine operation amplitude is excessive, is damaged to equipment.

Invention content

In view of the deficienciess of the prior art, it is an object of the present invention to provide a kind of novel with real time temperature monitoring function Wind power generation plant, to solve the rotating speed that prior art people excessively pay attention to generator, the rotating speed of continuous lifting means shaft, with It asks and generates more electric energy, being promoted to certain amplitude in rotating speed can not enough decline and can overload, and lead to the machinery member in equipment Part bearing capacity reaches capacity, and machine operation amplitude is excessive, the problem of being damaged to equipment.

To achieve the goals above, the present invention is to realize by the following technical solutions：One kind having real time temperature prison The model wind generating device of brake, structure include after balance empennage, connection shaft, slowing-down structure, rotary electrification fan blade, Head, fan blade connector, temperature detector, thermometric groove, connection support bar, firm banking balance after described on the right side of empennage Groove is inserted embedded in the left side of connection shaft, and the right end of the connection shaft is vertically welded in the left side of slowing-down structure, the fan blade Connector is movably connected in the right side of slowing-down structure by ball bearing, and the head is horizontally fixed on the right side of fan blade connector And using being welded to connect, the rotary electrification fan blade sets there are three and is equidistantly uniformly fixed by screws in fan blade connection On three angles of head, the angle between the rotary electrification fan blade is 120 °, and the temperature detector is mounted on slowing-down structure Lower section, the temperature detector are electrically connected by conducting wire and across slowing-down structure, fan blade connector with head, the connection branch The top vertical of strut is welded on the lower section of temperature detector, and the thermometric groove is installed in the lower section of temperature detector and wears The positive top of connection support bar is crossed, the firm banking is interference fitted in the bottom of connection support bar and orthogonal, institute Slowing-down structure is stated equipped with motor driver, bevel gear transmitting device, pulley transferring structure, fluted disc rotating device, hydroelastic system Structure, gear connecting rod transmission mechanism, progressive rotating device, resetting apparatus, tempering shell, the motor driver are welded on steel Change the lower left corner of enclosure, the bevel gear transmitting device is mechanically connected to the top of motor driver, and the pulley passes The upper right corner that structure is installed in bevel gear transmitting device is passed, the pulley transferring structure is sequentially connected with bevel gear transmitting device, The fluted disc rotating device is movably connected in the bottom of pulley transferring structure right end, the top of the fluted disc rotating device and hydraulic pressure The bottom driving of elastic construction connects, and the stage casing at the top of tempering enclosure, institute are welded at the top of the hydroelastic system structure State the right side that gear connecting rod transmission mechanism is installed in hydroelastic system structure, the gear connecting rod transmission mechanism and hydroelastic system structure It is sequentially connected, the right end of the gear connecting rod transmission mechanism is connect with the bottom mechanical on the left of progressive rotating device, described progressive The bottom of the right end of rotating device is sequentially connected with resetting apparatus, and left end and the motor driver machinery of the resetting apparatus connect It connects.

Further, the motor driver is equipped with rotor, motor bottom end cover, connection box for motor, driving motor Main body, machine shaft, motor fixing shaft hold, stator winding, and the motor bottom end cover is threaded in the bottom of driving motor main body Portion, the connection box for motor are connected electrically in the left end of driving motor main body, the stator winding set there are two and it is horizontal fixed In the left and right ends of driving motor body interior, the rotor be installed in the inside of driving motor main body and with both ends Stator winding is mechanically connected, and the motor fixing shaft holds the port for being movably connected in driving motor body top, and the motor turns Axis is welded on the top of rotor and is held with motor fixing shaft and is flexibly connected, and the machine shaft and driving motor main body are mutual It is perpendicular.

Further, the bevel gear transmitting device be equipped with the first lateral bevel gear, fixed link, the second lateral bevel gear, First Transmission gear, interior transfer wheel, rotation gear, longitudinal bevel gear, third transverse direction bevel gear, the described first lateral bevel gear Bottom is welded on the top of machine shaft, and the fixed link is vertically welded in the left end of tempering enclosure and right end is welded Bevel gear is transmitted, the third transverse direction bevel gear is engaged on above the transmission bevel gear of fixed link right end, and described second laterally bores Gear drive is connected to the top of third transverse direction bevel gear, and the longitudinal direction bevel gear is installed in the top of the second lateral bevel gear, The longitudinal direction bevel gear is intermeshed with the second lateral bevel gear, and the bottom of the rotation gear connects with longitudinal bevel gear activity It connects, the top of the rotation gear is meshed with the sawtooth of the first Transmission gear outer surface, and the interior transfer wheel is mechanically connected to Rotate the inside of gear.

Further, the pulley transferring structure is equipped with the first conduction band, first is oriented to fixed pulley, the second conduction band, the Two are oriented to fixed pulley, third conduction band, the first punch panel, directional rotating wheel, and the first guiding fixed pulley is fixed by pulley Column is fixed on the top of tempering enclosure, and described first is oriented to fixed pulley is connected by the first conduction band and the transmission of interior transfer wheel It connects, described first is oriented to fixed pulley is oriented to fixed pulley drive connection by the second conduction band and second, and second guiding is fixed sliding Wheel is installed in the right side of the first guiding fixed pulley and parallel to each other, described second be oriented to fixed pulley by third conduction band with it is fixed It is intertwined to rotating wheel, described second is oriented to fixed pulley is sequentially connected with directional rotating wheel, the first punch panel machinery It is connected on the axle center of directional rotating wheel.

Further, the fluted disc rotating device is equipped with sector rack, balance spring, lower platen, axis fast pulley, mandril connection Ball releases mandril, lower platen fast pulley, and the lower platen is L-type structure, the left end of the lower platen and the first punch panel activity Connection, the axis fast pulley are horizontally fixed on the bending place of lower platen and are flexibly connected with sector rack, the balance spring machinery It is connected to the top of lower platen horizontal ends, the left end of the sector rack is flexibly connected with balance spring, the lower platen fast pulley hinge It is connected on the top of lower platen vertical section end surfaces, the mandril connected ball is movably connected in the groove of sector rack right end face In, the top released mandril and be welded on mandril connected ball.

Further, the hydroelastic system structure is equipped with injection block, hydraulic oil cylinder, torque spring, angled slide block, laterally top Bar, sliding tooth plate, rack fixed plate, the injection block are mechanically connected to the top for releasing mandril, the hydraulic oil cylinder welding Top is welded on the stage casing of the inside top of tempering shell, and the groove gap at the both ends and hydraulic oil cylinder bottom of the injection block is matched It closes, welds together at the top of the bottom of the torque spring and injection block, in the top of the torque spring and hydraulic oil cylinder Weld together at the top of portion, the angled slide block is movably connected in the right end inside hydraulic oil cylinder, and the transverse direction mandril is vertically solid It is scheduled on the right end of angled slide block and the right surface across hydraulic oil cylinder, the rack fixed plate is installed in the right side of hydraulic oil cylinder simultaneously And weld together with tempering shell, the sliding tooth plate is slidably connected at the lower section of rack fixed plate and lives with lateral mandril Dynamic connection.

Further, the gear connecting rod transmission mechanism is equipped with upright post type fixed seat, first gear, small engagement wheel, first Connecting rod, second connecting rod, second gear, third connecting rod, connecting rod pushing ram, semi-active bar, trapezoidal fixing axle wheel seat, fan-shaped rotation Plate, hollow clamping seats, sloped footing, taper motion bar, big transfer wheel, rubber movable block, the upright post type fixed seat vertical welding It is connected on the center of tempering enclosure, the axle center of the first gear welds together simultaneously with the column of upright post type fixed seat right end And intermesh with sliding tooth plate, the small engagement wheel mechanical is connected to the surface of first gear, and the small engagement wheel passes through the One connecting rod is flexibly connected with the steamboat on the right side of second gear surface, and the steamboat on the right side of the second gear surface passes through second connecting rod It is mechanically connected with the steamboat on the left of second gear surface, the steamboat on the right side of the second gear surface passes through third connecting rod and connecting rod Pushing ram is flexibly connected, and the connecting rod pushing ram is vertically fixed on the lower section of third connecting rod, the connecting rod pushing ram with it is semi-active The left end of bar is mechanically connected, and the right end of the semi-active bar is flexibly connected with the axis wheel of trapezoidal fixing axle wheel seat, described trapezoidal solid Dead axle wheel seat is welded on the right side of sloped footing upper surface, after the sector rotor plate is hinged on trapezoidal fixing axle wheel seat axis wheel It just and with semi-active bar is sequentially connected, the rubber movable block is horizontally fixed on the right side of fan-shaped rotor plate, the hollow folder Tight seat ring around the outer surface for being connected to rubber movable block and with weld together at the top of sloped footing, the hollow clamping seats Mounted on the right side of trapezoidal fixing axle wheel seat, the taper motion bar is installed in the right side of hollow clamping seats and is vertically fixed on The top on the right side above sloped footing, the taper motion bar is flexibly connected with the axle center of big transfer wheel.

Further, the progressive rotating device is equipped with rotating wheel, rotor plate, worm screw, worm gear, first bevel gear, second Bevel gear, connection bearing, nested axis, third hand tap gear, swingle, during the rotating wheel is movably connected in inside rotor plate The heart, the bottom of the rotor plate are flexibly connected with big transfer wheel, and the worm-drive is connected to the right side of rotor plate, the worm gear It is engaged on the outer surface in worm screw stage casing, the first bevel gear is sequentially connected in the lower section of worm gear, the second bevel gear machinery It is connected to the lower right corner of first bevel gear, the third hand tap gear is movably connected in the lower section of second bevel gear, the swingle It is mechanically connected to the lower section of third hand tap gear, the nesting axis is horizontally fixed on the right side of second bevel gear and is connected using activity It connects, the connection bearing is threaded in the right side of nested axis.

Further, the resetting apparatus is equipped with threaded rod, pushes lead screw, lead screw outer barrel, stepping bar, the threaded rod spiral shell Line is connected to the right side of stator winding, the right side for pushing lead screw to be mechanically connected to threaded rod, and the lead screw outer barrel shrouds The outer surface of lead screw, the left end of the stepping bar is pushed to be mechanically connected with lead screw is pushed, the right end and swingle of the stepping bar Flexible connection.

Advantageous effect

A kind of model wind generating device with real time temperature monitoring function of the present invention works in wind power generation plant When, wind blows rotary electrification fan blade and starts to rotate, and makes rotary electrification fan blade that fan blade connector be driven to start to rotate, in priming head The shaft of generator proceeds by rotation, and convert mechanical energy to electric energy transfers out by connection support bar, high aerial sky Gas can enter temperature detector by thermometric groove, and the sensor inside temperature detector is allowed to be detected it, realize to temperature The real-time monitoring of degree when people need to slow down to equipment, can open driving motor master when the rotating speed of equipment is too fast Body makes connection box for motor obtain electric, make rotor obtain it is electric proceed by rotation, forwarded around motor fixing shaft dynamic, drive the One lateral bevel gear rotation, the first lateral bevel gear, which is driven third transverse direction bevel gear by the angular wheel in fixed link, revolves Turn, the lateral bevel gear rotation of priming second again of third transverse direction bevel gear makes the cone tooth of longitudinal bevel gear start to rotate, will be with Engagement rotation gear traction move in a circle, sawtooth above touches the sawtooth in the first Transmission gear, makes first Transmission gear starts to be driven, and interior transfer wheel is acted and power is transferred to the first guiding fixed pulley by the first conduction band, then It is transferred to the second guiding fixed pulley by the second conduction band, all gives orientation rotating wheel finally by the transmission of third conduction band, it is fixed to make It rotates to rotating wheel, the first punch panel is made to rotate, in impact to lower platen, make lower platen with lower platen fixed-cycle It is dynamic, and balance spring is tensed, so that balance spring is shunk, internal central gear drives sector rack to rotate down, and makes sector rack It is rotated along axis fast pulley, while its right end acts upwards, mandril connected ball is driven to move upwards, push release mandril upward, Injection block is struck, so that injection block is compressed torque spring, the hydraulic oil in hydraulic oil cylinder is squeezed, makes hydraulic oil that will eject Block ejects, and lateral mandril is released, and strikes sliding tooth plate sliding, so that rack fixed plate is skidded off, the first gear being engaged with Start to rotate, drive small engagement wheel rotation, first connecting rod, second connecting rod is made to be driven, linkage second gear rotation makes third Connecting rod releases connecting rod pushing ram, strikes semi-active bar, so that semi-active bar is rotated around trapezoidal fixing axle wheel seat, makes sector Rotor plate rotates, and rubber movable block is skidded off, and is slided along hollow clamping seats level, strikes taper motion bar, taper is made to live Lever is rotated along big transfer wheel, and the rotor plate on rotating wheel is driven rotation, so that rotor plate is released worm screw, makes to be engaged with Worm gear first bevel gear driven be driven, the second bevel gear being engaged with rotated, and drives nested shaft rotation dynamic, due to embedding The shaft of head can be braked when nested shaft rotation is dynamic by connecting the shaft backward chaining of bearing and head by covering axis, be dropped The rotating speed of low equipment, second bevel gear can also drive third hand tap gear to be rotated when driving nested shaft rotation dynamic, make the Third hand tap gear band moves swingle rotation, and the gear on the stepping bar being engaged with is made to be rotated, and lead screw is pushed to move ahead, then Threaded rod is promoted, threaded rod is made to touch on stator winding, stator winding is made to embrace rotor, equipment runs out of steam, Play the role of intermittent braking, power generator is prevented to be braked completely.

A kind of model wind generating device with real time temperature monitoring function of the present invention, by equipped with slowing-down structure, Equipment can be braked in time when equipment rotating speed is excessively high, the rotation axis of deceleration mechanism and equipment is made to rub, and When slow down to equipment, so that the speed of equipment is lowered rapidly, prevent the rotating mechanism of equipment from overloading, make power generation process Become more safe.

Description of the drawings

Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other feature of the invention, Objects and advantages will become more apparent upon：

Fig. 1 is a kind of structural schematic diagram of the model wind generating device with real time temperature monitoring function of the present invention.

Fig. 2 is the structural schematic diagram of slowing-down structure of the present invention.

Fig. 3 is the detailed structural schematic diagram of slowing-down structure of the present invention.

Fig. 4 is the structural schematic diagram of slowing-down structure of the present invention work.

In figure：Empennage -1, connection shaft -2, slowing-down structure -3, rotary electrification fan blade -4, head -5, fan blade is balanced afterwards to connect Connector -6, temperature detector -7, thermometric groove -8, connection support bar -9, firm banking -10, motor driver -31, cone tooth Take turns transmitting device -32, pulley transferring structure -33, fluted disc rotating device -34, hydroelastic system structure -35, gear connecting rod conveyer Structure -36, progressive rotating device -37, resetting apparatus -38, tempering shell -39, rotor -311, motor bottom end cover -312, electricity Machine terminal box -313, driving motor main body -314, machine shaft -315, motor fixing shaft hold -316, stator winding -317, first Lateral bevel gear -321, fixed link -322, the second lateral bevel gear -323, the first Transmission gear -324, interior transfer wheel -325, rotation Rotating disk -326, longitudinal bevel gear -327, third transverse direction bevel gear -328, the first conduction band -331, first are oriented to fixed pulley - 332, the second conduction band -333, second are oriented to fixed pulley -334, third conduction band -335, the first punch panel -336, directional rotating Wheel -337, balance spring -342, lower platen -343, axis fast pulley -344, mandril connected ball -345, releases mandril-at sector rack -341 346, lower platen fast pulley -347, injection block -351, hydraulic oil cylinder -352, torque spring -353, angled slide block -354, laterally top Bar -355, sliding tooth plate -356, rack fixed plate -357, upright post type fixed seat -361, first gear -362, small engagement wheel - 363, first connecting rod -364, second connecting rod -365, second gear -366, third connecting rod -367, connecting rod pushing ram -368, semi-active Bar -369, trapezoidal fixing axle wheel seat -3610, fan-shaped rotor plate -3611, hollow clamping seats -3612, sloped footing -3613, taper Motion bar -3614, big transfer wheel -3615, rubber movable block -3616, rotating wheel -371, rotor plate -372, worm screw -373, snail Bar -374, first bevel gear -375, second bevel gear -376, connection bearing -377, nested axis -378, third hand tap gear -379, Swingle -3710, pushes lead screw -382, lead screw outer barrel -383, stepping bar -384 at threaded rod -381.

Specific implementation mode

To make the technical means, the creative features, the aims and the efficiencies achieved by the present invention be easy to understand, with reference to Specific implementation mode, the present invention is further explained.

- Fig. 4 is please referred to Fig.1, the present invention provides a kind of model wind generating device with real time temperature monitoring function：Its Structure balances empennage 1, connection shaft 2, slowing-down structure 3, rotary electrification fan blade 4, head 5, fan blade connector 6, temperature after including Detector 7, thermometric groove 8, connection support bar 9, firm banking 10, the groove that 1 right side of empennage is balanced after described are inserted embedded in connection The right end in the left side of shaft 2, the connection shaft 2 is vertically welded in the left side of slowing-down structure 3, and the fan blade connector 6 passes through Ball bearing is movably connected in the right side of slowing-down structure 3, and the head 5 is horizontally fixed on the right side of fan blade connector 6 and adopts With being welded to connect, the rotary electrification fan blade 4 sets there are three and is equidistantly uniformly fixed by screws in fan blade connector 6 On three angles, the angle between the rotary electrification fan blade 4 is 120 °, and the temperature detector 7 is mounted under slowing-down structure 3 Side, the temperature detector 7 are electrically connected by conducting wire and across slowing-down structure 3, fan blade connector 6 with head 5, the connection The top vertical of supporting rod 9 is welded on the lower section of temperature detector 7, and the thermometric groove 8 is installed in the lower section of temperature detector 7 And pass through 9 positive top of connection support bar, the firm banking 10 be interference fitted in the bottom of connection support bar 9 and mutually Perpendicular, the slowing-down structure 3 is equipped with motor driver 31, bevel gear transmitting device 32, pulley transferring structure 33, fluted disc rotation Rotary device 34, hydroelastic system structure 35, gear connecting rod transmission mechanism 36, progressive rotating device 37, resetting apparatus 38, tempering shell 39, the motor driver 31 is welded on the lower left corner inside tempering shell 39, and 32 machinery of the bevel gear transmitting device is even It is connected on the top of motor driver 31, the pulley transferring structure 33 is installed in the upper right corner of bevel gear transmitting device 32, institute It states pulley transferring structure 33 to be sequentially connected with bevel gear transmitting device 32, the fluted disc rotating device 34 is movably connected in pulley biography The bottom of 33 right end of structure is passed, the top of the fluted disc rotating device 34 is connect with the bottom driving of hydroelastic system structure 35, institute The top for stating hydroelastic system structure 35 is welded on the stage casing of 39 inside top of tempering shell, and the gear connecting rod transmission mechanism 36 fills It is located at the right side of hydroelastic system structure 35, the gear connecting rod transmission mechanism 36 is sequentially connected with hydroelastic system structure 35, described The right end of gear connecting rod transmission mechanism 36 is connect with the bottom mechanical in 37 left side of progressive rotating device, the progressive rotating device 37 Bottom and the resetting apparatus 38 of right end be sequentially connected, the left end of the resetting apparatus 38 with 31 machinery of motor driver even It connects, the motor driver 31 is equipped with rotor 311, motor bottom end cover 312, connection box for motor 313, driving motor main body 314, machine shaft 315, motor fixing shaft hold 316, stator winding 317, and the motor bottom end cover 312 is threaded in driving electricity The bottom of owner's body 314, the connection box for motor 313 are connected electrically in the left end of driving motor main body 314, the stator winding 317 left and right ends for setting there are two and being horizontally fixed on inside driving motor main body 314, the rotor 311 are installed in The inside of driving motor main body 314 and with the stator winding at both ends 317 be mechanically connected, the motor fixing shaft hold 316 activity Be connected to the port at the top of driving motor main body 314, the machine shaft 315 be welded on the top of rotor 311 and with Motor fixing shaft holds 316 flexible connections, and the machine shaft 315 and driving motor main body 314 are orthogonal, and the bevel gear passes Defeated device 32 is equipped with the lateral bevel gear 323 of the first lateral bevel gear 321, fixed link 322, second, the first Transmission gear 324, interior Transfer wheel 325, rotation gear 326, longitudinal bevel gear 327, third transverse direction bevel gear 328, the described first lateral bevel gear 321 Bottom is welded on the top of machine shaft 315, and the fixed link 322 is vertically welded in the left end inside tempering shell 39 and the right side End is welded transmission bevel gear, and the third transverse direction bevel gear 328 is engaged on above the transmission bevel gear of 322 right end of fixed link, Described second lateral bevel gear 323 is sequentially connected in the top of third transverse direction bevel gear 328, and the longitudinal direction bevel gear 327 is installed In the top of the second lateral bevel gear 323, the longitudinal direction bevel gear 327 is intermeshed with the second lateral bevel gear 323, the rotation The bottom of rotating disk 326 is flexibly connected with longitudinal bevel gear 327, the top of the rotation gear 326 and the first Transmission gear 324 The sawtooth of outer surface is meshed, and the interior transfer wheel 325 is mechanically connected to the inside of rotation gear 326, and the pulley transmits knot Structure 33 is equipped with the first conduction band 331, first and is oriented to fixed pulley 332, the second conduction band 333, second guiding fixed pulley 334, third Conduction band 335, the first punch panel 336, directional rotating wheel 337, the first guiding fixed pulley 332 are fixed by pulley fixed column Top inside tempering shell 39, described first, which is oriented to fixed pulley 332, is passed by the first conduction band 331 with interior transfer wheel 325 Dynamic connection, described first is oriented to fixed pulley 332 is oriented to the drive connection of fixed pulley 334 by the second conduction band 333 and second, described Second guiding fixed pulley 334 is installed in the right side of the first guiding fixed pulley 332 and parallel to each other, the second guiding fixed pulley 334 are intertwined by third conduction band 335 and directional rotating wheel 337, and described second is oriented to fixed pulley 334 and directional rotating Wheel 337 is sequentially connected, and first punch panel 336 is mechanically connected on the axle center of directional rotating wheel 337, the fluted disc rotating dress Set 34 be equipped with sector rack 341, balance spring 342, lower platen 343, axis fast pulley 344, mandril connected ball 345, release mandril 346, Lower platen fast pulley 347, the lower platen 343 are L-type structure, 336 activity of the left end of the lower platen 343 and the first punch panel Connection, the axis fast pulley 344 is horizontally fixed on the bending place of lower platen 343 and is flexibly connected with sector rack 341, described Balance spring 342 is mechanically connected to the top of 343 horizontal ends of lower platen, and left end and 342 activity of balance spring of the sector rack 341 connect It connects, the lower platen fast pulley 347 is hinged on the top of 343 vertical section end surfaces of lower platen, 345 activity of the mandril connected ball It is connected in the groove of 341 right end face of sector rack, the top released mandril 346 and be welded on mandril connected ball 345, institute State hydroelastic system structure 35 equipped with injection block 351, hydraulic oil cylinder 352, torque spring 353, angled slide block 354, lateral mandril 355, Tooth plate 356, rack fixed plate 357 are slided, the injection block 351 is mechanically connected to the top for releasing mandril 346, the hydraulic oil The top of 352 welding of cylinder is welded on the stage casing of the inside top of tempering shell 39, both ends and the hydraulic oil cylinder of the injection block 351 The groove gap of 352 bottoms coordinates, and the bottom and the top of injection block 351 of the torque spring 353 weld together, the torsion The top of power spring 353 welds together with the top inside hydraulic oil cylinder 352, and the angled slide block 354 is movably connected in hydraulic pressure Right end inside oily cylinder 352, the transverse direction mandril 355 are vertically fixed on the right end of angled slide block 354 and pass through hydraulic oil cylinder 352 Right surface, the rack fixed plate 357 is installed in the right side of hydraulic oil cylinder 352 and welds together with tempering shell 39, The sliding tooth plate 356 is slidably connected at the lower section of rack fixed plate 357 and is flexibly connected with lateral mandril 355, the tooth It takes turns connecting rod transmission mechanism 36 and is equipped with upright post type fixed seat 361, first gear 362, small engagement wheel 363, first connecting rod 364, second Connecting rod 365, second gear 366, third connecting rod 367, connecting rod pushing ram 368, semi-active bar 369, trapezoidal fixing axle wheel seat 3610, Fan-shaped rotor plate 3611, hollow clamping seats 3612, sloped footing 3613, taper motion bar 3614, big transfer wheel 3615, rubber move Motion block 3616, the upright post type fixed seat 361 are vertically welded in the center inside tempering shell 39, the first gear 362 The column of axle center and 361 right end of upright post type fixed seat welds together and intermeshes with sliding tooth plate 356, the small engagement Wheel 363 is mechanically connected to the surface of first gear 362, and the small engagement wheel 363 passes through first connecting rod 364 and second gear 366 Steamboat on the right side of surface is flexibly connected, and the steamboat on the right side of 366 surface of the second gear passes through second connecting rod 365 and second gear Steamboat on the left of 366 surfaces is mechanically connected, and the steamboat on the right side of 366 surface of the second gear passes through third connecting rod 367 and connecting rod Pushing ram 368 is flexibly connected, and the connecting rod pushing ram 368 is vertically fixed on the lower section of third connecting rod 367, the connecting rod pushing ram 368 are mechanically connected with the left end of semi-active bar 369, the axis of the right end of the semi-active bar 369 and trapezoidal fixing axle wheel seat 3610 Wheel flexible connection, the trapezoidal fixing axle wheel seat 3610 are welded on the right side of 3613 upper surface of sloped footing, the fan-shaped rotation Plate 3611 is hinged on the rear of 3610 axis wheel of trapezoidal fixing axle wheel seat and is sequentially connected with semi-active bar 369, and the rubber moves Motion block 3616 is horizontally fixed on the right side of fan-shaped rotor plate 3611, and the hollow clamping seats 3612 surround and are connected to rubber movable block 3616 outer surface and weld together with the top of sloped footing 3613, the hollow clamping seats 3612 are mounted on trapezoidal solid The right side of dead axle wheel seat 3610, the taper motion bar 3614 are installed in the right side of hollow clamping seats 3612 and are vertically fixed on The right side of 3613 top of sloped footing, the top of the taper motion bar 3614 are flexibly connected with the axle center of big transfer wheel 3615, The progressive rotating device 37 is equipped with rotating wheel 371, rotor plate 372, worm screw 373, worm gear 374, first bevel gear 375, second Bevel gear 376, connection bearing 377, nested axis 378, third hand tap gear 379, swingle 3710,371 activity of the rotating wheel is even It is connected on the center inside rotor plate 372, the bottom of the rotor plate 372 is flexibly connected with big transfer wheel 3615, the worm screw 373 It is sequentially connected on the right side of rotor plate 372, the worm gear 374 is engaged on the outer surface in 373 stage casing of worm screw, the first bevel gear 375 are sequentially connected in the lower section of worm gear 374, and the second bevel gear 376 is mechanically connected to the lower right corner of first bevel gear 375, The third hand tap gear 379 is movably connected in the lower section of second bevel gear 376, and the swingle 3710 is mechanically connected to third cone The lower section of gear 379, the nesting axis 378 is horizontally fixed on the right side of second bevel gear 376 and using flexible connection, described Connection bearing 377 is threaded in the right side of nested axis 378, the resetting apparatus 38 be equipped with threaded rod 381, push lead screw 382, Lead screw outer barrel 383, stepping bar 384, the threaded rod 381 are threaded in the right side of stator winding 317, the promotion lead screw 382 are mechanically connected to the right side of threaded rod 381, and the lead screw outer barrel 383 is shrouded in the outer surface for pushing lead screw 382, the step Left end into bar 384 is mechanically connected with lead screw 382 is pushed, and the right end of the stepping bar 384 is flexibly connected with swingle 3710.

Torque spring 353 of the present invention is a kind of machinery storage power structure, passes through the bullet soft to material, toughness is larger Property material distortion or rotation carry out storage power, utilize, making to be launched object has certain mechanical energy.

When wind power generation plant works, wind blows rotary electrification fan blade 4 and starts to rotate, and rotary electrification fan blade 4 is made to drive Fan blade connector 6 starts to rotate, and the shaft of generator proceeds by rotation in priming head 5, converts mechanical energy to electric energy warp It crosses connection support bar 9 to transfer out, high aerial air can enter temperature detector 7 by thermometric groove 8, allow temperature detector Sensor inside 7 is detected it, realizes the real-time monitoring to temperature, when the rotating speed of equipment is too fast, people's needs pair When equipment is slowed down, driving motor main body 314 can be opened, so that connection box for motor 313 is obtained electric, so that rotor 311 is obtained electric Rotation is proceeded by, 316 rotations are held around motor fixing shaft, drives the first lateral bevel gear 321 to rotate, first laterally bores tooth Wheel 321, which is driven third transverse direction bevel gear 328 by the angular wheel in fixed link 322, to be rotated, and third transverse direction bevel gear 328 is again The lateral bevel gear 323 of priming second rotates, and makes the cone tooth of longitudinal bevel gear 327 start to rotate, the rotation that will be engaged with The traction of gear 326 moves in a circle, and sawtooth above touches the sawtooth in the first Transmission gear 324, makes the first transmission tooth Wheel 324 starts to be driven, and interior transfer wheel 325 is acted and power is transferred to the first guiding fixed pulley by the first conduction band 331 332, then the second guiding fixed pulley 334 is transferred to by the second conduction band 333, it is all given finally by the transmission of third conduction band 335 Directional rotating wheel 337 makes directional rotating wheel 337 rotate, and the first punch panel 336 is made to rotate, in impact to lower platen 343, So that lower platen 343 is rotated with lower platen fast pulley 347, and balance spring 342 is tensed, balance spring 342 is made to shrink, in internal Heart gear drives sector rack 341 to rotate down, and so that sector rack 341 is rotated along axis fast pulley 344, while its right end is upward Action drives mandril connected ball 345 to move upwards, and pushes and releases mandril 346 upwards, strikes injection block 351, make injection block 351 compression torque springs 353, the hydraulic oil in hydraulic oil cylinder 352 is squeezed, hydraulic oil is made to eject angled slide block 354, will Lateral mandril 355 is released, and is struck sliding tooth plate 356 and is slided, so that rack fixed plate 357 is skidded off, the first gear being engaged with 362 start to rotate, and drive small 363 rotation of engagement wheel, so that first connecting rod 364, second connecting rod 365 is driven, link the second tooth 366 rotation of wheel, makes third connecting rod 367 release connecting rod pushing ram 368, strikes semi-active bar 369, semi-active bar 369 is made to enclose It is rotated around trapezoidal fixing axle wheel seat 3610, so that fan-shaped rotor plate 3611 is rotated, rubber movable block 3616 is skidded off, along hollow The horizontal sliding of clamping seats 3612, strikes taper motion bar 3614, taper motion bar 3614 is made to be rotated along big transfer wheel 3615, Rotor plate 372 on rotating wheel 371 is driven into rotation, so that rotor plate 372 is released worm screw 373, makes the worm gear being engaged with 374 First bevel gear 375 is driven and is driven, the second bevel gear 376 being engaged with is rotated, and nested axis 378 is driven to rotate, by It can be to head 5 when nested axis 378 rotates by connecting the shaft backward chaining of bearing 377 and head 5 in nested axis 378 Shaft is braked, and reduces the rotating speed of equipment, and second bevel gear 376 can also drive the when driving nested axis 378 to rotate Third hand tap gear 379 is rotated, and is made third hand tap gear 379 that swingle 3710 be driven to rotate, is made on the stepping bar 384 being engaged with Gear rotated, push lead screw 382 to move ahead, then threaded rod 381 promoted, make threaded rod 381 touch stator around In group 317, stator winding 317 is made to embrace rotor 311, equipment runs out of steam, and plays the role of intermittent braking, prevents Power generator is braked completely.

Problems solved by the invention is the rotating speed that prior art people excessively pay attention to generator, continuous lifting means shaft Rotating speed, in the hope of generating more electric energy, being promoted to certain amplitude in rotating speed can not enough decline and can overload, and cause in equipment Mechanical organ bearing capacity reaches capacity, and machine operation amplitude is excessive, is damaged to equipment, and the present invention is mutual by above-mentioned component It is combined, equipment can be braked in time when equipment rotating speed is excessively high, the rotation axis of deceleration mechanism and equipment is made to carry out Friction, in time slows down to equipment, so that the speed of equipment is lowered rapidly, prevent the rotating mechanism of equipment from overloading, make Power generation process becomes more safe.

The above shows and describes the basic principles and main features of the present invention and the advantages of the present invention, for this field skill For art personnel, it is clear that invention is not limited to the details of the above exemplary embodiments, and without departing substantially from the present invention spirit or In the case of essential characteristic, the present invention can be realized in other specific forms.Therefore, in all respects, should all incite somebody to action Embodiment regards exemplary as, and is non-limiting, the scope of the present invention by appended claims rather than on state Bright restriction, it is intended that including all changes that come within the meaning and range of equivalency of the claims in the present invention It is interior.Any reference signs in the claims should not be construed as limiting the involved claims.

In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art The other embodiment being appreciated that.

Claims (9)

1. a kind of model wind generating device with real time temperature monitoring function, structure balances empennage (1), connection after including Shaft (2), slowing-down structure (3), rotary electrification fan blade (4), head (5), fan blade connector (6), temperature detector (7), thermometric Groove (8), connection support bar (9), firm banking (10), it is characterised in that：

Groove after described on the right side of balance empennage (1) is inserted embedded in the left side of connection shaft (2), the right end of the connection shaft (2) It is vertically welded in the left side of slowing-down structure (3), the fan blade connector (6) is movably connected in slowing-down structure by ball bearing (3) right side, the head (5) are horizontally fixed on the right side of fan blade connector (6) and using being welded to connect, and the rotation is sent out Electric wind leaf (4) sets there are three and is equidistantly uniformly fixed by screws on three angles of fan blade connector (6), the rotation Angle between power generation fan blade (4) is 120 °, and the temperature detector (7) is mounted on the lower section of slowing-down structure (3), the temperature Detector (7) is electrically connected by conducting wire and across slowing-down structure (3), fan blade connector (6) with head (5), the connection branch The top vertical of strut (9) is welded on the lower section of temperature detector (7), and the thermometric groove (8) is installed in temperature detector (7) Lower section and pass through connection support bar (9) positive top, the firm banking (10) is interference fitted in connection support bar (9) Bottom and orthogonal；

The slowing-down structure (3) be equipped with motor driver (31), bevel gear transmitting device (32), pulley transferring structure (33), Fluted disc rotating device (34), gear connecting rod transmission mechanism (36), progressive rotating device (37), resets hydroelastic system structure (35) Device (38), tempering shell (39)；

The motor driver (31) is welded on the internal lower left corner of tempering shell (39), the bevel gear transmitting device (32) It is mechanically connected to the top of motor driver (31), the pulley transferring structure (33) is installed in bevel gear transmitting device (32) The upper right corner, the pulley transferring structure (33) and bevel gear transmitting device (32) be sequentially connected, the fluted disc rotating device (34) bottom of pulley transferring structure (33) right end, the top of the fluted disc rotating device (34) and hydroelastic system are movably connected in The bottom driving of structure (35) connects, and tempering shell (39) inside top is welded at the top of the hydroelastic system structure (35) Stage casing, the gear connecting rod transmission mechanism (36) are installed in the right side of hydroelastic system structure (35), the gear connecting rod conveyer Structure (36) is sequentially connected with hydroelastic system structure (35), right end and the progressive rotating device of the gear connecting rod transmission mechanism (36) (37) the bottom mechanical connection on the left of, bottom and resetting apparatus (38) transmission of the right end of the progressive rotating device (37) connect It connects, left end and the motor driver (31) of the resetting apparatus (38) are mechanically connected.

2. a kind of model wind generating device with real time temperature monitoring function according to claim 1, feature exist In：The motor driver (31) is equipped with rotor (311), motor bottom end cover (312), connection box for motor (313), driving Motor body (314), machine shaft (315), motor fixing shaft hold (316), stator winding (317), the motor bottom end cover (312) it is threaded in the bottom of driving motor main body (314), the connection box for motor (313) is connected electrically in driving motor master The left end of body (314), the stator winding (317) set there are two and are horizontally fixed on driving motor main body (314) inside Left and right ends, the rotor (311) are installed in the inside of driving motor main body (314) and the stator winding with both ends (317) it is mechanically connected, the motor fixing shaft holds the port that (316) are movably connected at the top of driving motor main body (314), described Machine shaft (315) is welded on the top of rotor (311) and holds (316) with motor fixing shaft and is flexibly connected, the electricity Machine shaft (315) and driving motor main body (314) are orthogonal.

3. a kind of model wind generating device with real time temperature monitoring function according to claim 1, feature exist In：The bevel gear transmitting device (32) is equipped with the first lateral bevel gear (321), fixed link (322), the second lateral bevel gear (323), the first Transmission gear (324), interior transfer wheel (325), rotation gear (326), longitudinal bevel gear (327), third are lateral The bottom of bevel gear (328), the described first lateral bevel gear (321) is welded on the top of machine shaft (315), the fixed link (322) it is vertically welded in the internal left end of tempering shell (39) and right end is welded transmission bevel gear, the third is laterally bored Gear (328) is engaged on above the transmission bevel gear of fixed link (322) right end, and the described second lateral bevel gear (323), which is driven, to be connected It is connected on the top of third transverse direction bevel gear (328), the longitudinal direction bevel gear (327) is installed in the second lateral bevel gear (323) Top, the longitudinal direction bevel gear (327) are intermeshed with the second lateral bevel gear (323), the bottom of the rotation gear (326) It is flexibly connected with longitudinal bevel gear (327), top and the first Transmission gear (324) outer surface of the rotation gear (326) Sawtooth is meshed, and the interior transfer wheel (325) is mechanically connected to the inside of rotation gear (326).

4. a kind of model wind generating device with real time temperature monitoring function according to claim 1, feature exist In：The pulley transferring structure (33) is equipped with the first conduction band (331), the first guiding fixed pulley (332), the second conduction band (333), second fixed pulley (334), third conduction band (335), the first punch panel (336), directional rotating wheel (337), institute are oriented to It states the first guiding fixed pulley (332) and the internal top of tempering shell (39) is fixed on by pulley fixed column, described first is oriented to Fixed pulley (332) is sequentially connected by the first conduction band (331) and interior transfer wheel (325), and described first is oriented to fixed pulley (332) Fixed pulley (334) is oriented to by the second conduction band (333) with second to be sequentially connected, the second guiding fixed pulley (334) is installed It is oriented to the fixed pulley right side of (332) and parallel to each other first, the second guiding fixed pulley (334) passes through third conduction band (335) it is intertwined with directional rotating wheel (337), described second is oriented to fixed pulley (334) is driven with directional rotating wheel (337) Connection, first punch panel (336) are mechanically connected on the axle center of directional rotating wheel (337).

5. a kind of model wind generating device with real time temperature monitoring function according to claim 1, feature exist In：The fluted disc rotating device (34) be equipped with sector rack (341), balance spring (342), lower platen (343), axis fast pulley (344), Mandril connected ball (345) releases mandril (346), lower platen fast pulley (347), and the lower platen (343) is L-type structure, described The left end of lower platen (343) is flexibly connected with the first punch panel (336), and the axis fast pulley (344) is horizontally fixed on lower platen (343) it bending place and is flexibly connected with sector rack (341), the balance spring (342) is mechanically connected to lower platen (343) water The left end of the top of flush end, the sector rack (341) is flexibly connected with balance spring (342), lower platen fast pulley (347) hinge It is connected on the top of lower platen (343) vertical section end surfaces, the mandril connected ball (345) is movably connected in sector rack (341) In the groove of right end face, the top released mandril (346) and be welded on mandril connected ball (345).

6. a kind of model wind generating device with real time temperature monitoring function according to claim 1, feature exist In：The hydroelastic system structure (35) is equipped with injection block (351), hydraulic oil cylinder (352), torque spring (353), angled slide block (354), lateral mandril (355), sliding tooth plate (356), rack fixed plate (357), the injection block (351), which is mechanically connected to, to push away Go out the top of mandril (346), the top of hydraulic oil cylinder (352) welding is welded in the inside top of tempering shell (39) Section, the both ends of the injection block (351) coordinate with the groove gap of hydraulic oil cylinder (352) bottom, the torque spring (353) Weld together at the top of bottom and injection block (351), the top of the torque spring (353) and hydraulic oil cylinder (352) are internal Top weld together, the angled slide block (354) is movably connected in the internal right end of hydraulic oil cylinder (352), the laterally top Bar (355) is vertically fixed on the right end of angled slide block (354) and the right surface across hydraulic oil cylinder (352), the rack are fixed Plate (357) is installed in the right side of hydraulic oil cylinder (352) and welds together with tempering shell (39), the sliding tooth plate (356) it is slidably connected at the lower section of rack fixed plate (357) and is flexibly connected with lateral mandril (355).

7. a kind of model wind generating device with real time temperature monitoring function according to claim 1, feature exist In：The gear connecting rod transmission mechanism (36) be equipped with upright post type fixed seat (361), first gear (362), small engagement take turns (363), First connecting rod (364), second connecting rod (365), second gear (366), third connecting rod (367), connecting rod pushing ram (368), half live Lever (369), trapezoidal fixing axle wheel seat (3610), fan-shaped rotor plate (3611), hollow clamping seats (3612), sloped footing (3613), taper motion bar (3614), big transfer wheel (3615), rubber movable block (3616), the upright post type fixed seat (361) It is vertically welded in the internal center of tempering shell (39), the axle center of the first gear (362) and upright post type fixed seat (361) are right The column at end welds together and intermeshes with sliding tooth plate (356), and the small engagement wheel (363) is mechanically connected to first The surface of gear (362), the small engagement wheel (363) by first connecting rod (364) with it is small on the right side of second gear (366) surface Wheel is flexibly connected, and the steamboat on the right side of second gear (366) surface passes through second connecting rod (365) and second gear (366) table The steamboat of left side of face is mechanically connected, and the steamboat on the right side of second gear (366) surface is pushed away by third connecting rod (367) with connecting rod It is flexibly connected into bar (368), the connecting rod pushing ram (368) is vertically fixed on the lower section of third connecting rod (367), and the connecting rod pushes away It is mechanically connected into the left end of bar (368) and semi-active bar (369), right end and the trapezoidal fixing axle wheel of the semi-active bar (369) The axis wheel flexible connection of seat (3610), the trapezoidal fixing axle wheel seat (3610) are welded on the right side of sloped footing (3613) upper surface Side, it is described sector rotor plate (3611) be hinged on trapezoidal fixing axle wheel seat (3610) axis wheel rear and with semi-active bar (369) it is sequentially connected, the rubber movable block (3616) is horizontally fixed on the right side of fan-shaped rotor plate (3611), the hollow folder Tight seat (3612) around the outer surface for being connected to rubber movable block (3616) and be welded at the top of sloped footing (3613) Together, the hollow clamping seats (3612) are mounted on the right side of trapezoidal fixing axle wheel seat (3610), the taper motion bar (3614) right side for being installed in the right side of hollow clamping seats (3612) and being vertically fixed on above sloped footing (3613), it is described The top of taper motion bar (3614) is flexibly connected with the axle center of big transfer wheel (3615).

8. a kind of model wind generating device with real time temperature monitoring function according to claim 1, feature exist In：The progressive rotating device (37) is equipped with rotating wheel (371), rotor plate (372), worm screw (373), worm gear (374), the first cone Gear (375), second bevel gear (376), connection bearing (377), nested axis (378), third hand tap gear (379), swingle (3710), the rotating wheel (371) is movably connected in the internal center of rotor plate (372), the bottom of the rotor plate (372) with Big transfer wheel (3615) flexible connection, the worm screw (373) are sequentially connected in the right side of rotor plate (372), the worm gear (374) It is engaged on the outer surface in worm screw (373) stage casing, the first bevel gear (375) is sequentially connected in the lower section of worm gear (374), described Second bevel gear (376) is mechanically connected to the lower right corner of first bevel gear (375), third hand tap gear (379) flexible connection Lower section in second bevel gear (376), the swingle (3710) is mechanically connected to the lower section of third hand tap gear (379), described Nested axis (378) is horizontally fixed on the right side of second bevel gear (376) and using flexible connection, the connection bearing (377) It is threaded in the right side of nested axis (378).

9. a kind of model wind generating device with real time temperature monitoring function according to claim 1, feature exist In：The resetting apparatus (38) is equipped with threaded rod (381), pushes lead screw (382), lead screw outer barrel (383), stepping bar (384), institute The right side that threaded rod (381) is threaded in stator winding (317) is stated, the promotion lead screw (382) is mechanically connected to threaded rod (381) right side, the lead screw outer barrel (383) are shrouded on the outer surface for pushing lead screw (382), a left side for the stepping bar (384) End is mechanically connected with lead screw (382) is pushed, and the right end of the stepping bar (384) is flexibly connected with swingle (3710).