Foldable portable sampling tube storage box

By designing a foldable portable sampling tube storage box, the problem of the existing storage boxes being difficult to move flexibly has been solved, realizing the portability and storage of the storage box, improving sampling efficiency, and reducing sampling costs and space waste.

CN224466360UActive Publication Date: 2026-07-07XIAMEN YUNPENG TECH DEV CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XIAMEN YUNPENG TECH DEV CO LTD
Filing Date
2025-07-25
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing sampling tube storage boxes are mostly fixed designs that cannot be disassembled, making it difficult to move them flexibly to different sampling points. This results in the need to carry multiple storage boxes when sampling in multiple areas, increasing sampling costs, affecting sampling efficiency, and occupying a lot of space after sampling is completed.

Method used

Design a foldable portable sampling tube storage box, including a storage box, a telescopic door, a placement plate, a slider, assembly components, and limiting components. Through the assembly and folding structure, the storage box can be flexibly assembled and disassembled, which facilitates sampling in different areas and improves sampling efficiency.

Benefits of technology

The storage box is portable and easy to store, making it convenient to sample in different areas, reducing sampling costs, improving sampling efficiency, and saving space.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to the field of sampling tube storage, especially a portable folding sampling tube storage box, which comprises a storage box, a telescopic door, a placing plate, a sliding block and the like, the storage box is provided with multiple, the storage boxes are stacked with each other, the upper part of the storage box is provided with the telescopic door, the inner side of the storage box is connected with the placing plate, the lower side of the front and rear parts of the uppermost storage box and the upper side of the front and rear parts of the lowermost storage box are connected with the sliding block. The handle is used to carry the device to the sampling area, then the clamping block is moved, the storage box is moved and unfolded for use, or the supporting plate is removed, the stop block is pulled to move, then the storage box is moved and removed to different positions for use, and after use, the device is assembled and stored, so that the storage box can be assembled and folded for carrying and sampling, the storage box can be moved and unfolded for sampling at one place or the storage box can be disassembled for sampling at the same place in different areas, the storage box is convenient to carry and store, sampling in different areas is convenient, and the sampling efficiency is improved.
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Description

Technical Field

[0001] This utility model relates to the field of sampling tube storage, and in particular to a foldable portable sampling tube storage box. Background Technology

[0002] In numerous fields such as environmental monitoring, healthcare, food safety, and scientific research, sampling is a crucial step in obtaining key data and information. As containers for collecting and preserving samples, the storage and handling methods of sampling tubes directly impact sampling efficiency, sample quality, and the accuracy of subsequent testing and analysis.

[0003] Existing sampling tube storage typically involves placing the sampling tube in a fixed, integrated storage box before carrying it to the sampling area. However, most current storage boxes are fixed designs that cannot be disassembled, making it difficult to move them flexibly to different sampling points. This results in the need to carry multiple storage boxes simultaneously when sampling in multiple areas, which not only increases sampling costs and affects sampling efficiency, but also wastes a lot of space after sampling by storing and tidying up multiple storage boxes.

[0004] Therefore, there is a need to design a foldable portable sampling tube storage box that can be assembled and folded for carrying and sampling in different areas, allowing for sampling in one place or disassembling the storage box to sample in different areas of the same location. This would facilitate carrying and storing the storage box, make sampling in different areas convenient, and improve sampling efficiency. Utility Model Content

[0005] To overcome the shortcomings of current storage boxes, which are mostly fixed and non-detachable, making them difficult to move flexibly to different sampling points and requiring multiple storage boxes to be carried simultaneously when sampling in multiple areas, which not only increases sampling costs and affects sampling efficiency, but also wastes a lot of space after sampling by storing and folding multiple storage boxes, this utility model provides a foldable portable sampling tube storage box that can be assembled and folded for carrying and sampling in different areas. The storage box can be moved and unfolded for sampling in one place or the storage box can be disassembled for sampling in different areas of the same location. This makes it convenient to carry and store the storage box, facilitates sampling in different areas, and improves sampling efficiency.

[0006] The technical solution is as follows: A foldable portable sampling tube storage box includes a storage box, a telescopic door, a placement plate, sliders, an assembly assembly, and a limiting assembly. Multiple storage boxes are provided and stacked on top of each other. Each storage box has a telescopic door on its upper part and a placement plate connected to the inside of each storage box. Sliders are connected to the lower front and rear sides of the uppermost storage box and the upper front and rear sides of the lowermost storage box. The sliders are detachably connected to the middle storage box. The storage box is provided with an assembly assembly assembly for assembling and folding the device. The middle storage box is provided with a limiting assembly for limiting the other two storage boxes.

[0007] In a preferred embodiment of this utility model, multiple placement slots are provided on each placement plate.

[0008] In a preferred embodiment of the present invention, a connecting block is also included, and a connecting block is connected to the upper front part of the telescopic gate.

[0009] In a preferred embodiment of the present invention, a handle is also included, with the uppermost storage box having a handle rotatably connected to the center.

[0010] In a preferred embodiment of the present invention, the assembly component includes a support block, a limiting rod, a support plate, a locking block, and a first spring. The uppermost storage box is connected to the left side of the middle part of the support block, the limiting rod is locked in the middle of the support block, the support plate is locked on the support block, and the support plate is locked with the limiting rod. The lowermost storage box is slidably connected to the left side of the locking block, and the first spring is connected between the locking block and the lowermost storage box.

[0011] In a preferred embodiment of this utility model, the limiting component includes a stop block, a pull rod, and a second spring. The front and rear parts of the central storage box are slidably connected with two upper and lower stops blocks, and each stop block is connected with a pull rod. The pull rods are in contact with the central storage box, and the stop blocks are connected to the central storage box with a second spring.

[0012] Compared with the prior art, the present invention has the following advantages: The present invention allows the device to be carried to the sampling area by means of a handle, and then the card block is pushed to move, which in turn moves the storage box to unfold for use. Alternatively, the support plate can be removed, the stop block is pulled to move, and then the storage box is moved separately to different locations for use. After use, the device can be assembled and stored. Thus, it is possible to assemble and fold the storage box for carrying and sampling while moving and unfolding the storage box to sample in one place or to split the storage box to sample in different areas of the same location. This facilitates carrying and storing the storage box, facilitates sampling in different areas, and improves sampling efficiency. Attached Figure Description

[0013] Figure 1 This is a frontal three-dimensional structural diagram of the present invention.

[0014] Figure 2 This is a three-dimensional structural diagram of the back of this utility model.

[0015] Figure 3 This is a three-dimensional structural diagram of the storage box and other components of this utility model.

[0016] Figure 4 This is an exploded three-dimensional structural diagram of the support block and other components of this utility model.

[0017] Figure 5 This is a three-dimensional cross-sectional view of the first spring and other components of this utility model.

[0018] Figure 6 This is a three-dimensional cross-sectional view of the second spring and other components of this utility model.

[0019] Figure 7 This is a three-dimensional structural diagram of the storage box of this utility model.

[0020] Figure 8 This is a three-dimensional cross-sectional view of the slider and other components of this utility model.

[0021] The components in the attached diagram are labeled as follows: 1. Storage box, 2. Telescopic door, 3. Connecting block, 4. Handle, 5. Support block, 6. Limiting rod, 7. Support plate, 8. Locking block, 9. Stop block, 10. Pull rod, 11. Placement plate, 12. First spring, 13. Second spring, 14. Slider. Detailed Implementation

[0022] First, it should be noted that in different described embodiments, the same components are given the same reference numerals or the same component names. The disclosure contained throughout this specification can be applied semantically to the same components having the same reference numerals or the same component names. The location descriptions selected in the specification, such as upper, lower, lateral, etc., also refer to the directly described and illustrated figures and are semantically applied to the new location when the location changes.

[0023] A foldable portable sampling tube storage box, such as Figures 1-8 As shown, the device includes a storage box 1, a telescopic door 2, a connecting block 3, a handle 4, a placement plate 11, a slider 14, an assembly assembly, and a limiting assembly. Three storage boxes 1 are provided, stacked on top of each other. Each storage box 1 has a telescopic door 2 on its upper part. The connecting block 3 is connected to the upper front of each telescopic door 2 for easy pulling and extending. The handle 4 is rotatably connected to the middle of the uppermost storage box 1 for easy lifting. The inner sides of each storage box 1 are connected to... The device includes a placement plate 11 with multiple placement slots for easy placement of sampling tubes. The uppermost and lower front and rear sides of the storage box 1 and the lowermost and upper front and rear sides of the storage box 1 are connected to sliders 14. The sliders 14 are slidably and detachably connected to the middle storage box 1. The storage box 1 is equipped with an assembly component for assembling, folding and storing the device. The middle storage box 1 is equipped with a limiting component for limiting the other two storage boxes 1.

[0024] like Figure 1 , Figure 4 and Figure 5As shown, the assembly includes a support block 5, a limiting rod 6, a support plate 7, a locking block 8, and a first spring 12. The support block 5 is connected to the left side of the middle of the uppermost storage box 1. The limiting rod 6 is locked in the middle of the support block 5. The support plate 7 is locked on the support block 5. The support plate 7 is locked with the limiting rod 6. The locking block 8 is slidably connected to the left side of the lowermost storage box 1. The first spring 12 is connected between the locking block 8 and the lowermost storage box 1.

[0025] like Figure 2 and Figure 6 As shown, the limiting component includes a stop block 9, a pull rod 10, and a second spring 13. The storage box 1 in the middle is slidably connected to the upper and lower stops 9 at both the front and rear. The pull rod 10 is connected to each stop block 9. The pull rod 10 is in contact with the storage box 1 in the middle. The second spring 13 is connected between each stop block 9 and the storage box 1 in the middle.

[0026] When it is necessary to store or use the sampling tube, this device can be used. The support plate 7 is engaged with the support block 5, and the limiting rod 6 is then inserted into the support block 5 and support plate 7 for fixation. Next, the telescopic gate 2 is pulled open by the connecting block 3, and the sampling tube is placed in the placement slot on the placement plate 11. Then, the telescopic gate 2 is pulled closed, and the storage box 1 is moved and stacked, causing the slider 14 to move and fold the storage box 1, bringing the locking block 8 into contact with the support plate 7. After the locking block 8 moves, it resets. After the first spring 12 is compressed and rebounds, it limits the storage box 1. Then, the handle 4 is turned to open it, and the device is lifted and carried to the sampling area by holding the handle 4. After arriving at the sampling area, the locking block 8 is pushed to move according to the usage requirements. The first spring 12 is compressed, and the storage box 1 is pushed to move and unfold, causing the slider 14 to move. The first spring 12 rebounds, and the locking block 8 moves in the opposite direction to reset. It is supported by the support plate 7. Then, the telescopic door 2 is pulled to open, and the sampling tube is taken out for sampling, or the limiting rod 6 is removed, and then the... The support plate 7 is removed, and then the stop block 9 is moved by the pull rod 10. The second spring 13 is compressed, which in turn pushes the storage box 1 to move, causing the slider 14 to move and disengage from the storage box 1 in the middle, thus allowing the storage box 1 to be removed separately. Then, the pull rod 10 is released, the second spring 13 rebounds, and the stop block 9 moves in the opposite direction to reset. Subsequently, the storage box 1 is moved to different positions of the same location for sampling. After sampling is completed, the stop block 9 is moved by the pull rod 10, the second spring 13 is compressed, causing the slider 14 to contact the storage box 1, and then it is pushed... The remaining storage box 1 is moved for installation, then the pull rod 10 is released, the second spring 13 rebounds, and the stop block 9 moves in the opposite direction to reset. Then the above operation is repeated to install the support plate 7, and then the device is assembled and stored. Then the handle 4 is turned to lift the device and take it away. This allows the storage box 1 to be assembled and folded for carrying and sampling outside, while the storage box 1 can be moved and unfolded to sample in one place or disassembled to sample different areas in the same location. This makes it easy to carry and store the storage box 1, facilitates sampling in different areas, and improves sampling efficiency. Then the device can be sent to the testing room for monitoring.

[0027] The technical principles of the present invention have been described above with reference to specific embodiments. These descriptions are merely for explaining the principles of the present invention and should not be construed as limiting the scope of protection of the present invention in any way. Based on this explanation, those skilled in the art can conceive of other specific embodiments of the present invention without creative effort, and these embodiments will all fall within the scope of protection of the present invention.

Claims

1. A foldable portable sampling tube storage box, characterized in that, It includes a storage box (1), a telescopic door (2), a placement plate (11), a slider (14), an assembly component, and a limiting component. There are multiple storage boxes (1), which are stacked on top of each other. Each storage box (1) has a telescopic door (2) on its upper part. Each storage box (1) has a placement plate (11) connected to its inner side. The uppermost storage box (1) has sliders (14) connected to the lower front and rear sides of both the uppermost and lower front and rear sides of both the lowermost storage box (1). The sliders (14) are slidably and detachably connected to the middle storage box (1). Each storage box (1) has an assembly component for assembling, folding, and storing the device. The middle storage box (1) has a limiting component for limiting the other two storage boxes (1).

2. The foldable portable sampling tube storage box according to claim 1, characterized in that, Multiple placement slots are opened on each of the placement plates (11).

3. A foldable portable sampling tube storage box according to claim 1, characterized in that, It also includes a connecting block (3), and the upper front part of the telescopic gate (2) is connected to the connecting block (3).

4. A foldable portable sampling tube storage box according to claim 1, characterized in that, It also includes a handle (4), and the uppermost storage box (1) is rotatably connected to the handle (4).

5. A foldable portable sampling tube storage box according to claim 1, characterized in that, The assembly includes a support block (5), a limiting rod (6), a support plate (7), a locking block (8), and a first spring (12). The uppermost storage box (1) is connected to the left side of the middle part of the support block (5), the limiting rod (6) is locked in the middle of the support block (5), the support plate (7) is locked on the support block (5), and the support plate (7) is locked with the limiting rod (6). The lowermost storage box (1) is slidably connected to the left side of the locking block (8), and the first spring (12) is connected between the locking block (8) and the lowermost storage box (1).

6. A foldable portable sampling tube storage box according to claim 1, characterized in that, The limiting component includes a stop (9), a pull rod (10), and a second spring (13). The storage box (1) in the middle is slidably connected to two upper and lower stops (9) at both the front and rear. Each stop (9) is connected to a pull rod (10), and the pull rod (10) is in contact with the storage box (1) in the middle. Each stop (9) is connected to the storage box (1) in the middle by a second spring (13).