CN112640694B - Greenhouse energy-saving energy storage device for planting green house based on water wall heat storage - Google Patents

Abstract

The invention discloses a greenhouse energy-saving energy storage device for planting an agricultural greenhouse based on water wall heat storage, which comprises a lower supporting plate, sliding grooves, an upper supporting plate and clamping rods, wherein the upper surfaces of the front end and the rear end of the lower supporting plate are respectively provided with two sliding grooves, the upper surface of the lower supporting plate is fixedly provided with a water storage cavity, the upper surface of the water storage cavity is provided with the upper supporting plate, the front side and the rear side of the water storage cavity are respectively provided with a left supporting rod and a right supporting rod, the right end of the rear side of the left supporting rod is provided with a right supporting rod, the top ends of the left supporting rod and the right supporting rod are respectively connected with the upper supporting plate through movable shaft rods, and the bottom ends of the left supporting rod and the right supporting rod are respectively connected with a sliding block through a rotating shaft. This green house energy-saving energy storage device for green house planting based on water wall heat accumulation is provided with the water storage chamber, and the material of water storage chamber is the hose material, is convenient for later stage transport and carry a plurality of water storage chambers, avoids taking great space.

Description

Greenhouse energy-saving energy storage device for planting green house based on water wall heat storage

Technical Field

The invention relates to the technical field of agricultural planting energy conservation, in particular to a greenhouse energy conservation and energy storage device for agricultural greenhouse planting based on water wall heat storage.

Background

The greenhouse energy conservation and energy storage means that energy in a greenhouse is saved through a series of technical means, the waste of the energy is avoided, the greenhouse energy conservation mainly means the saving of light energy, electric energy, heat energy and the like, the technology for planting the green house is continuously improved along with the continuous development of agricultural technologies, the energy conservation and energy storage can be well saved by combining with the energy conservation and energy storage of the greenhouse during the planting of the green house, the use of the energy is reduced, the solar light energy is collected by a water wall-based heat storage method in the market at present, the temperature is conveniently increased in cold winter, the energy is saved, and the greenhouse energy conservation and energy storage device for planting the green house based on the water wall heat storage in the market at present is used for heat preservation and heat storage by using chemical barrels or waste plastic barrels to store water.

1. The patent name disclosed by the publication number of CN109380034A is a greenhouse heating heat-preserving curtain, which solves the problems that most of the existing heating facilities are fuel oil, fuel gas, electric heating, biological particle burning boilers and the like, the above heating equipment is high in energy consumption, and the high pollution mode cannot adapt to the environmental protection and energy saving policy requirements of the current country, but the volume of a water storage tank in the technology is fixed, and the adjustment and transportation work are inconvenient;

2. when the water storage tank is stacked into a water wall for heat storage and heat preservation, green algae generation caused by long-time use of water in the water storage tank is avoided, a certain amount of bleaching powder needs to be added into the water, and the existing water storage tank is inconvenient to mix the bleaching powder with the water;

therefore, we propose a greenhouse energy-saving energy storage device for planting in an agricultural greenhouse based on water wall heat storage so as to solve the problems.

Disclosure of Invention

The invention aims to provide a greenhouse energy-saving energy storage device for planting in an agricultural greenhouse based on water wall heat storage, which solves the problems that the volume of a water storage tank in the prior market is fixed, the adjustment and transportation work are inconvenient, green algae is generated due to long-time use of water in the water storage tank when the water storage tank is stacked into a water wall for heat storage and heat preservation, a certain amount of bleaching powder needs to be added into the water, and the mixing work of the bleaching powder and the water is inconvenient for the existing water storage tank.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an energy-saving energy storage device of green house based on water wall heat accumulation for green house is planted, includes lower backup pad, spout, goes up backup pad and draw-in lever, two spouts have all been seted up to the front and back both ends upper surface of lower backup pad, and the last fixed surface of lower backup pad has the water storage chamber to the last surface mounting of water storage chamber has last backup pad, both sides face all is provided with left branch vaulting pole and right branch vaulting pole around the water storage chamber, and the rear side right-hand member of left branch vaulting pole is provided with the right branch vaulting pole to the top of left branch vaulting pole and right branch vaulting pole is all connected through movable shaft and last backup pad, the bottom of left branch vaulting pole and right branch vaulting pole all is connected through the axis of rotation and sliding block, the inside block that blocks of spout, and the draw-in groove has been seted up to the inside of sliding block, the constant head tank has all been seted up around the bottom surface of lower backup pad, the left end top of water storage chamber is connected with the water inlet, the right side below the right branch vaulting pole is connected with the outlet, the inside of holding tank all sets up the standing groove around, and the inside of standing groove is placed the inside to set up the locating piece, and the inside of the bottom surface of backup pad is provided with the inside spring, and the inside of a baffle is connected with the first baffle, and the inside of a baffle, and the inside is connected with the inside of a baffle, and the inside of a baffle is set up down through the baffle.

Preferably, the outer side surface of the water storage cavity is coated with a coating, the material of the water storage cavity is a hose material, and the maximum height of the water storage cavity is equal to the height of the left support rod.

Preferably, the left support rod and the right support rod form an X-shaped structure, and 2 groups of left support rods and right support rods are symmetrically arranged about the transverse center line of the lower support plate.

Preferably, the outer key of the movable shaft lever is connected with a first rope winding disc, and the movable shaft lever and the positioning block are arranged in one-to-one correspondence.

Preferably, the bottom inside of locating piece runs through the key connection and has the installation axostylus axostyle, and the rear end outside nest of installation axostylus axostyle is provided with torsion spring to torsion spring's one end and installation axostylus axostyle screw connection, and torsion spring's the other end and last backup pad screw connection, and the front end outside key connection of installation axostylus axostyle has the second to wind the rope reel, and the outside winding of second around the rope reel is connected with the connecting rope, and the one end and the first winding of connecting rope are twined and are connected.

Preferably, the inside laminating of storage silo is provided with the piston, and the front end of piston is fixed with the push rod to the top of storage silo is fixed with the feed inlet.

Preferably, a first through groove is formed in the right end of the first partition plate, and the height of the first partition plate is equal to that of the first through groove.

Preferably, a second through groove is formed in the left end of the second partition board, and the height of the second through groove is equal to that of the second partition board.

Preferably, the vertical center line of the second through groove is not coincident with the vertical center line of the first through groove, and the second through grooves and the first through grooves are staggered.

Compared with the prior art, the invention has the beneficial effects that: this green house energy-saving energy storage device for green house planting based on water wall heat accumulation is provided with:

(1) The water storage cavities are arranged, the material of the water storage cavities is a hose material, the volume of the water storage cavities can be well adjusted through the expansion and contraction of the water storage cavities, meanwhile, the water storage cavities are well used for storing water through the matched support of the left support rod and the right support rod, and the plurality of water storage cavities are convenient to transport and carry in the later period through the contraction of the water storage cavities, so that the occupation of a large space is avoided;

(2) The positioning block is fixed, and when the left support rod and the right support rod rotate to be vertical, the positioning block is driven to rotate to be vertical through the structures of the movable shaft rod, the first rope winding disc and the connecting rope, so that the later-stage positioning block is conveniently inserted into the positioning groove to be matched with the positioning groove in a concave-convex manner, and a plurality of water storage cavities can be conveniently and well spliced vertically;

(3) Install first baffle and second baffle, through the cooperation of the inside first logical groove of first baffle right-hand member and the inside second logical groove of seting up of second baffle left end use for the inside water from the top down of water storage chamber is "S" shape and flows, and then is convenient for water and bleaching powder fine mix, simultaneously through the setting of first baffle and second baffle, should not the shrink work of later stage water storage chamber.

Drawings

FIG. 1 is a schematic diagram of a front view structure of the present invention;

FIG. 2 is a schematic diagram of the main sectional structure of the present invention;

FIG. 3 is a schematic view of a shrinking front view structure of the water storage cavity of the invention;

FIG. 4 is a schematic diagram of a main sectional structure of a lower support plate and an upper support plate of the invention;

FIG. 5 is a schematic view of the left end of the upper support plate of the present invention in a cross-sectional view;

FIG. 6 is a schematic top view of the lower support plate of the present invention;

FIG. 7 is an enlarged schematic view of the structure of FIG. 6A according to the present invention;

FIG. 8 is a schematic diagram of the main sectional structure of the storage bin of the invention;

fig. 9 is a schematic diagram of a left cross-sectional structure of a storage bin of the invention.

In the figure: 1. a lower support plate; 2. a chute; 3. a water storage chamber; 301. a coating; 4. an upper support plate; 5. a left support bar; 6. a right support rod; 7. a movable shaft lever; 71. a first rope reel; 8. a clamping groove; 9. a sliding block; 10. a positioning groove; 11. a water inlet; 12. a water outlet; 13. a positioning block; 131. installing a shaft lever; 132. a torsion spring; 133. a second rope reel; 134. a connecting rope; 14. a storage bin; 141. a piston; 142. a push rod; 143. a feed inlet; 15. a placement groove; 16. a first separator; 161. a first through groove; 17. a second separator; 171. a second through slot; 18. a groove; 19. a return spring; 20. and (5) clamping the rod.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-9, the present invention provides a technical solution: the greenhouse energy-saving energy storage device for planting the green house based on water wall heat accumulation comprises a lower support plate 1, a chute 2, a water storage cavity 3, a coating 301, an upper support plate 4, a left support rod 5, a right support rod 6, a movable shaft rod 7, a first rope winding disc 71, a clamping groove 8, a sliding block 9, a positioning groove 10, a water inlet 11, a water outlet 12, a positioning block 13, a mounting shaft rod 131, a torsion spring 132, a second rope winding disc 133, a connecting rope 134, a storage bin 14, a piston 141, a push rod 142, a feed inlet 143, a placing groove 15, a first partition plate 16, a first through groove 161, a second partition plate 17, a second through groove 171, a groove 18, a reset spring 19 and a clamping rod 20, wherein the upper surfaces of the front end and the rear end of the lower support plate 1 are respectively provided with two chute 2, the upper surface of the lower support plate 1 is fixedly provided with the water storage cavity 3, and the upper surface of the water storage cavity 3 is provided with the upper support plate 4, the front side and the rear side of the water storage cavity 3 are respectively provided with a left support rod 5 and a right support rod 6, the right end of the rear side of the left support rod 5 is provided with a right support rod 6, the top ends of the left support rod 5 and the right support rod 6 are respectively connected with an upper support plate 4 through a movable shaft rod 7, the bottom ends of the left support rod 5 and the right support rod 6 are respectively connected with a sliding block 9 through a rotating shaft, the inside of a sliding groove 2 is clamped and slidingly connected with the sliding block 9, a clamping groove 8 is formed in the sliding block 9, the periphery of the bottom surface of a lower support plate 1 is respectively provided with a positioning groove 10, the upper side of the water storage cavity 3 is connected with a water inlet 11, the lower side of the right end of the water storage cavity 3 is connected with a water outlet 12, the periphery of the upper surface of the upper support plate 4 is respectively provided with a placing groove 15, a positioning block 13 is placed in the placing groove 15, a groove 18 is formed in the bottom surface of the upper support plate 4, a storage bin 14 is penetratingly arranged in the front side of the upper support plate 4, the inside of the water storage cavity 3 is provided with a first partition plate 16 and a second partition plate 17, the second partition plate 17 is arranged below the first partition plate 16, clamping rods 20 are arranged in the left and right ends of the front side and the rear side of the lower support plate 1 in a penetrating mode, reset springs 19 are arranged on the outer sides of the clamping rods 20 in a nested mode, one ends of the reset springs 19 are connected with the clamping rods 20 through screws, and the other ends of the reset springs 19 are connected with the lower support plate 1 through screws;

the outer side of the water storage cavity 3 is coated with a coating 301, the water storage cavity 3 is made of a hose material, and the maximum height of the water storage cavity 3 is equal to the height of the left support rod 5, so that the heat absorption efficiency of the water storage cavity 3 can be increased through the coating 301;

the left support rod 5 and the right support rod 6 form an X-shaped structure, and 2 groups of the left support rod 5 and the right support rod 6 are symmetrically arranged about the transverse center line of the lower support plate 1, so that the left support rod 5 and the right support rod 6 form the X-shaped structure, and the water storage cavity 3 is conveniently extruded and placed;

the outer side key of the movable shaft lever 7 is connected with a first rope winding disc 71, the movable shaft lever 7 and the positioning block 13 are arranged in one-to-one correspondence, and the arrangement of the first rope winding disc 71 is connected through the outer side key of the movable shaft lever 7, so that the movable shaft lever 7 is conveniently driven to rotate;

the bottom end of the positioning block 13 is internally connected with a mounting shaft rod 131 through a key, the outer side of the rear end of the mounting shaft rod 131 is nested and provided with a torsion spring 132, one end of the torsion spring 132 is connected with the mounting shaft rod 131 through a screw, the other end of the torsion spring 132 is connected with the upper supporting plate 4 through a screw, the outer side of the front end of the mounting shaft rod 131 is connected with a second rope winding disc 133 through a key, the outer side of the second rope winding disc 133 is wound and connected with a connecting rope 134, one end of the connecting rope 134 is wound and connected with the first rope winding disc 71, and then one end of the connecting rope 134 is wound and connected with the first rope winding disc 71 so as to drive the positioning block 13 to rotate;

a piston 141 is arranged in the storage bin 14 in a fitting manner, a push rod 142 is fixed at the front end of the piston 141, a feed inlet 143 is fixed at the top of the storage bin 14, and materials in the storage bin 14 can be pushed through the piston 141;

the right end of the first partition plate 16 is internally provided with a first through groove 161, and the height of the first partition plate 16 is equal to the height of the first through groove 161, so that the first through groove 161 is formed in the right end of the first partition plate 16, and the height of the first partition plate 16 is equal to the height of the first through groove 161, so that water flows out of the first through groove 161;

the second through groove 171 is formed in the left end of the second partition 17, and the height of the second through groove 171 is equal to the height of the second partition 17, so that the second through groove 171 is formed in the left end of the second partition 17, and water can flow out of the second through groove 171 conveniently;

the vertical center line of the second through groove 171 is not coincident with the vertical center line of the first through groove 161, and the second through groove 171 and the first through groove 161 are staggered so that the water flows in an S shape.

The working principle of the embodiment is as follows: when the greenhouse energy-saving and energy-saving device for planting the green house based on water wall heat accumulation is used, firstly, the whole device is moved into a working area as shown in a drawing 3, after the whole device reaches the working area, the whole device is unfolded, as shown in drawing 6-7, the clamping rods 20 are pulled outwards, so that the clamping rods 20 are separated from the corresponding clamping grooves 8, then the left support rods 5 on the front side and the rear side of the water storage cavity 3 are manually rotated leftwards, the right support rods 6 are manually rotated rightwards, the top ends of the left support rods 5 rotate by taking the movable shaft rods 7 as circle centers, simultaneously the sliding blocks 9 connected with the movable shafts at the bottom ends of the left support rods 5 slide in the sliding grooves 2, simultaneously the top ends of the movable shafts at the bottom ends of the right support rods 6 slide in the sliding blocks 9 connected with the movable shafts at the same time in the sliding grooves 2, and when the left support rods 5 and the right support rods 6 are in a vertical state as shown in drawing 1, the water storage cavities 3 made of hose materials are well unfolded, so that the water storage cavities 3 are conveniently used by the water storage cavities 3 are well enlarged, and simultaneously the clamping rods 20 are released, and the reset springs 19 are driven by the clamping rods 19 to be inserted into the reset grooves 5 and the reset springs 6 to be conveniently fixed in the vertical grooves 6;

when the movable shaft lever 7 rotates, as shown in fig. 1-2 and fig. 5, the movable shaft lever 7 drives the first rope winding disc 71 which is connected with the outer side key to rotate, so that the first rope winding disc 71 pulls and winds the connecting rope 134 which is connected with the outer side winding when rotating, the connecting rope 134 drives the second rope winding disc 133 to rotate, the second rope winding disc 133 drives the installation shaft lever 131 which is connected with the inner key to rotate when rotating, the installation shaft lever 131 drives the positioning block 13 to rotate from the placing groove 15 to be in a vertical state when rotating, the installation shaft lever 131 stores force on the torsion spring 132 when rotating, the later stage is convenient to drive the installation shaft lever 131 to reversely rotate through the storing force of the torsion spring 132, and then the positioning block 13 is inserted into the corresponding positioning groove 10 as shown in fig. 1-2 and fig. 4, so that a plurality of water storage cavities 3 are spliced and stacked to form a water wall structure;

then the water inlet 11 is connected with an external pipeline, external water is injected into the water storage cavity 3 through the water inlet 11, aquatic green algae in the water storage cavity 3 is avoided, as shown in fig. 2 and 7-8, the feeding port 143 is opened to inject a certain amount of bleaching powder into the storage bin 14, then the piston 141 is pushed by the push rod 142, the bleaching powder in the storage bin 14 is pushed into the groove 18 by the piston 141 to fall into the water storage cavity 3, then the bleaching powder is contacted with water on the first partition plate 16 to be mixed as shown in fig. 2, then the water flows downwards through the first through groove 161 in the right end of the first partition plate 16, then flows downwards through the second through groove 171 in the left end of the second partition plate 17, so that the water flows in an S shape, so that the water is well mixed with the bleaching powder, the good water is conveniently used, the green algae in the water is avoided, the whole water storage cavity 3 is well absorbed by the black coating 301 on the outer side, the water in the water storage cavity 3 is conveniently stored, the water in the water storage cavity 3 is conveniently well regulated at night, and the water in the water storage cavity 3 is well at night, and the water temperature in the water storage shed is well regulated.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims (1)

1. The utility model provides a green house energy-conserving energy storage is with water storage device based on green house of water wall heat accumulation, includes lower backup pad (1), spout (2), goes up backup pad (4) and kelly (20), its characterized in that: two spouts (2) have all been seted up to both ends upper surface around lower bolster (1), and the upper surface mounting of lower bolster (1) has water storage chamber (3) to upper surface mounting of water storage chamber (3) has last backup pad (4), both sides face all is provided with left bracing piece (5) and right bracing piece (6) around water storage chamber (3), and the rear side right-hand member of left bracing piece (5) is provided with right bracing piece (6), and the top of left bracing piece (5) and right bracing piece (6) all is connected with last backup pad (4) through movable axostylus axostyle (7), the bottom of left bracing piece (5) and right bracing piece (6) all is connected with sliding block (9) through the axis of rotation, the inside block sliding connection of spout (2) has sliding block (9), and inside of sliding block (9) has been seted up draw-in groove (8), all seted up constant head tank (10) around the bottom surface of lower bolster (1), the left end top of water storage chamber (3) is connected with water inlet (11), and the top of the right bracing piece (6) is connected with locating piece (15) all around, and the inside groove (15) has been laid down in the top of locating piece (4), the bottom surface of the upper supporting plate (4) is internally provided with a groove (18), the front side surface of the upper supporting plate (4) is internally provided with a storage bin (14) in a penetrating manner, the inside of the storage cavity (3) is provided with a first partition plate (16) and a second partition plate (17), the lower part of the first partition plate (16) is provided with a second partition plate (17), the inner parts of the left end and the right end of the front side surface and the rear side surface of the lower supporting plate (1) are respectively provided with a clamping rod (20) in a penetrating manner, the outer sides of the clamping rods (20) are provided with a reset spring (19) in a nesting manner, one end of the reset spring (19) is connected with the clamping rods (20) through screws, and the other end of the reset spring (19) is connected with the lower supporting plate (1) through screws;

the left support rod (5) and the right support rod (6) form an X-shaped structure, the left support rod (5) and the right support rod (6) are symmetrically provided with 2 groups relative to the transverse center line of the lower support plate (1), the outer side key of the movable shaft rod (7) is connected with a first rope winding disc (71), the movable shaft rod (7) and the positioning block (13) are arranged in a one-to-one correspondence manner, the bottom end of the positioning block (13) is internally connected with a mounting shaft rod (131) through the key, the outer side of the rear end of the mounting shaft rod (131) is nested with a torsion spring (132), one end of the torsion spring (132) is connected with a mounting shaft rod (131) through a screw, the other end of the torsion spring (132) is connected with an upper support plate (4) through a screw, the outer side key of the front end of the mounting shaft rod (131) is connected with a second rope winding disc (133), one end of the connecting rope (134) is connected with the first rope winding disc (71) in a winding manner, when the movable shaft rod (7) rotates, the movable shaft rod (7) drives the first rope winding disc (134) to rotate, the first rope winding disc (71) is driven by the first rope winding disc (134) to rotate, and the second rope winding disc (134) rotates, the second winding rope disc (133) drives an installation shaft lever (131) connected with an internal key to rotate when rotating, the installation shaft lever (131) drives a positioning block (13) to rotate from a placing groove (15) to be in a vertical state when rotating, the installation shaft lever (131) stores a torsion spring (132) when rotating, the torsion spring (132) is driven to rotate reversely by the storage force of the torsion spring (132) at the later stage, the positioning block (13) is inserted into a corresponding positioning groove (10) so as to splice and stack a plurality of water storage cavities (3) into a water wall structure, a piston (141) is attached to the inside of a storage bin (14), a push rod (142) is fixed at the front end of the piston (141), a feeding port (143) is fixed at the top of the storage bin (14), a first through groove (161) is formed in the inside of the right end of the first partition plate (16), the second through groove (171) is formed in the inside of the left end of the second partition plate (17), the second through groove (171) is formed in the inside of the right end of the first partition plate (16), and the second through groove (171) is not overlapped with the first through groove (171) in the vertical direction, and the second through groove (161) is not overlapped with the first through groove (171);

when the movable shaft lever (7) rotates, the movable shaft lever (7) drives the first rope winding disc (71) connected with the outer side key to rotate, so that the first rope winding disc (71) pulls and winds the connecting rope (134) connected with the outer side winding when rotating, the connecting rope (134) drives the second rope winding disc (133) to rotate, the second rope winding disc (133) drives the installation shaft lever (131) connected with the inner key to rotate when rotating, the installation shaft lever (131) drives the positioning block (13) to rotate in a vertical state from the placing groove (15) when rotating, the installation shaft lever (131) stores force to the torsion spring (132) when rotating, the installation shaft lever (131) is driven to reversely rotate by the storage force of the torsion spring (132) in the later period, and then the positioning block (13) is inserted into the corresponding positioning groove (10) so as to splice and stack a plurality of water storage cavities (3) into a water wall structure;

the outer side surface of the water storage cavity (3) is coated with a coating (301), the water storage cavity (3) is made of a hose material, and the maximum height of the water storage cavity (3) is equal to the height of the left support rod (5).