Infectious disease department specimen storage and transfer device
By designing an L-shaped heat-insulating cotton pad, a refrigerated storage drawer, and a specimen transport box with a magnetic closure structure, the problems of insufficient sealing and refrigeration functions were solved, enabling safe and stable transport and efficient testing of specimens.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- XINGAN LEAGUE PEOPLES HOSPITAL
- Filing Date
- 2025-06-10
- Publication Date
- 2026-07-07
AI Technical Summary
Existing specimen transport devices lack adequate sealing, have limited refrigeration capabilities, and lack convenient fixation and sorting structures, which affects the accuracy of testing and the safety of medical personnel.
A specimen transport box was designed, which includes an L-shaped insulating pad, a refrigerated storage drawer, an isolation rack, a magnetic closure structure, and a convenient handle, to enhance sealing and refrigeration performance, and to provide classification, fixation, and easy operation.
It achieves high sealing performance, stable refrigeration, convenient operation and safe transportation, reducing the risk of infection and improving the accuracy of testing and the work efficiency of medical staff.
Smart Images

Figure CN224466402U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of blood transfusion bag transport device structure, and in particular to a specimen storage and transport device for infectious disease departments. Background Technology
[0002] In the clinical work of infectious disease departments, the safe storage and transportation of specimens is of paramount importance.
[0003] Existing specimen transport devices have several shortcomings: traditional transport boxes lack sufficient sealing, failing to effectively prevent specimen leakage or external contamination, increasing the risk of infection for healthcare workers; their refrigeration function is limited, making it difficult to maintain optimal specimen storage temperatures; and the lack of convenient securing and sorting structures during transport makes specimens prone to collision or confusion, affecting testing accuracy. Furthermore, the ease of operation and handling of existing devices needs improvement, failing to meet the efficient and safe specimen transport requirements of infectious disease departments. Utility Model Content
[0004] The purpose of this invention is to provide a specimen storage and transportation device for infectious disease departments. By optimizing the sealing structure, enhancing refrigeration performance, and setting up classification and fixing components, it can achieve safe and stable transportation of specimens, reduce the risk of infection, and improve the work efficiency of medical staff.
[0005] To achieve the above objectives, the technical solution adopted by this utility model is as follows:
[0006] An infectious disease specimen storage and transportation device includes a specimen transportation box, a transport post fixedly installed on the upper surface of the specimen transportation box, a folding handle movably installed between the transport posts, a triangular guide plate fixedly installed on the lower surface of the specimen transportation box, an anti-slip silicone pad fixedly installed on the lower surface of the triangular guide plate, and a refrigerated storage drawer provided inside the specimen transportation box.
[0007] The specimen transport box has the following structure: it includes an outer shell, an L-shaped insulating pad, and an inner lining. The L-shaped insulating pad is fixedly installed inside the outer shell to enhance the heat insulation performance of the box and maintain a low internal temperature environment. The inner lining is fixedly installed inside the outer shell via a partition strip to form a stable internal support structure.
[0008] The structure of the refrigerated storage drawer includes a pull-out drawer body, an ice storage box, a separating foam pad, a partition rack, an ice box sealing lid, a silicone sealing plug, a drawer body lid, a first rectangular magnetic ring, a rectangular sealing gasket, a second rectangular magnetic ring, and a flexible handle. The specific structure is as follows:
[0009] Pull-out drawer: Located inside the lining of the box, it can be pulled out horizontally for easy access to specimens by medical staff.
[0010] Ice storage box: Fixedly installed on the lower surface inside the pull-out drawer, used to store ice cubes or ice packs to provide a refrigerated environment for specimens.
[0011] Separating foam pads: These are fixedly installed on both sides of the ice storage box to prevent the specimen from directly contacting the ice storage box and to prevent low-temperature damage to the specimen.
[0012] Isolation rack: Fixedly installed inside the pull-out drawer and located on both sides of the ice storage box, used to separate and fix the specimens to prevent them from colliding or getting mixed up during transportation.
[0013] Ice box sealing cap: The cap is placed over the opening of the ice storage box. The silicone sealing plug is fixedly installed on the lower surface of the ice box sealing cap, with its lower end inserted into the opening of the ice storage box to ensure the airtightness of the ice storage box and prevent liquid leakage after the ice melts.
[0014] Drawer cover: Fixedly installed on the front surface of the pull-out drawer body, used to close the pull-out drawer body.
[0015] No. 1 rectangular magnetic ring: fixedly installed on the rear surface of the drawer lid.
[0016] Rectangular sealing gasket: Fixedly installed on the rear surface of the first rectangular magnet ring to enhance sealing performance.
[0017] Second rectangular magnetic ring: Fixedly installed on the front surface of the outer shell of the box, it works in conjunction with the first rectangular magnetic ring to achieve magnetic closure of the drawer lid.
[0018] Flexible handle: Fixedly installed on the front surface of the drawer cover, making it easy for medical staff to pull out the drawer.
[0019] The auxiliary structure consists of a transport post and a folding handle: the transport post is fixedly installed on the upper surface of the specimen transport box, and the folding handle is movably installed between the transport posts. The foldable design saves space and facilitates transport.
[0020] Triangular guide plate and anti-slip silicone pad: The triangular guide plate is fixedly installed on the lower surface of the specimen transport box to guide the flow of liquid and prevent liquid accumulation; the anti-slip silicone pad is fixedly installed on the lower surface of the triangular guide plate to increase the friction between the device and the contact surface and prevent the device from sliding during transport.
[0021] Compared with the prior art, the present invention has the following beneficial effects:
[0022] High sealing and safety: Through the combination of L-shaped heat insulation cotton pads, silicone sealing plugs, rectangular sealing gaskets and magnetic closure structures, the specimen transport box is kept sealed inside, effectively preventing specimen leakage and external contamination, and reducing the risk of infection for medical staff.
[0023] High-efficiency refrigeration performance: The ice storage box, combined with the separating foam pad, can maintain the low temperature environment required for the specimen, and the L-shaped heat insulation pad further slows down the melting rate of the ice, ensuring the stability of the specimen during transportation.
[0024] Convenient specimen management: Isolation racks and separating foam pads enable the classification, storage and fixation of specimens, avoiding specimen collisions or confusion during transportation, and improving the standardization of specimen management and the accuracy of testing.
[0025] Ease of use: The folding handle makes it easy to move, the pull-out drawer design makes specimen storage and retrieval simple and quick, and the magnetic closure structure eliminates the need for complicated locking operations, saving medical staff time and energy.
[0026] Structural stability: The triangular guide plate and anti-slip silicone pad enhance the stability of the device, preventing it from sliding or tilting during transport and ensuring the safety of the specimen. Attached Figure Description
[0027] Figure 1 This is a partial structural diagram of the specimen transport box and refrigerated storage drawer of this utility model.
[0028] Figure 2 This is a schematic diagram of the overall structure of a specimen storage and transportation device for infectious disease departments according to this utility model;
[0029] Figure 3 This utility model Figure 1 Enlarged diagram of part A in the middle;
[0030] Figure 4 This utility model Figure 1 Enlarged diagram of section B;
[0031] Figure 5 This is a schematic diagram of the triangular guide plate and anti-slip silicone pad structure of this utility model.
[0032] In the diagram: 1. Specimen transport box; 101. Box outer shell; 102. L-shaped heat insulation pad; 103. Box inner lining; 2. Transport post; 3. Folding handle; 4. Triangular guide plate; 5. Anti-slip silicone pad; 6. Refrigerated storage drawer; 601. Pull-out drawer body; 602. Ice storage box; 603. Divider foam pad; 604. Isolation rack; 605. Ice box sealing lid; 606. Silicone sealing plug; 607. Drawer lid; 608. No. 1 rectangular magnetic ring; 609. Rectangular sealing gasket; 610. No. 2 rectangular magnetic ring; 611. Flexible handle. Detailed Implementation
[0033] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.
[0034] like Figure 1-5 As shown, during specimen storage and transportation preparation, refrigeration preparation is as follows: Open the drawer lid 607, take out the ice box sealing lid 605, put an appropriate amount of ice cubes or ice packs into the ice storage box 602, and tightly seal the opening of the ice storage box 602 with the ice box sealing lid 605 through the silicone sealing plug 606 to ensure a seal.
[0035] Specimen classification and fixation: Within the drawer body 601, between the partition racks 604, specimens are placed on the partition foam pads 603 according to their type and quantity. The partition racks 604 are used to fix the position of the specimens and prevent them from colliding with each other.
[0036] Closing device: Push the drawer lid 607 to make the first rectangular magnetic ring 608 and the second rectangular magnetic ring 610 attract each other, and further seal through the rectangular sealing gasket 609 to ensure that the transfer box is tightly closed.
[0037] During transport, hold the folding handle 3 and lift the device smoothly. The anti-slip design of the triangular guide plate 4 and the anti-slip silicone pad 5 ensures the stability of the device during transport.
[0038] Placement: When the device is placed in the designated position, the anti-slip silicone pad 5 under the triangular guide plate 4 fits tightly against the contact surface to prevent the device from sliding. If tilting is required, the triangular guide plate 4 can guide the liquid flow and prevent liquid accumulation.
[0039] When storing or retrieving specimens, the device is activated by pulling the flexible handle 611 to overcome the magnetic attraction force, opening the drawer cover 607, and pulling out the drawer body 601 to store or retrieve the specimens.
[0040] Replace ice: If the ice in ice storage box 602 melts, repeat the refrigeration preparation steps and replace it with new ice or ice packs to ensure refrigeration effect.
[0041] For cleaning and maintenance, external cleaning: wipe the outer shell 101 and triangular baffle 4 with disinfectant wipes to remove surface stains and possible pathogens.
[0042] Internal cleaning: Remove the pull-out drawer 601, clean the ice storage box 602, the dividing sponge pad 603 and the isolation rack 604, and disinfect if necessary.
[0043] Component inspection: Regularly check the sealing performance of the silicone sealing plug 606 and the rectangular sealing gasket 609, as well as the adsorption force of the magnetic closure structure. Replace them promptly if any damage is found.
[0044] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claims. The scope of protection of this utility model is defined by the appended claims and their equivalents.
Claims
1. An infectious disease department specimen storage and transport device, characterized in that: The utility model provides a specimen transport case (1), the upper surface of specimen transport case (1) is fixedly installed with carrying pile (2), folding handle (3) is movably installed between carrying pile (2), the lower surface of specimen transport case (1) is fixedly installed with triangular deflector (4), the lower surface of triangular deflector (4) is fixedly installed with antiskid silica gel pad (5), the inside of specimen transport case (1) is provided with refrigeration storage drawer (6).
2. The specimen storage and transport device for an infectious disease department according to claim 1, characterized in that: The specimen transport case (1) comprises a box shell (101), an L-shaped heat insulation cotton pad (102) and a box lining (103), the L-shaped heat insulation cotton pad (102) is fixedly installed on the inner side of the box shell (101), and the box lining (103) is fixedly installed on the inner side of the box shell (101) through a separation strip.
3. The specimen storage and transport device for an infectious disease department according to claim 2, characterized in that: The refrigeration storage drawer (6) comprises a drawer body (601), an ice storage box (602), a separation sponge pad (603), a separation frame (604), an ice box sealing cover (605), a silica gel sealing plug (606), a drawer body box cover (607), a first rectangular magnet ring (608), a rectangular sealing gasket (609), a second rectangular magnet ring (610) and a flexible handle (611).
4. The specimen storage and transport device for an infectious disease department according to claim 3, characterized in that: The drawer body (601) is arranged in the box lining (103), the ice storage box (602) is fixedly installed on the lower surface of the inside of the drawer body (601), the separation sponge pad (603) is fixedly installed on the two sides of the ice storage box (602), the separation frame (604) is fixedly installed on the inside of the drawer body (601) and located on the two sides of the ice storage box (602), the silica gel sealing plug (606) is fixedly installed on the lower surface of the ice box sealing cover (605), and the lower end of the silica gel sealing plug (606) is inserted into the opening of the ice storage box (602).
5. The specimen storage and transport device of claim 4, wherein: The drawer body box cover (607) is fixedly installed on the front surface of the drawer body (601), the first rectangular magnet ring (608) is fixedly installed on the rear surface of the drawer body box cover (607), the rectangular sealing gasket (609) is fixedly installed on the rear surface of the first rectangular magnet ring (608), the second rectangular magnet ring (610) is fixedly installed on the front surface of the box shell (101), and the flexible handle (611) is fixedly installed on the front surface of the drawer body box cover (607).