CN210202644U - Greenhouse capable of utilizing renewable resources - Google Patents

Abstract

The utility model discloses a greenhouse of usable renewable resources, including roof and a pair of riser of fixed mounting in roof bottom avris to and fixed mounting in a pair of first slide rail frame and the two pairs of second slide rail frames of fixed mounting on two riser opposite faces at roof bottom middle part, the top avris of roof has seted up a pair of mouth that catchments. In fine days, the staff can rotate the solar photovoltaic board to the one end of electricity storage box, can change solar energy into the electric energy through the solar photovoltaic board, and can store the electric energy to the solar panel in order to use, simultaneously, be connected through the coupling of electromagnetic induction output and electromagnetic induction input and can be with the electric energy wireless transmission in the solar panel to the electricity storage box in, so that the inside use of device, in cloudy days, can be according to the same principle, rotate the one end of electricity storage box with the aerofoil can, the environmental adaptation ability and the renewable resources utilization ability of device have further been improved.

Description

Greenhouse capable of utilizing renewable resources

Technical Field

The utility model relates to a warmhouse booth field, in particular to warmhouse booth of usable renewable resources.

Background

The greenhouse is also called a greenhouse. Can transmit light, keep warm (or heat), and is used for cultivating plants. In seasons unsuitable for plant growth, the method can provide the growth period of the greenhouse and increase the yield, and is mainly used for cultivating or raising seedlings of plants like warm vegetables, flowers and trees in low-temperature seasons. The types of greenhouses are various, and the greenhouses can be divided into a great number according to different roof truss materials, lighting materials, shapes, heating conditions and the like.

However, the existing greenhouse still has the problem of lacking the capability of utilizing renewable resources, so that the device consumes more energy, and unnecessary energy waste is caused.

SUMMERY OF THE UTILITY MODEL

To the deficiency that prior art exists, the utility model aims to provide a greenhouse of usable renewable resources.

The above technical purpose of the present invention can be achieved by the following technical solutions: a greenhouse capable of utilizing renewable resources comprises a top plate, a pair of vertical plates fixedly arranged on the edge side of the bottom end of the top plate, a pair of first slide rail frames fixedly arranged in the middle of the bottom end of the top plate, and two pairs of second slide rail frames fixedly arranged on opposite surfaces of the two vertical plates, wherein a pair of water collecting ports are formed in the edge side of the top end of the top plate, a pair of first slide blocks are connected to the opposite surfaces of the pair of first slide rail frames in a sliding mode, a water tank is fixedly arranged between the pair of first slide blocks, two brackets are fixedly arranged between each first slide rail frame and the adjacent two second slide rail frames, a pair of positioning blocks are fixedly connected to the inner side wall of each bracket, a sliding plate is connected to the sliding blocks in a sliding mode, second springs are clamped between the sliding plate and the pair of positioning blocks, and limiting columns penetrate through the inner, and the limiting column can extend to the outside of the support, each pair of second sliding rail frames are connected with a second sliding block in a sliding mode, one side, close to the limiting column, of each second sliding block and one side, close to the first sliding block, of each second sliding block are provided with limiting holes, the limiting holes are matched with the limiting columns, each second sliding block is fixedly provided with a guide plate at the top end, one end of each guide plate extends to the position under the water collecting port, and the other end of each guide plate extends to the position over the water tank.

Further, the maximum static friction force between the first slide rail frame and the first slide block is equal to the gravity of the water tank filled with water.

Furthermore, the friction force between the second sliding block and the sliding plate and between the second sliding rail frame and the bracket can be ignored.

Further, the first spring and the second spring are always in an elastic compression state and cannot be elastically deformed.

Further, the support is equal to the length of the limiting column.

Furthermore, one end of the top plate close to the pair of water collecting ports is fixedly connected with a pair of water collecting plates, and an included angle of 150 degrees is formed between the water collecting plates and the top plate.

Furthermore, the top of roof runs through and movable mounting has a pair of pivot, every the bottom of pivot all fixed mounting has a driving motor, driving motor's model is Z2-11.

Furthermore, one side of the rotating shaft is fixedly provided with a wind blade plate, and the middle part of the bottom end of the wind blade plate is fixedly provided with a wind power storage plate.

Furthermore, a solar photovoltaic panel is fixedly mounted on the other side of the rotating shaft, and a solar storage panel is fixedly mounted in the middle of the bottom end of the solar photovoltaic panel.

Further, the bottom fixed mounting of roof has a pair of electricity storage box, every the equal fixed mounting in top middle part of electricity storage box has an electromagnetic induction input, and the electromagnetic induction input extends to the top of roof, the equal fixed mounting in bottom of wind-force accumulator plate and solar energy accumulator plate has the electromagnetic induction output, the electromagnetic induction output with be coupling connection between the electromagnetic induction input.

To sum up, the utility model discloses following beneficial effect has:

1. the greenhouse capable of utilizing renewable resources comprises a top plate, a pair of vertical plates fixedly arranged on the side edge of the bottom end of the top plate, a pair of first slide rail frames fixedly arranged in the middle of the bottom end of the top plate and two pairs of second slide rail frames fixedly arranged on opposite surfaces of the two vertical plates, wherein in rainy days, rainwater accumulated at a water collecting port can be guided into a water tank through a guide plate, when water in the water tank is stored for a certain time, a first sliding block can drive the water tank to slide downwards along the first slide rail frames, when a limiting hole on the first sliding block is opposite to a support, a second spring recovers a certain amount of elastic deformation and converts consumed elastic potential energy into kinetic energy of the sliding plate, so that the sliding plate drives the limiting columns to slide towards the first sliding block together, the limiting columns are matched and connected with the limiting holes on the first sliding block, and the first sliding block stops driving the water tank to continue to move downwards, simultaneously, because the second slider breaks away from the restriction of spacing post, make first spring will resume a certain amount of elastic deformation and change the elastic potential energy of consumption into the kinetic energy of second slider, thereby make the second slider drive the guide plate rebound and plug up the water-collecting opening, continue to accumulate the rainwater for the device with stopping the water-collecting opening, the device can be automatic through simple physical principle provides required water source for the device, thereby the trouble of artifical moisturizing has been reduced, and when the work demand, also can be according to the normal operating of same principle recovery device, the work wholeness and the regeneration resources utilization ability of device have been improved.

2. This kind of greenhouse of usable renewable resources, one side fixed mounting of pivot has the aerofoil, when fine, the staff can rotate the one end to the electricity storage box with the solar photovoltaic board, can change solar energy into the electric energy through the solar photovoltaic board, and can store the electric energy to the solar energy accumulator plate in order to be used, and simultaneously, be connected through the coupling of electromagnetic induction output and electromagnetic induction input and can be with the electric energy wireless transmission to the electricity storage box in the solar energy accumulator plate, so that install inside use, the environmental adaptation ability and the renewable resources utilization ability of device have been improved.

3. This kind of greenhouse of usable renewable resources, the opposite side fixed mounting of pivot has the solar photovoltaic board, when cloudy, the staff can rotate the one end to the electricity storage box with the aerofoil, can change wind energy into the electric energy through the aerofoil, and can store the electric energy to wind-force accumulator plate in order to be used, and simultaneously, coupling through electromagnetic induction output and electromagnetic induction input can be with the electric energy wireless transmission to the electricity storage box in the wind-force accumulator plate, so that device inside uses, the environmental adaptation ability and the renewable resources utilization ability of device have further been improved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic view of the longitudinal section structure of the top plate of the present invention;

fig. 3 is a schematic view of the split structure of the vertical plate of the present invention;

fig. 4 is a schematic view of a transverse cross-section structure of the bracket of the present invention;

fig. 5 is the schematic view of the water tank splitting structure of the present invention.

In the figure: 1. a top plate; 2. a vane plate; 3. a rotating shaft; 4. a solar photovoltaic panel; 5. a water collection port; 6. a water collection plate; 7. a vertical plate; 8. a support; 9. a water tank; 10. a first rail frame; 11. a baffle; 12. a second slide rail frame; 13. a wind power storage plate; 14. a drive motor; 15. an electricity storage box; 16. an electromagnetic induction input end; 17. an electromagnetic induction output end; 18. a solar storage panel; 19. a first spring; 20. a second slider; 21. a limiting hole; 22. a slide plate; 23. a limiting column; 24. a second spring; 25. positioning blocks; 26. a first slider.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

Referring to fig. 1-5, a greenhouse capable of utilizing renewable resources comprises a top plate 1, a pair of vertical plates 7 fixedly mounted on the edge side of the bottom end of the top plate 1, a pair of first slide rail frames 10 fixedly mounted in the middle of the bottom end of the top plate 1, and two pairs of second slide rail frames 12 fixedly mounted on the opposite surfaces of the two vertical plates 7, wherein the edge side of the top end of the top plate 1 is provided with a pair of water collecting ports 5, the opposite surfaces of the pair of first slide rail frames 10 are slidably connected with a pair of first slide blocks 26, a water tank 9 is fixedly mounted between the pair of first slide blocks 26, two brackets 8 are fixedly mounted between each first slide rail frame 10 and the two adjacent second slide rail frames 12, the inner side wall of each bracket 8 is fixedly connected with a pair of positioning blocks 25 and a sliding plate 22, second springs 24 are clamped between the sliding plate 22 and the pair of positioning blocks 25, and a limiting column 23 is, and spacing post 23 can extend to the outside of support 8, and equal sliding connection has a second slider 20 between every pair of second slide rail frame 12, and spacing hole 21 has all been seted up to one side that second slider 20 and first slider 26 are close to spacing post 23, and spacing hole 21 cooperatees with spacing post 23, and the top fixed mounting of every second slider 20 has a guide plate 11, and the one end of guide plate 11 extends to under catchment mouth 5 and the other end extends to directly over water tank 9.

Through the technical scheme, in a rainy day, rainwater accumulated at the water collecting port 5 can be guided into the water tank 9 through the guide plate 11, when water in the water tank 9 is stored for a certain time, the first sliding block 26 can drive the water tank 9 to slide downwards along the first slide rail frame 10, when the limiting hole 21 on the first sliding block 26 is opposite to the support 8, the second spring 24 recovers a certain amount of elastic deformation and converts the consumed elastic potential energy into kinetic energy of the sliding plate 22, so that the sliding plate 22 drives the limiting column 23 to slide towards the first sliding block 26 together, the limiting column 23 is matched and connected with the limiting hole 21 on the first sliding block 26, the first sliding block 26 stops driving the water tank 9 to continue to move downwards, and meanwhile, as the second sliding block 20 is separated from the limit of the limiting column 23, the first spring 19 recovers a certain amount of elastic deformation and converts the consumed elastic potential energy into kinetic energy of the second sliding block 20, thereby make second slider 20 drive guide plate 11 rebound and plug up water collecting opening 5 to stop water collecting opening 5 and continue to accumulate the rainwater for the device, the device can be automatic through simple physical principle provides required water source for the device, thereby has reduced the trouble of artifical moisturizing, and when the work demand, also can resume the normal operating of device according to the same principle, has improved the work wholeness and the renewable resources utilization ability of device.

Further, the maximum static friction force between the first slide rail frame 10 and the first slide block 26 is equal to the gravity of the water tank 9 filled with water, so that the rainwater can be automatically and integrally collected by matching with a device.

Furthermore, the friction between the second sliding block 20 and the sliding plate 22 and the second sliding rail frame 12 and the bracket 8 can be ignored, so that the running speed of the device is improved, and the friction loss of the device is reduced.

Furthermore, the first spring 19 and the second spring 24 are always in an elastic compression state and cannot be elastically deformed, so that the normal operation and the service life of the device are maintained.

Further, the length of the support 8 is equal to that of the limiting column 23, and the support can be effectively matched with a device to integrally operate.

Further, roof 1 is close to a pair of water-collecting sheet 6 of the one end fixedly connected with of a pair of mouth 5 that catchments, is 150 contained angles between water-collecting sheet 6 and the roof 1, can effectively improve the retaining efficiency of mouth 5 that catchments through water-collecting sheet 6.

Furthermore, the top end of the top plate 1 is penetrated and movably provided with a pair of rotating shafts 3, the bottom end of each rotating shaft 3 is fixedly provided with a driving motor 14, the model of each driving motor 14 is Z2-11, the rotating shafts 3 are driven to rotate through the driving motors 14, the rotating shafts 3 can be conveniently replaced by renewable resource utilization modes, and the free conversion capacity of the device is improved.

Furthermore, a wind blade plate 2 is fixedly installed on one side of the rotating shaft 3, a wind power storage plate 13 is fixedly installed in the middle of the bottom end of the wind blade plate 2, wind energy can be converted into electric energy through the wind blade plate 2 in cloudy days, and the electric energy can be stored in the wind power storage plate 13 for standby use.

Furthermore, a solar photovoltaic panel 4 is fixedly mounted on the other side of the rotating shaft 3, a solar electricity storage plate 18 is fixedly mounted in the middle of the bottom end of the solar photovoltaic panel 4, and in sunny days, solar energy can be converted into electric energy through the solar photovoltaic panel 4, and the electric energy can be stored in the solar electricity storage plate 18 for later use.

Further, a pair of electricity storage boxes 15 are fixedly mounted at the bottom end of the top plate 1, an electromagnetic induction input end 16 is fixedly mounted in the middle of the top end of each electricity storage box 15, the electromagnetic induction input end 16 extends to the upper portion of the top plate 1, an electromagnetic induction output end 17 is fixedly mounted at the bottom ends of the wind power storage plate 13 and the solar power storage plate 18, the electromagnetic induction output end 17 is in coupling connection with the electromagnetic induction input end 16, according to weather conditions, a worker can rotate the main power generation plate to one end of the electricity storage boxes 15, electric energy in the electricity storage plates can be wirelessly transmitted to the electricity storage boxes 15 through the coupling connection of the electromagnetic induction output end 17 and the electromagnetic induction input end 16, the inside of the device can be conveniently used, and the environment adaptability of the device is improved.

The utility model discloses an usable renewable resources's warmhouse booth's application method and theory of operation as follows: in rainy days, rainwater accumulated at the water collecting port 5 can be guided into the water tank 9 through the guide plate 11, when water in the water tank 9 is reserved for a certain time, the first slide block 26 can drive the water tank 9 to slide downwards along the first slide rail frame 10, when the limiting hole 21 on the first slide block 26 is opposite to the bracket 8, the second spring 24 recovers a certain amount of elastic deformation and converts consumed elastic potential energy into kinetic energy of the slide plate 22, so that the slide plate 22 drives the limiting column 23 to slide towards the first slide block 26 together, the limiting column 23 is matched and connected with the limiting hole 21 on the first slide block 26 so as to stop the first slide block 26 from driving the water tank 9 to continue to move downwards, meanwhile, as the second slide block 20 is separated from the limit of the limiting column 23, the first spring 19 recovers a certain amount of elastic deformation and converts consumed elastic potential energy into kinetic energy of the second slide block 20, so that the second slide block 20 drives the guide plate 11 to move upwards and block the water collecting port 5, the rainwater collection port 5 is stopped to continuously accumulate rainwater for the device, the device can automatically provide required water source for the device through a simple physical principle, thereby reducing the trouble of manual water replenishing, and when the device is required to work, the normal operation of the device can be recovered according to the same principle, the working integrity and the renewable resource utilization capacity of the device are improved, in sunny days, a worker can rotate the solar photovoltaic panel 4 to one end of the electricity storage box 15, solar energy can be converted into electric energy through the solar photovoltaic panel 4, the electric energy can be stored in the solar storage panel 18 for standby use, meanwhile, the electric energy in the solar storage panel 18 can be wirelessly transmitted into the electricity storage box 15 through the coupling connection of the electromagnetic induction output end 17 and the electromagnetic induction input end 16, so that the device can be used internally, in cloudy days, the wind vane plate 2 can be rotated to one end of the electricity storage box 15 according to the same principle, the environmental adaptability and the renewable resource utilization capability of the device are further improved.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (10)

1. The utility model provides an usable renewable resources's warmhouse booth, include roof (1) and fixed mounting in a pair of riser (7) of roof (1) bottom avris, and fixed mounting in a pair of first slide rail frame (10) and fixed mounting in two of roof (1) bottom middle part riser (7) two pairs of second slide rail frame (12) on the opposite face, its characterized in that: a pair of water collecting ports (5) are formed in the side of the top end of the top plate (1), a pair of first sliding blocks (26) are connected to the opposite surface of the first sliding rail frame (10) in a sliding mode, a water tank (9) is fixedly mounted between the first sliding blocks (26), each first sliding rail frame (10) is connected with two adjacent sliding rail frames (12) in a sliding mode, two supports (8) are fixedly mounted between the second sliding rail frames (12), each inner side wall of each support (8) is fixedly connected with a pair of positioning blocks (25) and a sliding plate (22) in a sliding mode, a second spring (24) is clamped between each sliding plate (22) and each pair of positioning blocks (25), a limiting column (23) penetrates through the middle of each sliding plate (22) and is fixedly mounted, each limiting column (23) can extend to the outer portion of each support (8), and each pair of second sliding blocks (20) are connected between the second sliding rail frames (12) in a sliding mode, second slider (20) and first slider (26) are close to spacing hole (21) have all been seted up to one side of spacing post (23), and spacing hole (21) with spacing post (23) cooperate, every the top fixed mounting of second slider (20) has a guide plate (11), the one end of guide plate (11) extends to under catchment mouth (5) and the other end extend to directly over water tank (9).

2. The greenhouse of claim 1, wherein the renewable resources are selected from the group consisting of: the maximum static friction between the first carriage (10) and the first slide (26) is equal to the weight of the tank (9) filled with water.

3. The greenhouse of claim 1, wherein the renewable resources are selected from the group consisting of: the friction force between the second sliding block (20) and the sliding plate (22) and the second sliding rail frame (12) and the bracket (8) can be ignored.

4. The greenhouse of claim 1, wherein the renewable resources are selected from the group consisting of: the first spring (19) and the second spring (24) are always in an elastically compressed state and are not elastically deformed.

5. The greenhouse of claim 1, wherein the renewable resources are selected from the group consisting of: the support (8) is equal to the limiting column (23) in length.

6. The greenhouse of claim 1, wherein the renewable resources are selected from the group consisting of: roof (1) is close to a pair of one end fixedly connected with of water catch bowl (6) of water catch mouth (5), water catch bowl (6) with be 150 contained angles between roof (1).

7. The greenhouse of claim 1, wherein the renewable resources are selected from the group consisting of: the top of roof (1) runs through and movable mounting has a pair of pivot (3), every the equal fixed mounting in bottom of pivot (3) has a driving motor (14), the model of driving motor (14) is Z2-11.

8. The greenhouse of claim 7, wherein the renewable resources are selected from the group consisting of: one side of the rotating shaft (3) is fixedly provided with a wind blade plate (2), and the middle part of the bottom end of the wind blade plate (2) is fixedly provided with a wind power storage plate (13).

9. The greenhouse of claim 8, wherein the renewable resources are selected from the group consisting of: the solar photovoltaic panel is fixedly mounted on the other side of the rotating shaft (3), and a solar storage battery plate (18) is fixedly mounted in the middle of the bottom end of the solar photovoltaic panel (4).

10. The greenhouse of claim 9, wherein the renewable resources are selected from the group consisting of: the bottom fixed mounting of roof (1) has a pair of electricity storage box (15), every the equal fixed mounting in top middle part of electricity storage box (15) has an electromagnetic induction input (16), and electromagnetic induction input (16) extend to the top of roof (1), the equal fixed mounting in bottom of wind-force accumulator plate (13) and solar energy accumulator plate (18) has electromagnetic induction output (17), electromagnetic induction output (17) with be coupling connection between electromagnetic induction input (16).

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