CN213639194U

CN213639194U - Wall elevated water culture device

Info

Publication number: CN213639194U
Application number: CN202022208095.XU
Authority: CN
Inventors: 王平; 李莹; 肖长坤; 项阳; 朱岳; 吕静; 赵海静; 何连宇
Original assignee: Huaxia Tiannong Beijing Agricultural Science And Technology Co ltd
Current assignee: Huaxia Tiannong Beijing Agricultural Science And Technology Co ltd
Priority date: 2020-09-30
Filing date: 2020-09-30
Publication date: 2021-07-09
Anticipated expiration: 2030-09-30

Abstract

The utility model provides an overhead hydroponic device of wall, includes cultivation frame, cultivation groove, fertilizer injection unit and nutrient solution bucket, its characterized in that: the cultivation tank is fixed on the wall surface through the cultivation frame, a threading pipe is arranged at the bottom of the cultivation tank, a liquid inlet groove is formed at the joint of the threading pipe and the side wall of the cultivation tank, and a drip irrigation tape is laid above the threading pipe; the plurality of cultivation tanks are connected in parallel with the liquid return branch pipes through threading pipes, the liquid return branch pipes are communicated with the liquid return header pipe, and the liquid return header pipe is communicated with the liquid return well; the drip irrigation belt is communicated with a liquid supply pipe, and a fertilizing device and a nutrient solution barrel are also communicated on the liquid supply pipe; the front end of the fertilizing device is communicated with a filtering device.

Description

Wall elevated water culture device

Technical Field

The utility model relates to a hydroponic device especially relates to an overhead hydroponic device of wall.

Background

Soilless culture is a crop cultivation technology without using natural soil as a substrate, and is characterized in that crops are directly cultivated in a nutrient solution of a certain device or a cultivation bed filled with an inactive solid substrate and a certain nutrient solution, and the soilless culture is called soilless culture and is also called nutrient solution cultivation or water cultivation for short because the soilless culture does not use soil.

The form of present hydroponics device is various, but present hydroponics device generally places with ground, and area is great.

Disclosure of Invention

In order to solve the above problem, the utility model provides a following scheme:

a wall elevated water culture device comprises a culture frame, a culture groove, a fertilizer application device and a nutrient solution barrel, wherein the culture groove is fixed on a wall surface through the culture frame, a threading pipe is arranged at the bottom of the culture groove, a liquid inlet groove is formed at the joint of the threading pipe and the side wall of the culture groove, and a drip irrigation tape is laid above the threading pipe; the plurality of cultivation tanks are connected in parallel with the liquid return branch pipes through threading pipes, the liquid return branch pipes are communicated with the liquid return header pipe, and the liquid return header pipe is communicated with the liquid return well; the drip irrigation belt is communicated with a liquid supply pipe, and a fertilizing device and a nutrient solution barrel are also communicated on the liquid supply pipe; the front end of the fertilizing device is communicated with a filtering device.

Further, fertilizer injection unit includes first fertilization pipe, second fertilization pipe, fertilizer applicator and fertilization bucket, first fertilization pipe and fertilizer applicator front end intercommunication, second fertilization pipe and fertilizer applicator rear end intercommunication, first fertilization pipe and second fertilization pipe are parallelly connected and are supplied liquid pipe, and fertilizer applicator lower extreme is through inhaling fertile pipe and fertilization bucket intercommunication.

Furthermore, the cultivation groove is formed by arranging a plurality of planting grooves at the top end of the UPVC drainage pipe.

Further, the cultivation frame includes mount and stationary plane, the fixed orifices has been seted up to the stationary plane, and the fixed orifices spiro union screw makes stationary plane and wall fixed, and the mount includes rack and lock ring, and the mount is personally submitted the acute angle with fixed and is connected, and the lock ring is the semi-ring type, and the lock ring front end is articulated with the mount front end, and the screw thread is attacked to the lock ring rear end, and the stationary plane has been seted up the lock hole with the lock ring rear end corresponding position, and the lock ring sets up the fix with screw after inserting the lock hole.

Furthermore, an insect-proof net is laid on the inner wall of the cultivation groove.

Furthermore, the diameter of the UPVC drain pipe is 160mm, the width of the planting groove is 8cm, the length of the planting groove is 1m, and the height from the highest point of the groove opening of the planting groove to the lowest point of the groove opening is 150 mm.

Furthermore, two ends of the cultivation groove are sealed by cleaning openings.

The utility model has the advantages that: the cultivation grooves are arranged on the wall surface by using the cultivation frame, a large amount of use area is saved, and the planting space is effectively utilized; the cultivation frame fixes the cultivation groove by using the locking ring, so that the structure is simple and the fixation is firm; the cultivation tank is formed by reforming a UPVC drain pipe, so that a large amount of cost is saved, and engineering garbage is not generated; the device is equipped with liquid return system and supplies liquid fertilization system, and waste liquid is retrieved and fertilization support is multiple functional, and simple structure, simple to operate.

Drawings

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

FIG. 2 is a front view of the present invention;

fig. 3 is a top view of the present invention;

fig. 4 is a side view of the present invention.

1. A cultivation trough; 2. a drip irrigation tape; 3. a liquid return branch pipe; 4. a liquid supply tube; 5. a threading tube; 6. a liquid return header pipe; 7. a liquid return well; 8. a filtration device; 9. a fertilizing barrel; 10. a fertilizer applicator; 11. a first fertilizing tube; 12. a second fertilizing tube; 13. a nutrient solution barrel; 14. planting grooves; 15. a liquid inlet tank; 16. a locking hole; 17. a fixed mount; 18. a fixed surface; 19. a locking ring; 20. a fixing hole; 21. and a nut.

Detailed Description

The present invention will now be described in detail with reference to the accompanying drawings:

example 1: as shown in fig. 1 to 2, the wall surface elevated water culture device comprises a culture frame, a culture groove 1, a fertilizer application device and a nutrient solution barrel 13, wherein the culture groove 1 is fixed on the wall surface through the culture frame, the bottom of the culture groove 1 is provided with a threading pipe 5, the joint of the threading pipe 5 and the side wall of the culture groove 1 is provided with a liquid inlet groove 15, and a drip tape 2 is laid above the threading pipe 5; the plurality of cultivation tanks 1 are connected with the liquid return branch pipes 3 in parallel through threading pipes 5, the liquid return branch pipes 3 are communicated with the liquid return header pipe 6, and the liquid return header pipe 6 is communicated with the liquid return well 7; the drip irrigation belt 2 is communicated with a liquid supply pipe 4, and the liquid supply pipe 4 is also communicated with a fertilizing device and a nutrient solution barrel 13; the front end of the fertilizing device is communicated with a filtering device 8.

Further, fertilizer injection unit includes first fertilization pipe 11, second fertilization pipe 12, fertilizer applicator 10 and fertilization bucket 9, and first fertilization pipe 11 and fertilizer applicator 10 front end intercommunication, second fertilization pipe 12 and fertilizer applicator 10 rear end intercommunication, first fertilization pipe 11 and second fertilization pipe 12 connect in parallel in liquid supply pipe 4, and fertilizer applicator 10 lower extreme is through inhaling fertile pipe and fertilization bucket 9 intercommunication.

The cultivation tank 1 is made of a UPVC drain pipe, and a plurality of planting tanks 14 are arranged at the top end of the UPVC drain pipe.

The cultivation frame comprises a fixing frame 17 and a fixing surface 18, the fixing surface 18 is provided with a fixing hole 20, the fixing hole 20 is screwed into a screw to fix the fixing surface 18 and the wall surface, the fixing frame 17 comprises a placing frame and a locking ring 19, the fixing frame 17 is connected with the fixing surface 18 in an acute angle mode, the locking ring 19 is in a semi-annular shape, the front end of the locking ring 19 is hinged to the front end of the fixing frame 17, the rear end of the locking ring 19 is tapped, the fixing surface 18 and the rear end of the locking ring 19 are provided with a locking hole 16 in a corresponding position, and the locking ring 19 is screwed into a nut 21 after being inserted into the.

And an insect-proof net is laid on the inner wall of the cultivation groove. The diameter of the UPVC drain pipe is 160mm, the width of the planting groove is 8cm, the length of the planting groove is 1m, and the height from the highest point of the groove opening of the planting groove to the lowest point of the groove opening is 150 mm. The two ends of the cultivation groove 1 are blocked by cleaning openings.

The cultivation groove 1 is arranged on the wall surface by using the cultivation frame, so that a large amount of use area is saved, and the planting space is effectively utilized; the cultivation frame fixes the cultivation groove 1 by using the locking ring 19, the structure is simple, and the fixation is firm; the cultivation tank 1 is formed by reforming a UPVC drain pipe, so that a large amount of cost is saved, and engineering garbage is not generated; the device is equipped with liquid return system and supplies liquid fertilization system, and waste liquid is retrieved and fertilization support is multiple functional, and simple structure, simple to operate.

The technical solutions provided by the embodiments of the present invention are described in detail above, and the principles and embodiments of the present invention are explained herein by using specific examples, and the descriptions of the above embodiments are only applicable to help understand the principles of the embodiments of the present invention; meanwhile, for a person skilled in the art, according to the embodiments of the present invention, there may be variations in the detailed implementation and application range, and in summary, the content of the present specification should not be construed as a limitation of the present invention.

Claims

1. The utility model provides an overhead hydroponic device of wall, includes cultivation frame, cultivation groove, fertilizer injection unit and nutrient solution bucket, its characterized in that: the cultivation tank is fixed on the wall surface through the cultivation frame, a threading pipe is arranged at the bottom of the cultivation tank, a liquid inlet groove is formed at the joint of the threading pipe and the side wall of the cultivation tank, and a drip irrigation tape is laid above the threading pipe; the plurality of cultivation tanks are connected in parallel with the liquid return branch pipes through threading pipes, the liquid return branch pipes are communicated with the liquid return header pipe, and the liquid return header pipe is communicated with the liquid return well; the drip irrigation belt is communicated with a liquid supply pipe, and a fertilizing device and a nutrient solution barrel are also communicated on the liquid supply pipe; the front end of the fertilizing device is communicated with a filtering device.

2. The wall surface elevated hydroponic device of claim 1, wherein: the fertilizer applying device comprises a first fertilizer applying pipe, a second fertilizer applying pipe, a fertilizer applicator and a fertilizer applying barrel, wherein the first fertilizer applying pipe is communicated with the front end of the fertilizer applicator, the second fertilizer applying pipe is communicated with the rear end of the fertilizer applicator, the first fertilizer applying pipe and the second fertilizer applying pipe are connected in parallel to a liquid supply pipe, and the lower end of the fertilizer applicator is communicated with the fertilizer applying barrel through a fertilizer suction pipe.

3. The wall surface elevated hydroponic device of claim 1, wherein: the cultivation groove is made by arranging a plurality of planting grooves at the top end of the UPVC drain pipe.

4. The wall surface elevated hydroponic device of claim 1, wherein: the cultivation frame comprises a fixing frame and a fixing surface, wherein fixing holes are formed in the fixing surface, the fixing hole is screwed into a screw to fix the fixing surface and a wall surface, the fixing frame comprises a placing frame and a locking ring, the fixing frame is connected with a fixing surface in an acute angle mode, the locking ring is semi-annular, the front end of the locking ring is hinged to the front end of the fixing frame, threads are tapped at the rear end of the locking ring, locking holes are formed in the corresponding positions of the fixing surface and the rear end of the locking ring, and the locking ring is screwed and fixed after being inserted into the locking.

5. The wall surface elevated hydroponic device of claim 1, wherein: and an insect-proof net is laid on the inner wall of the cultivation groove.

6. A wall-mounted elevated hydroponic device as claimed in claim 3, wherein: the diameter of the UPVC drain pipe is 160mm, the width of the planting groove is 8cm, the length of the planting groove is 1m, and the height from the highest point of the groove opening of the planting groove to the lowest point of the groove opening is 150 mm.

7. The wall surface elevated hydroponic device of claim 1, wherein: the two ends of the cultivation groove are blocked by cleaning openings.