CN114391460A - Rainwater recovery irrigation equipment for building - Google Patents

Abstract

The invention relates to irrigation equipment, in particular to rainwater recycling irrigation equipment for buildings. The invention provides a rainwater recycling and irrigating device for buildings, which can diffuse and irrigate collected rainwater. A rainwater harvesting irrigation apparatus for construction, comprising: the left side and the right side of the outer side of the connecting frame and the front side and the rear side of the outer side of the connecting frame are respectively provided with a first rotating rod in a rotating mode; the bottoms of the four first rotating rods are provided with first connecting plates; the fixing sleeve is arranged inside the connecting frame; the top of the fixed sleeve is rotatably provided with a first rotating frame; and three water outlet pipes are uniformly arranged on the outer side of the first rotating frame at intervals. The straight gear rotates to be in contact with the gear ring, so that the straight gear drives the rotary spray head to rotate, the rotary spray head can diffuse and spray rainwater by rotating, and the rainwater irrigation range is enlarged.

Description

Rainwater recovery irrigation equipment for building

Technical Field

The invention relates to irrigation equipment, in particular to rainwater recycling irrigation equipment for buildings.

Background

Water resources are an important component of natural resources, along with the rapid development of society, the demand of people for water is increasing day by day, water-deficient areas and countries are many, and rainwater collection and wastewater recycling are actual current situations of water resource utilization.

Patent application CN212866267U, published as 20210402, discloses a rainwater recycling device for buildings, which comprises a water collecting tank, the top of the water collecting tank is communicated with a water collecting pipe, water outlet holes are arranged on two sides of the bottom of the water collecting tank, a one-way valve is arranged in the water outlet hole, a filter screen is arranged in the water collecting tank, the filter screen is connected with an L-shaped clamping plate, the L-shaped clamping plate is connected with the water collecting tank and the filter screen through bolts, a floating plate is arranged in the water collecting tank, the two ends of the floating plate are fixedly connected with T-shaped sliding blocks which are connected with the water collecting tank in a sliding way, a manual water discharging structure is arranged above the floating plate, the bottom of the floating plate is fixedly connected with a connecting rod, the other end fixed connection of connecting rod is provided with the closing plate, closing plate both sides and header tank sliding connection, closing plate bottom and header tank bottom swing joint. Although above-mentioned patent can be solved the header tank water and can't discharge the unable exhaust problem of building roof water that causes after filling, above-mentioned patent can't spread the watering to the rainwater of collecting, can only water the building construction of small area, waters inefficiency.

Therefore, in view of the above, a rainwater collecting and irrigating device for buildings is provided, which can perform diffusion irrigation on collected rainwater.

Disclosure of Invention

In order to overcome the unable rainwater of collecting of above-mentioned patent and spread the watering, only can water the building construction of small area, water the lower shortcoming of efficiency, the technical problem who solves is: the utility model provides a rainwater for building retrieves watering equipment that can carry out the diffusion watering to the rainwater of collecting.

Compared with the prior art, the invention is technically characterized in that: a rainwater harvesting irrigation apparatus for construction, comprising:

the left side and the right side of the outer side of the connecting frame and the front side and the rear side of the outer side of the connecting frame are respectively provided with a first rotating rod in a rotating mode;

the bottoms of the four first rotating rods are provided with first connecting plates;

the fixing sleeve is arranged inside the connecting frame;

the top of the fixed sleeve is rotatably provided with a first rotating frame;

the outer side of the first rotating frame is uniformly provided with three water outlet pipes at intervals;

the top of the first rotating frame is provided with a fixed frame;

the water containing tank is arranged at the lower part in the first rotating frame in a threaded manner;

the upper part of the connecting frame is provided with a diffusion mechanism for increasing the area for spraying rainwater, and the diffusion mechanism is matched with the three water outlet pipes;

and the lower part of the first rotating frame is provided with a rotating mechanism for driving the first rotating frame to rotate.

As a preferable aspect of the present invention, the diffusion mechanism includes:

the gear ring is arranged on the connecting frame;

straight gears are rotatably arranged on the outer sides of the three water outlet pipes, the three straight gears are meshed with the gear ring, and the three straight gears are communicated with the water outlet pipes on the same side;

and the three rotating nozzles are communicated with the water outlet pipe at the same side.

As a preferable aspect of the present invention, the rotating mechanism includes:

the rear side of the bottom of the connecting frame is provided with a first rack;

the first frame is provided with a driving motor;

the connecting frame is arranged on an output shaft of the driving motor, and the upper portion of the connecting frame is connected with the first rotating frame.

As a preferable technical solution of the present invention, the present invention further includes an extruding mechanism, the extruding mechanism including:

the inner side of the connecting frame is uniformly provided with three supporting blocks at intervals;

the three supporting blocks are respectively provided with a rotating plate in a rotating mode;

the inner sides of the lower parts of the three rotating plates are respectively and rotatably provided with a second connecting plate, and the three second connecting plates are in contact fit with the water containing tank;

the middle part of the left side of the connecting frame is provided with a first fixing block;

the first reel is rotatably arranged on the first fixing block;

the upper part of the left side of the connecting frame is provided with a second fixed block;

the second rotating rod is rotatably arranged on the second fixing block, and the bottom of the second rotating rod is connected with the first reel;

the upper part of the second rotating rod is provided with a first full gear;

the lower part of the first rotating frame is provided with a second full gear, and the first full gear is meshed with the second full gear;

first stay cord, the equal wraparound of both sides has first stay cord about the first reel, and the right side of two first stay cords all is connected on the second connecting plate on right side, and two first stay cords and three second connecting plate contact cooperation.

As a preferred technical solution of the present invention, the present invention further includes a punching mechanism, wherein the punching mechanism includes:

the lower part of the fixed frame is rotatably provided with a second rack;

the middle part of the second rack is provided with an electric sliding rail, the electric sliding rail is positioned in the fixed frame, and the electric sliding rail is positioned in the first rotating frame;

the upper part of the electric sliding rail is provided with a first sliding plate in a sliding way.

As a preferred technical solution of the present invention, the present invention further includes a transmission mechanism, and the transmission mechanism includes:

the front side and the rear side of the middle part of the left side of the first rotating frame are respectively provided with a third fixed block;

a third rotating rod is rotatably arranged between the left sides of the two third fixed blocks;

a second reel is arranged on the third rotating rod;

torsion springs are arranged between the two third fixing blocks and the second reel, and the two torsion springs are wound on the third rotating rod;

the middle part of the left side of the second rack is provided with a first connecting block;

the second pull rope is wound on the second reel and penetrates through the first connecting block, and the first connecting block plays a role in limiting the second pull rope;

the lower part of the second pull rope is provided with a hollow iron ball which is positioned inside the water containing tank;

the front side and the rear side of the third rotating rod are provided with third reels;

the middle part of the right side of the first rotating frame is provided with a guide rail;

the guide rail is provided with a second sliding plate in a sliding way;

the return spring is arranged between the second sliding plate and the guide rail and is wound on the guide rail;

the front side and the rear side of the left side of the second sliding plate are both connected with third pull ropes, and the two third pull ropes are wound on a third reel at the same side;

the contact switch is arranged on the upper portion of the right side of the first rotating frame in a sliding mode, the second sliding plate moves towards the left side to extrude the contact switch, and the contact switch is electrically connected with the electric sliding rail.

As a preferred technical scheme of the invention, the turnover mechanism is further included, and the turnover mechanism comprises:

the right side of the lower part of the fixed frame is provided with a second connecting block;

the right side of the second connecting block is rotatably provided with a third full gear through a transmission shaft;

the right side of the second connecting block is rotatably provided with a fourth full gear through a transmission shaft, the fourth full gear is positioned on the right side of the third full gear, and the third full gear is meshed with the fourth full gear;

the rack is arranged on the front side of the top of the second sliding plate and meshed with the third full gear;

the middle part of the right side of the fixing frame is provided with a third connecting block;

the third connecting block is rotatably provided with a second rotating frame which rotates to be in contact with the fixed frame;

the belt pulley is arranged on the rear side of the fourth full gear, and the belt pulley is arranged on the front side of the second rotating frame;

a flat belt is wound between the two belt pulleys.

As a preferable technical scheme of the invention, the second rotating frame is made of stainless steel.

Compared with the prior art, the invention has the following advantages: 1. according to the invention, the straight gear rotates to be in contact with the gear ring, so that the straight gear drives the rotary spray head to rotate, and the rotary spray head can diffuse and spray rainwater by rotating, so that the rainwater irrigation range is enlarged;

2. the driving motor is used as power to drive the connecting frame to rotate, the connecting frame drives the first rotating frame to rotate, and the first rotating frame drives the water outlet pipe and the straight gear to rotate, so that the purpose of automatically driving the water outlet pipe to rotate is achieved, and rainwater can be conveniently and uniformly sprayed;

3. the connecting frame drives the first fixing block to rotate, the first fixing block drives the first reel to rotate, the first reel rotates to tighten the first pull rope, the first pull rope tightens to extrude the second connecting plate, so that the second connecting plate extrudes the water containing tank, rainwater in the water containing tank flows out along the water outlet pipe, and thus, the purpose of automatically irrigating the rainwater can be achieved;

4. move to the downside through first sliding plate and block first rotation frame in to prevent that the rainwater from extrudeing fixed frame, and then concentrate the rainwater and flow along the outlet pipe.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partial perspective view of the present invention.

Fig. 3 is a partial cross-sectional view of the present invention.

Fig. 4 is a schematic perspective view of the diffusion mechanism of the present invention.

Fig. 5 is a schematic perspective view of the transmission mechanism of the present invention.

Fig. 6 is a schematic perspective view of the extrusion mechanism of the present invention.

Fig. 7 is a schematic partial perspective view of a first stamping mechanism according to the present invention.

Fig. 8 is a schematic partial perspective view of a second stamping mechanism according to the present invention.

Fig. 9 is a schematic view of a first partial body structure of the transmission mechanism of the present invention.

Fig. 10 is a schematic view of a second partial structure of the transmission mechanism of the present invention.

Fig. 11 is a perspective view of a third part of the transmission mechanism of the present invention.

Fig. 12 is a schematic perspective view of the turnover mechanism of the present invention.

Labeled as: 1-connecting frame, 2-first rotating rod, 3-first connecting plate, 4-fixing sleeve, 5-fixing frame, 6-first rotating frame, 61-water outlet pipe, 7-water containing tank, 8-diffusing mechanism, 81-gear ring, 82-spur gear, 83-rotary nozzle, 9-rotating mechanism, 91-first frame, 92-driving motor, 93-connecting frame, 10-extruding mechanism, 101-supporting block, 102-rotating plate, 103-second connecting plate, 104-first fixing block, 105-first reel, 106-second fixing block, 107-second rotating rod, 108-first full gear, 109-second full gear, 1010-first pull rope, 11-punching mechanism, 111-second frame, 112-electric sliding rail, 113-first sliding plate, 12-transmission mechanism, 121-third fixed block, 122-third rotating rod, 123-second reel, 124-torsion spring, 125-first connecting block, 126-second pull rope, 1261-hollow iron ball, 127-third reel, 128-guide rail, 129-second sliding plate, 1210-third pull rope, 1211-return spring, 1212-contact switch, 13-turnover mechanism, 131-second connecting block, 132-third full gear, 1321-fourth full gear, 133-rack, 134-third connecting block, 135-second rotating frame, 136-belt pulley, 137-flat belt.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description, but the invention is not limited to the scope of protection and application.

Example 1

A rainwater recycling and irrigating device for buildings is disclosed, as shown in figures 1-5, and comprises a connecting frame 1, a first rotating rod 2, a first connecting plate 3, a fixed sleeve 4, a fixed frame 5, a first rotating frame 6, water outlet pipes 61, a water containing tank 7, a diffusion mechanism 8 and a rotating mechanism 9, wherein the left side, the right side, the front side and the rear side of the outer side of the connecting frame 1 are rotatably provided with the first rotating rod 2, the bottom of each of the four first rotating rods 2 is provided with the first connecting plate 3 for supporting the device, the connecting frame 1 is internally provided with the fixed sleeve 4, the top of the fixed sleeve 4 is rotatably provided with the first rotating frame 6, the outer side of the first rotating frame 6 is uniformly provided with three water outlet pipes 61 at intervals for spraying rainwater so as to irrigate the building construction, the fixed frame 5 is arranged at the top of the first rotating frame 6 for receiving the rainwater, the water containing tank 7 is arranged at the lower part in the first rotating frame 6 in a threaded manner, the rainwater collecting device is used for collecting received rainwater, the upper portion of the connecting frame 1 is provided with the diffusion mechanism 8, the diffusion mechanism 8 is matched with the three water outlet pipes 61, the area of rainwater spraying is increased, and the lower portion of the first rotating frame 6 is provided with the rotating mechanism 9 and used for driving the first rotating frame 6 to rotate.

As shown in fig. 1 and 4, the diffusion mechanism 8 includes a gear ring 81, spur gears 82 and rotary nozzles 83, the gear ring 81 is disposed on the connection frame 1, the spur gears 82 are rotatably disposed on outer sides of the three water outlet pipes 61, the three spur gears 82 are engaged with the gear ring 81, the three spur gears 82 are communicated with the water outlet pipes 61 on the same side, the rotary nozzles 83 are disposed on outer sides of the three spur gears 82, and the three rotary nozzles 83 are communicated with the water outlet pipes 61 on the same side for diffusion spraying of rainwater.

As shown in fig. 1 and 5, the rotating mechanism 9 includes a first frame 91, a driving motor 92 and a connecting frame 93, the first frame 91 is disposed at the rear side of the bottom of the connecting frame 1, the driving motor 92 is mounted on the first frame 91 through a bolt connection, the connecting frame 93 is disposed on an output shaft of the driving motor 92, and the upper portion of the connecting frame 93 is connected to the first rotating frame 6.

When people need to use the rainwater recycling and irrigating device for buildings, firstly, people firstly place the device in an open area and contact the device with the ground through the first connecting plate 3 to support the device, then people rotate the first rotating rod 2, the first rotating rod 2 drives the first connecting plate 3 to move inwards and fold, the first connecting plate 3 moves inwards to increase the whole device, similarly, people reversely rotate the first rotating rod 2, when the first rotating rod 2 drives the first connecting plate 3 to move outwards and open, the first connecting plate 3 can lower the whole device, after people adjust the device to a proper height, the device can start rainwater receiving work, rainwater can be received through the fixed frame 5, flows to the first rotating frame 6 along the fixed frame 5, and then flows to the water containing box 7 through the first rotating frame 6, the rainwater can be collected in a centralized manner by the water containing tank 7, then people press the water containing tank 7, the rainwater in the water containing tank 7 is extruded into the first rotating frame 6, the rainwater is conveyed through the water outlet pipe 61, so that the rainwater is conveyed to the rotating spray head 83, the rainwater is sprayed through the rotating spray head 83, then people start the driving motor 92, the forward rotation of the output shaft of the driving motor 92 is controlled, the output shaft of the driving motor 92 drives the connecting frame 93 to rotate, the connecting frame 93 drives the first rotating frame 6 to rotate, the first rotating frame 6 drives the water outlet pipe 61 to rotate, the water outlet pipe 61 drives the spur gear 82 to rotate, the spur gear 82 is in contact with the gear ring 81, the spur gear 82 drives the rotating spray head 83 to rotate, the rotating spray head 83 rotates to diffuse the rainwater, the rainwater is further sprayed to a construction place, the rainwater spraying area can be increased through the rotation of the rotating spray head 83, when not needing to spray the rainwater to construction department, people just stop to press dress water tank 7, dress water tank 7 resumes the former state thereupon, people close driving motor 92 after that, people can rotate dress water tank 7 and first rotation frame 6 break away from the contact, install new dress water tank 7 in first rotation frame 6 after that, and antiport dress water tank 7, make dress water tank 7 screw up with first rotation frame 6, so alright change dress water tank 7, it is convenient to change, finally alright realize collecting the rainwater, and water the construction region with the rainwater of collecting, thereby save the water resource.

Example 2

On the basis of embodiment 1, as shown in fig. 1 and 6, the device further comprises a pressing mechanism 10, the pressing mechanism 10 comprises a supporting block 101, a rotating plate 102, a second connecting plate 103, a first fixing block 104, a first reel 105, a second fixing block 106, a second rotating rod 107, a first full gear 108, a second full gear 109 and a first pull rope 1010, three supporting blocks 101 are uniformly arranged at intervals inside the connecting frame 1, the rotating plate 102 is rotatably arranged on each of the three supporting blocks 101, the second connecting plate 103 is rotatably arranged on each of the lower inner sides of the three rotating plates 102, the three second connecting plates 103 are in contact fit with the water containing tank 7, the first fixing block 104 is arranged in the middle of the left side of the connecting frame 93, the first reel 105 is rotatably arranged on the first fixing block 104, the second fixing block 106 is arranged on the upper portion of the left side of the connecting frame 93, the second rotating rod 107 is rotatably arranged on the second fixing block 106, and the bottom of the second rotating rod 107 is connected with the first reel 105, the upper portion of the second rotating rod 107 is provided with a first full gear 108, the lower portion of the first rotating frame 6 is provided with a second full gear 109, the first full gear 108 is meshed with the second full gear 109, the upper side and the lower side of the first reel 105 are respectively connected with a first pull rope 1010 in a winding mode, the right ends of the two first pull ropes 1010 are connected to the second connecting plate 103 on the right side, and the two first pull ropes 1010 are in contact fit with the three second connecting plates 103.

When rainwater needs to be automatically irrigated, people start the driving motor 92 to control the forward rotation of the output shaft of the driving motor 92, the output shaft of the driving motor 92 drives the connecting frame 93 to rotate, the connecting frame 93 drives the first rotating frame 6 to rotate, the first rotating frame 6 drives the second full gear 109 to rotate, the second full gear 109 rotates to be in contact with the first full gear 108, so that the first full gear 108 rotates, the first full gear 108 drives the second rotating rod 107 to rotate, the second rotating rod 107 drives the first reel 105 to rotate, the first reel 105 rotates to tighten the first pull rope 1010, the first pull rope 1010 is tightened to extrude the second connecting plate 103, so that the second connecting plate 103 and the rotating plate 102 slightly rotate, the second connecting plate 103 extrudes the water containing tank 7, rainwater in the water containing tank 7 is extruded into the first rotating frame 6, and the rainwater is conveyed through the water outlet pipe 61, thus, rainwater is conveyed to the rotary spray head 83, rainwater is sprayed out through the rotary spray head 83, then people control the reverse rotation of the output shaft of the driving motor 92, the output shaft of the driving motor 92 drives the connecting frame 93 to rotate reversely, the connecting frame 93 drives the first rotating frame 6 to rotate reversely, the first rotating frame 6 drives the second full gear 109 to rotate reversely, the second full gear 109 is contacted with the first full gear 108 so as to drive the first full gear 108 to rotate reversely, the first full gear 108 drives the second rotating rod 107 to rotate reversely, the second rotating rod 107 drives the first reel 105 to rotate reversely, the first reel 105 rotates reversely to release the first pull rope 1010, the first pull rope 1010 does not extrude the second connecting plate 103, meanwhile, the second connecting plate 103 does not extrude the water containing tank 7, then the water containing tank 7 recovers the original shape, the water containing tank 7 extrudes the second connecting plate 103, so that the second connecting plate 103 drives the rotating plate 102 to slightly rotate reversely, finally, the water containing tank 7 can be automatically extruded, so that rainwater is poured to a building construction site, and after the operation is finished, the driving motor 92 is turned off.

As shown in fig. 1, 7 and 8, the stamping device further includes a stamping mechanism 11, the stamping mechanism 11 includes a second frame 111, an electric slide rail 112 and a first sliding plate 113, the second frame 111 is rotatably disposed on a lower portion of the fixed frame 5, the electric slide rail 112 is mounted in the middle of the second frame 111, the electric slide rail 112 is located in the fixed frame 5, the electric slide rail 112 is located inside the first rotating frame 6, the first sliding plate 113 is slidably disposed on an upper portion of the electric slide rail 112, and the first sliding plate 113 is connected to a moving member of the electric slide rail 112.

Because the second connecting plate 103 excessively extrudes the water containing tank 7, rainwater in the water containing tank 7 is easily extruded into the fixed frame 5, and the rainwater cannot be directly conveyed into the water outlet pipe 61, at this time, people need to block the rainwater extruded and conveyed by the water containing tank 7, people can firstly start the electric sliding rail 112, control the first sliding plate 113 to move downwards, move the first sliding plate 113 to penetrate through the first rotating frame 6, so as to block the first rotating frame 6, so that the rainwater cannot be conveyed upwards, when the first sliding plate 113 moves to the lowest position of the electric sliding rail 112, people close the electric sliding rail 112, so as to stop the first sliding plate 113, when the first rotating frame 6 does not need to be blocked, people start the electric sliding rail 112, control the first sliding plate 113 to move upwards, move the first sliding plate 113 to the uppermost position of the electric sliding rail 112, so that the first sliding plate 113 does not block the first rotating frame 6 any more, finally alright realize blocking first rotating frame 6, when preventing that second connecting plate 103 from excessively extruding water containing tank 7, the rainwater in water containing tank 7 extrudes fixed frame 5 to concentrate the rainwater and carry.

As shown in fig. 1, 9, 10 and 11, the spinning reel further comprises a transmission mechanism 12, the transmission mechanism 12 comprises a third fixing block 121, a third rotating rod 122, a second reel 123, a torsion spring 124, a first connecting block 125, a second pull rope 126, a hollow iron ball 1261, a third reel 127, a guide rail 128, a second sliding plate 129, a third pull rope 1210, a return spring 1211 and a contact switch 1212, the third fixing block 121 is arranged on the front side and the rear side of the middle portion of the left side of the first rotating frame 6, the third rotating rod 122 is rotatably arranged between the left sides of the two third fixing blocks 121, the second reel 123 is arranged on the third rotating rod 122, the torsion spring 124 is arranged between the two third fixing blocks 121 and the second reel 123, the two torsion springs 124 are wound on the third rotating rod 122, the first connecting block 125 is arranged on the middle portion of the left side of the second frame 111, the second pull rope 126 is wound on the second reel 123, the second pull rope 126 penetrates through the first connecting block 125, the first connecting block 125 limits the second pull rope 126, a hollow iron ball 1261 is arranged at the lower part of the second pull rope 126, the hollow iron ball 1261 is positioned in the water containing tank 7, third reels 127 are arranged on the front side and the rear side of the third rotating rod 122, a guide rail 128 is arranged in the middle of the right side of the first rotating frame 6, a second sliding plate 129 is arranged on the guide rail 128 in a sliding mode, a return spring 1211 is arranged between the second sliding plate 129 and the guide rail 128, the return spring 1211 is connected to the guide rail 128 in a winding mode, third pull ropes 1210 are connected to the front side and the rear side of the left side of the second sliding plate 129, the two third pull ropes 1210 are connected to the third reels 127 on the same side in a winding mode, a contact switch 1212 is arranged on the upper part of the right side of the first rotating frame 6 in a sliding mode, the second sliding plate 129 moves to the left side to squeeze the contact switch 1212, and the contact switch 1212 is electrically connected with the electric sliding rail 112.

In a normal state, the hollow iron ball 1261 is located inside the water containing box 7, the initial state of the torsion spring 124 is deformed, when rainwater flows into the water containing box 7 along the fixing frame 5, the rainwater in the water containing box 7 is gradually filled, so that the hollow iron ball 1261 floats up on the surface of the rainwater, the second pull rope 126 is loosened while the hollow iron ball 1261 floats up, the third rotating rod 122 rotates under the reset action of the torsion spring 124, the third rotating rod 122 drives the second reel 123 to rotate, the second reel 123 rotates to tighten the second pull rope 126, the third rotating rod 122 drives the third reel 127 to rotate, the third reel 127 rotates to tighten the third pull rope 1210, the second sliding plate 129 is pulled to move to the left along the guide rail 128 during tightening of the third pull rope 1210, the return spring 1211 is compressed, the second sliding plate 129 moves to the left to be in contact with the contact switch 1212, and the contact switch 1212 is pressed to start the electric slide rail 112, so as to control the first sliding plate 113 to move downwards, when the first sliding plate 113 moves to the lowest position of the electric slide rail 112, the first sliding plate 113 blocks the first rotating frame 6, so that rainwater cannot be squeezed into the fixed frame 5, after the rainwater in the water containing tank 7 is poured, the hollow iron ball 1261 sinks to the bottom, the hollow iron ball 1261 pulls the second pull rope 126 to move downwards, the second pull rope 126 drives the second reel 123 to rotate reversely during moving, the second reel 123 drives the third rotating rod 122 to rotate reversely, the third rotating rod 122 drives the third reel 127 to rotate reversely, the third reel 127 rotates reversely to release the third pull rope 1210, under the reset action of the reset spring 1211, the second sliding plate 129 moves to the right side to reset, the second sliding plate 129 is separated from contact with the contact switch 1212, so as to stop the electric slide rail 112 moving, then, people start the electric sliding rail 112 to control the first sliding plate 113 to move upwards, the first sliding plate 113 moves to the uppermost side of the electric sliding rail 112, then people close the electric sliding rail 112, the material loading frame can receive rainwater, finally, the fixed-point starting of the electric sliding rail 112 can be realized, and the first sliding plate 113 can conveniently block the first rotating frame 6, so that the rainwater can be conveyed in a centralized manner.

As shown in fig. 1 and 12, the turnover mechanism 13 further includes a turnover mechanism 13, the turnover mechanism 13 includes a second connecting block 131, a third full gear 132, a fourth full gear 1321, a rack 133, a third connecting block 134, a second rotating frame 135, a belt pulley 136 and a flat belt 137, the second connecting block 131 is disposed on the right side of the lower portion of the fixing frame 5, the third full gear 132 is rotatably disposed on the right side of the second connecting block 131 through a transmission shaft, the fourth full gear 1321 is disposed on the right side of the third full gear 132, the third full gear 132 is engaged with the fourth full gear 1321, the rack 133 is disposed on the front side of the top of the second sliding plate 129, the rack 133 is engaged with the third full gear 132, the third connecting block 134 is disposed in the middle portion of the right side of the fixing frame 5, the second rotating frame 135 is rotatably disposed on the third connecting block 134, the second rotating frame 135 is made of stainless steel, and is not prone to rust, the service life is prolonged, the second rotating frame 135 rotates to be in contact with the fixed frame 5, the rear side of the fourth full gear 1321 is provided with the belt pulley 136, the front side of the second rotating frame 135 is provided with the belt pulley 136, and the flat belt 137 is wound between the two belt pulleys 136.

When rainwater is fully collected, people irrigate the building site with rainwater, rainwater does not need to be collected, the second sliding plate 129 moves leftwards to drive the rack 133 to move leftwards, the rack 133 moves to be in contact with the third full gear 132 and drives the third full gear 132 to rotate, the third full gear 132 drives the fourth full gear 1321 to rotate, the fourth full gear 1321 drives the left belt pulley 136 to rotate, the right belt pulley 136 drives the second rotating frame 135 to rotate under the matching of the belt pulley 136 and the flat belt 137, the second rotating frame 135 rotates to be in contact with the fixed frame 5 and blocks the fixed frame 5, so that the fixed frame 5 cannot continuously receive rainwater, when the rainwater in the water containing tank 7 is used up, the second sliding plate 129 drives the rack 133 to move rightwards, the rack 133 moves to be in contact with the third full gear 132 and drives the third full gear 132 to rotate reversely, the third full gear 132 drives the fourth full gear 1321 to rotate reversely, the fourth full gear 1321 drives the left belt pulley 136 to rotate reversely, the belt pulley 136 drives the second rotating frame 135 to rotate reversely and open under the matching of the belt pulley 136 and the flat belt 137, so that the second rotating frame 135 is separated from the fixed frame 5, the fixed frame 5 can receive rainwater, the rainwater in the water containing tank 7 stops being received after being filled with the rainwater, and the rainwater in the water containing tank 7 is received after being used up.

The technical principle of the embodiment of the present invention is described above in conjunction with the specific embodiments. The description is only intended to explain the principles of embodiments of the invention and should not be taken in any way as limiting the scope of the embodiments of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive step, and these embodiments will fall within the scope of the present invention.

Claims (8)

1. The utility model provides a watering equipment is retrieved to rainwater for building which characterized in that includes:

the left side and the right side of the outer side of the connecting frame (1) and the front side and the rear side are both rotatably provided with first rotating rods (2);

the bottoms of the four first rotating rods (2) are respectively provided with a first connecting plate (3);

a fixed sleeve (4) is arranged in the connecting frame (1);

the top of the fixed sleeve (4) is rotatably provided with a first rotating frame (6);

the water outlet pipes (61), three water outlet pipes (61) are uniformly arranged on the outer side of the first rotating frame (6) at intervals;

the top of the first rotating frame (6) is provided with the fixed frame (5);

the water containing tank (7) is arranged at the inner lower part of the first rotating frame (6) in a threaded manner;

the upper part of the connecting frame (1) is provided with a diffusion mechanism (8) for increasing the area for spraying rainwater, and the diffusion mechanism (8) is matched with the three water outlet pipes (61);

and the rotating mechanism (9) is arranged at the lower part of the first rotating frame (6) and is used for driving the first rotating frame (6) to rotate.

2. A rainwater harvesting and watering apparatus for use in buildings according to claim 1 wherein the diffusion means (8) comprises:

the gear ring (81) is arranged on the connecting frame (1);

straight gears (82) are rotationally arranged on the outer sides of the three water outlet pipes (61), the three straight gears (82) are meshed with the gear ring (81), and the three straight gears (82) are communicated with the water outlet pipes (61) on the same side;

the outer sides of the three straight gears (82) are provided with the rotary spray heads (83), and the three rotary spray heads (83) are communicated with the water outlet pipe (61) on the same side.

3. A rainwater harvesting and watering apparatus for buildings according to claim 2 wherein the rotation mechanism (9) comprises:

the rear side of the bottom of the connecting frame (1) is provided with a first rack (91);

the driving motor (92), the first frame (91) is provided with the driving motor (92);

the output shaft of the driving motor (92) is provided with the connecting frame (93), and the upper part of the connecting frame (93) is connected with the first rotating frame (6).

4. A rainwater harvesting and irrigating device for buildings according to claim 3, further comprising a squeezing mechanism (10), wherein the squeezing mechanism (10) comprises:

the inner sides of the connecting frames (1) are uniformly provided with three supporting blocks (101) at intervals;

the three supporting blocks (101) are respectively provided with a rotating plate (102) in a rotating manner;

the inner sides of the lower parts of the three rotating plates (102) are respectively and rotatably provided with a second connecting plate (103), and the three second connecting plates (103) are respectively in contact fit with the water containing tank (7);

the middle part of the left side of the connecting frame (93) is provided with a first fixed block (104);

a first reel (105), the first reel (105) being rotatably provided on the first fixing block (104);

the upper part of the left side of the connecting frame (93) is provided with a second fixed block (106);

the second rotating rod (107), the second fixed block (106) is provided with the second rotating rod (107) in a rotating mode, and the bottom of the second rotating rod (107) is connected with the first reel (105);

a first full gear (108), wherein the upper part of the second rotating rod (107) is provided with the first full gear (108);

the lower part of the first rotating frame (6) is provided with a second full gear (109), and the first full gear (108) is meshed with the second full gear (109);

first stay cord (1010), first reel (105) upper and lower both sides all around being connected first stay cord (1010), the right side of two first stay cords (1010) all connects on second connecting plate (103) on right side, and two first stay cords (1010) and three second connecting plate (103) contact cooperation.

5. A rainwater recycling and irrigating device for buildings according to claim 4, further comprising a punching mechanism (11), wherein the punching mechanism (11) comprises:

the lower part of the fixed frame (5) is rotatably provided with a second frame (111);

the middle part of the second rack (111) is provided with the electric slide rail (112), the electric slide rail (112) is positioned in the fixed frame (5), and the electric slide rail (112) is positioned in the first rotating frame (6);

the first sliding plate (113) is arranged on the upper part of the electric sliding rail (112) in a sliding way.

6. A rainwater harvesting and irrigating device for buildings according to claim 5, further comprising a transmission mechanism (12), wherein the transmission mechanism (12) comprises:

the front side and the rear side of the middle part of the left side of the first rotating frame (6) are respectively provided with a third fixed block (121);

a third rotating rod (122) is rotatably arranged between the left sides of the two third fixed blocks (121);

a second reel (123), the third rotating lever (122) being provided with the second reel (123);

the torsion springs (124) are arranged between the two third fixing blocks (121) and the second reel (123), and the two torsion springs (124) are wound on the third rotating rod (122);

the middle part of the left side of the second rack (111) is provided with a first connecting block (125);

the second pull rope (126) is wound on the second reel (123), the second pull rope (126) penetrates through the first connecting block (125), and the first connecting block (125) plays a limiting role on the second pull rope (126);

the hollow iron ball (1261) is arranged at the lower part of the second pull rope (126), and the hollow iron ball (1261) is positioned inside the water containing tank (7);

third reels (127), the front and rear sides of the third rotating rod (122) are provided with the third reels (127);

the middle part of the right side of the first rotating frame (6) is provided with a guide rail (128);

the second sliding plate (129), the guide rail (128) is provided with the second sliding plate (129) in a sliding way;

a return spring (1211), a return spring (1211) is arranged between the second sliding plate (129) and the guide rail (128), and the return spring (1211) is wound on the guide rail (128);

the front side and the rear side of the left side of the second sliding plate (129) are both connected with third pull ropes (1210), and the two third pull ropes (1210) are wound on the third reel (127) on the same side;

the contact switch (1212) is arranged on the upper portion of the right side of the first rotating frame (6) in a sliding mode, the second sliding plate (129) moves towards the left side to extrude the contact switch (1212), and the contact switch (1212) is electrically connected with the electric sliding rail (112).

7. A rainwater harvesting and irrigating device for buildings according to claim 6, further comprising a turnover mechanism (13), wherein the turnover mechanism (13) comprises:

the right side of the lower part of the fixed frame (5) is provided with a second connecting block (131);

the right side of the second connecting block (131) is rotatably provided with a third full gear (132) through a transmission shaft;

the right side of the second connecting block (131) is rotatably provided with a fourth full gear (1321) through a transmission shaft, the fourth full gear (1321) is positioned on the right side of the third full gear (132), and the third full gear (132) is meshed with the fourth full gear (1321);

the rack (133) is arranged on the front side of the top of the second sliding plate (129), and the rack (133) is meshed with the third full gear (132);

the middle part of the right side of the fixed frame (5) is provided with a third connecting block (134);

the second rotating frame (135) is rotatably arranged on the third connecting block (134), and the second rotating frame (135) rotates to be in contact with the fixed frame (5);

the belt pulley (136) is arranged on the rear side of the fourth full gear (1321), and the belt pulley (136) is arranged on the front side of the second rotating frame (135);

a flat belt (137), and the flat belt (137) is wound between the two belt pulleys (136).

8. A rainwater harvesting and irrigating device for buildings according to claim 7, wherein: the second rotating frame (135) is made of stainless steel.

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