CN216363000U

CN216363000U - Labyrinth potato aeroponics system

Info

Publication number: CN216363000U
Application number: CN202121003843.9U
Authority: CN
Inventors: 李小波; 索海翠; 王丽; 刘计涛; 罗焕明; 单建伟; 李成晨; 安康
Original assignee: CROP Research Institute of Guangdong Academy of Agricultural Sciences
Current assignee: CROP Research Institute of Guangdong Academy of Agricultural Sciences
Priority date: 2021-05-11
Filing date: 2021-05-11
Publication date: 2022-04-26
Anticipated expiration: 2031-05-11

Abstract

The utility model discloses a labyrinth potato aeroponics system, which comprises a glass cover body, a labyrinth planting area, a sightseeing platform, a cylindrical planting fence and a protective fence, wherein a doorway is arranged on the glass cover body, the glass cover body covers the periphery of the labyrinth planting area, the sightseeing platform is arranged in the center of the labyrinth planting area, a flower bed is arranged between the labyrinth planting area and the sightseeing platform, the cylindrical planting is arranged in the middle of the sightseeing platform, a nutrient pond is arranged below the cylindrical planting area, the nutrient pond is respectively connected with the cylindrical planting area and the labyrinth planting area, the protective fence is arranged on the peripheral edge of the sightseeing platform, and a sightseeing road is arranged between the protective fence and the cylindrical planting fence. The utility model has the advantages of ornamental property, and improving the ornamental experience, safety and lighting performance.

Description

Labyrinth potato aeroponics system

Technical Field

The utility model relates to the technical field of plant cultivation equipment, in particular to a labyrinth potato aeroponic system.

Background

Current potato is cultivated and is adopted the big-arch shelter to cultivate, sets up a plurality of fixed group that are used for placing cultivation seedling in warmhouse booth and banks up the frame with earth, through the inside temperature of adjusting warmhouse booth in order to satisfy the required temperature of vegetation. The existing cultivation greenhouse has the problems of poor ornamental value, poor lighting and difficulty in recycling irrigation liquid.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide a labyrinth type potato aeroponic system with ornamental value, improved ornamental experience, safety and lighting performance.

The utility model is realized by the following technical scheme: the utility model provides a potato aeroponics system of labyrinth, includes the glass cover body, labyrinth cultivates district, sightseeing platform, cylinder and cultivates, protects the rail, the gate has been seted up on the glass cover body, the glass cover body covers to be established labyrinth cultivates the periphery in district, labyrinth cultivates the center in district and is provided with sightseeing platform, labyrinth cultivate the district with be provided with the flower bed between the sightseeing platform, sightseeing platform's middle part is provided with the cylinder is banked with earth, the below that the cylinder was banked with earth is provided with the nutrition pond, the nutrition pond respectively with the cylinder is banked with earth and labyrinth cultivation district is connected, sightseeing platform's edge all around is provided with the protection rail, the protection rail with the position that the cylinder was banked with earth between is the sightseeing road.

Further: the labyrinth type cultivation area is composed of a plurality of labyrinth rings with different diameters, the labyrinth rings are distributed concentrically according to the diameter size from inside to outside at intervals, every two adjacent labyrinth rings are communicated with each other, the sightseeing platform is arranged at the center of the labyrinth ring with the smallest diameter, and the labyrinth ring with the largest diameter is provided with an inlet and an outlet.

Further: the labyrinth ring is made by the steelframe, place the planting storehouse of arranging according to the ring shape on the labyrinth ring, plant the storehouse with the nutrition pond is connected.

Further: the nutrition pool is separated into a plurality of liquid storage chambers through division plates, every all be provided with the filling opening on the liquid storage chamber, every the liquid storage chamber is connected through branch pipeline and total liquid supply pipeline, total liquid supply pipeline respectively with the cylinder is banked up with earth and is planted the storehouse and connect, every all be provided with electronic control valve, one of them on the branch pipeline the indoor filter screen that is provided with of liquid storage.

Further: the bottom that the cylinder was banked up with earth is connected with the base through the bracing piece, the nutrition pond sets up in the base, be provided with the pond lid on the nutrition pond, be provided with the screen cloth on the pond lid, the top that the cylinder was banked up with earth has the liquid distribution disc through supporting channel intercommunication, be provided with the mounting panel on the liquid distribution disc, be provided with first water pump on the mounting panel, the end of intaking of first water pump through first branch liquid pipe with total liquid supply pipe connects, the play water end of first water pump through the intercommunication pipeline with the liquid distribution disc is connected.

Further: the cylinder is banked up and is included a plurality of annular cultivators that are, and a plurality of are annular the vertical direction interval distribution is followed to the cultivators, every adjacent two connect through supporting the pipeline between the cultivators, every a plurality of cultivation holes have been seted up on the cultivators, every the bottom of cultivators is provided with flowing back through-hole, every be provided with the transfer line in the cultivators respectively, the transfer line with support the pipeline intercommunication.

Further: every plant the storehouse and include the box, the hole of planting is seted up at the top of box, the bottom of box is provided with the leakage fluid dram, be provided with the hydrojet pipe in the box, be provided with atomizer on the hydrojet pipe, the hydrojet pipe pass through the second divide liquid pipe with total liquid supply pipe connects, be provided with the second water pump on the second divides liquid pipe, the leakage fluid dram passes through the leakage fluid dram and is provided with the stock solution room of filter screen is connected, the side of box is provided with the observation window.

Further: two adjacent liquid spraying pipes placed on the same labyrinth ring in the box body are communicated with each other, the liquid spraying pipes are connected with the second liquid distribution pipe through branch pipes, and electric control valves are arranged on the branch pipes.

Further: still include the cold water machine, every is connected respectively through inlet channel and booster pump in the import of cold water machine the stock solution room, every is connected respectively through outlet conduit in the export of cold water machine the stock solution room.

Further: and the main liquid supply pipeline is provided with a filter element and an ultraviolet sterilizer.

The utility model has the beneficial effects that:

compared with the prior art, the glass cover body is covered on the periphery of the labyrinth type cultivation area, the sightseeing platform is arranged in the center of the labyrinth type cultivation area, the flower bed is arranged between the labyrinth type cultivation area and the sightseeing platform, the cylindrical cultivation is arranged in the middle of the sightseeing platform, the protective fences are arranged on the periphery of the sightseeing platform, the position between the protective fences and the cylindrical cultivation is a sightseeing road, the ornamental performance of the utility model can be improved, the ornamental interest of the labyrinth type cultivation area can be increased, the sightseeing experience can be improved by arranging the sightseeing platform in the center of the labyrinth type cultivation area, the protective fences are arranged on the periphery of the sightseeing platform, the safety can be improved, and the daylighting performance can be improved through the glass outer cover.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the sightseeing platform of the present invention;

FIG. 3 is a schematic diagram of the structure of the cylindrical culture of the present invention;

FIG. 4 is a schematic structural view of a planting bin according to the present invention;

fig. 5 is a schematic structural diagram of the connection of the nutrition pond and the planting bin.

Description of reference numerals: 1-glass cover body, 11-doorway, 2-maze circular ring, 21-entrance, 22-exit, 3-sightseeing platform, 31-protective fence, 32-sightseeing road, 4-cylindrical culture, 41-cultivation device, 42-supporting pipeline, 43-cultivation hole, 44-infusion tube, 441-sprinkler head, 45-liquid discharge through hole, 5-flower bed, 6-nutrition pool, 61-pool cover, 62-screen, 63-partition board, 64-liquid storage chamber, 641-liquid charging hole, 642-branch pipeline, 643-electronic control valve, 65-total liquid supply pipeline, 651-filter element, 652-ultraviolet sterilizer, 66-filter screen, 71-box body, 72-planting hole, 73-liquid discharge port, 74-liquid spray tube, 75-an atomizing spray head, 76-a second liquid dividing pipe, 761-a second water pump, 762-a branch pipe, 763-an electric control valve, 77-a liquid discharge pipe, 78-an observation window, 81-a base, 82-a support rod, 83-a support channel, 84-a liquid distribution disc, 85-a mounting plate, 86-a first water pump, 87-a first liquid dividing pipe, 88-a communication pipeline, 9-a water cooling machine, 91-a water inlet pipeline, 92-a booster pump and 93-a water outlet pipeline.

Detailed Description

Referring to fig. 1 to 5, the labyrinth potato aeroponics system comprises a glass cover body 1, a labyrinth planting area, a sightseeing platform 3, a cylindrical culture 4 and a protective fence 31, wherein a door 11 is arranged on the glass cover body 1, the glass cover body 1 covers the periphery of the labyrinth planting area, the sightseeing platform 3 is arranged in the center of the labyrinth planting area, a flower bed 5 is arranged between the labyrinth planting area and the sightseeing platform 3, the cylindrical culture 4 is arranged in the middle of the sightseeing platform 3, a nutrient pond 6 is arranged below the cylindrical culture 4, the nutrient pond 6 is respectively connected with the cylindrical culture 4 and the labyrinth planting area, the protective fence 31 is arranged on the periphery of the sightseeing platform 3, and the position between the protective fence 31 and the cylindrical culture 4 is a sightseeing road 32.

Through setting up the labyrinth and cultivate the district, the labyrinth is cultivated and is provided with the flower bed 5 between district and the sightseeing platform 3, the middle part of sightseeing platform 3 is provided with the cylinder and cultivates 4, can improve the ornamental performance of this potato aeroponics system, and the region multiplicable interest of vwatching is cultivated to the labyrinth, set up sightseeing platform 3 at the center that the district was cultivated to the labyrinth, can improve and vwatch experience, set up protection rail 31 at sightseeing platform 3's all edges, can improve the security, through the glass dustcoat, can improve daylighting performance.

The labyrinth type cultivation area is composed of a plurality of labyrinth rings 2 with different diameters, the labyrinth rings 2 are concentrically distributed at intervals from inside to outside according to the diameters, every two adjacent labyrinth rings 2 are communicated with each other, the sightseeing platform 3 is arranged at the center of the labyrinth ring 2 with the smallest diameter, and an inlet 21 and an outlet 22 are arranged on the labyrinth ring 2 with the largest diameter.

The distance between every two adjacent labyrinth rings 2 is 1.5 meters.

Labyrinth ring 2 is made by the steelframe, places the planting storehouse of arranging according to the ring shape on the labyrinth ring 2, plants storehouse and nutrition pond 6 and connect.

The nutrition pool 6 is divided into a plurality of liquid storage chambers 64 by partition plates 63, each liquid storage chamber 64 is provided with a liquid adding port 641, each liquid storage chamber 64 is connected with a main liquid supply pipeline 65 through a branch pipeline 642, the main liquid supply pipeline 65 is respectively connected with the cylindrical culture 4 and the planting bin, each branch pipeline 642 is provided with an electronic control valve 643, and one liquid storage chamber 64 is internally provided with a filter screen 66.

The bottom that 4 was banked up with earth to the cylinder is connected with base 81 through bracing piece 82, nutrition pool 6 sets up in base 81, be provided with pond lid 61 on the nutrition pool 6, be provided with screen cloth 62 on the pond lid 61, the top that 4 was banked up with earth to the cylinder has liquid distribution disc 84 through supporting channel 83 intercommunication, be provided with mounting panel 85 on the liquid distribution disc 84, be provided with first water pump 86 on the mounting panel 85, first water pump 86's the end of intaking is connected with total feed liquor pipeline 65 through first branch liquid pipe 87, first water pump 86's play water end through intercommunication pipeline 88 with liquid distribution disc 84 connects.

The cylindrical cultivation device 4 comprises a plurality of annular cultivation devices 41, the annular cultivation devices 41 are distributed at intervals in the vertical direction, every two adjacent cultivation devices 41 are connected through a supporting pipeline 42, each cultivation device 41 is provided with a plurality of cultivation holes 43, the bottom of each cultivation device 41 is provided with a liquid discharge through hole 45, a liquid conveying pipe 44 is arranged in each cultivation device 41 and is communicated with the supporting pipeline 42, a liquid conveying pipe 44 in the cultivation device 41 at the top is communicated with a supporting channel 83, and the liquid conveying pipe 44 is provided with a plurality of spraying heads 441.

During planting, plants are planted on the planting holes 43 of the growers 41, during irrigation, the electronic control valve 643 on the branch pipe 642 and the first water pump 86 on the first branch pipe 87 are opened, under the action of the first water pump 86, nutrient solution in the liquid storage chamber 64 enters the liquid distribution disc 84 through the first branch pipe 87, the nutrient solution enters the liquid conveying pipe 44 through the supporting channel 83 and is sprayed onto the plants through the sprinkler head 441, meanwhile, the nutrient solution in the liquid conveying pipe 44 flows into the liquid conveying pipe 44 in the next grower 41 through the supporting pipe 42, the nutrient solution in the grower 41 is discharged through the liquid discharging through hole 45, drips on the screen 62, is filtered and flows back into the nutrient pool 6, and therefore the nutrient solution is recycled. By arranging the electronic control valve 643 on each branch conduit 642, the nutrient solution in each liquid storage chamber 64 can be independently controlled and delivered, and when the liquid storage chamber 64 has insufficient liquid storage, the liquid storage chamber 64 with sufficient liquid storage can be selected to provide the nutrient solution.

Every is planted the storehouse and is included box 71, and planting hole 72 has been seted up at the top of box 71, and the bottom of box 71 is provided with leakage fluid dram 73, is provided with hydrojet 74 in the box 71, is provided with atomizer 75 on the hydrojet 74, and hydrojet 74 divides liquid pipe 76 to connect with total feed liquor pipeline 65 through the second, be provided with second water pump 761 on the second branch liquid pipe 76, leakage fluid dram 73 passes through fluid-discharge tube 77 and connects with the stock solution room 64 that is provided with filter screen 66, and the side of box 71 is provided with observation window 78.

The liquid spraying pipes 74 in two adjacent boxes 71 on the same labyrinth ring 2 are communicated with each other, and the liquid spraying pipes 74 are connected with the second branch pipe 76 through a branch pipe 762, and an electric control valve 763 is arranged on the branch pipe 762.

Potatoes are planted on the planting holes 72, when nutrient solution is sprayed, an electronic control valve 643 on a branch pipe 642, a second water pump 761 on a second branch pipe 76 and an electric control 763 on the branch pipe 762 are started, under the action of the second water pump 761, the nutrient solution in the liquid storage chamber 64 sequentially enters a liquid spraying pipe 74 through a main liquid supply pipe 65, the second branch pipe 76 and the branch pipe 762, then an atomizing nozzle 75 is sprayed on the potato plants, unabsorbed nutrient solution is gathered at the bottom of the box body 71 and is discharged to a liquid discharge pipe 77 from a liquid discharge port 73, the unabsorbed nutrient solution flows back to the liquid storage chamber 64 after being filtered by a filter screen 66, and the nutrient solution can be recycled after being filtered.

In the present embodiment, the labyrinth ring 2 is provided with four circles, and the liquid spraying pipes 74 of the planting bins on each circle of the labyrinth ring 2 are respectively connected through the branch pipes 762 and the second branch pipes 76.

If a plurality of planting bins are arranged on the same circle of labyrinth ring 2, the liquid spraying pipes 74 among the box bodies 71 of each planting bin are communicated with each other, and the second liquid distributing pipe 76 is respectively connected with the liquid spraying pipes 74 on each layer through the branch pipes 762.

The water chiller 9 is further included, an inlet of the water chiller 9 is respectively connected with each liquid storage chamber 64 through a water inlet pipeline 91 and a booster pump 92, and an outlet 22 of the water chiller 9 is respectively connected with each liquid storage chamber 64 through a water outlet pipeline 93.

During operation, under the action of the booster pump 92, the nutrient solution in the liquid storage chamber 64 enters the water chiller 9 through the water inlet pipe 91 for cooling, and then returns to the liquid storage chamber 64 through the water outlet pipe 93, so that the nutrient solution in the liquid storage chamber 64 is cooled circularly.

The main liquid supply pipe 65 is provided with a filter core 651 and an ultraviolet disinfector 652.

The nutrient solution is filtered by the filter element 651 and disinfected by the ultraviolet disinfector 652 and then enters the total liquid supply pipeline 65, the nutrient solution can be filtered by the filter element 651, the atomizing spray head 75 and the spray head 441 are prevented from being blocked, and the nutrient solution is disinfected by the ultraviolet disinfector 652, so that the situation that the nutrient solution is bred with bacteria to infect plants can be prevented.

The above detailed description is specific to possible embodiments of the present invention, and the embodiments are not intended to limit the scope of the present invention, and all equivalent implementations or modifications that do not depart from the scope of the present invention are intended to be included within the scope of the present invention.

Claims

1. A potato aeroponics system of labyrinth which characterized in that: cultivate district, sightseeing platform, cylinder including the glass cover body, labyrinth and cultivate, protect the rail, the gate has been seted up on the glass cover body, the glass cover body covers to be established the labyrinth cultivates the periphery in district, the labyrinth is cultivated the center in district and is provided with sightseeing platform, labyrinth cultivate the district with be provided with the flower bed between the sightseeing platform, sightseeing platform's middle part is provided with the cylinder is cultivated with earth, the below that the cylinder was cultivated with earth is provided with the nutrition pond, the nutrition pond respectively with the cylinder is cultivated with labyrinth and is cultivated the district and connect, sightseeing platform's all edges around are provided with the protection rail, the protection rail with the position that the cylinder was cultivated between is the sightseeing road.

2. The labyrinth potato aeroponic system of claim 1, wherein: the labyrinth type cultivation area is composed of a plurality of labyrinth rings with different diameters, the labyrinth rings are distributed concentrically according to the diameter size from inside to outside at intervals, every two adjacent labyrinth rings are communicated with each other, the sightseeing platform is arranged at the center of the labyrinth ring with the smallest diameter, and the labyrinth ring with the largest diameter is provided with an inlet and an outlet.

3. The labyrinth potato aeroponic system of claim 2, wherein: the labyrinth ring is made by the steelframe, place the planting storehouse of arranging according to the ring shape on the labyrinth ring, plant the storehouse with the nutrition pond is connected.

4. The labyrinth potato aeroponic system of claim 3, wherein: the nutrition pool is separated into a plurality of liquid storage chambers through division plates, every all be provided with the filling opening on the liquid storage chamber, every the liquid storage chamber is connected through branch pipeline and total liquid supply pipeline, total liquid supply pipeline respectively with the cylinder is banked up with earth and is planted the storehouse and connect, every all be provided with electronic control valve, one of them on the branch pipeline the indoor filter screen that is provided with of liquid storage.

5. The labyrinth potato aeroponic system of claim 4, wherein: the bottom that the cylinder was banked up with earth is connected with the base through the bracing piece, the nutrition pond sets up in the base, be provided with the pond lid on the nutrition pond, be provided with the screen cloth on the pond lid, the top that the cylinder was banked up with earth has the liquid distribution disc through supporting channel intercommunication, be provided with the mounting panel on the liquid distribution disc, be provided with first water pump on the mounting panel, the end of intaking of first water pump through first branch liquid pipe with total liquid supply pipe connects, the play water end of first water pump through the intercommunication pipeline with the liquid distribution disc is connected.

6. The labyrinth potato aeroponic system of claim 5, wherein: the cylinder is banked up and is included a plurality of annular cultivators that are, and a plurality of are annular the vertical direction interval distribution is followed to the cultivators, every adjacent two connect through supporting the pipeline between the cultivators, every a plurality of cultivation holes have been seted up on the cultivators, every the bottom of cultivators is provided with flowing back through-hole, every be provided with the transfer line in the cultivators respectively, the transfer line with support the pipeline intercommunication.

7. The labyrinth potato aeroponic system of claim 6, wherein: every plant the storehouse and include the box, the hole of planting is seted up at the top of box, the bottom of box is provided with the leakage fluid dram, be provided with the hydrojet pipe in the box, be provided with atomizer on the hydrojet pipe, the hydrojet pipe pass through the second divide liquid pipe with total liquid supply pipe connects, be provided with the second water pump on the second divides liquid pipe, the leakage fluid dram passes through the leakage fluid dram and is provided with the stock solution room of filter screen is connected, the side of box is provided with the observation window.

8. The labyrinth potato aeroponic system of claim 7, wherein: two adjacent liquid spraying pipes placed on the same labyrinth ring in the box body are communicated with each other, the liquid spraying pipes are connected with the second liquid distribution pipe through branch pipes, and electric control valves are arranged on the branch pipes.

9. The labyrinth potato aeroponic system of claim 8, wherein: still include the cold water machine, every is connected respectively through inlet channel and booster pump in the import of cold water machine the stock solution room, every is connected respectively through outlet conduit in the export of cold water machine the stock solution room.

10. The labyrinth potato aeroponic system of claim 9, wherein: and the main liquid supply pipeline is provided with a filter element and an ultraviolet sterilizer.