A pea seedling root direct irrigation planting trough

By setting drainage openings, sealing sleeves, and clamping sleeves in the pea seedling root irrigation planting trough, the problems of water drainage and transportation difficulties are solved, the structural stability and ease of construction of the planting trough are improved, and the healthy growth and large-scale planting of pea seedlings are promoted.

CN224419628UActive Publication Date: 2026-06-30ZHANGZHOU LUOGUMI AGRICULTURAL TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHANGZHOU LUOGUMI AGRICULTURAL TECHNOLOGY CO LTD
Filing Date
2025-06-25
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

The openings at both ends of the existing pea seedling root direct irrigation planting troughs cannot be sealed independently, making it difficult for irrigation water to circulate completely and for excess water to drain easily, which can easily lead to root rot. The planting troughs are also bulky, making them difficult to transport and build, increasing costs and limiting the expansion of planting scale.

Method used

Design an irrigation planting trough that includes a water trough assembly and a modular panel assembly. The water trough has drainage openings at both ends and is equipped with a water trough opening sealing sleeve and a splicing clamp sleeve. Combined with pads, it achieves sealing and convenient handling, enhancing structural stability and ease of assembly.

Benefits of technology

It enables convenient drainage of excess water from the water tank, preventing root rot, reducing the difficulty of transportation and construction, improving the structural strength and construction stability of the planting trough, and reducing costs.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224419628U_ABST
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Abstract

This utility model relates to the field of pea seedling root irrigation planting technology, and more particularly to a direct root irrigation planting trough for pea seedlings, including a water trough assembly and a combined plate assembly; the combined plate assembly is provided at one end of the water trough assembly; the water trough assembly includes a water trough and a drainage opening; the combined plate assembly includes a water trough opening sealing sleeve, a splicing clamping sleeve, and a pad. This utility model achieves a sealing and reinforcement function for the drainage opening at one end by splicing and sealing the drainage opening of the water trough with the water trough opening sealing sleeve. The structure of the water trough opening sealing sleeve is spliced ​​onto the drainage opening, strengthening the structural strength and improving the structural stability of the water trough. At the same time, the splicing clamping sleeve and the metal strip splicing connection of the drainage opening effectively improve the sealing performance of the water trough port, thereby realizing the unilateral drainage function of the water trough.
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Description

Technical Field

[0001] This utility model relates to the field of pea seedling root irrigation planting technology, and in particular to a pea seedling direct root irrigation planting trough. Background Technology

[0002] Against the backdrop of the booming development of modern high-efficiency agriculture, pea sprouts, as a popular vegetable, have seen continuous innovation in their cultivation techniques. The direct irrigation planting trough technology for pea sprout roots has emerged as a result. This technology aims to provide water and nutrients directly to the roots of pea sprouts through a precise irrigation system, thereby improving the growth efficiency and quality of pea sprouts, reducing water waste, and achieving intensive cultivation.

[0003] However, the current pea seedling root irrigation planting troughs on the market have many problems that urgently need to be solved. First, the openings at both ends of the planting trough cannot be independently sealed. In actual irrigation operations, this makes it difficult for the irrigation water to circulate completely within the planting trough as expected. Excess water cannot be easily and thoroughly drained, which can easily cause water accumulation and lead to diseases such as root rot in pea seedlings, seriously affecting the healthy growth of pea seedlings. Second, the existing planting troughs are generally quite heavy. This not only increases the difficulty of transportation, but also consumes a lot of manpower and time when it is necessary to adjust the planting layout or maintain the planting facilities. It also makes the construction of irrigation racks composed of multiple planting troughs very difficult. During the construction process, more manpower and resources are needed to transport and install the planting troughs, which invisibly increases the construction cost of the irrigation rack and limits the expansion and optimization of the scale of pea seedling planting. Utility Model Content

[0004] To overcome the problems of existing pea seedling root direct irrigation planting troughs, which have openings at both ends that cannot be sealed independently and are heavy and difficult to move, resulting in difficulty in draining irrigation water from the planting troughs and high cost and difficulty in building irrigation racks composed of planting troughs, this utility model provides a pea seedling root direct irrigation planting trough.

[0005] The technical solution is as follows: A pea seedling root direct irrigation planting trough includes a water trough assembly and a combined plate assembly; the combined plate assembly is provided at one end of the water trough assembly; the water trough assembly includes a water trough and a drainage opening; the combined plate assembly includes a water trough opening sealing sleeve, a splicing clamping sleeve, and a pad.

[0006] Furthermore, both ends of the water tank are equipped with drainage openings, which are integrally formed with the water tank.

[0007] Furthermore, a water tank opening sealing sleeve is fitted on the outside of the drainage opening; splicing clamping sleeves are provided on both sides of the water tank opening sealing sleeve, and the splicing clamping sleeves are integrally formed with the water tank opening sealing sleeve, and the splicing clamping sleeves are spliced ​​and sealed with the drainage opening.

[0008] Furthermore, the lower end of the splicing clamping sleeve is provided with pads, and the pads are evenly distributed at the lower end of the water tank opening sealing sleeve, and there are five pads.

[0009] Furthermore, the pad and the water tank opening sealing sleeve are integrally molded.

[0010] The beneficial effects are: the drainage openings at both ends of the water tank allow excess water from irrigation to drain out from either end of the water tank, preventing the roots of pea seedlings from rotting due to lack of oxygen. Furthermore, the simple structure of the water tank itself makes it easy to move, which makes the assembly and connection of the support frame for the water tank more convenient, with low assembly costs and easy handling.

[0011] By using a combination panel assembly, the drainage opening of the sink is sealed with a sealing sleeve, achieving a reinforced sealing function for one end of the drainage opening. The structure of the sealing sleeve is spliced ​​onto the drainage opening, strengthening the structural strength and improving the structural stability of the sink. At the same time, the splicing clamp sleeve and the metal strip splicing connection of the drainage opening effectively improve the sealing performance of the sink's port, thereby realizing the single-sided drainage function of the sink. Combined with pads, the sink's anti-slip performance is improved, and the construction of irrigation racks with multiple sinks is convenient. This enhances the stability of the construction between the pads and the irrigation rack, preventing the sink from shaking. Attached Figure Description

[0012] Figure 1 This is a three-dimensional structural diagram of the overall planting and filling state of this utility model;

[0013] Figure 2 This is a schematic diagram of the overall three-dimensional structure of this utility model;

[0014] Figure 3 This is a three-dimensional structural diagram of the water tank component of this utility model;

[0015] Figure 4 This is a side view of the three-dimensional structure of the combined panel assembly of this utility model;

[0016] Figure 5 This is a schematic diagram of the inner three-dimensional structure of the combined plate assembly of this utility model.

[0017] In the attached drawings, the following are the reference numerals: 1. Water tank assembly; 2. Combined panel assembly; 101. Water tank; 102. Drainage opening; 201. Water tank opening sealing sleeve; 202. Splicing clamping sleeve; 203. Pad block. Detailed Implementation

[0018] The present invention will now be described in detail with reference to the accompanying drawings and specific embodiments.

[0019] Example 1

[0020] like Figures 1-5 As shown, a pea seedling root direct irrigation planting trough includes a water trough assembly 1 and a combined plate assembly 2; the combined plate assembly 2 is provided at one end of the water trough assembly 1; the water trough assembly 1 includes a water trough 101 and a drainage opening 102; the combined plate assembly 2 includes a water trough opening sealing sleeve 201, a splicing clamping sleeve 202, and a pad block 203.

[0021] Both ends of the water tank 101 are provided with drainage openings 102, and the drainage openings 102 are integrally formed with the water tank 101.

[0022] A water tank opening sealing sleeve 201 is fitted on the outside of the drainage opening 102; splicing clamping sleeves 202 are provided on both sides of the water tank opening sealing sleeve 201, and the splicing clamping sleeves 202 and the water tank opening sealing sleeve 201 are integrally formed and connected to the drainage opening 102 in a splicing and sealing manner.

[0023] When using this irrigation planting trough, the drainage openings 102 at both ends of the trough 101 allow excess water from the irrigation inside the trough 101 to drain out from either end, preventing the pea seedlings from rotting due to lack of oxygen. Furthermore, the simple structure of the trough 101 makes it easy to transport, which makes the assembly and connection of the support frame built with the trough 101 more convenient, with low assembly costs and easy transport.

[0024] Example 2

[0025] Based on Example 1, such as Figures 1-5 As shown, a pad 203 is provided at the lower end of the splicing clamping sleeve 202, and the pads 203 are evenly distributed at the lower end of the water tank opening sealing sleeve 201, and there are five pads 203.

[0026] The pad 203 and the water tank opening sealing sleeve 201 are integrally formed.

[0027] Furthermore, by setting up the combined plate assembly 2, the drainage opening 102 of the water tank 101 is spliced ​​and sealed by the water tank opening sealing sleeve 201, thereby achieving the function of sealing and reinforcing the drainage opening 102 at one end. The structure of the water tank opening sealing sleeve 201 is spliced ​​on the drainage opening 102, which strengthens the structural strength of the water tank 101 and improves its structural stability. At the same time, the splicing clamp sleeve 202 and the metal strip splicing connection of the drainage opening 102 effectively improve the port sealing performance of the water tank 101, thereby realizing the single-sided drainage function of the water tank 101. Together with the pad block 203, the anti-slip performance of the water tank 101 and the ease of building the irrigation rack built by multiple sets of water tanks 101 are realized, which improves the building stability between the pad block 203 and the irrigation rack and prevents the water tank 101 from shaking.

Claims

1. A pea seedling root direct irrigation planting trough, comprising a water trough assembly (1), characterized in that: It also includes a combination plate assembly (2); the combination plate assembly (2) is provided at one end of the sink assembly (1); the sink assembly (1) includes a sink (101) and a drain opening (102); the combination plate assembly (2) includes a sink opening sealing sleeve (201), a splicing clamping sleeve (202), and a pad (203).

2. The pea seedling root direct irrigation planting trough according to claim 1, characterized in that: Both ends of the water tank (101) are provided with drainage openings (102), and the drainage openings (102) are integrally formed with the water tank (101).

3. The pea seedling root direct irrigation planting trough according to claim 2, characterized in that: A water tank opening sealing sleeve (201) is fitted on the outside of the drainage opening (102); a splicing clamping sleeve (202) is provided on both sides of the water tank opening sealing sleeve (201), and the splicing clamping sleeve (202) and the water tank opening sealing sleeve (201) are integrally formed and connected to the drainage opening (102) in a splicing and sealing manner.

4. The pea seedling root direct irrigation planting trough according to claim 3, characterized in that: The lower end of the splicing clamp sleeve (202) is provided with a pad (203), and the pads (203) are evenly distributed at the lower end of the water tank opening sealing sleeve (201), and there are five pads (203).

5. A pea seedling root direct irrigation planting trough according to claim 4, characterized in that: The pad (203) and the water tank opening sealing sleeve (201) are integrally formed.