CN114402973A

CN114402973A - Mildew-proof root irrigation system

Info

Publication number: CN114402973A
Application number: CN202111664179.7A
Authority: CN
Inventors: 李海宾; 李海燕; 李玉平; 晋红艳
Original assignee: Beijing Bihai Yijing Landscaping Co ltd
Current assignee: Beijing Bihai Yijing Landscaping Co ltd
Priority date: 2021-12-31
Filing date: 2021-12-31
Publication date: 2022-04-29
Anticipated expiration: 2041-12-31
Also published as: CN114402973B

Abstract

The application relates to the field of garden construction, and discloses a mildew-proof root irrigation system which comprises a water dripping pipe, a nozzle arranged on the water dripping pipe, a planting pot arranged below the nozzle, and a drainage assembly capable of being inserted into the planting pot, wherein the drainage assembly comprises a drainage pipe, and third drainage holes are formed in the two symmetrical side walls of the drainage pipe; the one end of drain pipe is uncovered, and the other end is provided with the bottom plate with the drain pipe adaptation, the drain pipe to and the bottom plate is flexible pipe, and the axis of the sharp perpendicular to drain pipe at the flexible direction place of drain pipe is provided with the operating assembly in the drain pipe, and the operating assembly is including relative first operation panel and the second operation panel that sets up. This application has the effect that effectively improves the plant and the easy problem that appears the root of mildew at the watering in-process.

Description

Mildew-proof root irrigation system

Technical Field

The application relates to the field of landscape construction, in particular to a mildew-proof root irrigation system.

Background

With the development of the planting industry, the planting method of the plants is changed, and the plants are planted in the greenhouse for uniform irrigation, so that the workload of workers is reduced, the consumption of water resources is greatly reduced, and the utilization rate of the water resources is improved.

Among the correlation technique, irrigation system is provided with the delivery port including alternate the setting at the other water supply network of planting the case on water supply network's the water pipe, and the staff is with water supply network and external water source intercommunication, and water flows out for the plant from the delivery port and waters.

In view of the above-mentioned related arts, the inventors believe that during irrigation, since the water absorption amount of the soil is constant, the plant mildew root is very likely to occur during irrigation, and thus plant necrosis is caused.

Disclosure of Invention

In order to effectively improve the problem that the root of mildew appears in the watering in-process easily of plant, this application provides a root irrigation system of preventing mildew.

The application provides a mould proof root irrigation system adopts following technical scheme:

a mildew-proof root irrigation system comprises a water dripping pipe, a nozzle arranged on the water dripping pipe, a planting pot arranged below the nozzle, and a drainage assembly capable of being inserted into the planting pot, wherein the drainage assembly comprises a drainage pipe, and third drainage holes are formed in the two symmetrical side walls of the drainage pipe;

the one end of drain pipe is uncovered, and the other end is provided with the bottom plate with the drain pipe adaptation, the drain pipe to and the bottom plate is flexible pipe, and the axis of the sharp perpendicular to drain pipe at the flexible direction place of drain pipe is provided with the operating assembly in the drain pipe, and the operating assembly is including relative first operation panel and the second operation panel that sets up.

Through adopting above-mentioned technical scheme, with drip pipe and water source intercommunication, water flows in from the nozzle and plants in the basin, when planting the basin in water too much, for preventing the root system moldy, close the water source, install operation assembly in the drain pipe, then insert the drain pipe in soil, then will stimulate first operation panel and second operation panel, the drain pipe expandes, then withdraw first operation panel and second operation panel, unnecessary moisture makes unnecessary moisture pass through third wash port entering drain pipe because the extrusion of drain pipe in the soil, the water in the drain pipe can be extracted to the staff, thereby collect unnecessary water in the soil. The water content in the soil is reduced, and the possibility of mildew roots of plants is further reduced.

Optionally, a plurality of fourth drainage holes are formed in the bottom plate.

The planting pot comprises a pot body and a pot bottom in threaded connection with the pot body, a plurality of first drainage holes are formed in the bottom of the pot body at intervals, a plurality of second drainage holes are formed in the bottom of the pot bottom at intervals, and the first drainage holes and the second drainage holes are formed in a staggered mode.

By adopting the technical scheme, the first drain hole and the second drain hole are arranged in a staggered manner in the process of collecting water, after the water is collected in the drain pipe, the basin bottom is screwed, and as the basin bottom is in threaded connection with the basin body, a gap is formed between the basin bottom and the basin body in the screwing process, and the collected water flows to the space between the basin body and the basin bottom through the fourth drain hole and is discharged through the first drain hole and the second drain hole; this drainage process need not the staff and extracts once more, only need revolve twist the pelvic floor can, easy and simple to handle, can effectively improve work efficiency.

Optionally, a fixed frame is arranged at the bottom of the first operating plate, a blocking plate matched with the fixed frame is arranged at the bottom of the second operating plate, a spring is arranged between the fixed frame and the blocking plate, one end of the spring is connected with the fixed frame, and the other end of the spring is connected with the blocking plate.

By adopting the technical scheme, when the drain pipe is not used, the drain pipe is compressed, so that the pipe wall of the drain pipe is respectively prevented from being attached to the plate surface of the first operating plate and the plate surface of the second operating plate, and the spring is in a loose state; when the drainage pipe is used, the first operating plate and the second operating plate are pulled, the spring is stretched, after the drainage pipe is expanded, the first operating plate and the second operating plate are contracted under the action of the spring, and water in soil can flow into the drainage pipe from the soil; meanwhile, in the inserting process of the drain pipe, the third drain hole can be sealed by the first operating plate and the second operating plate, and the possibility that soil enters the drain pipe to block the third drain hole in the inserting process is reduced.

Optionally, a first pulling plate is integrally formed at the top end of the first operating plate, and a second pulling plate is integrally formed at the top end of the second operating plate;

the two sides of one end of the drain pipe, which is far away from the tip end, are symmetrically and rotatably connected with a first rotating plate and a second rotating plate which are respectively connected with the first pulling plate and the second pulling plate.

By adopting the technical scheme, the first rotating plate and the second rotating plate are convenient for workers to take the drain pipe, so that the workers can insert the drain pipe into soil conveniently; in the process of inserting the drain pipe into soil, the drain assembly is connected with the operation assembly through the first pulling plate and the first rotating plate, and the second pulling plate and the second rotating plate, so that the operation of workers is facilitated.

Optionally, the first pulling plate and the second pulling plate are obliquely arranged from bottom to top in a direction away from the inside of the drainage pipe.

Through adopting above-mentioned technical scheme, the slope sets up can be with supporting the drain pipe, and it is too deep to reduce the drain pipe to insert, and soil is from the uncovered possibility that gets into in the drain pipe of drain pipe.

Optionally, a drain hopper is arranged at the lower part of the bottom plate, a large port of the drain hopper is communicated with the bottom plate, and a small port of the drain hopper deviates from the bottom plate.

Through adopting above-mentioned technical scheme, during the drain pipe of being convenient for of drain fill inserted soil, and then accelerated insertion speed, and then effectively improve work efficiency.

Optionally, the surfaces of the first pulling plate and the second pulling plate are provided with through holes, the surfaces of the first rotating plate and the second rotating plate are provided with through holes, and the connecting piece is provided with bolts.

Optionally, the inner wall of the drain pipe is provided with a non-woven fabric matched with the inner wall of the drain pipe.

By adopting the technical scheme, the non-woven fabric does not absorb water and has water permeability, and water can enter the drainage pipe through the non-woven fabric; the weight is light, the weight of the drainage component cannot be increased, and the use is convenient; the fertilizer is non-toxic and non-irritant, cannot damage soil, cannot influence soil quality and further cannot influence the growth of plants; the water-saving and water-saving composite material has antibacterial property and chemical agent resistance, is not damaged by worms, and does not influence the use of a drainage component when the non-woven fabric is damaged when pesticide is contained in water; meanwhile, the non-woven fabric material is environment-friendly and can be recycled; the non-woven fabrics can reduce the possibility that soil gets into in the drain pipe, and then reduces the possibility that the drain pipe blockked up for drainage speed, and then effectively improve work efficiency.

Optionally, a hook is arranged on the outer wall of the pot body.

Through adopting above-mentioned technical scheme, the couple makes things convenient for the staff to hang the instrument hook of drain pipe on planting the basin, and the staff of being convenient for takes the operation.

In summary, the present application includes at least one of the following beneficial technical effects:

through setting up the drainage subassembly to and the operation subassembly, the drain pipe is gone into to unnecessary moisture, and the staff can extract the water in the drain pipe, thereby collects out unnecessary water in the soil. The water content in the soil is reduced, and the possibility of mildew roots of plants is further reduced;

through the arrangement of the basin bottom and the basin body, the water drainage process does not need to be extracted again by workers, only the basin bottom needs to be screwed, the operation is simple and convenient, and the working efficiency can be effectively improved;

through setting up fixed frame, closure plate and spring, reduce in the insertion process, soil gets into the interior jam third wash port's of sewer pipe possibility.

Drawings

Fig. 1 is a schematic structural view of a mildewproof root irrigation system.

Fig. 2 is a schematic structural view of the planting pot.

Fig. 3 is a schematic view of the drain assembly, and the operating assembly.

Fig. 4 is a partial structural view of a mildewproof root irrigation system.

Description of reference numerals: 1. a drip pipe; 11. a nozzle; 2. planting pots; 21. a pot body; 211. a first drain hole; 212. hooking; 22. a basin bottom; 221. a second drain hole; 3. a drainage assembly; 31. a drain pipe; 311. a third drain hole; 312. a first rotating plate; 313. a second rotating plate; 32. a base plate; 321. a fourth drain hole; 33. a drainage hopper; 4. an operating component; 41. a first operation panel; 411. a fixing frame; 412. a first pulling plate; 42. a second operation panel; 421. a blocking plate; 422. a second pulling plate; 43. a spring.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses mould proof root irrigation system.

Referring to fig. 1 and 2, the system for irrigating a mildew-proof root comprises a water dropping pipe 1, a nozzle 11 installed on the water dropping pipe 1, and a planting pot 2 disposed below the nozzle 11.

The planting pot 2 comprises a pot body 21 and a pot bottom 22 detachably connected with the pot body 21, wherein external threads are formed on the outer wall of the pot body 21 in a machining mode, and internal threads matched with the external threads of the pot body 21 are formed on the inner wall of the pot bottom 22 in a machining mode. A plurality of first drainage holes 211 are formed on the bottom plate 32 of the pot body 21 at intervals, a plurality of second drainage holes 221 are formed on the bottom surface of the pot bottom 22 at intervals, and the second drainage holes 221 and the first drainage holes 211 are arranged in a staggered mode. The outer wall of the pot body 21 is also provided with a hook 212, and workers can hook tools on the hook 212 for convenient use.

With reference to fig. 1 and 3, the mildewproof root irrigation system further comprises a drainage assembly 3 and an operation assembly 4 matched with the drainage assembly 3. The drainage assembly 3 comprises a drainage pipe 31 and a bottom plate 32 arranged at one end of the drainage pipe 31 and capable of sealing the end part of the drainage pipe 31, the cross section of the drainage pipe 31 is rectangular, two opposite side walls of the drainage pipe 31 are expansion plates, the bottom plate 32 is an expansion plate, the drainage pipe 31 can expand along the length direction of the expansion plate, and a plurality of third drainage holes 311 are arranged on the other two side walls of the drainage pipe 31 at intervals. A non-woven fabric (not shown) is bonded to the inner wall of the drain pipe 31, the non-woven fabric does not absorb water and has water permeability, and water can enter the drain pipe 31 through the non-woven fabric; the weight is light, the weight of the drainage component 3 is not increased, and the use is convenient; the fertilizer is non-toxic and non-irritant, cannot damage soil, cannot influence soil quality and further cannot influence the growth of plants; the water-saving and environment-friendly water draining component has antibacterial property and chemical agent resistance, is not damaged by worms, and can not influence the use of the water draining component 3 when the non-woven fabric is damaged when pesticide is contained in water; meanwhile, the non-woven fabric material is environment-friendly and can be recycled.

Referring to fig. 3 and 4, a first rotating plate 312 and a second rotating plate 313 are respectively hinged to one end of the drain pipe 31, which is away from the bottom plate 32, of two side walls of the drain pipe 311, where the third drain hole 311 is opened, and through holes are opened on the plate surfaces of the first rotating plate 312 and the second rotating plate 313.

Two drain hoppers 33 are respectively arranged on two sides of the outer plate surface of the bottom plate 32, a plurality of fourth drain holes 321 are arranged on the plate surface of the bottom plate 32 on which the drain hoppers 33 are arranged at intervals, and the fourth drain holes 321 are communicated with the drain hoppers 33. The length of the drain bucket 33 is consistent with the width of the bottom plate 32, the large port of the drain bucket 33 is installed on the bottom plate 32, and the small port faces to the direction away from the bottom plate 32.

With reference to fig. 3 and 4, the operating assembly 4 includes two first operating panels 41 arranged vertically, and a second operating panel 42, a fixing frame 411 is installed at one end of the first operating panel 41, a blocking panel 421 is integrally formed at the same end of the second operating panel 42 and the first operating panel 41, and a panel surface of the blocking panel 421 is perpendicular to a panel surface of the second operating panel 42.

The fixed frame 411 is U-shaped, the plate surfaces of the side plates at both sides of the opening end of the fixed frame 411 are perpendicular to the plate surface of the first operating plate 41, the opening of the fixed frame 411 faces the second operating plate 42, and the blocking plate 421 is matched with the fixed frame 411. A spring 43 is arranged between the blocking plate 421 and the fixing frame 411, one end of the spring 43 is connected to the inner plate surface of the fixing frame 411, and the other end is connected to the blocking plate 421.

With reference to fig. 3 and 4, a first pulling plate 412 is integrally formed at an end of the first operating plate 41 away from the fixing frame 411, a second pulling plate 422 is integrally formed at an end of the second operating plate 42 away from the blocking plate 421, the first pulling plate 412 and the second pulling plate 422 are disposed opposite to each other, the first pulling plate 412 is disposed in a direction inclined from bottom to top in a direction away from the second operating plate 42, and the second pulling plate 422 is disposed in a direction inclined from bottom to top in a direction away from the first operating plate 41.

A through hole is formed in the plate surface of the first pulling plate 412, the through hole of the first pulling plate 412 is matched with the through hole of the first rotating plate 312, threads are formed on the inner walls of the through hole of the first pulling plate 412 and the through hole of the first operating plate 41 in a machining mode, and a bolt is connected between the through hole of the first pulling plate 412 and the through hole of the first rotating plate 312 in an internal thread mode.

The plate surface of the second pulling plate 422 is provided with a through hole, the through hole of the second pulling plate 422 is matched with the through hole of the second rotating plate 313, the inner walls of the through hole of the second pulling plate 422 and the through hole of the second operating plate 42 are both processed and formed with threads, and the through hole of the second pulling plate 422 and the through hole of the second rotating plate 313 are internally connected with bolts through threads.

When not in use, the first pulling plate 412 is fixed to the first rotating plate 312, the second pulling plate 422 is fixed to the second rotating plate 313, the spring 43 is in a relaxed state, and the plate surfaces of the first operating plate 41 and the second operating plate 42 are bonded to each other with the nonwoven fabric in the drain pipe 31.

When the operation tool is used, the worker fixes the first operation plate 41 and the second operation plate 42 so that the first operation plate 41 and the second operation plate 42 are always bonded to the nonwoven fabric in the drain pipe 31. The small end of the drain funnel 33 can facilitate the insertion of the drain pipe 31 into the soil, and the outer plate surface of the fixing frame 411 is always attached to the inner plate surface of the bottom plate 32. Thereby reducing the likelihood of soil entering the drain pipe 31 during insertion of the drain pipe 31. When the small port abuts against the bottom plate 32 of the pot body 21, a worker pulls the first operating plate 41 and the second operating plate 42 towards two sides to open the drain pipe 31, the drain pipe 31 presses the surrounding soil, then the worker screws the bolts to separate the first pulling plate 412 from the first rotating plate 312, separate the second pulling plate 422 from the second rotating plate 313, contract the stretched spring 43, open the third drain hole 311 by the first operating plate 41 and the second operating plate 42, flow water in the soil into the drain pipe 31, simultaneously, screw the pot bottom 22 by the worker, and along with the separation of the pot bottom 22 from the pot body 21, a gap appears between the pot bottom 22 and the pot body 21, the water flows into the drain hopper 33 from the drain pipe 31 through the fourth drain hole 321, then flows into the gap between the pot body 21 and the pot bottom 22 through the first drain hole 211, and flows out of the planting box.

Meanwhile, in the using process, the worker can rotate the first rotating plate 312 and the second rotating plate 313 to insert the first rotating plate 312 and the second rotating plate 313 into the soil so as to fix the drain pipe 31.

The application principle of the mildew-proof root irrigation system in the embodiment of the application is as follows: the staff inserts the drain pipe 31 into the soil through the operation assembly 4, then pulls the first operation plate 41 and the second operation plate 42, stretches and enlarges the drain pipe 31, loosens the first operation plate 41 and the second operation plate 42, enables the water to flow into the drain pipe 31, screws the pot bottom 22, and the water flows between the pot bottom 22 and the pot body 21 and flows out of the planting box.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a mould proof root irrigation system, includes drip pipe (1), installs nozzle (11) on drip pipe (1) to and place planting basin (2) below nozzle (11), its characterized in that: the water draining component (3) can be inserted into the planting pot (2), the water draining component (3) comprises a water draining pipe (31), and third water draining holes (311) are formed in the two symmetrical side peripheral walls of the water draining pipe (31);

one end of the drain pipe (31) is open, the other end of the drain pipe (31) is provided with a bottom plate (32) matched with the drain pipe (31), the drain pipe (31) and the bottom plate (32) are telescopic pipes, the straight line of the telescopic direction of the drain pipe (31) is perpendicular to the axis of the drain pipe (31), an operation assembly (4) is arranged in the drain pipe (31), and the operation assembly (4) comprises a first operation plate (41) and a second operation plate (42) which are arranged oppositely.

2. The mildewproof root irrigation system of claim 1, wherein: a plurality of fourth drain holes (321) are formed in the bottom plate (32).

3. Plant basin (2) including the basin body (21) and with basin bottom (22) of the basin body (21) threaded connection, seted up a plurality of first wash ports (211) at the bottom interval of the basin body (21), seted up a plurality of second wash ports (221) at the bottom interval of the basin bottom (22), first wash port (211) are seted up with second wash port (221) are crisscross.

4. The mildewproof root irrigation system of claim 2, wherein: a fixed frame (411) is arranged at the bottom of the first operating plate (41), a blocking plate (421) matched with the fixed frame (411) is arranged at the bottom of the second operating plate (42), a spring (43) is arranged between the fixed frame (411) and the blocking plate (421), one end of the spring (43) is connected with the fixed frame (411), and the other end of the spring is connected with the blocking plate (421).

5. The mildewproof root irrigation system of claim 3, wherein: a first pulling plate (412) is integrally formed at the top end of the first operating plate (41), and a second pulling plate (422) is integrally formed at the top end of the second operating plate (42);

a first rotating plate (312) and a second rotating plate (313) which are respectively connected with the first pulling plate (412) and the second pulling plate (422) are symmetrically and rotatably connected with the two sides of one end of the water discharging pipe (31) far away from the bottom plate (32).

6. The mildewproof root irrigation system of claim 4, wherein: the first pulling plate (412) and the second pulling plate (422) are obliquely arranged from bottom to top in a direction away from the inside of the drain pipe (31).

7. The mildewproof root irrigation system of claim 1, wherein: a drain hopper (33) is arranged at the lower part of the bottom plate (32), the large port of the drain hopper (33) is communicated with the bottom plate (32), and the small port of the drain hopper (33) deviates from the bottom plate (32).

8. The mildewproof root irrigation system of claim 5, wherein: through holes are formed in the surfaces of the first pulling plate (412) and the second pulling plate (422), through holes are formed in the surfaces of the first rotating plate (312) and the second rotating plate (313), and bolts are adopted as connecting pieces.

9. The mildewproof root irrigation system of claim 1, wherein: the inner wall of the drain pipe (31) is provided with non-woven fabrics matched with the inner wall of the drain pipe (31).

10. The mildewproof root irrigation system of claim 1, wherein: the outer wall of the pot body (21) is provided with a hook (212).