A gene detection sample storage device with classifiable limiting

By designing a gene detection sample storage device with categorizable and restrictive positioning, the device utilizes the combination of a placement rack and a limiting plate to achieve categorized positioning and centralized retrieval of sample tubes. Furthermore, through the shock absorption mechanism of the sliding cylinder and the outer cylinder, the device solves the problem of synchronous retrieval and stable storage of sample tubes in traditional devices, thereby improving the device's efficiency and stability.

CN224324337UActive Publication Date: 2026-06-05JILIN UNIVERSITY

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JILIN UNIVERSITY
Filing Date
2025-06-17
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Traditional gene testing sample storage devices have difficulty in simultaneously and in batches retrieving similar sample tubes, and also have difficulty in ensuring stable and shock-resistant storage of the tubes.

Method used

A gene detection sample storage device with classifiable and limited positioning was designed. By using a placement rack and a limiting plate together, the sample tubes can be classified, limited, and centrally retrieved. The combination of a sliding cylinder and an outer cylinder is used for shock absorption, and the electromagnetic damping of the test tubes is achieved through a magnetic ring and a coil.

Benefits of technology

It enables convenient sorting and retrieval of sample tubes and stable shock-absorbing storage, improving the efficiency of the device and the stability of sample storage.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to gene detection sample storage technical field, and disclose a kind of gene detection sample with storage device of classifiable limit, including placing frame, the top of placing frame is rotatably connected with cover plate, the inner wall of placing frame is slidably connected with placing rack, the top of placing rack is fixedly equipped with support rod, the top of support rod is fixedly equipped with slide cylinder, the inner wall of slide cylinder is slidably sleeved with inner cylinder, the top of inner cylinder is fixedly equipped with outer cylinder. Through the cooperation of placing rack and limiting plate, the limiting plate is rotated by pull rod, so that the outer edge of the limiting plate is rotated in the inner wall of the limiting groove, until the outer edge of the limiting plate is overlapped with the inner wall of the second sliding groove, then the cover plate is rotated, and the placing rack is moved away from the placing frame, and then the sample test tube placed in the same placing rack is conveniently assisted to be classified and taken out, and when the outer edge of the limiting plate is connected with the inner wall of the limiting groove, the placing rack is stably positioned.
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Description

Technical Field

[0001] This utility model relates to the field of gene detection sample storage technology, specifically a storage device for gene detection samples that can be classified and positioned. Background Technology

[0002] Genetic testing is a detection technology that examines genes and DNA sequences through samples such as blood and body fluids. In order to assist in the classification and storage of genetic testing samples, a storage device for genetic testing samples that can be classified and stored is needed.

[0003] Traditional gene testing sample storage devices typically place gene testing samples inside the device during use. However, when it is necessary to retrieve sample tubes of the same type of sample tubes together, the device can only assist in retrieving the sample tubes one by one, and it is difficult to assist in the synchronous batch retrieval, thus affecting the efficiency of the device. Furthermore, traditional devices cannot help ensure the stable and shock-resistant storage of sample tubes, thus affecting the stable sample storage of the device. Utility Model Content

[0004] To address the shortcomings of existing technologies, this invention provides a storage device for gene detection samples that can be classified and positioned, thereby solving the problems mentioned in the background section.

[0005] This utility model provides the following technical solution: a storage device for gene detection samples with classifiable and limited location, including a placement frame, a cover plate rotatably connected to the top of the placement frame, a placement rack slidably connected to the inner wall of the placement frame, a support rod fixedly mounted on the top of the placement rack, a slide cylinder fixedly mounted on the top of the support rod, an inner cylinder slidably sleeved on the inner wall of the slide cylinder, an outer cylinder fixedly mounted on the top of the inner cylinder, and the inner wall of the outer cylinder slidably sleeved with the outer edge of the slide cylinder, an auxiliary frame fixedly mounted on the top of the outer cylinder, a sample tube slidably sleeved on the inner wall of the auxiliary frame, a pressure plate slidably connected to the inner wall of the cover plate, a roller movably sleeved on the inner wall of the pressure plate, and the bottom of the roller overlapping the top of the sample tube.

[0006] As a preferred technical solution of this utility model, the side of the placement frame is provided with a sliding groove one, the side of the placement rack is provided with a sliding groove two, the side of the inner wall of the sliding groove two is provided with a limiting groove, and the inner wall of the limiting groove is engaged with a limiting plate.

[0007] As a preferred technical solution of this utility model, the shape and size of the outer edge of the limiting plate are adapted to the shape and size of the inner wall of the first slide groove and the inner wall of the second slide groove, and a pull rod is fixedly mounted on the side of the limiting plate.

[0008] As a preferred embodiment of this utility model, a sliding rod is fixedly sleeved on the inner wall of the sliding cylinder, the outer edge of the sliding rod is slidably sleeved with the inner wall of the inner cylinder, a magnet ring is fixedly mounted on the top of the sliding cylinder, and a coil is fixedly sleeved on the inner wall of the outer cylinder, with the inner wall of the coil slidably sleeved with the outer edge of the magnet ring.

[0009] As a preferred embodiment of this utility model, the cover plate is fixedly connected to a spring, and the end of the spring away from the cover plate is fixedly connected to the top of the pressure plate.

[0010] As a preferred embodiment of this utility model, the number of the placement racks is five, and the inner walls of the five placement racks are all fixedly fitted with rubber pads. The top of the rubber pads overlaps with the bottom of the sample tubes, and the connection structure of the sides of the five placement racks is completely identical.

[0011] Compared with the prior art, the present invention has the following beneficial effects:

[0012] 1. This gene detection sample storage device with classifiable and limited positioning uses a placement rack and a limiting plate in conjunction. A pull rod drives the limiting plate to rotate, thereby assisting the outer edge of the limiting plate to rotate within the inner wall of the limiting groove until the outer edge of the limiting plate overlaps with the inner wall of the second sliding groove. Then, the cover plate is rotated, and the placement rack is moved away from the placement frame, which facilitates the centralized removal of sample tubes that are classified and placed on the same placement rack. When the outer edge of the limiting plate is locked and limited by the inner wall of the limiting groove, the placement rack is stably limited.

[0013] 2. This gene detection sample storage device with classifiable positioning utilizes the cooperation of a sliding cylinder and an outer cylinder. When the placement frame is affected by the external environment, the outer edge of the sliding cylinder slides within the inner wall of the outer cylinder, and the inner wall of the sliding cylinder slides within the outer edge of the inner cylinder. This causes the sliding rod to slide within the inner wall of the inner cylinder, thereby using the sliding cylinder to drive the magnetic ring to slide within the inner wall of the coil. The coil then generates electromagnetic damping on the magnetic ring, assisting the placement frame in reducing the vibration of the sample tubes. Furthermore, a spring pushes the pressure plate downwards, further assisting in the vibration reduction and positioning of the sample tubes, thus ensuring stable storage of the sample tubes. Attached Figure Description

[0014] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0015] Figure 2 This is a cross-sectional view of the placement rack of this utility model;

[0016] Figure 3 This utility model Figure 2 Enlarged structural diagram at point A in the middle;

[0017] Figure 4 This utility model Figure 2Enlarged structural diagram at point B;

[0018] Figure 5 This is a schematic diagram of the cover plate structure of this utility model;

[0019] Figure 6 This is a schematic diagram of the tie rod structure of this utility model;

[0020] Figure 7 This is a cross-sectional view of the limiting plate of this utility model.

[0021] In the diagram: 1. Placement frame; 2. Cover plate; 3. Placement rack; 4. Support rod; 5. Slide cylinder; 6. Inner cylinder; 7. Auxiliary rack; 8. Sample tube; 9. Pressure plate; 10. Roller; 11. Slide groove one; 12. Slide groove two; 13. Limiting groove; 14. Limiting plate; 15. Pull rod; 16. Spring; 17. Slide rod; 18. Outer cylinder; 19. Coil; 20. Magnet ring; 21. Rubber pad. Detailed Implementation

[0022] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0023] Please see Figures 1-7 A storage device for gene detection samples with classifiable and limited location includes a placement frame 1, a cover plate 2 rotatably connected to the top of the placement frame 1, a placement rack 3 slidably connected to the inner wall of the placement frame 1, a support rod 4 fixedly mounted on the top of the placement rack 3, a slide cylinder 5 fixedly mounted on the top of the support rod 4, an inner cylinder 6 slidably sleeved on the inner wall of the slide cylinder 5, an outer cylinder 18 fixedly mounted on the top of the inner cylinder 6, and the inner wall of the outer cylinder 18 slidably sleeved with the outer edge of the slide cylinder 5, an auxiliary frame 7 fixedly mounted on the top of the outer cylinder 18, a sample tube 8 slidably sleeved on the inner wall of the auxiliary frame 7, and the inner wall of the cover plate 2 slidably connected to... There is a pressure plate 9, and a roller 10 is movably sleeved on the inner wall of the pressure plate 9. The bottom of the roller 10 overlaps with the top of the sample tube 8. Through the cooperation of the placement frame 3 and the auxiliary frame 7, the inner wall of the slide cylinder 5 and the outer edge of the inner cylinder 6 are used to limit the sliding, and the outer edge of the slide cylinder 5 is driven to slide within the inner wall of the outer cylinder 18. This ensures that the auxiliary frame 7 drives the sample tube 8 to slide within the limit. Through the cooperation of the pressure plate 9 and the roller 10, the side of the pressure plate 9 slides within the inner wall of the cover plate 2. This allows the pressure plate 9 to drive the roller 10 to perform auxiliary limiting, thereby ensuring that the placement frame 3 is shock-absorbing and limited.

[0024] In a preferred embodiment, a sliding groove 11 is provided on the side of the placement frame 1, and a sliding groove 12 is provided on the side of the placement rack 3. A limiting groove 13 is provided on the side of the inner wall of the sliding groove 12. A limiting plate 14 is engaged with the inner wall of the limiting groove 13. By using the cooperation between the limiting groove 13 and the limiting plate 14, the limiting plate 14 is rotated in the inner wall of the limiting groove 13, and the outer edge of the limiting plate 14 engages with the inner wall of the limiting groove 13, thereby helping the placement rack 3 to be stably limited to the inner wall of the placement frame 1. Furthermore, by rotating the limiting plate 14 in the opposite direction, the outer edge of the limiting plate 14 engages with the inner wall of the sliding groove 12, thereby facilitating the disassembly of the placement rack 3 in a direction away from the placement frame 1.

[0025] In a preferred embodiment, the shape and size of the outer edge of the limiting plate 14 are adapted to the shape and size of the inner wall of the first slide 11 and the inner wall of the second slide 12. A pull rod 15 is fixedly mounted on the side of the limiting plate 14. Through the cooperation of the limiting plate 14 and the pull rod 15, the pull rod 15 drives the limiting plate 14 to rotate, thereby assisting the outer edge of the limiting plate 14 to be conveniently adjusted in position on the inner wall of the limiting groove 13. Furthermore, by moving the outer edge of the limiting plate 14 along the inner wall of the first slide 11 and the inner wall of the second slide 12, the placement frame 3 can be moved conveniently.

[0026] In a preferred embodiment, a slide rod 17 is fixedly sleeved on the inner wall of the slide cylinder 5, and the outer edge of the slide rod 17 is slidably sleeved with the inner wall of the inner cylinder 6. A magnet ring 20 is fixedly mounted on the top of the slide cylinder 5, and a coil 19 is fixedly sleeved on the inner wall of the outer cylinder 18, with the inner wall of the coil 19 slidably sleeved with the outer edge of the magnet ring 20. Through the cooperation of the slide rod 17 and the inner cylinder 6, the outer edge of the slide rod 17 slides within the inner wall of the inner cylinder 6, and the slide cylinder 5 slides within the outer edge of the inner cylinder 6. The slide cylinder 5 then drives the magnet ring 20 to move, and the outer edge of the magnet ring 20 slides within the inner wall of the coil 19. Thus, the coil 19 generates electromagnetic damping on the magnet ring 20, assisting the slide cylinder 5 in reducing vibration.

[0027] In a preferred embodiment, a spring 16 is fixedly connected to the cover plate 2, and the end of the spring 16 away from the cover plate 2 is fixedly connected to the top of the pressure plate 9. The spring 16 pushes the pressure plate 9 to move in the inner wall of the cover plate 2, thereby ensuring that the outer edge of the roller 10 driven by the pressure plate 9 is stably overlapped and limited with the top of the sample tube 8.

[0028] In a preferred embodiment, there are five placement racks 3, and the inner walls of the five placement racks 3 are all fixedly fitted with rubber pads 21. The top of the rubber pads 21 overlaps with the bottom of the sample tubes 8. The connection structure on the sides of the five placement racks 3 is completely identical. By adding the five placement racks 3, the five placement racks 3 are used to assist in the stable storage of five groups of sample tubes 8, thereby ensuring that the sample tubes 8 are classified and stored.

[0029] Working principle: When the device is in use, rotate the cover plate 2, then rotate the pull rod 15. The pull rod 15 drives the outer edge of the limiting plate 14 to rotate on the inner wall of the limiting groove 13. Then, the placement rack 3 moves away from the placement frame 1, thus assisting the limiting plate 14 to separate from the placement rack 3 along the inner walls of the second slide groove 12 and the first slide groove 11. This facilitates the sorting and removal of the sample tubes 8. Furthermore, the side of the auxiliary placement rack 3 overlaps with the side of the inner wall of the placement frame 1, and the outer edge of the limiting plate 14 passes through the inner walls of the first slide groove 11 and the second slide groove 12. The inner wall of the 12 reaches the inner wall of the limiting groove 13, and the pull rod 15 is rotated, thereby assisting the outer edge of the limiting plate 14 to engage with the inner wall of the limiting groove 13. When the placement frame 1 is vibrated, the outer edge of the slide cylinder 5 slides in the inner wall of the outer cylinder 18, and then the outer edge of the magnet ring 20 slides in the inner wall of the coil 19, thereby using the coil 19 to generate electromagnetic damping on the magnet ring 20, and using the spring 16 to push the pressure plate 9 down in the inner wall of the cover plate 2, and the outer edge of the auxiliary roller 10 overlaps with the top of the sample tube 8, thereby further ensuring the stability and shock absorption of the sample tube 8.

[0030] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A storage device for gene detection samples with classifiable location limitation, comprising a placement frame (1), characterized in that: The top of the placement frame (1) is rotatably connected to a cover plate (2), the inner wall of the placement frame (1) is slidably connected to a placement rack (3), the top of the placement rack (3) is fixedly fitted with a support rod (4), the top of the support rod (4) is fixedly fitted with a slide cylinder (5), the inner wall of the slide cylinder (5) is slidably fitted with an inner cylinder (6), the top of the inner cylinder (6) is fixedly fitted with an outer cylinder (18), and the inner wall of the outer cylinder (18) is slidably fitted with the outer edge of the slide cylinder (5). The top of the outer cylinder (18) is fixedly fitted with an auxiliary frame (7), the inner wall of the auxiliary frame (7) is slidably fitted with a sample tube (8), the inner wall of the cover plate (2) is slidably connected to a pressure plate (9), the inner wall of the pressure plate (9) is movably fitted with a roller (10), and the bottom of the roller (10) overlaps with the top of the sample tube (8).

2. The storage device for a classifiable and limited gene detection sample according to claim 1, characterized in that: The side of the placement frame (1) is provided with a sliding groove (11), the side of the placement rack (3) is provided with a sliding groove (12), the side of the inner wall of the sliding groove (12) is provided with a limiting groove (13), and the inner wall of the limiting groove (13) is engaged with a limiting plate (14).

3. The storage device for a classifiable and limited gene detection sample according to claim 2, characterized in that: The shape and size of the outer edge of the limiting plate (14) are adapted to the shape and size of the inner wall of the first slide (11) and the inner wall of the second slide (12). A pull rod (15) is fixedly mounted on the side of the limiting plate (14).

4. The storage device for a classifiable and limited gene detection sample according to claim 1, characterized in that: The inner wall of the slide cylinder (5) is fixedly fitted with a slide rod (17), the outer edge of the slide rod (17) is slidably fitted with the inner wall of the inner cylinder (6), the top of the slide cylinder (5) is fixedly fitted with a magnet ring (20), the inner wall of the outer cylinder (18) is fixedly fitted with a coil (19), and the inner wall of the coil (19) is slidably fitted with the outer edge of the magnet ring (20).

5. The storage device for a classifiable and limited gene detection sample according to claim 1, characterized in that: The cover plate (2) is fixedly connected to a spring (16), and the end of the spring (16) away from the cover plate (2) is fixedly connected to the top of the pressure plate (9).

6. The storage device for a classifiable and limited gene detection sample according to claim 1, characterized in that: The number of the placement racks (3) is five, and the inner walls of the five placement racks (3) are all fixedly fitted with rubber pads (21). The top of the rubber pads (21) overlaps with the bottom of the sample tube (8), and the connection structure of the sides of the five placement racks (3) is completely identical.