Portable laboratory test sample storage case
By designing a portable experimental sample storage box, the problem of insufficient field sample preservation containers was solved. It provides independent space and security, ensuring efficient transportation and preservation of samples in the field and improving the reliability of test results.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 湖北省地质局第七地质大队
- Filing Date
- 2025-06-26
- Publication Date
- 2026-06-19
AI Technical Summary
There is a shortage of professional field sample preservation containers, which cannot provide sufficient power, are heavy and inconvenient to transport, lack independent space for storing sample preservatives and sampling tools, are easily damaged by collisions during transportation, and have poor safety.
Design a portable experimental sample storage box with an external cover and multiple internal sample storage compartments. Equipped with a support frame, casters, combination lock, telescopic rod, and insulating pearl cotton mesh, it provides independent space for storing sample preservatives and sampling tools, ensuring sample safety and convenient transportation.
It enables standardized preservation and convenient transportation of samples, improves safety and convenience, ensures the authenticity and validity of test results, and is suitable for short-term preservation and transportation by outdoor sampling personnel.
Smart Images

Figure CN224376353U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of storage boxes, and in particular to a portable experimental testing sample storage box. Background Technology
[0002] The quality of experimental samples directly affects the test results, and proper storage of experimental samples is a crucial step in ensuring sample quality. Many samples have stringent requirements for storage conditions, including specific requirements for temperature, humidity, light, microorganisms, and the addition of preservatives. If the storage environment does not meet the required conditions, the samples will quickly deteriorate. If these altered samples are tested and evaluated, the laboratory will inevitably face liability risks. Therefore, it is essential to control the sample storage environment.
[0003] Currently, there are few professional field sample preservation containers available, with small refrigerators often being used. This approach has several drawbacks: first, insufficient power is available in the field to support the refrigerator's operation; second, the refrigerator is heavy and inconvenient to transport in the field; third, it lacks independent space for storing sample preservatives and sampling tools; fourth, samples inside are easily damaged or contaminated during transport; and fifth, refrigerators generally lack locks, making it difficult to ensure the safety of experimental samples. This invention provides a portable experimental sample storage box, facilitating efficient collection and transportation of experimental samples by researchers. Utility Model Content
[0004] The main purpose of this invention is to provide a portable experimental sample storage box to solve the problem of the limited number of professional field experimental sample storage containers currently available.
[0005] To solve the above-mentioned technical problems, the technical solution adopted by this utility model is: a portable experimental sample storage box, the storage box is covered with a box sleeve, the storage box is equipped with multiple sample storage boxes inside, the multiple sample storage boxes are separated by a support frame, the storage box is equipped with an upper box cover on the top, and a side box door on the side. The upper opening of the box sleeve is equipped with a top cover, and the side of the box sleeve is equipped with a side cover at the corresponding position of the side box door. The storage box is placed into the box sleeve from the top of the upper box cover.
[0006] In the preferred embodiment, the top cover is hinged to the case cover on one side, and connected to the other side by a buckle, zipper or Velcro.
[0007] In the preferred embodiment, the bottom of the side cover is hinged to the bottom of the case cover, and the side cover is periodically connected to the case cover via buckles, zippers, or Velcro.
[0008] In the preferred embodiment, the bottom of the box cover is provided with a clearance hole, and the lower part of the storage box is also provided with casters. When the storage box is placed in the box cover, the casters pass through the clearance hole and are located outside the box cover.
[0009] In the preferred embodiment, the upper lid is connected to the storage box via a combination lock, and a first handle is provided on one side of the combination lock.
[0010] In the preferred embodiment, the storage box is equipped with a telescopic lever on one side and multiple document bags on the other side.
[0011] In the preferred embodiment, a limiting platform is also provided inside the storage box, and the bottom of the sample storage box rests against the limiting platform.
[0012] In the preferred embodiment, a second handle is provided on both sides of the sample storage box.
[0013] In the preferred embodiment, the box cover is made of waterproof mesh fabric containing insulating pearl cotton.
[0014] In the preferred embodiment, the storage box is also equipped with a light and a thermometer.
[0015] This invention provides a portable sample storage box for laboratory testing. It features a simple structure, low cost, and high practicality, making it suitable for short-term preservation of water, gas, soil, and plant / animal samples by outdoor sampling personnel. Its ease of operation facilitates the standardized preservation and convenient transportation of various samples, ensuring the accuracy and validity of test results.
[0016] The telescopic pull rod, pulleys, and carrying straps allow researchers to choose the appropriate transport method for the storage box based on terrain conditions, greatly reducing manpower consumption during sample handling. Sample preservatives, sampling tools, and data bags have independent storage spaces, significantly improving safety and convenience while saving space and manpower. The sample box is equipped with a combination lock to ensure the safety of high-value experimental samples. The box cover has good insulation properties and also provides some protection for the box body. This equipment features a simple structure, low cost, high practicality, and easy and efficient operation, facilitating the standardized preservation and lightweight transportation of various samples and ensuring the accuracy and validity of test results. Attached Figure Description
[0017] The present invention will be further described below with reference to the accompanying drawings and embodiments:
[0018] Figure 1 This is a structural diagram of the box cover of this utility model;
[0019] Figure 2 This is a disassembled structural diagram of the box sleeve and storage box of this utility model;
[0020] Figure 3 This is a disassembled structural diagram of the storage box of this utility model;
[0021] Figure 4 This is a disassembled diagram of the internal structure of the storage box of this utility model.
[0022] In the diagram: Storage box 1; Top cover 101; Combination lock 102; First handle 103; Side door 104; Mechanical lock 105; Limiting platform 106; Box cover 2; Top cover 201; Document bag 202; Shoulder strap 203; Side cover 204; Clearance hole 205; Casters 3; Telescopic rod 4; Sample storage box 5; Second handle 501; Support frame 6. Detailed Implementation
[0023] like Figure 1-4 As shown, a portable experimental sample storage box is provided. The storage box 1 is covered by a box sleeve 2. The storage box 1 has multiple sample storage boxes 5 inside. The multiple sample storage boxes 5 are separated by a support frame 6. The storage box 1 has an upper box cover 101 on the top and a side box door 104 on the side. The box sleeve 2 has a top cover 201 at the upper opening. The side of the box sleeve 2 has a side cover 204 at the corresponding position of the side box door 104. The storage box 1 is placed into the box sleeve 2 from the top of the upper box cover 101.
[0024] Place the portable laboratory sample storage box in the desired location. Pull the storage box 1 using the telescopic rod 4, and move it flexibly using the casters 3 at the bottom. Open the top cover 201 or side cover 204 on the box sleeve 2. Alternatively, open the top cover 101 or the side door 104 of the storage box 1 as needed. Place the samples into the multi-layer sample storage box 5 according to their categories. The layers are separated by support frames 6 to avoid confusion and collision, ensuring that the samples are stored in a standardized and orderly manner. After use, close the lid and clean the surface of the box.
[0025] This utility model boasts a simple structure, low cost, and high practicality, facilitating short-term outdoor preservation of samples such as water, gas, soil, and plant and animal specimens by outdoor sampling personnel. The storage box 1, made of multi-layered EPP material, possesses high strength and excellent thermal insulation properties, effectively protecting samples from external environmental influences and ensuring the accuracy and validity of test results. Simultaneously, the box is lightweight and equipped with casters 3 and a telescopic rod 4, promoting standardized preservation and convenient transportation of various samples. Its simple and efficient operation enhances work efficiency. The design of the box sleeve 2 further strengthens the protective performance of the storage box, improving the durability and applicability of the equipment.
[0026] The storage box is rectangular, with a length, width, and height of 80cm, 60cm, and 100cm respectively. It is mainly made of multi-layer EPP material, which has high strength and good thermal insulation performance.
[0027] In the preferred embodiment, the top cover 201 is hinged to one side of the case cover 2, and the other side is connected by a buckle, zipper, or Velcro. The bottom of the side cover 204 is hinged to the bottom of the case cover 2, and the side cover 204 is periodically connected to the case cover 2 by a buckle, zipper, or Velcro.
[0028] During use, the top opening is opened via the hinged structure between the top cover 201 and one side of the case sleeve 2. The other side of the top cover is secured by buckles, zippers, or Velcro, facilitating the insertion or removal of the storage box 1 from above. Simultaneously, the bottom of the side cover 204 is hinged to the bottom of the case sleeve 2, allowing it to be flipped open. Its perimeter is secured by buckles, zippers, or Velcro, facilitating operation and maintenance of the sides of the storage box 1. The entire operation is simple and flexible, adapting to the needs of different scenarios.
[0029] This preferred design incorporates hinged connections between the top cover 201 and side covers 204 and the housing 2, employing methods such as snaps, zippers, or Velcro for quick opening and closing. This not only enhances the sealing and protective performance of the housing structure but also improves ease of use and flexibility. The hinged design makes the opening and closing of the housing more stable, preventing the loss of the top cover or side covers. Furthermore, multiple connection methods can be selected according to actual needs, improving the applicability and practicality of the equipment and further ensuring the safety and stability of samples during transportation and storage.
[0030] In the preferred embodiment, the bottom of the casing 2 is provided with a clearance hole 205, and the lower part of the storage box 1 is also provided with casters 3. When the storage box 1 is placed in the casing 2, the casters 3 pass through the clearance hole 205 and are located outside the casing 2. When the storage box 1 is placed inside the casing 2, ensure that the casters 3 are aligned with the clearance hole 205 at the bottom of the casing 2, so that the casters pass through the clearance hole and are exposed outside the casing, thereby realizing the mobility function of the entire device. By pulling the box body with the telescopic rod 4, the casters 3 can be used for flexible steering and movement, improving the convenience during transportation.
[0031] This design incorporates clearance holes 205 at the bottom of the casing 2, allowing the casters 3 at the bottom of the storage box 1 to pass through the holes and protrude outside the casing. This ensures the casing provides overall protection for the storage box without compromising the equipment's mobility. This structural design is reasonable, enhancing overall portability and mobility, facilitating sampling and transportation in complex outdoor environments, and improving the equipment's practicality and ease of operation.
[0032] In the preferred embodiment, the upper cover 101 is connected to the storage box 1 via a combination lock 102, and a first handle 103 is provided on one side of the combination lock 102.
[0033] The combination lock 102 locks or unlocks the upper lid 101, ensuring the storage box 1 remains sealed and secure during transport or storage, preventing unauthorized opening. To open the lid, first enter the correct combination to unlock, then use the first handle 103 to lift the lid, facilitating sample placement or removal. The operation is simple, intuitive, and highly secure.
[0034] This design incorporates a combination lock 102 between the upper cover 101 and the storage box 1, enhancing the security level of the storage box and effectively preventing accidental removal or tampering of samples, thus ensuring the authenticity and integrity of the tested samples. Simultaneously, the design of the first handle 103 enhances the ease of opening the cover, enabling the entire device to maintain a good human-machine interface while ensuring safety, making it suitable for field sampling and scenarios with high sample management requirements.
[0035] In the preferred embodiment, the storage box 1 is also equipped with a telescopic lever 4 on one side and multiple document bags 202 on the other side.
[0036] Pull the telescopic rod 4 out from one side of the storage box 1, and use the casters 3 at the bottom to move and drag it easily, facilitating the transfer of samples between different sites. At the same time, sampling records, test reports, or other relevant paper documents can be placed in multiple document bags 202 located on the other side of the storage box as needed, for convenient classification, storage, and easy access, improving on-site operational efficiency.
[0037] This solution enhances the portability and ease of movement of the equipment by installing a telescopic lever 4 on one side of the storage box 1, adapting to the needs of use in various terrains and environments. Multiple document bags 202 on the other side provide centralized storage space for documents and materials during the sampling process, preventing data loss or confusion, improving overall usability and management efficiency, and further meeting the functional integration requirements of field operations.
[0038] In the preferred embodiment, the storage box 1 is also provided with a limiting platform 106, and the bottom of the sample storage box 5 rests on the limiting platform 106.
[0039] In the preferred embodiment, the sample storage box 5 is equipped with a second handle 501 on both sides.
[0040] In the preferred embodiment, the inner lining of the box sleeve 2 is made of waterproof mesh fabric containing insulating pearl cotton.
[0041] In the preferred embodiment, the storage box 1 is also equipped with a light and a thermometer.
[0042] The sample storage box 5 is placed on the limiting platform 106 inside the storage box 1, ensuring its stable support. The second handles 501 on both sides facilitate lifting or moving the sample storage box, making operation flexible and convenient. The box cover 2 is made of waterproof mesh fabric with insulating pearl cotton lining, providing excellent insulation and moisture protection to ensure a stable storage environment. In low-light conditions, the internal lighting of the storage box can be turned on for observation and sample handling. Simultaneously, a thermometer monitors the internal temperature in real time to ensure that sample storage conditions meet requirements.
[0043] The design of the limiting stage 106 improves the stability of the sample storage box 5 within the storage box 1, preventing displacement or collision during transportation and ensuring sample safety. The second handle 501 enhances ease of operation, facilitating quick removal or placement of the sample storage box. The box sleeve 2 uses a waterproof mesh fabric with insulating pearl cotton, enhancing the overall device's insulation and moisture-proof capabilities, adapting to complex outdoor environments. The inclusion of lighting and a thermometer further enhances the equipment's functionality, facilitating on-site management and monitoring of sample preservation status, thereby ensuring the authenticity and validity of the test results.
[0044] The above embodiments are merely preferred technical solutions of this utility model and should not be considered as limitations on this utility model. The protection scope of this utility model should be the technical solution described in the claims, including equivalent substitutions of the technical features described in the claims. That is, equivalent substitutions and improvements within this scope are also within the protection scope of this utility model.
Claims
1. A portable laboratory test sample storage case characterized by: The storage box (1) is covered with a box sleeve (2) on the outside. The storage box (1) is equipped with a multi-layer sample storage box (5) inside. The multi-layer sample storage boxes (5) are separated by a support frame (6). The storage box (1) is equipped with an upper box cover (101) on the top and a side box door (104) on the side. The box sleeve (2) has a top cover (201) at the upper opening. The box sleeve (2) has a side cover (204) at the corresponding position of the side box door (104) on the side. The storage box (1) is placed into the box sleeve (2) from the top of the upper box cover (101).
2. The portable experimental detection sample storage box according to claim 1, characterized in that: The top cover (201) is hinged to the box cover (2) on one side and connected to the other side by a buckle, zipper or Velcro.
3. The portable experimental sample storage box according to claim 1, characterized in that: The bottom of the side cover (204) is hinged to the bottom of the case cover (2), and the side cover (204) is periodically connected to the case cover (2) by buckles, zippers or Velcro.
4. The portable experimental sample storage box according to claim 1, characterized in that: The bottom of the box cover (2) is provided with a clearance hole (205), and the lower part of the storage box (1) is also provided with a caster wheel (3). When the storage box (1) is placed in the box cover (2), the caster wheel (3) passes through the clearance hole (205) and is placed outside the box cover (2).
5. The portable experimental sample storage box according to claim 1, characterized in that: The top cover (101) is connected to the storage box (1) via a combination lock (102), and a first handle (103) is provided on one side of the combination lock (102).
6. The portable experimental sample storage box according to claim 1, characterized in that: The storage box (1) is also equipped with a telescopic lever (4) on one side and multiple document bags (202) on the other side.
7. The portable experimental sample storage box according to claim 1, characterized in that: The storage box (1) is also equipped with a limiting platform (106), and the bottom of the sample storage box (5) rests on the limiting platform (106).
8. The portable experimental sample storage box according to claim 7, characterized in that: The sample storage box (5) is equipped with a second handle (501) on both sides.
9. The portable experimental sample storage box according to claim 1, characterized in that: The box cover (2) is made of waterproof mesh fabric containing insulating pearl cotton.
10. The portable experimental sample storage box according to claim 1, characterized in that: The storage box (1) is also equipped with a light and a thermometer.