CN212427344U - Rainwater collection device for building site - Google Patents

Abstract

The invention provides a rainwater collecting device for a building site, and belongs to the technical field of building construction. The technical scheme is as follows: the output setting of support is in building the canopy, the input setting of support is outside building the canopy, the input of support is provided with conveying mechanism, the output of support is provided with the bracket, be provided with the breach on the ring of bracket, the bracket up end is provided with rotary mechanism, the chamber is placed to last being provided with of rotary mechanism, the breach department of bracket sets up pushing mechanism, pushing mechanism one side is provided with emptys the mechanism, pushing mechanism will contain the rain barrel propelling movement of rainwater to emptys the mechanism on, it is provided with the collection tank to empty the mechanism bottom, collection tank upper end opening, the lower extreme is provided with the outlet pipe, be provided with the valve on the outlet pipe, opening. The invention has the beneficial effects that: the problem that the rainwater wastes time and energy, the problem that the rainwater barrel is carried to avoid the manual work wastes time and energy and the technical problem that the rainwater can be led out from the collecting tank by the high-pressure pump can be solved.

Description

Rainwater collection device for building site

Technical Field

The application relates to building construction technical field especially relates to a rainwater collection device for building site.

Background

With the rapid development of economic society, the requirements on building construction are higher and higher. In recent years, environmental problems caused by building construction have become a major concern. With the increasing of air pollution, the situation that soil in a construction site is brought out of a construction site to pollute a road to cause dust pollution is increased, wherein particularly, a slag car or a concrete transport vehicle enters and exits the construction site every day, a plurality of soil exist in vehicle tires and a chassis, the slag car or the concrete transport vehicle brings the soil to the road to pollute the road surface, and dust in the soil floats in the air to cause the air pollution. Usually, a slag car or a concrete transport vehicle is washed by high-pressure water at a plurality of angles, so that mud blocks mixed in the middle of a tire and under a chassis can be thoroughly removed, but a large amount of water resources are wasted by adopting high-pressure water washing. Taking the project of Chengdu Yintai as an example, the daily water consumption for flushing the toilet and the vehicles out of the door on the whole site of the project is as follows: 1.728m³12/h (water consumption per hour) 20.7m³And d. With the rapid development of socioeconomic of China, water resources are increasingly in short supply, water pollution is more serious, and the contradiction between supply and demand of water is increasingly prominent, which becomes an important factor for limiting the industrial and agricultural production and urban development of China.

Rainwater is the most fundamental, most direct and most economic water resource and is ignored by people for a long time, the rainwater collection and comprehensive utilization can reduce the exploitation of underground water, and can also supplement partial underground water, reduce the pressure of the whole natural water circulation system, reduce the water and soil loss, and have great significance for building ecological agriculture, ecological cities and protecting the environment. Common rainwater utilization technologies can be divided into rainwater collection, rainwater treatment and rainwater supply, wherein the rainwater collection methods mainly include the following three methods: the rainwater collecting and storing system is used for collecting rainwater on the roof, and the collected rainwater is mainly used for non-drinking water of families, public places and enterprises; secondly, a rainwater sewage interception and infiltration system; and thirdly, the rainwater utilization system of the ecological community is characterized in that a penetration shallow trench is arranged between the communities along the drainage channel, and turf is planted on the surface of the communities for rainwater to flow through and seep downwards.

The application of the slag transport vehicle and the concrete transport vehicle in the construction site mainly adopts non-drinking water, so that a roof rainwater collecting and storing system is mainly adopted, and rainwater in a building house is lighter in pollution degree and better in water quality, so that the direct utilization value is better.

The construction site mainly adopts artifical the collection to the collection of rainwater, and the manual work is placed flourishing water receptacle and is carried out the rainwater collection under the eave, and this container is collected after full, emptys into the rainwater collection tank with the rainwater of collecting again, and artifical collection efficiency is not high to waste time and energy, when needs wash the vehicle, adopt the high-pressure pump to draw water from the rainwater collection tank, artifical washing the vehicle again.

At present, rainwater collecting devices exist in the market, for example, a rainwater collecting device is disclosed in a Chinese utility model patent with an authorization notice number of CN209585165U and a name of 'a rainwater collecting device', rainwater is collected by adopting a rainwater collecting box I, a rainwater collecting box II, a purifying box and a water storage tank, rainwater in the rainwater collecting box I and the rainwater collecting box II is collected into the water storage tank after a series of treatments, although the disclosed patent can realize rainwater collection, the following defects exist, firstly, the whole rainwater collecting device is arranged in the open air, rainwater is possibly acidic, and the whole device is corrosive; secondly, the rainwater collection device adopts a water storage tank, the capacity of the water storage tank is limited, and therefore the quantity of collected rainwater is also limited.

In order to solve the drawback of open-air setting, for example, grant notice No. CN204212216U, the name is "public plastics chair rainwater collection device" the Chinese utility model discloses, be equipped with on public seat and hide the rain platform, rainwater collection platform can hide rain, can collect the rainwater simultaneously again, although this kind of operation can collect the rainwater, the rainwater of collecting must be in the rainwater collection tank of artifical transport to set up rainwater collection platform on public seat, because the weight of rainwater, can be to oppression platform, cause the damage for the platform, influence life.

Overall the above method can solve the problem of rainwater collection to some extent, but still has certain technical problems: (1) the rain receiving barrel must be manually placed under the eave; (2) after the rain receiving barrel is full of rainwater, the rain receiving barrel needs to be manually transported to a rainwater collecting tank; (3) the rainwater in the rainwater collection tank can be guided into the high-pressure water gun by adopting the high-pressure pump to clean the vehicle.

SUMMERY OF THE UTILITY MODEL

An object of the application is to provide a rainwater collection device for building site to solve the artifical rainwater that connects that will empty and place under the eave, need artifical rainwater with collecting and empty into rainwater collection tank and take out the technical problem of difficulty from rainwater collection tank with rainwater in.

The method is realized by the following steps:

a rainwater collecting device for a building site comprises a support, wherein the support comprises an input end and an output end, the output end of the support is arranged in a building shed, the input end of the support is arranged outside the building shed, the input end of the support is provided with a conveying mechanism, the output end of the support is provided with a bracket, the bracket is in a circular ring shape, a notch is formed in the circular ring of the bracket, the upper end face of the bracket is provided with a rotating mechanism, a placing cavity is formed in the rotating mechanism, the conveying mechanism conveys empty rainwater buckets to eave positions to receive rainwater and conveys the rainwater filled in the placing cavity back, a pushing mechanism is arranged at the notch of the bracket, the rotating mechanism rotates to convey the rainwater filled in the buckets to the pushing mechanism, an overturning mechanism is arranged on one side of the pushing mechanism, and the pushing mechanism pushes the rainwater filled in the overturning mechanism, a collecting tank is arranged at the bottom of the dumping mechanism, the upper end of the collecting tank is opened, a water outlet pipe is arranged at the lower end of the collecting tank, a valve is arranged on the water outlet pipe, and the valve controls the opening and closing of the water outlet pipe;

the conveying mechanism is arranged on the upper layer of the support and comprises a bottom plate, the bottom plate is arranged on the support, guide rods are symmetrically arranged on the bottom plate, sliding blocks are arranged on the guide rods, a belt conveying assembly is arranged on the bottom plate and drives the sliding blocks to do linear reciprocating motion along the guide rods;

the bracket is arranged on the upper layer of the bracket, the rotating mechanism comprises an intermittent crossing mechanism and a rotating frame, the intermittent crossing mechanism is arranged on the lower layer of the bracket, the rotating frame is arranged on the upper layer of the bracket, the intermittent crossing mechanism is connected with the rotating frame, the intermittent crossing mechanism drives the rotating frame to intermittently rotate, the rotating frame is provided with the placing cavities, the placing cavities are uniformly distributed on the outer circumference of the rotating frame, and the openings of the placing cavities face the outer side of the circumference of the rotating frame;

the pushing mechanism comprises a substrate, a worm gear transmission mechanism is arranged at one end of the substrate, a cam is arranged on the worm gear transmission mechanism, a moving mechanism is arranged at the other end of the substrate, a connecting rod mechanism is arranged between the moving mechanism and the cam, the worm gear transmission mechanism drives the cam to rotate, the cam rotates and drives the moving mechanism to do linear reciprocating motion through the connecting rod mechanism, a supporting rod is arranged at the bottom of the substrate, and the supporting rod is arranged at the lower layer of the support;

the supporting frames are symmetrically arranged on two sides of the pushing mechanism, the dumping mechanism is arranged on the supporting frames and comprises supporting plates, a pull rod is arranged between the supporting plates and the supporting frames, an electric push rod is arranged on the pull rod, a piston rod of the electric push rod is fixedly connected with the pull rod, a push rod seat of the electric push rod is fixedly connected with the supporting frames, and the supporting plates are flush with the upper end faces of the supports;

the lower layer of the support extends out of the cross rod, the collecting tank and the support are arranged on the cross rod

The beneficial effect of this application: the bracket has the bearing function, the collecting tank is convenient to be integrally improved, the rainwater can flow from the upper end to the lower end through the gravity of the rainwater, the rainwater can be led out from the collecting tank without a high-pressure pump, the slag car is convenient to clean, the bracket is divided into an input end and an output end, the description is convenient, the connection relation among the structures in the application can be more clearly understood, the output end of the bracket comprises a motor A, an electric push rod and a motor C, in order to avoid the rain of electronic elements at the output end, the output end is arranged in the building shed, the building shed has the function of rain shielding, the input end of the bracket is mainly a transportation mechanism, the motor B in the transportation mechanism can be arranged in the rain shielding, only a guide rod, a fixed seat, a sliding block and a driven wheel in the transportation mechanism are exposed to the rain, the condition of open-air arrangement is reduced to the greatest extent, and the design mode can, conveying mechanism can place empty rain barrel and connect rain under the eave, and will connect the rain barrel of full rainwater to return, avoid artifical transport rain barrel drawback that wastes time and energy, the effect of bracket holds the rain barrel, the design of breach on the bracket is installation push mechanism, when the rain barrel of full rainwater rotates to breach department, the rain barrel holds through the support, then through push mechanism propelling movement to topple over the mechanism, through toppling over the mechanism with the rainwater fall into in the collection tank, the drawback that the rainwater wastes time and energy that needs the manual work to topple over can be solved to this kind of design. The support is arranged into a two-layer structure, an intermittent cross mechanism is convenient to install on the lower layer, a conveying mechanism, a rotating frame, a pushing mechanism and a dumping mechanism are convenient to install on the upper layer, and the conveying mechanism, the rotating frame, the pushing mechanism and the dumping mechanism are structurally independent and supplement each other in function. The bottom plate has the effect of bearing, be convenient for realize the fixed connection of conveying mechanism and support, the guide bar has direction and spacing function, guarantee that the sliding block is according to straight reciprocating motion, the effect of sliding block is in order to place the rain barrel, place empty rain barrel when removing to the eave, place the rain barrel that is full of the rainwater when removing to the output, belt conveyor subassembly can be used to the great transmission of diaxon central distance, the area has elasticity, can alleviate impact and vibration load, the operation is steady, noiselessness, when transshipping, the area is skid on taking turns promptly, can prevent other parts from damaging, also can prevent that the rain barrel from damaging. The rain barrel is held to the bracket, for the convenience fall the rain barrel propelling movement of full rainwater greatly and topple over on toppling over the mechanism, consequently set the swivel mount to the structural style who does not have down the terminal surface, the bracket plays the effect of terminal surface down this moment, be convenient for hold the rain barrel, intermittent type cross mechanism is a mechanism commonly used that turns into intermittent type step motion to continuous motion, be the intermittent type step motion who dials the fork with the rotary motion conversion of disc in this application, every rotatory round of disc, then dial rotatory 1/4 circles of fork, it is rotatory to dial fork intermittent type, it is rotatory to drive the swivel mount intermittent type, be convenient for place empty rain barrel, also be convenient for control full rainwater can be accurate slide to topple over the mechanism on, place the circumference outside of the opening orientation swivel mount in chamber, be convenient for hold the rain barrel. The base plate has the effect of bearing, and worm gear drive mechanism has great drive ratio, very compact structure, the transmission that can be steady, and the noise ratio is less, and its self can use self-locking performance. Set up the track on the cam, provide stroke length for moving mechanism's motion, moving mechanism has the effect of transmission to have flexible function, the track control link mechanism in the cam is flexible, and the effect of bracing piece is in order to realize pushing mechanism and support fixed connection. The effect of support frame is the mechanism is emptyd in the installation of being convenient for, and the layer board is in order to place the rain barrel, and the effect of pull rod is in the same place layer board and support frame pivot connection, and electric putter's effect is the upset of realizing the layer board, when not overturning, accepts the rain barrel that pushing mechanism propelling movement came, and when the upset, the rain barrel slopes thereupon, is convenient for pour the rainwater in the rain barrel into the holding vessel. The supporting plate is flush with the upper end face of the support, so that the rain barrel can slide stably, and rain in the rain barrel is prevented from being scattered. The effect of horizontal pole has the effect of bearing, is convenient for install the collection tank to with the collection tank erects, upwards be convenient for accept the rainwater that topples over the mechanism, wash with the fortune slag car downwards being convenient for.

Further, the height of the cross rod relative to the ground is higher than that of the slag car.

Adopt above-mentioned further beneficial effect: prevent that the slag car from causing the damage to the holding vessel.

Further, the symmetry is provided with the fixing base on the bottom plate, the guide bar sets up on the fixing base, belt conveyor assembly sets up the sliding block bottom, and sets up between the guide bar, belt conveyor assembly includes base one and base two, be provided with the driving shaft on the base one, the driving shaft is connected with motor B, motor B sets up a base outside, set up the action wheel on the driving shaft, be provided with the driven shaft on the base two, set up from the driving wheel on the driven shaft, the action wheel with from the winding dress hold-in range between the driving wheel, the hold-in range up end with sliding block bottom surface fixed connection.

Adopt above-mentioned further beneficial effect: the effect of fixing base is for setting up the guide bar, and the guide bar has direction and spacing effect, and motor B provides invariable power source, and motor B's output shaft rotation drives the driving shaft rotatory, and then drives from the driving wheel rotation, because the hold-in range is the tensioning at the action wheel with from the driving wheel on, therefore the hold-in range drives the reciprocal linear motion of sliding block.

Further, the intermittent crossing mechanism comprises a base A, a rotating shaft A is arranged on the base A in a penetrating mode, one end of the rotating shaft A is provided with a motor A, the other end of the rotating shaft A is provided with a disc, a linkage pin is arranged at the eccentric position of the disc, a base B is arranged on one side of the base A, a rotating shaft B is arranged on the base B in a penetrating mode, a poking fork is arranged on the rotating shaft B and comprises four arc-shaped surfaces and protruding parts, the protruding parts are formed between two adjacent arc-shaped surfaces, long holes are formed in the protruding parts, installation parts are arranged at the joints of the four long holes, the installation parts are fixedly connected with the arc-shaped surfaces, the upper end surfaces of the installation parts are higher than the upper end surfaces of the poking fork, channels between the two adjacent long holes are through, a shaft hole A is arranged in the middle of the installation parts, and the rotating shaft B, the linkage round pin sets up rectangular downthehole, the disc is rotatory, through the linkage round pin drive dial fork intermittent type rotation, base A with base B all sets up the lower of support, set up on the pivot B the swivel mount, the swivel mount includes plectane and lower plectane, go up the plectane with be provided with the spliced pole down between the plectane, be provided with in the middle of the spliced pole with pivot B complex shaft hole B, set up in the shaft hole B pivot B, go up the plectane with the diameter of plectane equals down, go up the plectane with equipartition setting on the circumference of plectane down place the chamber, place the chamber and include both sides face and up end, place the lower terminal surface opening in chamber.

Adopt above-mentioned further beneficial effect: base A's effect is for installation pivot A, pivot A's effect is for the installation disc, motor A provides invariable power source, and the drive disc is rotatory in succession, the effect of interlocking pin is that the drive is stirred the fork and is rotatory, base B's effect is for installation pivot B, pivot B's effect is for the installation is stirred the fork, stir the form that the fork set to arcwall face and protruding portion combine, the effect of protruding portion is for setting up rectangular hole, rectangular hole provides the orbit and carries on spacingly to the interlocking pin for the motion of interlocking pin, the installation department has the effect of connecting, realize being connected of pivot B and stirring fork, pivot B rotary drive swivel mount is rotatory, place terminal surface opening under the chamber, the purpose is for the follow-up rainwater bucket propelling movement that will fill with the rainwater to toppling over the mechanism and establish the basis.

Further, the worm gear and worm transmission mechanism comprises a worm gear and a worm, bases C are symmetrically arranged on the base plate, the worm is arranged on the bases C, a motor C is arranged at one end of the worm, the motor C is arranged on the outer side of the bases C, a base D is arranged on one side of the base C, a through hole is formed in the base D, a small shaft is arranged in the through hole and penetrates through the base D, the worm gear is arranged on the small shaft close to the base D, the tail end of the small shaft far away from the base D is provided with the cam, the worm gear is meshed with the worm, a track is arranged on the cam, the moving mechanism comprises a bearing plate, the bottom of the bearing plate is fixedly connected with the base plate, bearing seats are symmetrically arranged at two ends of the bearing plate, sliding rods are arranged on the bearing seats, push plates are arranged on the sliding rods, the link mechanism comprises a left link group, a middle link group and a right link group, the left link group comprises a first left link and a second left link, the right link group comprises a first right link and a second right link, the middle link group comprises a first middle link and a second middle link, the middle part of the first middle link is in cross pivot connection with the middle part of the second middle link, one end of the first middle link is in pivot connection with one end of the first left link, the other end of the first middle link is in pivot connection with one end of the second right link, one end of the second middle link is in pivot connection with one end of the second left link, the other end of the second middle link is in pivot connection with one end of the first right link, and the other end of the first left link is in pivot connection with the other end of the second left link, the pivot connection part is provided with a limiting block, the limiting block is arranged in the track of the cam, the other end of the right side connecting rod I is in pivot connection with the other end of the right side connecting rod II, and the pivot connection part is connected with the push plate.

Adopt above-mentioned further beneficial effect: the base C is used for mounting a worm, the motor C provides a constant power source for the rotation of the worm, the base D is used for mounting a small shaft which is used for mounting a worm wheel and preventing the worm wheel from generating transverse and vertical movement relative to the worm, meanwhile, the small shaft also provides a mounting position for the cam, the cam is provided with a track, preferably, the track is irregular in shape, the bearing plate is used for mounting a sliding rod, the sliding rod has guiding and limiting functions, the push plate is used for pushing a rainwater barrel filled with rainwater on the support onto the dumping mechanism, the connecting rod assembly comprises a left connecting rod group, a middle connecting rod group and a right connecting rod group, the cam rotates, the track of the cam controls the position of the limiting block on the cam, and then controlling the extension and contraction of the connecting rod assembly, wherein the longest point of the track of the cam is the maximum stroke of the push plate, and the shortest point of the track of the cam is the minimum stroke of the push plate. The cam rotates to control the stroke of the linear movement of the push plate through the link mechanism.

Further, a pin shaft hole A and a pin shaft hole B are arranged on two sides of the supporting plate, a pin shaft A is arranged in the pin shaft hole A, a pin shaft B is arranged in the pin shaft hole B, an ear plate A is arranged at the upper end of the supporting frame, a pin shaft hole C is arranged on the ear plate A, a pin shaft C is arranged in the pin shaft hole C, an ear plate B is arranged at the lower end of the supporting frame, the ear plate B is arranged at the lower end of the ear plate A, a pin shaft hole D is arranged on the ear plate B, a pin shaft D is arranged in the pin shaft hole D, the pull rod comprises a pull rod A and a pull rod B, one end of the pull rod A is pivotally connected with the pin shaft A, the other end of the pull rod A is pivotally connected with the pin shaft D, one end of the pull rod B is pivotally connected with the pin shaft B, the other end of the pull rod B is pivotally connected with, and the push rod seat of the electric push rod is fixedly connected with the support frame.

Adopt above-mentioned further beneficial effect: pull rod A and pull rod B pivotal connection can realize the upset of layer board, and when the layer board overturns, the rain barrel of being full of the rainwater also overturns thereupon, and then emptys into the holding vessel with the rainwater, and when the layer board did not overturn, on the rain barrel of being full of the rainwater can be level and smooth promoted the layer board of tilt mechanism by the push pedal, the angle of electric putter control layer board slope.

A collecting method using a rainwater collecting apparatus for a construction site, comprising the steps of:

the method comprises the following steps: placing an empty rain barrel in the placing cavity at the pushing mechanism, starting a motor A, placing an empty rain barrel in the corresponding placing cavity after the rotating frame rotates 1/4 circles, sequentially arranging an empty rain barrel in each placing cavity, and closing the motor A;

step two: starting a motor B, driving a driving wheel to rotate by the rotation of the motor B, driving a sliding block to move through a synchronous belt, manually pushing an empty rain barrel to the sliding block, sliding the rain barrel to the sliding block from a placing cavity, moving the rain barrel to an eave, and closing the motor B when the rain barrel moves to the eave, and receiving rainwater at the moment;

step three: when the empty rain barrel is full of rain water, starting the motor B to enable the motor B to rotate reversely, and when the water barrel full of rain water reaches the placing cavity in the step two, manually pushing the rain barrel full of rain water to push the rain barrel back into the placing cavity;

step four: starting the motor A, when the disc rotates for a circle, shifting the fork to rotate for 1/4 circles, wherein in the rotating process, the bucket full of rainwater is supported by the circular ring of the bracket, and when the bucket full of rainwater rotates to the notch of the bracket, the bucket full of rainwater is supported by the bracket;

step five: starting a motor C, wherein a limiting block controls the connecting rod mechanism to stretch under the driving of the track of the cam so as to further control the push plate to stretch, and when the push plate stretches, the rain barrel filled with rainwater is pushed onto the dumping mechanism;

step six; starting the electric push rod, inclining the rain barrel filled with rain water on the supporting plate, and pouring the rain water in the rain barrel into the collecting tank;

step seven: the slag transport vehicle is driven to the bottom of the collecting tank, a water outlet pipe is connected with a high-pressure water gun, and a valve on the water outlet pipe is opened to clean the slag transport vehicle;

step eight: and repeating the first step to the seventh step to finish the collection and utilization of the rainwater in sequence.

Drawings

Fig. 1 is a schematic structural diagram of the present application.

Fig. 2 is a schematic structural view with the building shed removed.

Fig. 3 is a structural schematic diagram of the stent.

Fig. 4 is a schematic structural view of the bracket and the rotating mechanism.

Fig. 5 is a schematic structural view of the rotating mechanism.

Fig. 6 is a schematic diagram of the structure of the intermittent crossing mechanism.

Fig. 7 is a schematic structural view of the dial fork.

Fig. 8 is a schematic view of the structure of the support and the bracket.

Fig. 9 is a schematic structural view of the combination of the bracket, the rotating mechanism and the transporting mechanism.

Fig. 10 is a schematic structural view of the transport mechanism.

Fig. 11 is a schematic structural view of the rotating frame.

Fig. 12 is a schematic structural diagram of the pushing mechanism on the bracket.

Fig. 13 is a schematic structural view of the bracket and the pushing mechanism in cooperation.

FIG. 14 is a schematic view of the push mechanism in one orientation.

FIG. 15 is a schematic view of another orientation of the pushing mechanism.

Fig. 16 is a schematic view of the pouring mechanism in a straightforward configuration.

Wherein the reference numerals are: 1. building a shed; 2. a support; 21. an input end; 22. an output end; 23. a support frame; 24. a cross bar; 3. a transport mechanism; 31. a base plate; 32. a guide bar; 33. a slider; 34. a belt transport assembly; 341. a drive shaft; 342. a driving wheel; 343. a driven shaft; 344. a driven wheel; 345. a synchronous belt; 35. a fixed seat; 4. a bracket; 41. a notch; 5. a rotation mechanism; 51. a placement chamber; 52. an intermittent crossing mechanism; 521. a rotating shaft A; 522. a disc; 5221. a linkage pin; 523. a rotating shaft B; 5231. an upper circular plate; 5232. a lower circular plate; 5233. connecting columns; 524. a poking fork; 5241. an arc-shaped surface; 5242. a protrusion; 5243. an installation part; 53. a rotating frame; 6. a rain barrel; 7. a pushing mechanism; 71. a substrate; 72. a worm gear drive; 721. a worm gear; 722. a worm; 723. a small shaft; 73. a cam; 731. a track; 74. a moving mechanism; 741. a bearing plate; 742. a load bearing seat; 743. a slide bar; 744. pushing the plate; 75. A link mechanism; 751. a left side linkage; 7511. a first left connecting rod; 7512. a second left connecting rod; 752. A middle linkage; 7521. a middle connecting rod I; 7522. a middle connecting rod II; 753. a right linkage; 7531. A right connecting rod I; 7532. a second right connecting rod; 754. a limiting block; 76. a support bar; 8. a dumping mechanism; 81. a support plate; 82. a pull rod; 821. a pull rod A; 822. a pull rod B; 83. an electric push rod; 9. a collection tank; 91. a water outlet pipe; 92. and (4) a valve.

Detailed Description

In order to clearly illustrate the technical features of the present solution, the present solution is explained below by way of specific embodiments.

Referring to fig. 1 to 3, the application is a rainwater collection device for construction site, including support 2, support 2 includes input 21 and output 22, and the output 22 of support 2 sets up in building canopy 1, and the input 21 of support 2 sets up outside building canopy 1, and support 2 includes lower floor and upper strata. The support in this application has the effect of bearing, and the support has the effect of bearing, is convenient for improve the collecting tank is whole, can flow from the upper end to the lower extreme through the gravity of rainwater self, does not need the high-pressure pump just can draw the rainwater from the collecting tank, is convenient for wash the slag car.

See fig. 9-10: the input end 21 of the bracket 2 is provided with a conveying mechanism 3, the conveying mechanism 3 is arranged on the upper layer of the bracket 2, the conveying mechanism 3 comprises a bottom plate 31, the bottom plate 31 is arranged on the bracket 2, guide rods 32 are symmetrically arranged on the bottom plate 31, sliding blocks 33 are arranged on the guide rods 32, a belt conveying assembly 34 is arranged on the bottom plate 31, and the belt conveying assembly 34 drives the sliding blocks 33 to do linear reciprocating motion along the guide rods 32;

the symmetry is provided with fixing base 35 on the bottom plate 31, the guide bar 32 sets up on fixing base 35, belt conveyor assembly 34 sets up in the sliding block 33 bottom, and set up between guide bar 32, belt conveyor assembly 34 includes base one and base two, be provided with driving shaft 341 on the base one, driving shaft 341 is connected with motor B, motor B sets up in base one outside, set up action wheel 342 on the driving shaft 341, be provided with driven shaft 343 on the base two, set up from driving wheel 344 on the driven shaft 343, around dress hold-in range 345 between action wheel 342 and the driven wheel 344, hold-in range 345 up end and sliding block 33 bottom surface fixed connection.

The working principle of the conveying mechanism in the application is as follows: regard the input of support to the direction of output as the longitudinal direction of support, for installation conveying mechanism, two horizontal poles of vertical installation again at the input of support, with bottom plate and horizontal pole fixed connection, fixed connection here can be the welding, also can be bolted connection, as long as can fix conveying mechanism's connected mode all is fit for the technical scheme of this application, can be on the smooth sliding block of removal of the empty rain barrel of intracavity for guaranteeing to place on the swivel mount, or can guarantee that the rain barrel of the full rainwater on the sliding block can the level and smooth removal of placing the intracavity, and is preferred, the up end of guaranteeing the bracket and the up end parallel and level of sliding block. After the bottom plate is fixed, two groups of fixed seats are longitudinally fixed on the bottom plate, each group of fixed seats comprises two fixed seats, so that guide rods are erected on the two groups of fixed seats, sliding blocks are penetrated through the guide rods, the function of the guide rods has the functions of limiting and guiding, in order to realize the sliding blocks to move on the guide rods, external force is required to push the sliding blocks to move, a group of first bases and a group of second bases are arranged on two groups of fixed seat supports, a driving shaft is erected on the first bases, a driven shaft is erected on the second bases, a driving wheel is arranged on the driving shaft, a driven wheel is arranged on the driven shaft, synchronous belts are wound on the driving wheel and the driven wheel, the upper end surfaces of the synchronous belts are fixedly connected with the ground of the sliding seats, so that a motor B rotates forwards or reversely, the synchronous belts drive the sliding blocks to be far away from or close to the, after the rain barrel is filled with rain water, the rain barrel filled with rain water is conveyed to the placing cavity.

Referring to fig. 8: the output of support 2 is provided with bracket 4, bracket 4 is the ring form, be provided with breach 41 on bracket 4's the ring, it shifts out to place the intracavity from the swivel mount for the rain bucket that will fill with the rainwater, consequently, will place the chamber and set to lower terminal surface open-ended form, but in order to hold the rain bucket that fills with the rainwater, it just can to place the lower terminal surface in chamber must be closed, consequently, the bracket has been set up, when placing the interior rain bucket empty, the rotatory empty rain bucket of drive of rotary mechanism is rotatory, the bottom surface of rain bucket and the up end of bracket are the contact this moment, just there is frictional force between the bottom surface of rain bucket and the up end of bracket promptly, after placing the interior rain bucket and being full with the rainwater, because the gravity of rain bucket itself and the gravity of rainwater, the bracket plays the effect of bearing more, and the frictional force between rain bucket and the bracket increases more.

When the rain barrel full of rainwater rotates to the breach department of bracket, the bracket no longer plays the effect of bearing this moment, and the gravity of rain barrel and rainwater is all used in on the support, takes place the slope in order to prevent the rain barrel, and consequently the thickness of bracket should not be too big, prevents to form too high step between support and the bracket. The rain barrel is in a static state on the bracket at the moment.

Referring to fig. 2, 4-7 and 11: the upper end face of the bracket 4 is provided with a rotating mechanism 5, the rotating mechanism 5 is provided with a placing cavity 51, the conveying mechanism 3 conveys an empty rain barrel 6 to an eave to receive rain, and then conveys the rain barrel 6 filled with rain back to the placing cavity 51, the bracket 4 is arranged on the upper layer of the support 2, the rotating mechanism 5 comprises an intermittent cross mechanism 52 and a rotating frame 53, the intermittent cross mechanism 52 is arranged on the lower layer of the support 2, the rotating frame 53 is arranged on the upper layer of the support 2, the intermittent cross mechanism 52 is connected with the rotating frame 53, the intermittent cross mechanism 52 drives the rotating frame 53 to rotate intermittently, the rotating frame 53 is provided with the placing cavities 51, the placing cavities 51 are uniformly distributed on the outer circumference of the rotating frame 53, and the opening of the placing cavities 51 faces the outer circumference of the rotating frame 53;

the intermittent crossing mechanism 52 comprises a base A, a rotating shaft A521 is arranged on the base A in a penetrating manner, one end of the rotating shaft A521 is provided with a motor A, the other end of the rotating shaft A is provided with a disc 522, an eccentric position of the disc 522 is provided with a linkage pin 5221, one side of the base A is provided with a base B, the base B is provided with a rotating shaft B523 in a penetrating manner, the rotating shaft B523 is provided with a poking fork 524, the poking fork 524 comprises four arc surfaces 5241 and protruding parts 5242, the number of the arc surfaces 5241 is four, the protruding parts 5242 are formed between two adjacent arc surfaces, the protruding parts 5242 are provided with long holes, a mounting part 5243 is arranged at the joint of the four long holes, the mounting part 5243 is fixedly connected with the arc surfaces 5241, the upper end surface of the mounting part 5243 is higher than the upper end surface of the poking fork, a channel between the two adjacent long holes is through, a shaft hole A is, the disc 522 rotates, the dial fork 524 is driven to rotate intermittently by the linkage pin 5221, the base a and the base B are both arranged below the bracket 2, the rotating shaft B523 is provided with the rotating frame 53, the rotating frame 53 comprises an upper disc 5231 and a lower disc 5232, a connecting column 5233 is arranged between the upper disc 5231 and the lower disc 5232, the middle of the connecting column 5233 is provided with a shaft hole B matched with the rotating shaft B523, the rotating shaft B523 is arranged in the shaft hole B, the diameters of the upper disc 5231 and the lower disc 5232 are equal, the placing cavities 51 are uniformly distributed on the circumferences of the upper disc 5231 and the lower disc 5232, the placing cavities 51 comprise two side surfaces and an upper end surface, and the lower end surface of the placing cavities 51 is opened.

The operating principle of the rotating mechanism in the application is as follows: starting the motor A, driving the rotating shaft A to rotate by the output shaft of the motor A, and since the disc is fixedly connected with the rotating shaft A, the rotating shaft A rotates to drive the disc to rotate, the disc rotates to drive the linkage pin to rotate, and therefore the linkage pin is arranged in the strip hole, when the linkage pin moves from the tail end of one strip hole to the tail end of another adjacent strip hole, 1/4 of the poking fork is completed to rotate, the poking fork rotates to drive the rotating shaft B to rotate, and since the tail end of the rotating shaft B is arranged on the upper layer of the support and is connected with the rotating frame, the rotating frame can rotate for one circle by the disc, and the rotating frame rotates for 1/4 circles, so that the motor A is started, the rotating frame 1/4 rotates intermittently, an empty barrel is placed in the placing cavity at the pushing mechanism, and when the rotating frame rotates to another 1/4, another empty barrel is placed in the adjacent placing cavity, until will placing the intracavity and fill empty rain barrel, then transport empty rain barrel to eave through conveyor and connect the rainwater down, after empty rain barrel meets full rainwater, through conveying mechanism, will hold full rain barrel transport and place the intracavity, the swivel mount continues to rotate according to 1/4's frequency, when the rotatory breach department of bracket of rain barrel that fills with the rainwater, push mechanism will this rain barrel propelling movement topple over on the mechanism.

See fig. 12-15: the pushing mechanism 7 is arranged at the notch 41 of the bracket 4, the rotating mechanism 5 rotates to transport the rain barrel 6 filled with rain water to the pushing mechanism 7, the pushing mechanism 7 comprises a base plate 71, a worm gear transmission mechanism 72 is arranged at one end of the base plate 71, a cam 73 is arranged on the worm gear transmission mechanism 72, a moving mechanism 74 is arranged at the other end of the base plate 71, a connecting rod mechanism 75 is arranged between the moving mechanism 74 and the cam 73, the worm gear transmission mechanism 72 drives the cam 73 to rotate, the cam 73 rotates to drive the moving mechanism 74 to do linear reciprocating motion through the connecting rod mechanism 75, a supporting rod 76 is arranged at the bottom of the base plate 71, and the supporting rod 76 is arranged at the lower layer of the bracket 2;

the worm gear and worm transmission mechanism 72 comprises a worm wheel 721 and a worm 722, a base C is symmetrically arranged on the base plate 71, the worm 722 is arranged on the base C, a motor C is arranged at one end of the worm 722, the motor C is arranged outside the base C, a base D is arranged on one side of the base C, a through hole is arranged on the base D, a small shaft 723 is arranged in the through hole, the small shaft 723 penetrates through the base D, a worm wheel 721 is arranged on the small shaft close to the base D, a cam 73 is arranged at the tail end of the small shaft far away from the base D, the worm wheel 721 is meshed with the worm 722, a track 731 is arranged on the cam 73, the moving mechanism 74 comprises a bearing plate 741, the bottom of the bearing plate 741 is fixedly connected with the base plate 71, bearing seats 742 are symmetrically arranged at two ends of the bearing plate 741, a sliding rod 743 is arranged on the bearing seat 742, a push plate 744 is arranged on the, the left side link group 751 comprises a left side link I7511 and a left side link II 7512, the right side link group 753 comprises a right side link I7531 and a right side link II 7532, the middle link group 752 comprises a middle link I7521 and a middle link II 7522, the middle part of the middle link I7521 is in cross pivot connection with the middle part of the middle link II 7522, one end of the middle link I7521 is in pivot connection with one end of the left side link I7511, the other end of the middle link I7521 is in pivot connection with one end of the right side link II 7532, one end of the middle link II 7522 is in pivot connection with one end of the left side link II 7512, the other end of the middle link II 7522 is in pivot connection with one end of the right side link I7531, the other end of the left side link I7511 is in pivot connection with the other end of the left side link II 7512, a limit block 754 is arranged at the pivot connection, the limit block 731 is arranged in the track 731 of the cam 73, the pivot connection is coupled to the push plate 744.

The operating principle of the pushing mechanism in the application is as follows: starting motor C, it is rotatory that motor C rotates the drive worm, again because worm and worm wheel mesh, therefore the worm is rotatory to drive the worm wheel rotatory, and then the staff is rotatory, it is rotatory finally to drive the cam, because the orbital shape on the cam is anomalous, the stopper sets up in anomalous track, when the cam rotation is slowly close longest orbit, contained angle grow between left end connecting rod one and the left end connecting rod two, acute angle grow gradually between intermediate connecting rod one and the intermediate connecting rod two, consequently contained angle grow between right side connecting rod one and the right side connecting rod two, consequently whole link mechanism shortens, consequently, the push pedal removes to the cam direction, otherwise, the push pedal removes to the direction of keeping away from the cam.

When the rain barrel full of rainwater does not rotate to the notch of the bracket, the whole pushing mechanism is contracted, when the rain barrel full of rainwater rotates to the notch of the bracket, the push plate extends to push the rain barrel to the dumping mechanism, and in order to prevent rainwater from splashing, the height of the preferred supporting plate and the height of the upper layer of the bracket are kept on the same horizontal plane.

See fig. 16: a dumping mechanism 8 is arranged on one side of the pushing mechanism 7, the pushing mechanism 7 pushes the rain barrel 6 filled with rain water to the dumping mechanism 8, a support frame 23 is arranged on the outer side of the support frame 2, the support frames 23 are symmetrically arranged on two sides of the pushing mechanism 7, the dumping mechanism 8 is arranged on the support frame 23, the dumping mechanism 8 comprises a supporting plate 81, a pull rod 82 is arranged between the supporting plate 81 and the support frame 23, an electric push rod 83 is arranged on the pull rod 82, a piston rod of the electric push rod 83 is fixedly connected with the pull rod 82, a push rod seat of the electric push rod 83 is fixedly connected with the support frame 23, and the supporting plate 81 is flush with the upper end face of;

the two sides of the supporting plate 81 are provided with a pin shaft hole A and a pin shaft hole B, a pin shaft A is arranged in the pin shaft hole A, a pin shaft B is arranged in the pin shaft hole B, the upper end of the supporting frame 23 is provided with an ear plate A, a pin shaft hole C is arranged on the ear plate A, a pin shaft C is arranged in the pin shaft hole C, an ear plate B is arranged at the lower end of the supporting frame 23, a pin shaft hole D is arranged on the ear plate B, a pin shaft D is arranged in the pin shaft hole D, the pull rod 82 comprises a pull rod A821 and a pull rod B822, one end of the pull rod A821 is pivotally connected with the pin shaft A, the other end of the pull rod A821 is pivotally connected with the pin shaft D, one end of the pull rod B822 is pivotally connected with the pin shaft B, the other end of the pull rod B is pivotally connected with the pin shaft C, the ear plate.

The application discloses mechanism's theory of operation emptys: when the rain barrel full of rainwater slides to the supporting plate, the electric push rod is started, the piston rod of the electric push rod extends to push the supporting plate to incline, the supporting plate inclines, and the rain barrel on the supporting plate also inclines, so that the rainwater in the rain barrel is poured into the collecting tank.

The bottom of the dumping mechanism 8 is provided with a collecting tank 9, the upper end of the collecting tank 9 is opened, the lower end of the collecting tank is provided with a water outlet pipe 91, the water outlet pipe 91 is provided with a valve 92, and the valve 92 controls the opening and closing of the water outlet pipe 91;

the lower layer of the bracket 2 extends out of the cross rod 24, the cross rod 24 is provided with a collecting tank 9, and the collecting tank 9 corresponds to the supporting plate 81.

The height of the cross bar 24 relative to the ground is higher than that of the slag car.

The effect of horizontal pole has the effect of bearing, is convenient for install the collection tank to with the collection tank erects, upwards be convenient for accept the rainwater that topples over the mechanism, wash with the fortune slag car downwards being convenient for.

A collecting method using a rainwater collecting apparatus for a construction site, comprising the steps of:

the method comprises the following steps: placing an empty rain barrel in the placing cavity at the pushing mechanism, starting a motor A, placing an empty rain barrel in the corresponding placing cavity after the rotating frame rotates 1/4 circles, sequentially arranging an empty rain barrel in each placing cavity, and closing the motor A;

step two: starting a motor B, driving a driving wheel to rotate by the rotation of the motor B, driving a sliding block to move through a synchronous belt, manually pushing an empty rain barrel to the sliding block, sliding the rain barrel to the sliding block from a placing cavity, moving the rain barrel to an eave, and closing the motor B when the rain barrel moves to the eave, and receiving rainwater at the moment;

step three: when the empty rain barrel is full of rain water, starting the motor B to enable the motor B to rotate reversely, and when the water barrel full of rain water reaches the placing cavity in the step two, manually pushing the rain barrel full of rain water to push the rain barrel back into the placing cavity;

step four: starting the motor A, when the disc rotates for a circle, shifting the fork to rotate for 1/4 circles, wherein in the rotating process, the bucket full of rainwater is supported by the circular ring of the bracket, and when the bucket full of rainwater rotates to the notch of the bracket, the bucket full of rainwater is supported by the bracket;

step five: starting a motor C, wherein a limiting block controls the connecting rod mechanism to stretch under the driving of the track of the cam so as to further control the push plate to stretch, and when the push plate stretches, the rain barrel filled with rainwater is pushed onto the dumping mechanism;

step six; starting the electric push rod, inclining the rain barrel filled with rain water on the supporting plate, and pouring the rain water in the rain barrel into the collecting tank;

step seven: the slag transport vehicle is driven to the bottom of the collecting tank, a water outlet pipe is connected with a high-pressure water gun, and a valve on the water outlet pipe is opened to clean the slag transport vehicle;

step eight: and repeating the first step to the seventh step to finish the collection and utilization of the rainwater in sequence.

The technical features that are not described in the present application can be implemented by or using the prior art, and are not described herein again, of course, the above description is not limited to the present application, and the present application is not limited to the above examples, and variations, modifications, additions or substitutions that are made by a person of ordinary skill in the art within the spirit and scope of the present application should also belong to the protection scope of the present application.

Claims (6)

1. The rainwater collecting device for the construction site is characterized by comprising a support (2), wherein the support (2) comprises an input end (21) and an output end (22), the output end (22) of the support (2) is arranged in a building shed (1), the input end (21) of the support (2) is arranged outside the building shed (1), the input end (21) of the support (2) is provided with a conveying mechanism (3), the output end of the support (2) is provided with a bracket (4), the bracket (4) is in a circular ring shape, a notch (41) is arranged on the circular ring of the bracket (4), a rotating mechanism (5) is arranged on the upper end face of the bracket (4), a placing cavity (51) is arranged on the rotating mechanism (5), the conveying mechanism (3) conveys an empty rainwater barrel (6) to an eave to receive rainwater, and conveys the rainwater barrel (6) filled with rainwater back to the place in the placing cavity (51), the rainwater collecting device is characterized in that a pushing mechanism (7) is arranged at the notch (41) of the bracket (4), the rotating mechanism (5) rotates to transport a rainwater barrel (6) filled with rainwater to the pushing mechanism (7), an dumping mechanism (8) is arranged on one side of the pushing mechanism (7), the pushing mechanism (7) pushes the rainwater barrel (6) filled with rainwater to the dumping mechanism (8), a collecting tank (9) is arranged at the bottom of the dumping mechanism (8), an upper end opening and a lower end of the collecting tank (9) are provided with a water outlet pipe (91), a valve (92) is arranged on the water outlet pipe (91), and the valve (92) controls the water outlet pipe (91) to be opened and closed;

the conveying mechanism (3) is arranged on the upper layer of the support (2), the conveying mechanism (3) comprises a bottom plate (31), the bottom plate (31) is arranged on the support (2), guide rods (32) are symmetrically arranged on the bottom plate (31), sliding blocks (33) are arranged on the guide rods (32), a belt conveying assembly (34) is arranged on the bottom plate (31), and the belt conveying assembly (34) drives the sliding blocks (33) to do linear reciprocating motion along the guide rods (32);

the bracket (4) is arranged on the upper layer of the support (2), the rotating mechanism (5) comprises an intermittent crossing mechanism (52) and a rotating frame (53), the intermittent crossing mechanism (52) is arranged on the lower layer of the support (2), the rotating frame (53) is arranged on the upper layer of the support (2), the intermittent crossing mechanism (52) is connected with the rotating frame (53), the intermittent crossing mechanism (52) drives the rotating frame (53) to rotate intermittently, the placing cavities (51) are arranged on the rotating frame (53), the placing cavities (51) are uniformly distributed on the outer circumference of the rotating frame (53), and the openings of the placing cavities (51) face the outer side of the circumference of the rotating frame (53);

the pushing mechanism (7) comprises a base plate (71), a worm gear transmission mechanism (72) is arranged at one end of the base plate (71), a cam (73) is arranged on the worm gear transmission mechanism (72), a moving mechanism (74) is arranged at the other end of the base plate (71), a connecting rod mechanism (75) is arranged between the moving mechanism (74) and the cam (73), the worm gear transmission mechanism (72) drives the cam (73) to rotate, the cam (73) rotates to drive the moving mechanism (74) to do linear reciprocating motion through the connecting rod mechanism (75), a supporting rod (76) is arranged at the bottom of the base plate (71), and the supporting rod (76) is arranged at the lower layer of the support (2);

a support frame (23) is arranged on the outer side of the support (2), the support frame (23) is symmetrically arranged on two sides of the pushing mechanism (7), the dumping mechanism (8) is arranged on the support frame (23), the dumping mechanism (8) comprises a supporting plate (81), a pull rod (82) is arranged between the supporting plate (81) and the support frame (23), an electric push rod (83) is arranged on the pull rod (82), a piston rod of the electric push rod (83) is fixedly connected with the pull rod (82), a push rod seat of the electric push rod (83) is fixedly connected with the support frame (23), and the supporting plate (81) is flush with the upper end face of the support (2);

the lower layer of support (2) stretches out horizontal pole (24), set up on horizontal pole (24) collecting tank (9), collecting tank (9) with layer board (81) correspond to each other.

2. A rainwater collection apparatus for a construction site according to claim 1 wherein the height of said cross bar (24) relative to the ground is higher than the height of the slag car.

3. The rainwater collecting device for construction site according to claim 1, wherein the bottom plate (31) is symmetrically provided with fixed seats (35), the guide rods (32) are arranged on the fixed seats (35), the belt conveying assembly (34) is arranged at the bottom of the sliding block (33) and between the guide rods (32), the belt conveying assembly (34) comprises a first base and a second base, the first base is provided with a driving shaft (341), the driving shaft (341) is connected with a motor B, the motor B is arranged outside the first base, the driving shaft (341) is provided with a driving wheel (342), the second base is provided with a driven shaft (343), the driven shaft (343) is provided with a driven wheel (344), and a synchronous belt (345) is wound between the driving wheel (342) and the driven wheel (344), the upper end face of the synchronous belt (345) is fixedly connected with the bottom face of the sliding block (33).

4. The rainwater collecting device for the construction site according to claim 1, wherein the intermittent crossing mechanism (52) comprises a base A, a rotating shaft A (521) is arranged on the base A in a penetrating manner, one end of the rotating shaft A (521) is provided with a motor A, the other end of the rotating shaft A (521) is provided with a disc (522), a linkage pin (5221) is arranged at an eccentric position of the disc (522), a base B is arranged on one side of the base A, a rotating shaft B (523) is arranged on the base B in a penetrating manner, a poking fork (524) is arranged on the rotating shaft B (523), the poking fork (524) comprises arc-shaped surfaces (5241) and protruding parts (5242), the number of the arc-shaped surfaces (5241) is four, the protruding parts (5242) are formed between two adjacent arc-shaped surfaces, the protruding parts (5242) are provided with long holes, and mounting parts (5243) are arranged at, the installation department (5243) with arcwall face (5241) fixed connection, the up end of installation department (5243) is higher than the up end of stirring the fork, and the passageway between two adjacent rectangular holes is link up, be provided with shaft hole A in the middle of installation department (5243), installation in shaft hole A pivot B (523), linkage round pin (5221) sets up in rectangular hole, disc (522) are rotatory, through linkage round pin (5221) drive stir fork (524) intermittent type is rotatory, base A with base B all sets up the lower of support (2), set up on pivot B (523) swivel mount (53), swivel mount (53) include plectane (5231) and lower plectane (5232), upward plectane (5231) with be provided with spliced pole (5233) down between plectane (5232), be provided with in the middle of spliced pole (5233) with pivot B (523) complex shaft hole B, set up in shaft hole B pivot B (523), go up plectane (5231) with the diameter of plectane (5232) equals down, go up plectane (5231) with the equipartition sets up on the circumference of plectane (5232) place chamber (51), place chamber (51) including both sides face and up end, place the lower terminal surface opening in chamber (51).

5. The rainwater collecting device for construction site according to claim 1, wherein the worm gear and worm transmission mechanism (72) comprises a worm wheel (721) and a worm (722), bases C are symmetrically arranged on the base plate (71), the worm (722) is arranged on the bases C, one end of the worm (722) is provided with a motor C, the motor C is arranged outside the bases C, one side of the bases C is provided with a base D, the bases D are provided with through holes, small shafts (723) are arranged in the through holes, the small shafts (723) penetrate through the bases D, the worm wheel (721) is arranged on the small shaft close to the bases D, the cam (73) is arranged at the end of the small shaft far away from the bases D, the worm wheel (721) is meshed with the worm (722), the cam (73) is provided with a track (731), and the moving mechanism (74) comprises a bearing plate (741), the bottom of the bearing plate (741) is fixedly connected with the base plate (71), bearing seats (742) are symmetrically arranged at two ends of the bearing plate (741), a sliding rod (743) is arranged on each bearing seat (742), a push plate (744) is arranged on each sliding rod (743), the link mechanism (75) comprises a left link group (751), a middle link group (752) and a right link group (753), the left link group (751) comprises a left link I (7511) and a left link II (7512), the right link group (753) comprises a right link I (7531) and a right link II (7532), the middle link group (752) comprises a middle link I (7521) and a middle link II (7522), the middle part of the middle link I (7521) is in cross pivot connection with the middle part of the middle link II (7522), and one end of the middle link I (7521) is connected with one end of the left pivot link I (7511), the other end of the middle connecting rod I (7521) is in pivot connection with one end of the right connecting rod II (7532), one end of the middle connecting rod II (7522) is in pivot connection with one end of the left connecting rod II (7512), the other end of the middle connecting rod II (7522) is in pivot connection with one end of the right connecting rod I (7531), the other end of the left connecting rod I (7511) is in pivot connection with the other end of the left connecting rod II (7512), a limiting block (754) is arranged at the pivot connection position and is arranged in the track (731) of the cam (73), the other end of the right connecting rod I (7531) is in pivot connection with the other end of the right connecting rod II (7532), and the pivot connection position is connected with the push plate (744).

6. The rainwater collecting device for the construction site according to claim 1, wherein a pin shaft hole A and a pin shaft hole B are arranged on two sides of the supporting plate (81), a pin shaft A is arranged in the pin shaft hole A, a pin shaft B is arranged in the pin shaft hole B, an ear plate A is arranged at the upper end of the supporting frame (23), a pin shaft hole C is arranged on the ear plate A, a pin shaft C is arranged in the pin shaft hole C, an ear plate B is arranged at the lower end of the supporting frame (23), a pin shaft hole D is arranged on the ear plate B, a pin shaft D is arranged in the pin shaft hole D, the pull rod (82) comprises a pull rod A (821) and a pull rod B (822), one end of the pull rod A (821) is pivotally connected with the pin shaft A, the other end of the pull rod A is pivotally connected with the pin shaft D, one end of the pull rod B (822) is pivotally connected with the pin shaft B, the other end of the pull rod A (821) is connected with the pin shaft C in a pivot mode, an ear plate C is arranged in the middle of the pull rod A (821), and a piston rod of the electric push rod (83) is connected with the ear plate C in a pivot mode.

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