CN211861389U - Three-dimensional water culture device - Google Patents

Abstract

The utility model provides a three-dimensional water culture device, which comprises a double-layer upright post, a culture pipeline, a rotating chassis and a liquid storage tank, wherein the water storage layer is positioned at the inner layer, and a water return layer is positioned at the outer layer; the cultivation pipeline is provided with a planting port, a water delivery branch pipe and a return pipe, the first end of the water delivery branch pipe penetrates through the return water layer to be fixedly communicated with the outer wall of the water storage layer, and the second end of the water delivery branch pipe is fixedly communicated with the inner side of the cultivation pipeline; the first end of the return pipe is fixedly communicated with the outer wall of the water return layer, and the second end of the return pipe is fixedly communicated with the inner side of the cultivation pipeline; the rotary chassis comprises a chassis and a turntable, and the double-layer upright post is inserted into a central hole of the chassis for fixation; a submersible pump, a water injection hose and a water return hose are arranged in the liquid storage tank. The utility model discloses can not only make full use of limited ground space, sanitation and hygiene, the management of being convenient for can also satisfy people to green vegetable's demand, helping hand leisure agriculture's development.

Description

Three-dimensional water culture device

Technical Field

The utility model belongs to the technical field of the facility agriculture, concretely relates to simple and practical's three-dimensional hydroponic device.

Background

At present, leisure sightseeing agriculture is more and more concerned by people, and the industry is developed rapidly. However, in the sightseeing agriculture, the traditional soil cultivation has some problems, such as waste of land resources, continuous cropping obstacles of soil and the like. With the development and application of water culture technology, vegetable water culture has become a spotlighting spot, and the three-dimensional soilless culture technology, especially the three-dimensional pipeline water culture technology, has the advantages of high quality, high yield, space utilization rate improvement and the like, has ornamental value and scientific demonstration functions, and is gradually paid attention to and developed in leisure and sightseeing agriculture.

In leisure agriculture, the utilization of three-dimensional water culture facilities is gradually increased, but the three-dimensional water culture facilities have some defects, such as excessively complex structure, very expensive manufacturing cost, high technical requirements and the like. If structural further optimization, reduce manufacturing cost, can more be favorable to popularizing and promoting, improve land utilization, can also be used to produce water planting vegetables and pollution-free green food, to above current problem, the utility model provides a three-dimensional hydroponic device.

SUMMERY OF THE UTILITY MODEL

The utility model provides a three-dimensional hydroponic device, through setting up double-deck stand, multi-level cultivation pipeline and rotating chassis, has optimized the structure of three-dimensional hydroponic device, can not only make full use of limited ground space, but also can realize complete hydrologic cycle, sanitation and hygiene, rotating chassis can adjust the illumination direction, can satisfy people to green vegetables's demand, helping hand leisure agriculture's development.

The utility model discloses a realize through following technical scheme:

a three-dimensional water culture device comprises a double-layer upright post, a culture pipeline, a rotary chassis and a liquid storage tank, wherein the double-layer upright post is arranged perpendicular to the ground and comprises a water storage layer positioned on the inner layer of the double-layer upright post and a water return layer positioned on the outer layer of the double-layer upright post, the bottoms of the water storage layer and the water return layer are respectively provided with a water conveying port and a water return port, a water conveying main pipe is arranged in the water storage layer, the water conveying main pipe penetrates into the top end of the double-layer upright post from the water conveying port, and the side end of the top of the water; the outer end of the water return port is connected with a water return hose; water injection holes are uniformly formed in the outer wall of the water storage layer, water return holes are uniformly formed in the outer wall of the water return layer, and the positions of the water injection holes and the positions of the water return holes correspond to the horizontal positions of the cultivation pipelines of each layer;

the cultivation pipeline is provided with field planting ports, water delivery branch pipes and a return pipe, the field planting ports are uniformly distributed on the upper surface of the cultivation pipeline, first ends of the water delivery branch pipes penetrate through the return water layer and are fixedly communicated with water injection holes in the outer wall of the water storage layer, and second ends of the water delivery branch pipes are fixedly communicated with the inner side of the cultivation pipeline; the first end of the return pipe is fixedly communicated with a return hole on the outer wall of the return water layer, and the second end of the return pipe is fixedly communicated with the inner side of the cultivation pipeline; the cultivation pipeline is fixedly connected with the double-layer upright post through the water delivery branch pipe and the return pipe; the rotary chassis comprises a chassis and a turntable for driving the chassis to rotate, the chassis is fixed on the ground, the bottom end of the double-layer upright post is inserted into a central hole of the chassis for fixed connection, and a buckle is arranged on the chassis; the turntable is arranged on one side of the chassis and comprises a steering wheel, a turntable support, a small turntable and a belt; the steering wheel is fixedly connected with the small turntable through a turntable support, and the small turntable is connected with the chassis through the belt wound on the small turntable; a submersible pump, a water injection hose and a water return hose are arranged in the liquid storage tank, the output end of the submersible pump is connected with the first end of the water injection hose, and the second end of the water injection hose is connected with the bottom end of the main water delivery pipe; the first end of the water return hose is connected with a water return port at the bottom of the water return layer, and the second end of the water return hose directly extends into the liquid storage tank.

Preferably, the water delivery port is arranged at the center of the bottom of the double-layer upright column, the diameter of the water delivery port is equal to the outer diameter of the main water delivery pipe, the outer diameter of the main water delivery pipe is equal to the inner diameter of the water injection hose, the outer end of the water return port protrudes out of the bottom of the water return layer, and the outer diameter of the water return port is equal to the inner diameter of the water return hose.

Preferably, the water outlet valve can control the flow of the nutrient solution in the main water pipe into the water storage layer.

Preferably, the water delivery branch pipe and the return pipe are arranged in a cross shape and are vertically and fixedly connected with the double-layer upright post.

Preferably, the position where the water delivery branch pipe is fixed with the cultivation pipeline and the water storage layer is higher than the position where the return pipe is fixed with the cultivation pipeline and the water return layer.

Preferably, the cultivation pipeline is arranged in an annular shape, and the diameter size of the cultivation pipeline is uniformly reduced from the bottom layer to the upper layer by layer.

Preferably, the rotating mode of the rotating chassis is manual driving or electric driving, the small turntable and the chassis are in the same horizontal position, and the steering wheel is rotated to drive the small turntable to rotate so as to drive the chassis to rotate.

Compared with the prior art, the beneficial effects of the utility model are as follows:

(1) the utility model discloses just be used for open ground or facility agriculture cultivation, save planting space, improve space utilization.

(2) The utility model discloses multi-level cultivation improves the unit area output.

(3) The utility model discloses whole complete hydrologic cycle of operation, the management is simple, is favorable to cleaner production.

(4) The utility model discloses take rotatable chassis, can adjust the direction, promote crop growth more balanced.

Drawings

FIG. 1 is a schematic view of the overall structure of the three-dimensional water culture device of the present invention;

FIG. 2 is a schematic structural view of the top of the three-dimensional water culture device of the present invention;

FIG. 3 is a schematic structural view of the bottom of the three-dimensional water culture device of the present invention;

FIG. 4 is a schematic structural view of a cultivation pipeline of the three-dimensional water culture device of the present invention;

FIG. 5 is a schematic structural view of the liquid storage tank of the three-dimensional water culture device of the present invention; and

fig. 6 is a schematic structural view of the rotary chassis of the three-dimensional water culture device of the present invention.

The notation in the figure is:

1. a water delivery main pipe; 2. double-layer upright posts; 3. a cultivation pipeline; 4. a return pipe; 5. a water delivery branch pipe; 6. a chassis; 7. a water return hose; 8. a water injection hose; 10. a water outlet valve; 11. a water storage layer; 12. returning a water layer; 13. planting holes; 16. a liquid storage tank; 17. a submersible pump; 18. buckling; 19. a steering wheel; 20. a turntable support; 21. a small turntable; 22. a belt.

Detailed Description

Exemplary embodiments, features and aspects of the present invention will be described in detail below with reference to the accompanying drawings. Although various aspects of the embodiments are illustrated in the drawings, which may refer to functionally identical or similar elements, the drawings are not necessarily drawn to scale unless specifically indicated.

The utility model discloses a three-dimensional hydroponic device, as shown in fig. 1 and fig. 6, it includes double-deck stand 2, cultivation pipeline 3, rotating chassis and liquid reserve tank 16, and double-deck stand 2 sets up with perpendicular to the ground, and it is including the reservoir stratum 11 that is located double-deck stand inlayer and being located double-deck stand outer return water layer 12, and double-deck stand 2's inlayer is used for storing the nutrient solution, and double-deck stand's skin is used for the nutrient solution backward flow when being used for supporting whole cultivation frame. The bottoms of the water storage layer 11 and the water return layer 12 are respectively provided with a water delivery port and a water return port for connecting the water delivery main pipe 1 and the water return hose 7.

A water delivery main pipe 1 is arranged in the water storage layer 11, and the water delivery main pipe 1 penetrates into the top end of the double-layer upright post 2 from bottom to top from a water delivery port at the bottom of the water storage layer 11 and is used for transporting nutrient solution. The side end of the top of the main water pipe 1 is provided with a water outlet valve 10, and the water outlet valve 10 is opened to enable the nutrient solution to directly enter the water storage layer 11. A water return hose 7 is connected to a water return port at the bottom of the water return layer 12; water injection holes are uniformly formed in the outer wall of the water storage layer 11, water return holes are uniformly formed in the outer wall of the water return layer 12, and the positions of the water injection holes and the water return holes correspond to the horizontal position of the cultivation pipeline 3 on each layer and are used for connecting the water delivery branch pipe 5 and the return pipe 4 on the cultivation pipeline 3.

The cultivation pipeline 3 is arranged in an annular shape, planting openings 13 are uniformly distributed on the upper surface of the cultivation pipeline, a water delivery branch pipe 5 and a return pipe 4 are connected to the inner side of the cultivation pipeline 3, a first end of the water delivery branch pipe 5 penetrates through a water return layer 12 of the double-layer upright post 2 to be fixedly communicated with a water injection hole in the outer wall of the water storage layer 11, and a second end of the water delivery branch pipe 5 is fixedly communicated with the inner side of the cultivation pipeline 3; the first end of the return pipe 4 is fixedly communicated with a return hole on the outer wall of the return layer 12 of the double-layer upright post 2, and the second end of the return pipe 4 is fixedly communicated with the inner side of the cultivation pipeline 3; the cultivation pipeline 3 is fixedly connected with the double-layer upright post 2 through a water delivery branch pipe 5 and a return pipe 4; the nutrient solution flows into the cultivation pipeline 3 from the water storage layer 11 through the water delivery branch pipe 5, and is transported into the water return layer 12 through the return pipe 4 when the nutrient solution level in the cultivation pipeline 3 reaches the height of the return pipe 4.

The rotary chassis comprises a chassis 6 and a rotary table for driving the chassis to rotate, the chassis 6 is fixed on the ground, the bottom end of the double-layer upright post 2 is inserted into a central hole of the chassis 6 to be fixedly connected, a buckle 18 is arranged on the chassis 6, and the chassis 6 can be fixed by inserting the buckle 18. The rotary disc is arranged on one side of the chassis 6 and comprises a steering wheel 19, a rotary disc support column 20, a small rotary disc 21 and a belt 22, the steering wheel 19 is fixedly connected with the small rotary disc 21 through the rotary disc support column 20, the small rotary disc 21 is connected with the chassis 6 through the belt 22 wound on the small rotary disc 21, the rotary mode of the rotary chassis is manual driving or electric driving, the small rotary disc 21 and the chassis 6 are on the same horizontal position, after the buckle 18 is removed, the steering wheel 19 can be rotated to drive the small rotary disc 21 to rotate, meanwhile, the chassis 6 is driven to rotate together for a certain angle, and the light direction is adjusted.

The liquid reserve tank is used for storing the nutrient solution, is the core position that the nutrient solution circulates and adjusts, is provided with immersible pump 17, water injection hose 8 and return water hose 7 in the liquid reserve tank 16, and the output of immersible pump is connected with the first end of water injection hose, and the second end of water injection hose is connected with the bottom that the water delivery was responsible for, and the nutrient solution is inputed to the water delivery through water injection hose 8 and is responsible for 1. The first end of the return water hose 7 is connected with a return water port at the bottom of the return water layer 12 of the double-layer upright post 2 from the bottom of the rotary chassis, and the second end of the return water hose 7 directly extends into the liquid storage tank 16, so that the nutrient solution in the return water layer 12 directly flows back into the liquid storage tank 16.

The water delivery port at the bottom of the water storage layer is arranged at the central position of the double-layer upright post 2, the diameter of the water delivery port is equal to the outer diameter of the main water delivery pipe 1, the main water delivery pipe 1 can be conveniently inserted into the double-layer upright post, the outer diameter of the main water delivery pipe 1 is equal to the inner diameter of the water injection hose 8, and the water injection hose 8 can be conveniently sleeved on the main water delivery pipe 1. The outer end of the water return port at the bottom of the water return layer protrudes out of the bottom of the water return layer, and the outer diameter of the water return port is equal to the inner diameter of the water return hose 7, so that the water return hose 7 is conveniently sleeved at the outer end of the water return port.

The water outlet valve 10 can control the flow of the nutrient solution in the main water pipe 1 into the water storage layer 11.

The water delivery branch pipes 5 and the return pipes 4 are arranged in a cross shape and are vertically and fixedly connected with the double-layer upright posts 2 for fixing the cultivation pipelines 3 on each layer.

The position of the water delivery branch pipe 5 fixed with the cultivation pipeline and the water storage layer 11 is higher than the position of the return pipe 4 fixed with the cultivation pipeline and the return layer 12, so that the nutrient solution in the cultivation pipeline 3 can smoothly return to the return water layer 12 after reaching the liquid level.

The diameter of the cultivation pipeline 3 is uniformly reduced from the bottom layer to the upper layer by layer, so that the plants on each layer of the cultivation pipeline 3 can receive illumination conveniently.

The following further describes the specific embodiments of the three-dimensional water culture device of the present invention:

when installing the device, should install from the bottom up in proper order, rotating chassis includes chassis 6 and carousel, at first, fixes chassis 6 subaerial, and the bottom mounting of double-deck stand 2 is in the centre bore department of chassis 6 and keeps perpendicular with ground, and the water delivery is responsible for 1 and penetrates the top of double-deck stand 2 from the bottom of the inlayer of double-deck stand 2, and the water delivery is responsible for the bottom of 1 and is connected with the first end of water injection hose 8, and the second end of water injection hose 8 is connected with the immersible pump 17 in the liquid reserve tank 16.

The first end of water delivery branch pipe 5 passes return water layer 12 of double-deck stand rather than the outer wall welded fastening intercommunication of reservoir stratum 11, the first end of back flow 4 and the outer wall welded fastening of the return water layer 12 of double-deck stand are connected, water delivery branch pipe 5 and back flow 4 all keep perpendicularly with double-deck stand 2, and the second end of water delivery branch pipe 5 and the second end of back flow 4 all communicate with the inboard welded fastening of cultivation pipeline 3, water delivery branch pipe 5 and back flow 4 are cross and cultivate pipeline 3 and double-deck stand 2 welded fastening intercommunication, for fixed stay cultivation pipeline 3 just makes the nutrient solution keep circulating. The fixing positions of the cultivation pipeline 3 and the return pipe 4 on the double-layer upright post are lower than the fixing position of the water delivery branch pipe 5, so that the return of the nutrient solution is ensured. The first end of the water return hose 7 is connected with the bottom of the water return layer 12 of the double-layer upright post, and the second end of the water return hose directly extends into the liquid storage tank 16.

The immersible pump 17 carries the nutrient solution to get into in the water delivery is responsible for 1 through water injection hose 8, the top side of water delivery is responsible for is provided with outlet valve 10, open outlet valve 10, make the nutrient solution get into reservoir stratum 11, the nutrient solution of reservoir stratum enters into cultivation pipeline 3 through each layer water delivery branch pipe 5, after the liquid level in cultivation pipeline 3 reaches the height of back flow pipe 4, just enter into return water layer 12 through back flow pipe 4, then through the return water hose 7 of bottom, directly flow back to in the liquid reserve tank 16, realize the comprehensive internal circulation of nutrient solution.

When the illumination is uneven, the buckle 18 on the rotary chassis is removed, the steering wheel 19 is rotated to drive the small rotary disc 21 and simultaneously drive the chassis 6 to rotate in a certain direction, the light direction of the cultivation pipeline 3 is adjusted, the illumination of crops is more even, and therefore the yield and the quality of the crops are improved.

The above-mentioned embodiments are only intended to describe the preferred embodiments of the present invention, but not to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art without departing from the design spirit of the present invention should fall into the protection scope defined by the claims of the present invention.

Claims (7)

1. A three-dimensional water culture device is characterized by comprising a double-layer upright post, a culture pipeline, a rotary chassis and a liquid storage tank,

the double-layer upright post is vertically arranged and comprises a water storage layer positioned on the inner layer of the double-layer upright post and a water return layer positioned on the outer layer of the double-layer upright post, the bottoms of the water storage layer and the water return layer are respectively provided with a water conveying port and a water return port, a water conveying main pipe is arranged in the water storage layer, the water conveying main pipe penetrates into the top end of the double-layer upright post from the water conveying port, and a water outlet valve is arranged at the side end of the top of the water conveying main pipe; the outer end of the water return port is connected with a water return hose; water injection holes are uniformly formed in the outer wall of the water storage layer, water return holes are uniformly formed in the outer wall of the water return layer, and the positions of the water injection holes and the positions of the water return holes correspond to the horizontal positions of the cultivation pipelines of each layer;

the cultivation pipeline is provided with field planting ports, water delivery branch pipes and a return pipe, the field planting ports are uniformly distributed on the upper surface of the cultivation pipeline, first ends of the water delivery branch pipes penetrate through the return water layer and are fixedly communicated with water injection holes in the outer wall of the water storage layer, and second ends of the water delivery branch pipes are fixedly communicated with the inner side of the cultivation pipeline; the first end of the return pipe is fixedly communicated with a return hole on the outer wall of the return water layer, and the second end of the return pipe is fixedly communicated with the inner side of the cultivation pipeline; the cultivation pipeline is fixedly connected with the double-layer upright post through the water delivery branch pipe and the return pipe;

the rotary chassis comprises a chassis and a turntable for driving the chassis to rotate, the chassis is fixed on the ground, the bottom end of the double-layer upright post is inserted into a central hole of the chassis for fixed connection, and a buckle is arranged on the chassis; the turntable is arranged on one side of the chassis and comprises a steering wheel, a turntable support, a small turntable and a belt; the steering wheel is fixedly connected with the small turntable through a turntable support, and the small turntable is connected with the chassis through the belt wound on the small turntable; and

a submersible pump, a water injection hose and a water return hose are arranged in the liquid storage tank, the output end of the submersible pump is connected with the first end of the water injection hose, and the second end of the water injection hose is connected with the bottom end of the main water delivery pipe; the first end of the water return hose is connected with a water return port at the bottom of the water return layer, and the second end of the water return hose directly extends into the liquid storage tank.

2. The three-dimensional water culture device according to claim 1, wherein the water delivery port is arranged at the center of the bottom of the double-layer upright column, the diameter of the water delivery port is equal to the outer diameter of the main water delivery pipe, the outer diameter of the main water delivery pipe is equal to the inner diameter of the water injection hose, the outer end of the water return port protrudes out of the bottom of the water return layer, and the outer diameter of the water return port is equal to the inner diameter of the water return hose.

3. The three-dimensional water culture device according to claim 1, wherein the water outlet valve can control the flow of the nutrient solution in the water main pipe into the water storage layer.

4. The three-dimensional water culture device according to claim 1, wherein the water delivery branch pipe and the return pipe are arranged in a cross shape and are vertically and fixedly connected with the double-layer upright post.

5. The three-dimensional water culture device according to claim 1, wherein the position where the water delivery branch pipe is fixed with the cultivation pipeline and the water storage layer is higher than the position where the return pipe is fixed with the cultivation pipeline and the water return layer.

6. The three-dimensional water culture device according to claim 1, wherein the culture pipeline is annular and the diameter size of the culture pipeline is uniformly reduced from the bottom layer to the upper layer.

7. The three-dimensional water culture device according to claim 1, wherein the rotating chassis is driven manually or electrically, the small turntable and the chassis are in the same horizontal position, and the steering wheel is rotated to drive the small turntable to rotate so as to drive the chassis to rotate.

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