Aquatic fry incubator

By adopting an end handle A and end handle B structure in the aquatic seedling incubation box, combined with positioning plates and spring positioning, the problem of inconvenient cleaning of the incubation tank is solved, and convenient cleaning and stable connection of the seedling tank are achieved.

CN224320065UActive Publication Date: 2026-06-05HAINAN JINLONG AQUATIC SEEDLING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HAINAN JINLONG AQUATIC SEEDLING CO LTD
Filing Date
2025-05-20
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

The existing incubators are difficult to clean because the incubation tanks are inconvenient to clean and the water is not easy to pour out.

Method used

Design an aquatic seedling incubation box with end handle A and end handle B structure. Seedling trough A and seedling trough B can be separated. Stable positioning is achieved by combining a positioning plate, top plate and spring. The accurate insertion position is ensured by limit blocks, and cleaning is convenient.

Benefits of technology

It enables convenient cleaning of the seedling trays, has a simple structure, and allows for quick and stable connection, solving the problem of inconvenient cleaning of the incubation trays inside the incubation box.

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Abstract

The utility model relates to an aquatic fry incubator, aim at solving the technical problem of inconveniently cleaning the incubation tank in the incubator and inconveniently pouring water at present, including the hatchery box body, the box cover and the fry releasing structure, the box cover rotation is connected in the hatchery box body flip cover department, the fry releasing structure is arranged in the hatchery box body fry -rearing area, the fry releasing structure includes end handle A, end handle B, hatchery groove A and hatchery groove B, end handle A is worn in one end hole in the hatchery box body top, end handle B is worn in the other end hole in the hatchery box body top, a plurality of hatchery groove A is sequentially arranged in the end handle A inner end, a plurality of hatchery groove B is sequentially arranged in the end handle B inner end, a plurality of hatchery groove A and a plurality of hatchery groove B staggered insertion, the utility model has the hatchery groove A and hatchery groove B combination in the hatchery box body and hatchery groove A and hatchery groove B can be separated and drawn out, and the advantage that conveniently cleaning is carried out outside.
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Description

Technical Field

[0001] This utility model relates to the field of aquaculture technology, and in particular to an aquatic seedling incubation box. Background Technology

[0002] Aquaculture is a general term for animals or algae produced in oceans, rivers, and lakes, and also encompasses related services and processing industries. Aquaculture includes fish farming, in which fish fry are incubated in hatcheries.

[0003] The incubation tank inside the incubator is usually a single unit, which makes cleaning the incubation tank inside the incubator inconvenient, as the water is difficult to pour out.

[0004] In view of this, we propose an aquatic seedling incubation box. Utility Model Content

[0005] The purpose of this utility model is to overcome the shortcomings of the existing technology, adapt to the needs of reality, and provide an aquatic seedling incubation box to solve the technical problems of inconvenience in cleaning the incubation tank and difficulty in emptying the water when cleaning the incubation tank.

[0006] To achieve the purpose of this utility model, the technical solution adopted by this utility model is as follows: design an aquatic seedling incubation box, including a seedling box body, a box cover and a seedling placement structure;

[0007] Seedling box body;

[0008] The lid is rotatably connected to the flip-top of the seedling box body;

[0009] The seedling placement structure is arranged in the seedling area of ​​the seedling box itself;

[0010] The seedling release structure includes end handle A, end handle B, seedling trough A, and seedling trough B;

[0011] End handle A is inserted into one end hole at the top of the seedling box body;

[0012] End handle B is inserted into the hole at the other end of the top of the seedling box body;

[0013] Several seedling troughs A are sequentially arranged inside the end of the handle A;

[0014] Several seedling troughs B are sequentially arranged inside the end of the handle B;

[0015] Among them, several seedling troughs A and several seedling troughs B are interspersed.

[0016] Preferably, both the outer protruding sections of end handle A and end handle B are provided with perforations.

[0017] Preferably, positioning structures are arranged at both ends of the top of the seedling box body;

[0018] The positioning structure includes a positioning plate and a top plate;

[0019] The positioning plate is inserted into the opening at the top side of the seedling box body;

[0020] The bottom of the positioning plate is inserted into the top opening of the end handle A or the end handle B;

[0021] The top plate is fixed to the top of the positioning plate;

[0022] Two springs are symmetrically arranged between the top plate and the top side of the seedling box body.

[0023] Preferably, a handle is fixedly provided on the top side of the top plate.

[0024] Preferably, limiting blocks are fixed on both sides of the outer ends of the end handle A and the end handle B, and the limiting blocks are matched with the side wall of the seedling box body for limiting.

[0025] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0026] 1. This utility model, by setting up end handle A, end handle B, seedling trough A and seedling trough B, has the advantages of seedling trough A and seedling trough B being combined in the seedling box body for seedling cultivation, and seedling trough A and seedling trough B being able to be pulled out separately for convenient external cleaning. It solves the problem that cleaning the incubation trough inside the incubation box is inconvenient and water is difficult to pour out.

[0027] 2. This utility model, by setting a positioning plate, a top plate and a spring, has the advantages of simple structure, quick positioning of the inserted end handle A and end handle B, and stable connection between seedling trough A and seedling trough B.

[0028] 3. This utility model has the advantage of limiting the insertion position of the inserted end handle A and end handle B by setting a limiting block, so that the end handle A and end handle B are accurately located in the insertion position. Attached Figure Description

[0029] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0030] Figure 2 This is a schematic diagram of the disassembled structure of this utility model;

[0031] Figure 3 This is a schematic diagram of the seedling release structure of this utility model;

[0032] Figure 4 This is a schematic diagram of the positioning structure of this utility model;

[0033] In the diagram: 1. Seedling box body; 2. Box lid; 3. Seedling placement structure; 4. Positioning structure;

[0034] 301. End handle A; 302. Seedling trough A; 303. End handle B; 304. Seedling trough B; 305. Limiting block;

[0035] 401. Positioning plate; 402. Top plate; 403. Spring; 404. Handle. Detailed Implementation

[0036] The present invention will be further described below with reference to the accompanying drawings and embodiments:

[0037] Example 1: An aquatic seedling incubation box, see [link to example]. Figures 1 to 4 The system includes a seedling box body 1, a box cover 2, and a seedling placement structure 3. The seedling box body 1 is selected and used by the technical personnel of this profession according to the actual situation. The box cover 2 is rotatably connected to the flip-top of the seedling box body 1. The seedling placement structure 3 is arranged in the seedling area of ​​the seedling box body 1.

[0038] The seedling structure 3 includes an end handle A301, an end handle B303, a seedling trough A302, and a seedling trough B304. The end handle A301 is inserted into one end hole at the top of the seedling box body 1. The end handle B303 is inserted into the other end hole at the top of the seedling box body 1. Several seedling troughs A302 are sequentially arranged inside the end handle A301. Several seedling troughs B304 are sequentially arranged inside the end handle B303. The seedling troughs A302 and B304 are interleaved.

[0039] This utility model, by setting up end handle A301, end handle B303, seedling trough A302 and seedling trough B304, has the advantages of seedling trough A302 and seedling trough B304 being combined inside the seedling box body 1 for seedling cultivation, and seedling trough A302 and seedling trough B304 being able to be pulled out separately for convenient external cleaning. It solves the problem that cleaning the incubation trough inside the incubation box is inconvenient and water is difficult to pour out.

[0040] Specifically, both the outer protruding sections of the handles A301 and B303 are provided with perforations, making it more convenient to pull by passing fingers through the perforations.

[0041] Furthermore, positioning structures 4 are respectively arranged at both ends of the top of the seedling box body 1;

[0042] The positioning structure 4 includes a positioning plate 401 and a top plate 402. The positioning plate 401 is inserted into the opening at the top side of the seedling box body 1. The bottom of the positioning plate 401 is inserted into the opening at the top side of the end handle A301 or the end handle B303. The top plate 402 is fixed to the top of the positioning plate 401. Two springs 403 are symmetrically arranged between the top plate 402 and the top side of the seedling box body 1. The two ends of the springs 403 are fixedly connected to the top plate 402 and the top side of the seedling box body 1, respectively. The elastic coefficient of the springs 403 shall be selected and used by the technical personnel of this profession according to the actual situation.

[0043] This utility model, by setting a positioning plate 401, a top plate 402 and a spring 403, has the advantages of simple structure, quick positioning of the inserted end handle A301 and end handle B303, and stable connection of seedling trough A302 and seedling trough B304.

[0044] Furthermore, a handle 404 is fixedly provided on the top side of the top plate 402, which makes it easy to pull the top plate 402 by holding the handle 404.

[0045] It is worth noting that limiting blocks 305 are fixed on both sides of the outer ends of end handles A301 and B303, and the limiting blocks 305 are matched with the side wall of the seedling box body 1.

[0046] This utility model, by setting a limiting block 305, has the advantage of limiting the insertion position of the inserted end handle A301 and end handle B303, so that the end handle A301 and end handle B303 are accurately located in the insertion position.

[0047] Working Principle: Using the device of this invention, seedling troughs A302 and B304 are passed through the holes at both ends of the top of the seedling box body 1 until the end handles A301 and B303 are inserted accordingly. The limiting block 305 contacts the side wall of the seedling box body 1, and several seedling troughs A302 and several seedling troughs B304 are inserted alternately. During the insertion process, the top plate 402 is pulled up by holding the handle 404, the spring 403 is stretched, and the positioning plate 401 is in an upward state. After insertion, the handle 404 is released, and under the action of the spring 403, the positioning plate 401 moves down, and the bottom of the positioning plate 401 is inserted into the top opening of the end handle A301 or the end handle B303, so that seedlings can be cultivated in the seedling troughs A302 and B304. During cleaning, pull up handle 404, and the bottom of positioning plate 401 will leave the top opening of end handle A301 or end handle B303. Pull out end handle A301 and end handle B303 respectively, and take out seedling trough A302 and seedling trough B304 for external cleaning.

[0048] The embodiments disclosed herein are preferred embodiments, but are not limited thereto. Those skilled in the art can readily grasp the spirit of this utility model based on the above embodiments and make different extensions and variations. However, as long as they do not depart from the spirit of this utility model, they are all within the protection scope of this utility model.

Claims

1. An aquatic seedling incubation box, characterized in that, include: Seedling box body (1); The lid (2) is rotatably connected to the flip-top of the seedling box body (1); The seedling placement structure (3) is arranged in the seedling area of ​​the seedling box body (1); The seedling release structure (3) includes: The end handle A (301) is inserted into one end hole at the top of the seedling box body (1); The end handle B (303) is inserted into the hole at the other end of the top of the seedling box body (1); Several seedling trays A (302) are sequentially arranged inside the end of the end handle A (301); Several seedling trays B (304) are sequentially arranged inside the end of the end handle B (303); The seedling trays A (302) and B (304) are interleaved.

2. The aquatic seedling incubation box as described in claim 1, characterized in that, Both the outer protruding sections of the end handles A (301) and B (303) are provided with perforations.

3. The aquatic seedling incubation box as described in claim 1, characterized in that, The seedling box body (1) has positioning structures (4) arranged at both ends of the top. The positioning structure (4) includes: The positioning plate (401) is inserted into the opening at the top side of the seedling box body (1); The bottom of the positioning plate (401) is inserted into the top opening of the end handle A (301) or the end handle B (303); Top plate (402) is fixed to the top of the positioning plate (401); Two springs (403) are symmetrically arranged between the top plate (402) and the top side of the seedling box body (1).

4. The aquatic seedling incubation box as described in claim 3, characterized in that, A handle (404) is fixedly provided on the top side of the top plate (402).

5. An aquatic seedling incubation box as described in claim 3, characterized in that, Limiting blocks (305) are fixed on both sides of the outer ends of the end handle A (301) and end handle B (303), and the limiting blocks (305) are matched with the side wall of the seedling box body (1).