CN112219615A - Big-arch shelter with rainwater is retrieved function - Google Patents

Abstract

The application relates to the technical field of vegetable greenhouses, and discloses a greenhouse with a rainwater recovery function, which comprises an arc-shaped part and a rectangular part arranged at the lower end of the arc-shaped part; the two arc edges of the arc part are provided with baffles; reservoirs are arranged on two sides of the rectangular part, a cover plate is rotatably arranged at the upper end of each reservoir, and a hinge shaft of each cover plate is arranged on one side close to the rectangular part; and the hinged shaft is provided with a driving mechanism for driving the cover plate to rotate. This application has the effect of retrieving the rainwater, can recycle the rainwater of retrieving.

Description

Big-arch shelter with rainwater is retrieved function

Technical Field

The application relates to the technical field of vegetable greenhouse, in particular to a greenhouse with a rainwater recycling function.

Background

The greenhouse is an essential facility for planting vegetable crops in cold winter, regular watering needs to be carried out in the greenhouse in order to ensure the normal growth of the crops in the greenhouse, and the prior greenhouse is directly communicated with a water source to water the crops.

The roof of the greenhouse is generally arranged to be arched, so that rainwater can be drained conveniently and can be recycled. The rainwater discharged from the existing greenhouse is not recovered, and the rainwater is directly discharged to the ground, so that the waste of water resources is caused.

In view of the above-mentioned related art, the inventor believes that there is a defect that rainwater cannot be recovered, thereby causing water resource waste.

Disclosure of Invention

In order to retrieve the rainwater, reduce the waste of water resource, this application provides a big-arch shelter with rainwater retrieves function.

The application provides a big-arch shelter with rainwater retrieves function adopts following technical scheme:

a greenhouse with a rainwater recycling function comprises an arc-shaped part and a rectangular part arranged at the lower end of the arc-shaped part;

the two arc edges of the arc part are provided with baffles;

reservoirs are arranged on two sides of the rectangular part, a cover plate is rotatably arranged at the upper end of each reservoir, and a hinge shaft of each cover plate is arranged on one side close to the rectangular part;

and the hinged shaft is provided with a driving mechanism for driving the cover plate to rotate.

By adopting the technical scheme, the greenhouse comprises the arc-shaped part and the rectangular part, the supporting frames are arranged in the arc-shaped part and the rectangular part to support the structure of the whole greenhouse, the water reservoirs are arranged on two sides of the rectangular part, the arc-shaped part can guide rainwater, and the baffle plate can collect rainwater when the rainwater falls on the arc-shaped top wall of the greenhouse; the opening of cistern upper end can be opened or closed in the setting of apron, when the apron lid closes the upper end of cistern, can lead subaerially from the initial stage rainwater that the arc portion roof flowed down and the rainwater that is adulterated with the silt, and does not make it enter into the cistern, when the apron rotates the state of opening the cistern, the roof of arc portion was by the sanitization this moment, and the middle term rainwater that flows down on the arc portion enters into the cistern and collects.

Optionally, one side of the cover plate is hinged to the upper end of the reservoir, and the other side of the cover plate abuts against the inner wall of the side wall on the opposite side.

Through adopting above-mentioned technical scheme, on the inner wall of the cistern of one side butt of apron, like this, the apron can rotate downwards, opens the cistern and can not influence the collection of rainwater.

Optionally, the height of the water reservoir away from the side wall of the rectangular portion is lower than the height of the other side wall opposite to the side wall.

Through adopting above-mentioned technical scheme, when the apron lid closes on the opening of cistern, the apron is in the state of downward sloping, and apron at this moment plays the effect of water conservancy diversion, carries out the water conservancy diversion with silt and the initial stage rainwater that falls on the arc portion roof for the roof of arc portion is by the cleaner of clearance.

Optionally, the driving mechanism includes a first gear sleeved on the hinge shaft, a second gear engaged with the first gear, and a first motor driving the second gear to rotate;

the first motor is arranged on the outer wall of the arc-shaped part or the rectangular part.

Through adopting above-mentioned technical scheme, actuating mechanism chooses the meshing between gear and the gear for use, and when two gears were static, leaned on the engaging force between two gears and can rainwater impact the apron, caused the rotation of apron.

Optionally, the first gear is provided as a sector gear, and two ends of the sector gear are provided with side plates for preventing the sector gear from rotating excessively.

Through adopting above-mentioned technical scheme, sector gear is set to first gear, and sector gear can only rotate an angle, and the apron setting can only rotate downwards when needing the retaining on the cistern, opens the cistern, and the apron also only needs to rotate an angle, and the curb plate at sector gear's both ends can play spacing effect, prevents that the gear is rotatory excessively.

Optionally, a cleaning mechanism for cleaning the top wall is arranged on the top wall of the arc-shaped portion.

Through adopting above-mentioned technical scheme, the roof of arc portion is by the rainwash, clears up the roof of arc portion, and in order to handle the roof of arc portion more thoroughly, the rainwater of guaranteeing to flow into in the cistern is comparatively clean, is provided with the clearance mechanism that is used for clearing up the roof on the roof of arc portion.

Optionally, the cleaning mechanism includes a screw rod with two ends rotatably disposed between the baffles, a sliding block disposed on the screw rod, a second motor driving the screw rod to rotate, and a limiting component disposed between the sliding block and the arc-shaped portion;

the sliding block is provided with a connecting rod, and the connecting rod is provided with a brush;

when the sliding block rotates along the screw rod, the top wall of the arc-shaped part is cleaned by the hairbrush.

Through adopting above-mentioned technical scheme, the setting of spacing subassembly is injectd the sliding block position, makes it can not rotate on the screw rod, and second motor drive screw rotates, and the radial position of sliding block is injectd, and the sliding block can only slide along the length direction of screw rod, and at gliding in-process, the brush on the connecting rod clears up the top of arc portion, and is cleaner with the roof clearance of arc portion.

Optionally, the limiting assembly comprises a limiting plate arranged on the sliding block and a limiting groove arranged on the arc-shaped part;

the limiting groove is parallel to the screw, and the limiting plate is connected in the limiting groove in a sliding mode.

Through adopting above-mentioned technical scheme, through the setting of stopper and spacing groove, can guarantee the gliding in-process of sliding block along the length direction of screw, make its slip that can be steady, can not influence the roof of brush clearance arc portion yet.

Optionally, a water pipe is arranged in the rectangular part, and the water pipe is communicated with the reservoir;

the water service pipe comprises a plurality of connecting pipes which are arranged in a staggered mode, the connecting pipes are communicated with one another, and a plurality of spray heads are arranged on each connecting pipe at intervals.

Through adopting above-mentioned technical scheme, be provided with the water service pipe in the rectangle portion, the water service pipe is crisscross to be set up, through shower head water spray downwards, on spraying the vegetables in the big-arch shelter with water, with rainwater recycle.

Optionally, be provided with the suction pump in the rectangle portion, the cavity intercommunication in one end and the cistern of suction pump, the other end is connected on the water service pipe.

Through adopting above-mentioned technical scheme, be provided with the suction pump between cistern and the water service pipe, the setting of suction pump can be taken the rainwater out in following the cistern, in the smooth transport water service pipe of water.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when falling from the top wall of the arc-shaped part, rainwater falls into the water storage tanks arranged on two sides of the rectangular part, the function of storing rainwater is achieved in the water storage tanks, cover plates are arranged at the openings of the water storage tanks, the function of intercepting rainwater can be achieved through the arrangement of the cover plates, initial rainwater and rainwater on the top wall of the arc-shaped part are isolated and discharged, and rainwater in the middle period of the top wall of the arc-shaped part is stored in the water storage tanks for storage;

2. the cleaning mechanism arranged on the top wall of the arc-shaped part can clean the top wall of the arc-shaped part more thoroughly, so that the flowing rainwater is ensured to be mixed with less impurities;

3. the water in the reservoir is pumped into the water pipe through the water pump, and then is sprayed out from the spray header, so that the rainwater is recycled.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a water reservoir and a cover plate in the embodiment of the present application.

Fig. 3 is a schematic structural diagram of a drive mechanism in an embodiment of the present application.

Fig. 4 is a schematic structural diagram of a cleaning mechanism in an embodiment of the present application.

Fig. 5 is a schematic view of the internal structure of the rectangular portion in the embodiment of the present application.

Description of reference numerals: 1. an arc-shaped portion; 11. a baffle plate; 2. a rectangular portion; 21. a reservoir; 22. a cover plate; 23. a water pipe; 231. a connecting pipe; 24. a shower head; 25. A water pump; 31. a first gear; 32. a second gear; 33. a first motor; 34. a side plate; 41. a screw; 42. a slider; 43. a second motor; 44. a connecting rod; 45. a brush; 51. a limiting plate; 52. a limiting groove.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses big-arch shelter with rainwater is retrieved function. Referring to fig. 1, a greenhouse having a rainwater recovery function includes an arc-shaped portion 1 and a rectangular portion 2. The rectangular part 2 is arranged on the ground, and the arc part 1 is arranged at the upper end of the rectangular part 2. The rectangular portion 2 includes four side walls and a plurality of support rods provided on the inner walls of the four side walls for supporting the rectangular portion 2 and the arc portion 1. Arc portion 1 includes arch roof and two parallel arrangement's side shield, and the side shield is connected between the side of arch roof and the side of rectangle portion 2, forms confined greenhouse structure.

Referring to fig. 1, baffles 11 are fixedly arranged on two arc-shaped edges of an arc-shaped part 1 vertically upwards, the baffles 11 are also arranged in an arc shape, and the two baffles 11 and the top wall of the arc-shaped part 1 form an area. Reservoirs 21 are arranged on two sides of the rectangular portion 2, and the two reservoirs 21 are symmetrically arranged on two sides of two straight edges of the arc-shaped portion 1 of the baffle plate 11. Like this, the rainwater drops in the region that the roof of arc portion 1 and baffle 11 formed to can flow along the roof of arc portion 1 and collect in cistern 21, collect the rainwater, reduce the waste of water resource.

Referring to fig. 1 and 2, the number of the water reservoirs 21 is two, and the two water reservoirs 21 are symmetrically arranged and have completely identical structures. Here, only the structure of one water reservoir 21 will be described. The reservoir 21 is provided with an upper end opening, a cover plate 22 is covered in the upper end opening, and the cover plate 22 is provided in a strip-shaped plate shape. The cover 22 is provided to open or close the opening of the water reservoir 21. One side of the cover plate 22 is hinged to the upper end of the inner side wall of the water reservoir 21 at the side close to the rectangular part 2 by means of a hinge shaft. In this embodiment, when the cover 22 covers the opening of the water reservoir 21, the cover 22 is hinged to the upper end of the sidewall of the water reservoir 21, and the other side abuts on the inner wall of the other side of the water reservoir 21 opposite to the hinged side. When the opening of the water storage tank 21 is opened by the cover plate 22, the hinged position of the cover plate 22 is unchanged, the other side of the cover plate 22 is rotated downwards, the cover plate 22 is completely rotated into the water storage tank 21, a gap is formed between the cover plate 22 and the side wall of the water storage tank 21, and rainwater can enter the water storage tank 21 to store water.

After initial rainwater flows down along the top wall of the arc-shaped part 1, soil on the top wall of the arc-shaped part 1 can be washed away, and meanwhile, garbage on the arc-shaped part 1 can be discharged. In order to reduce the entry of the rainwater into the reservoir 21, the cover plate 22 is covered on the opening of the reservoir 21 to close the opening of the reservoir 21 at the early stage of the rainwater. The rainwater is guided to the ground by the guiding action of the cover plate 22, and is not collected. After the roof of arc portion 1 was washed out to initial stage rainwater totally, open apron 22, made the opening of cistern 21 expose, when the rainwater in middle period fell on arc portion 1, collected the rainwater and recycled.

Referring to fig. 2, in order to guide the initial rainwater more thoroughly, the height of the sidewall at a side of the reservoir 21 away from the rectangular part 2 is lower than the height of the other sidewall corresponding to the sidewall. The opening of the reservoir 21 is now arranged obliquely, and the side of the cover 22 remote from the hinge also abuts against the side wall of the reservoir 21, with the cover 22 being in an oblique position when the cover 22 is closed over the opening of the reservoir 21. When the initial rainwater flows to the upper side of the cover plate 22, the rainwater can be guided to the ground along the inclined cover plate 22, soil is not easy to remain on the cover plate 22, and when the cover plate 22 rotates downwards, the soil entering the reservoir 21 can be reduced.

Referring to fig. 3, in order to facilitate the rotation of the cover 22, a driving mechanism for driving the cover 22 to rotate is provided at the hinge shaft of the cover 22. The driving mechanism comprises a first gear 31 sleeved on the hinge shaft, a second gear 32 meshed with the first gear 31 and a first motor 33 driving the second gear 32 to rotate. The first motor 33 is installed on the outer wall of the rectangular portion 2, and the output shaft of the first motor 33 is connected to the second gear 32 to drive the second gear 32 to rotate, so as to engage with the rotation of the first gear 31, and finally drive the rotation of the hinge shaft and the cover plate 22.

In order to limit the rotation angle of the cover plate 22 and prevent the excessive rotation angle of the cover plate 22 from making it impossible to accurately control the opening and closing of the water reservoir 21. The first gear 31 is provided as a sector gear, and both radius sides of the sector gear are provided with side plates 34, and the side plates 34 extend to a side away from the hinge shaft. When the opening of the reservoir 21 is in a closed state and water needs to be stored in the reservoir 21, the first motor 33 is turned on, when the first motor 33 drives the second gear 32 to rotate, the second gear 32 is meshed with the first gear 31 to rotate, the second gear 32 can contact the side plate 34 to stop rotating, and at the moment, the cover plate 22 is opened for opening the opening of the reservoir 21. When the water storage is finished and the cover plate 22 is needed to cover the water storage tank 21, the first motor 33 rotates in the opposite direction, the second gear 32 stops rotating when contacting the other side plate 34, and the cover plate 22 covers the opening of the water storage tank 21.

Referring to fig. 1 and 4, in order to clean the top wall of the arc-shaped portion 1 more cleanly, a cleaning mechanism for cleaning the top wall is provided on the top wall of the arc-shaped portion 1. The cleaning mechanism comprises a screw rod 41, a sliding block 42, a second motor 43 and a limiting component. Two ends of the screw rod 41 are rotatably connected to the two baffle plates 11, and the length direction of the screw rod 41 is parallel to the straight line where the highest point of the top wall of the arc-shaped part 1 is located. The sliding block 42 is sleeved outside the screw rod 41, a limiting component is arranged between the sliding block 42 and the top wall of the arc-shaped part 1, and the radial position of the sliding block 42 is limited, so that the sliding block 42 can only slide along the length direction of the screw rod 41. The limiting component comprises a limiting plate 51 fixedly arranged on the sliding block 42 and a limiting groove 52 arranged on the top wall of the arc-shaped part 1, and the limiting groove 52 is parallel to the screw rod 41 and is arranged right below the screw rod 41. The stopper plate 51 provided on the slide block 42 is slidably coupled in the stopper groove 52 and is slidable along the longitudinal direction of the stopper groove 52.

Referring to fig. 4, a connecting rod 44 is fixedly connected to the sliding block 42, the connecting rod 44 is configured as an arc-shaped rod, and the radian of the arc-shaped rod is consistent with the radian of the arc-shaped edge of the arc-shaped portion 1. The lower end of the connecting rod 44 is provided with a brush 45, and the brush 45 can abut against the upper surface of the arc-shaped part 1 to clean the upper surface of the arc-shaped part 1. The output shaft of second motor 43 is on screw rod 41, and second motor 43 rotates, and drive screw rod 41's rotation, and then drive sliding block 42 and slide along screw rod 41's length direction, and sliding block 42 slides, drives the top looks friction of brush 45 and arc portion 1, and is clean more thorough with the top clearance of arc portion 1.

Referring to fig. 5, in order to recycle rainwater in the reservoir 21, a water pipe 23 is disposed inside the rectangular portion 2 at a position close to the arc portion 1, the water pipe 23 includes a plurality of connection pipes 231 arranged in a staggered manner, and each connection pipe 231 is communicated with each other. The water pipe 23 is provided with spray headers 24, the spray headers 24 are arranged at intervals, and the openings of the spray headers 24 face downwards. A hose extends from the water pipe 23 to communicate with the chamber in the reservoir 21. Two water suction pumps 25 are arranged inside the rectangular portion 2, a pipeline is connected to each water suction pump 25, and a pipeline at one end of each water suction pump 25 is connected to the inside of the water storage reservoir 21 and communicated with a cavity in the water storage reservoir 21. The other end is connected to the water pipe 23 through a hose. One end of the other water pump 25 is connected with the other reservoir 21, and the other end is also communicated with the water pipe 23. The water pump 25 is started to convey rainwater in the reservoir 21 into the water pipe 23, and finally water is sprayed downwards through the spray headers 24 arranged at intervals to finish irrigation.

The implementation principle of this application embodiment greenhouse with rainwater is retrieved function does:

normally, the cover plate 22 is in a closed state on the reservoir 21, and initial rainwater slides down from the arc portion 1 along the inclined cover plate 22 and stays on the ground. When the initial rainwater flushes the top wall of the arc-shaped part 1, the second motor 43 is turned on, and the second motor 43 drives the screw rod 41 to rotate, so that the slide block 42 slides along the length direction of the screw rod 41. In the sliding process, the brush 45 cleans the top wall of the arc-shaped part 1, and the cleaned rainwater is discharged to the ground. After the cleaning is finished, the first motor 33 is turned on, the cover plate 22 is rotated for an angle, so that the opening of the water storage tank 21 is leaked, and the rainwater in the middle and later periods can be conveniently stored. After the storage is finished, the water pump 25 is started to pump the water in the water storage tank 21 into the water pipe 23, the water is sprayed downwards from the spray head 24 arranged on the water pipe 23 to water the vegetables, and the rainwater is utilized.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a big-arch shelter with rainwater retrieves function which characterized in that: comprises an arc part (1) and a rectangular part (2) arranged at the lower end of the arc part (1);

two arc edges of the arc part (1) are provided with baffle plates (11);

reservoirs (21) are arranged on two sides of the rectangular part (2), a cover plate (22) is rotatably arranged at the upper end of each reservoir (21), and a hinge shaft of each cover plate (22) is arranged on one side close to the rectangular part (2);

and a driving mechanism for driving the cover plate (22) to rotate is arranged on the hinged shaft.

2. The greenhouse with the rainwater recycling function as claimed in claim 1, wherein: the cover plate (22) is hinged at one side to the upper end of the reservoir (21) and abuts against the inner wall of the side wall on the opposite side.

3. The greenhouse with the rainwater recycling function as claimed in claim 2, wherein: the height of the reservoir (21) away from the side wall of the rectangular part (2) is lower than the height of the other side wall opposite to the side wall.

4. The greenhouse with the rainwater recycling function as claimed in claim 1, wherein: the driving mechanism comprises a first gear (31) sleeved on the hinge shaft, a second gear (32) meshed with the first gear (31) and a first motor (33) driving the second gear (32) to rotate;

the first motor (33) is arranged on the outer wall of the arc-shaped part (1) or the rectangular part (2).

5. The greenhouse with the rainwater recycling function as claimed in claim 4, wherein: the first gear (31) is arranged into a sector gear, and two ends of the sector gear are provided with side plates (34) for preventing the sector gear from rotating excessively.

6. The greenhouse with the rainwater recycling function as claimed in claim 1, wherein: and a cleaning mechanism for cleaning the top wall is arranged on the top wall of the arc-shaped part (1).

7. The greenhouse with the rainwater recycling function as claimed in claim 6, wherein: the cleaning mechanism comprises a screw rod (41) with two ends rotatably arranged between the baffles (11), a sliding block (42) arranged on the screw rod (41), a second motor (43) driving the screw rod (41) to rotate and a limiting component arranged between the sliding block (42) and the arc-shaped part (1);

a connecting rod (44) is arranged on the sliding block (42), and a brush (45) is arranged on the connecting rod (44);

when the sliding block (42) rotates along the screw rod (41), the top wall of the arc-shaped part (1) is cleaned by the brush (45).

8. The greenhouse with the rainwater recycling function as claimed in claim 7, wherein: the limiting component comprises a limiting plate (51) arranged on the sliding block (42) and a limiting groove (52) arranged on the arc-shaped part (1);

the limiting groove (52) is parallel to the screw rod (41), and the limiting plate (51) is connected in the limiting groove (52) in a sliding mode.

9. The greenhouse with the rainwater recycling function as claimed in claim 1, wherein: a water through pipe (23) is arranged in the rectangular part (2), and the water through pipe (23) is communicated with the reservoir (21);

the water service pipe (23) comprises a plurality of connecting pipes (231) which are arranged in a staggered mode, the connecting pipes (231) are communicated with one another, and a plurality of spray heads (24) are arranged on each connecting pipe (231) at intervals.

10. The greenhouse with the rainwater recycling function as claimed in claim 9, wherein: be provided with suction pump (25) in rectangle portion (2), the cavity intercommunication in one end and the cistern (21) of suction pump (25), the other end is connected on water service pipe (23).

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