Plant cultivation drip irrigation device

By designing the coordination of fixing and bearing components, the stability problem of drip irrigation structure during seedling transplantation was solved, achieving effective drip irrigation of water and fertilizer, improving plant growth efficiency and saving costs.

CN224460795UActive Publication Date: 2026-07-07JIANGXI LIANZHENG MODERN AGRI TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIANGXI LIANZHENG MODERN AGRI TECH CO LTD
Filing Date
2025-06-13
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing drip irrigation systems are easily affected during seedling transplanting, and water and fertilizer can easily drip onto plant leaves, affecting growth.

Method used

A drip irrigation device for plant cultivation was designed, including a fixing component and a supporting component. The fixing component is inserted into the soil, and the supporting component clamps the water pipe. Through the cooperation of the support end and the connecting arm, the water pipe can be stably positioned and its height can be adjusted.

Benefits of technology

It improves plant growth efficiency, the fasteners can be quickly positioned, the load-bearing components hold the water pipe in place, saves costs, and adapts to the soil turning process.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a drip irrigation device for plant cultivation, including a fixing component and a supporting component. The fixing component consists of symmetrically arranged support ends, connecting arms, and fixed ends, with an elastic area formed between the symmetrically arranged support ends. The connecting arms connect the support ends and the fixed ends, and the fixed ends are inserted into the soil. The supporting component has support holes that mate with the support ends and symmetrically arranged punching holes. This drip irrigation device for plant cultivation, by inserting the fixing component into the soil and then placing the required drip tubes into the punching holes with the support component, can drip-irrigate plants with clean water and fertilizer, thereby improving plant growth efficiency. The fixing component enables rapid positioning, and the supporting component clamps and holds the water pipes in place, while also allowing for reuse, saving investment costs.
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Description

Technical Field

[0001] This utility model relates to drip irrigation technology, and more particularly to a drip irrigation device for plant cultivation. Background Technology

[0002] Plants require watering and fertilization during cultivation, with water and fertilizer being two key components. Current drip irrigation systems place the main pipe directly on the soil, allowing water to drip through holes in the main pipe. However, when seedlings reach a certain height, they need to be transplanted out of the greenhouse, and the soil inside the greenhouse needs to be tilled for the next planting. During this tilling process, the main pipe placed on the soil is easily affected. Conversely, if the main pipe is erected at a certain height and a flexible hose is used for dripping, water and fertilizer will drip onto the plant leaves, hindering plant growth. Utility Model Content

[0003] To address the shortcomings of the existing technology, this utility model proposes a drip irrigation device for plant cultivation.

[0004] The technical solution of this utility model is implemented as follows:

[0005] A drip irrigation device for plant cultivation, comprising:

[0006] The fastener consists of symmetrically arranged support ends, connecting arms, and fixed ends. An elastic area is formed between the symmetrically arranged support ends. The connecting arms connect the support ends and the fixed ends. The fixed ends are inserted into the soil.

[0007] A carrier component that cooperates with a fixing component, the carrier component having a support hole that cooperates with a support end and symmetrically arranged stamping holes.

[0008] In this plant cultivation drip irrigation device of the present invention, the support end is composed of a support section, a blocking section and a first connecting section. The blocking section is placed inside the support hole, and the support section is used to support the load-bearing component.

[0009] In this plant cultivation drip irrigation device of the present invention, the connecting arm is composed of a first connecting part, a second connecting part and a third connecting part. The first connecting part and the second connecting part are connected by a first arc-shaped part, and the second connecting part and the third connecting part are connected by a second arc-shaped part.

[0010] In this plant cultivation drip irrigation device of the present invention, the fixed end and the third connecting part are connected by a twisted part, and the fixed end is provided with a tapered part.

[0011] In this plant cultivation drip irrigation device of the present invention, the support member is composed of a support section and a first inclined section and a second inclined section arranged symmetrically. The support section and the first inclined section are connected by a first arc section, and the first inclined section and the second inclined section are connected by a second arc section. The support hole is located on the support section, and the punching hole is located on the second inclined section and the second arc section. A clamping area is formed between the first arc section and the first arc section.

[0012] In this plant cultivation drip irrigation device of the present invention, the punching hole is provided with a pressure-applying section, and a clamping space is formed between the pressure-applying section and the first arc-shaped section.

[0013] The plant cultivation drip irrigation device of this utility model has the following beneficial effects: The device is inserted into the soil via a fixing component, and then, with the support component, the required drip tube is placed in the pressurized hole. This allows for drip irrigation of clean water and fertilizer to the plants, thereby improving plant growth efficiency. The fixing component enables rapid positioning, and the support component clamps the water pipe, maintaining its position. Furthermore, the device can be reused, saving on investment costs. Attached Figure Description

[0014] Figure 1 This is a schematic diagram of the plant cultivation drip irrigation device of this utility model;

[0015] Figure 2 for Figure 1 The main view;

[0016] Figure 3 for Figure 1 The right view;

[0017] Figure 4 for Figure 1 A schematic diagram of the fastener structure in the diagram;

[0018] Figure 5 for Figure 1 A schematic diagram of the load-bearing structure. Detailed Implementation

[0019] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention.

[0020] like Figures 1 to 5 As shown, this utility model of a plant cultivation drip irrigation device includes a fixing member 1 and a supporting member 2. The supporting member 2 is mounted on the fixing member 1, which is used to hold the position of the hose 3 and is inserted into the soil. Two hoses 3 can be inserted into the fixing member 2, one for water and fertilizer and the other for water.

[0021] The fastener 1 consists of a symmetrically arranged support end 4, a connecting arm 5, and a fixed end 6. An elastic area 7 is formed between the symmetrically arranged support ends 4. The connecting arm 5 connects the support end 4 and the fixed end 6. The fixed end 6 is inserted into the soil.

[0022] The support end 4 consists of a support section 8, a blocking section 9, and a first connecting section 10. The blocking section 9 is placed inside the support hole 11, and the support section 8 is used to support the carrier 2. Pressing the connection between the support section 8 and the blocking section 9 can compress the elastic area 7, thereby placing the support end 4 inside the support hole 11, so that the support end 4 supports the carrier 2.

[0023] The connecting arm 5 consists of a first connecting part 12, a second connecting part 13, and a third connecting part 14. The first connecting part 12 and the second connecting part 13 are connected by a first arc-shaped part 15, and the second connecting part 13 and the third connecting part 14 are connected by a second arc-shaped part 16. The first connecting part 12 and the third connecting part 14 are both vertically arranged, while the second connecting part 13 is inclined, so that there is a certain distance between the first connecting part 12 and the third connecting part 14. This keeps the first connecting part 12 close to the plant and the third connecting part 14 away from the plant, preventing the lower conical part 17 from affecting the plant's roots when inserted into the soil. The lower end of the second connecting part 13 forms a clearance area 30.

[0024] The fixed end 6 is connected to the third connecting part 14 by a twisting part 18, and the fixed end 6 is provided with a tapered part 17. There is an elastic space 19 between the fixed ends 6. When the fixed end 6 is inserted into the soil, the two fixed ends 6 are pried apart to increase the width of the elastic space 19. Then it is inserted into the soil, so that when the fixed end 6 is inserted into the soil, the soil in the elastic space 19 can be clamped by the force of the pried fixed end 6, thereby improving the stability of the fixing member 1.

[0025] The carrier 2 cooperates with the fixing part 1. The carrier 2 is provided with a support hole 11 that cooperates with the support end 4 and symmetrically arranged stamping holes 20.

[0026] The support member 2 is composed of a support section 21 and a first inclined section 22 and a second inclined section 23 arranged symmetrically. The support section 21 and the first inclined section 22 are connected by a first arc-shaped section 24, and the first inclined section 22 and the second inclined section 23 are connected by a second arc-shaped section 25. The support hole 11 is located on the support section 21, and the stamping hole 20 is located on the second inclined section 23 and the second arc-shaped section 25. A clamping area 27 is formed between the first arc-shaped sections 24 and the second arc-shaped section 25.

[0027] The punching hole 20 is provided with a pressure section 26, and a clamping space 29 is formed between the pressure section 26 and the first arc-shaped section 24.

[0028] When the fastener 1 is installed on the carrier 2, the carrier 2 is placed on the support section 8. The elastic area 7 is compressed by the guidance of the support section 8, and then the support hole 11 passes over the connection between the support end 4 and the blocking section 9, so that the first inclined section 22 is placed on the support section 8, thereby restricting the position of the carrier 2 by the support hole 11 and the first inclined section 22.

[0029] When the hose 3 led out from the main pipe 28 is inserted into the punching hole 20, the hose 3 is clamped in the clamping space 29 by the clamping of the pressure section 26 in conjunction with the clamping of the first arc section 24, so that the height of the hose 3 can be adjusted according to different soil piles.

[0030] Its main pipe 28 is connected by multiple flexible hoses 3. The main pipe 28 can be suspended in the middle of the greenhouse, which facilitates soil turning. The suspension structure of the main pipe 28 can adopt existing technology structures, which will not be described in detail here.

[0031] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.

Claims

1. A drip irrigation device for plant cultivation, characterized in that, include: The fastener consists of symmetrically arranged support ends, connecting arms, and fixed ends. An elastic area is formed between the symmetrically arranged support ends. The connecting arms connect the support ends and the fixed ends. The fixed ends are inserted into the soil. A carrier that cooperates with a fixing member, the carrier having a support hole that cooperates with a support end and symmetrically arranged stamping holes.

2. The plant cultivation drip irrigation device according to claim 1, characterized in that, The support end consists of a support section, a blocking section and a first connecting section. The blocking section is placed inside the support hole, and the support section is used to support the load-bearing component.

3. The plant cultivation drip irrigation device according to claim 1, characterized in that, The connecting arm consists of a first connecting part, a second connecting part, and a third connecting part. The first connecting part and the second connecting part are connected by a first arc-shaped part, and the second connecting part and the third connecting part are connected by a second arc-shaped part.

4. The plant cultivation drip irrigation device according to claim 1, characterized in that, The fixed end and the third connecting part are connected by a twisting part, and the fixed end is provided with a tapered part.

5. The plant cultivation drip irrigation device according to claim 1, characterized in that, The support member consists of a support section and a first inclined section and a second inclined section arranged symmetrically. The support section and the first inclined section are connected by a first arc-shaped section, and the first inclined section and the second inclined section are connected by a second arc-shaped section. The support hole is located on the support section, and the stamping hole is located on the second inclined section and the second arc-shaped section. A clamping area is formed between the first arc-shaped section and the first arc-shaped section.

6. The plant cultivation drip irrigation device according to claim 5, characterized in that, The punching hole is provided with a pressure section, and a clamping space is formed between the pressure section and the first arc-shaped section.