Artificial insemination device for aquatic fry
By designing an artificial insemination device for aquatic seedlings, a support ring and plastic retaining ring are used to achieve rapid positioning and stable placement of the syringe, solving the problem of multiple syringes being messy and providing the advantages of convenient use and disassembly.
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
- 2026-06-09
AI Technical Summary
In existing technologies, multiple syringes are easily misplaced when placed, lacking effective positioning and management methods.
Design an artificial insemination device for aquatic seedlings, which adopts a base plate, a placement plate, a support structure and a clamping structure. The needle tube is quickly positioned by a support ring and a plastic retaining ring. The placement plate is stabilized and can be detached by combining a U-shaped strip and abutment spring.
It enables quick and convenient positioning and stable placement of syringes, solving the problem of clutter when placing multiple syringes, and the placement plate can be quickly disassembled and used.
Smart Images

Figure CN224330151U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of aquaculture technology, and in particular to an artificial insemination device for aquatic seedlings. Background Technology
[0002] Aquaculture refers to the cultivation and reproduction of plants and animals. Aquaculture includes livestock farming, poultry farming, aquaculture, and specialized aquaculture. Aquaculture is a general term for animals or algae produced in oceans, rivers, and lakes, and also encompasses related services and processing industries.
[0003] Aquaculture includes fish farming. In fish farming, artificial insemination is used to raise fry. The typical method of artificial insemination involves injecting liquid from a syringe into the fish, which can be quite messy when multiple syringes are placed together.
[0004] In view of this, we propose an artificial insemination device for aquatic seedlings. Utility Model Content
[0005] The purpose of this invention is to overcome the shortcomings of the existing technology, adapt to practical needs, and provide an artificial insemination device for aquatic seedlings to solve the technical problem of the current messy placement of multiple syringes.
[0006] To achieve the purpose of this utility model, the technical solution adopted by this utility model is as follows: design an artificial insemination device for aquatic seedlings, including a base plate, a placement plate and a needle tube;
[0007] Base plate;
[0008] Mounting plates are fixed on both sides of the base plate, and mounting holes are provided on the mounting plates;
[0009] The placement plate is arranged on the top side of the base plate;
[0010] Several syringes are arranged sequentially on the placement plate;
[0011] The needle is positioned on the placement plate by a support structure and a clamping structure;
[0012] The support structure includes a base block A and a support ring;
[0013] Bottom block A is fixed to the top side of the placement plate;
[0014] The support ring is fixed to the top of the bottom block A;
[0015] The support ring is engaged with the needle tube for embedding support.
[0016] The clamping structure includes a base block B and a plastic retaining ring;
[0017] Bottom block B is fixed to the top side of the placement plate;
[0018] The plastic retaining ring is fixed to the top of the bottom block B;
[0019] The plastic retaining ring engages with the needle tube in a snap-fit configuration.
[0020] Preferably, the top opening of the support ring has extension sections at both ends, and the inner side of the outer end of the extension section is formed as a slope.
[0021] Preferably, the two ends of the top opening of the plastic retaining ring are respectively set as arc-shaped surfaces.
[0022] Preferably, both ends of the placement plate are positioned and engaged with the top ends of the base plate via positioning structures;
[0023] The positioning structure includes a U-shaped strip;
[0024] The U-shaped strip is fixed to the top side of the base plate;
[0025] The end of the placement plate is engaged with the U-shaped strip.
[0026] Preferably, an abutment spring is arranged on the inner side of the longitudinal section of the U-shaped strip;
[0027] The abutting spring is designed with an arc shape, and the arched end of the abutting spring abuts against the abutting groove opened at the end of the placement plate.
[0028] Compared with the prior art, the beneficial effects of this utility model are as follows:
[0029] 1. This utility model, by setting up a base block A, a support ring, a base block B, and a plastic retaining ring, has the advantages of quickly and conveniently positioning the syringe on the placement plate, making it easy to use while maintaining the stability of the placement plate, thus solving the problem of messy placement when multiple syringes are placed.
[0030] 2. This utility model has the advantages of detachable placement plate and quick positioning of placement plate after placement by setting U-shaped strip, abutment spring and abutment groove. Attached Figure Description
[0031] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0032] Figure 2 This is a schematic diagram of the support structure of this utility model;
[0033] Figure 3 This is a schematic diagram of the clamping structure of this utility model;
[0034] Figure 4 This is a schematic diagram of the positioning structure connection of this utility model;
[0035] In the diagram: 1. Base plate; 2. Placement plate; 3. Positioning structure; 4. Mounting plate; 5. Support structure; 6. Clamping structure; 7. Needle tube;
[0036] 201. Abutment groove;
[0037] 301. U-shaped strip; 302. Abutment spring;
[0038] 501. Bottom block A; 502. Support ring;
[0039] 5021, inclined plane;
[0040] 601. Bottom block B; 602. Plastic retaining ring;
[0041] 6021. Curved surface. Detailed Implementation
[0042] The present invention will be further described below with reference to the accompanying drawings and embodiments:
[0043] Example 1: An artificial insemination device for aquatic seedlings, see [link to example]. Figures 1 to 4 It includes a base plate 1, a placement plate 2, and a needle tube 7; mounting plates 4 are fixed on both sides of the base plate 1, and mounting holes are opened on the mounting plates 4, through which bolts pass for fixing; the placement plate 2 is arranged on the top side of the base plate 1; a number of needle tubes 7 are arranged on the placement plate 2 in sequence; wherein, the needle tubes 7 are positioned on the placement plate 2 by a support structure 5 and a clamping structure 6.
[0044] The support structure 5 includes a base block A501 and a support ring 502; the base block A501 is fixed to the top side of the placement plate 2; the support ring 502 is fixed to the top of the base block A501; wherein the support ring 502 is embedded and supported with the needle tube 7; the clamping structure 6 includes a base block B601 and a plastic retaining ring 602; the base block B601 is fixed to the top side of the placement plate 2; the plastic retaining ring 602 is fixed to the top of the base block B601; wherein the plastic retaining ring 602 is embedded and engaged with the needle tube 7.
[0045] This utility model, by setting up a base block A501, a support ring 502, a base block B601, and a plastic retaining ring 602, has the advantages of quickly and conveniently positioning the syringe 7 on the placement plate 2, making it easy to use while maintaining the stability of the placement plate 2, and solving the problem of messy placement when multiple syringes 7 are placed.
[0046] Specifically, the top opening of the support ring 502 has extension sections at both ends, and the inner side of the outer end of the extension section is set as a slope 5021, so that the cylindrical part of the needle tube 7 can be easily inserted into the support ring 502.
[0047] Furthermore, the top opening of the plastic retaining ring 602 is provided with arc-shaped surfaces 6021 at both ends, so that the cylindrical part of the needle tube 7 can be easily inserted into the plastic retaining ring 602.
[0048] Furthermore, the two ends of the placement plate 2 are respectively positioned and engaged with the two ends of the top side of the base plate 1 through the positioning structure 3;
[0049] The positioning structure 3 includes a U-shaped strip 301; the U-shaped strip 301 is fixed to the top side of the base plate 1; wherein, the end of the placement plate 2 is engaged with the U-shaped strip 301. An abutment spring 302 is arranged on the inner side of the longitudinal section of the U-shaped strip 301; wherein, the abutment spring 302 has an arc-shaped structure design, and the arched end of the abutment spring 302 abuts with the abutment groove 201 opened at the end of the placement plate 2.
[0050] This utility model, by setting up a U-shaped strip 301, an abutment spring 302 and an abutment groove 201, has the advantages of detachable placement plate 2 and quick positioning of placement plate 2 after placement.
[0051] Working principle: Using the device of this utility model, the device is fixed to the table surface by bolts through the mounting holes. The loaded needle tube 7 is placed on the placement plate 2. The cylindrical part of the needle tube 7 is inserted into the support ring 502 and the plastic retaining ring 602 to position the needle tube 7. The placement plate 2 is placed on the base plate 1. The end of the placement plate 2 is inserted into the U-shaped strip 301. The arc-shaped abutment spring 302 is squeezed until the bottom side of the placement plate 2 contacts the base plate 1. The arched end of the abutment spring 302 abuts into the abutment groove 201 to position the placement plate 2. The needle tubes 7 are taken out in sequence. The used needle tubes 7 can be inserted and put back.
[0052] 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 artificial insemination device for aquatic seedlings, characterized in that, include: Base plate (1); The base plate (1) is fixedly provided with mounting plates (4) on both sides, and the mounting plates (4) are provided with mounting holes; Placement plate (2) is arranged on the top side of the base plate (1); Several syringes (7) are arranged sequentially on the placement plate (2); The needle (7) is positioned on the placement plate (2) by a support structure (5) and a clamping structure (6); The supporting structure (5) includes: Bottom block A (501) is fixed to the top side of the placement plate (2); A support ring (502) is fixed to the top of the bottom block A (501); The support ring (502) is embedded and supported with the needle tube (7); The clamping structure (6) includes: Bottom block B (601) is fixed to the top side of the placement plate (2); A plastic retaining ring (602) is fixed to the top of the bottom block B (601); The plastic retaining ring (602) is embedded and engaged with the needle tube (7).
2. The artificial insemination device for aquatic seedlings as described in claim 1, characterized in that, The support ring (502) has extension sections at both ends of the top opening, and the inner side of the outer end of the extension section is formed as a slope (5021).
3. The artificial insemination device for aquatic seedlings as described in claim 1, characterized in that, The top opening of the plastic retaining ring (602) is respectively set into arc-shaped surfaces (6021) at both ends.
4. The artificial insemination device for aquatic seedlings as described in claim 1, characterized in that, The two ends of the placement plate (2) are respectively positioned and engaged with the two ends of the top side of the base plate (1) through positioning structures (3); The positioning structure (3) includes: U-shaped strip (301) is fixed to the top side of the base plate (1); The end of the placement plate (2) is engaged with the U-shaped strip (301).
5. The artificial insemination device for aquatic seedlings as described in claim 4, characterized in that, The inner side of the longitudinal section of the U-shaped strip (301) is provided with abutment spring (302); The abutting spring (302) is designed with an arc shape, and the arched end of the abutting spring (302) abuts against the abutting groove (201) opened at the end of the placement plate (2).