CN220852712U - Intelligent cold-temperature storage device for medical laboratory - Google Patents

Abstract

The utility model provides an intelligent cold and warm storage device for a medical laboratory, which comprises a cold and warm storage box, a sealing door, a supporting plate and a sample storage cavity, wherein: the sealing door is arranged on the front side of the cold temperature storage box through a hinge, the supporting plate is slidably arranged in the cold temperature storage box, and the sample storage cavity is arranged on the surface of the supporting plate; the sample storage cavity comprises a main adsorption bottom, a heat preservation shell, a sealing top, a sliding groove heat preservation cover, an auxiliary support bottom, a sample seat and a sample support frame. The heat preservation shell and the sample support frame are provided with the second heat preservation structure, so that the condition of temperature rise can not occur during short-distance movement.

Description

Intelligent cold-temperature storage device for medical laboratory

Technical Field

The utility model relates to the technical field of cold and warm storage, in particular to an intelligent cold and warm storage for a medical laboratory.

Background

Medical laboratory, also known as third party medical laboratory or medical independent laboratory, refers to the medical institution that engages in medical testing of professionals with independent legal qualifications under the permission of the health administration. The method is cooperated with a hospital to establish business, and samples collected by the cooperated hospital are collected and detected in a centralized way; after testing, the test results are sent to the hospital, and the specimens need to be stored at a low temperature, so a low-temperature storage structure is required. However, the conventional cold and warm storage still has the problem that the second cold insulation structure is not provided, and the temperature is easy to rise when the storage moves in a short distance.

Therefore, it is necessary to invent a medical laboratory intelligent cold and warm storage.

Disclosure of utility model

In order to solve the technical problems, the utility model provides an intelligent cold-warm storage for a medical laboratory, which solves the problems that the traditional cold-warm storage still has no second cold-preserving structure and the temperature is easy to rise when moving in a short distance. The utility model provides a cold temperature accumulator of medical laboratory intelligence, includes cold temperature storage case, sealing door, backup pad and sample storage chamber, wherein: the sealing door is arranged on the front side of the cold temperature storage box through a hinge, the supporting plate is slidably arranged in the cold temperature storage box, and the sample storage cavity is arranged on the surface of the supporting plate; the sample storage cavity comprises a main adsorption bottom, a heat preservation shell, a sealing top, a chute heat preservation cover, an auxiliary support bottom, a sample seat and a sample support frame, wherein the main adsorption bottom is adsorbed on the surface of the support plate, and the heat preservation shell is adhered to the surface of the main adsorption bottom; the sliding chute is arranged on the front side of the heat-insulating shell, the heat-insulating cover is arranged in the sliding chute through the sliding block, and the sealing top is adhered to the tops of the heat-insulating shell and the heat-insulating cover; the auxiliary support bottom is adhered to the bottom of the heat preservation cover, the sample seat is fixed on the surface of the main adsorption bottom through bolts, and the sample support frame is arranged on the surface of the sample seat through a sliding rail.

The heat-insulating shell is made of a hard shell made of plastic, and is hollow, and three layers of addition are filled in the heat-insulating shell, namely a heat-insulating foam board, tinfoil paper and a heat-insulating foam board from inside to outside; the structure inside the heat-insulating shell is completely consistent with the heat-insulating cover, the heat-insulating shell can slide in the vertical direction through the front chute, and the bottom of the heat-insulating shell extends upwards to form a protruding table; the heat preservation shell is provided with a sample seat through a raised platform in the heat preservation shell, so that a space for placing a sample test tube is formed, and after the heat preservation shell is placed on the surface of the support plate, the heat preservation cover can slide downwards under the influence of gravity, so that the heat preservation shell is in an open state, and the sample test tube can be contacted with a low-temperature environment in the cold-temperature storage box, so that the sample can be stored conveniently; when the heat preservation shell is taken out outwards, a person can hold the handle on the surface of the heat preservation cover upwards to enable the heat preservation cover to seal the heat preservation shell, and the heat preservation shell forms a closed state at the moment, so that a test tube for placing a specimen can still be in a low-temperature environment for a long time after leaving the cold-temperature storage box, and short-distance movement is facilitated.

The sample support frame adopts a strip-shaped plastic table, the surface of the sample support frame is provided with a plurality of round holes matched with test tubes for storing samples, and the inner wall of the round hole on the surface of the sample support frame is adhered with a plurality of silica gel origins protruding outwards; the protruding origin on the sample support frame inner wall can produce deformation after the pressurized, and the slide rail of sample support frame accessible below carries out the slip on the horizontal direction at the surface of sample seat for deposit the test tube of placing the sample, and can block the test tube through bellied silica gel point, prevent the drop of test tube, and can make the test tube of placing the sample can conveniently take out through self horizontal slip.

Compared with the prior art, the utility model has the following beneficial effects:

The heat preservation shell is arranged to form a space for placing the specimen test tube, and after the heat preservation shell is placed on the surface of the supporting plate, the heat preservation cover can slide downwards under the influence of gravity, so that the heat preservation shell is in an open state, and the specimen test tube can be contacted with a low-temperature environment in the cold-temperature storage box, so that the specimens can be stored conveniently; when the heat preservation shell is taken out, a person can hold the handle on the surface of the heat preservation cover upwards to enable the heat preservation cover to seal the heat preservation shell, and the heat preservation shell forms a closed state at the moment, so that a test tube for placing a specimen can still be in a low-temperature environment for a long time after leaving the cold-temperature storage box, and short-distance movement is facilitated; and the table top has gravity and cannot tilt forward or fall down when being placed on the table top.

The sample support frame is used for storing the test tube for placing the sample, can clamp the test tube through the raised silica gel point, prevents the test tube from falling off, and can enable the test tube for placing the sample to be conveniently taken out through horizontal sliding of the test tube.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is an enlarged view at a of the present utility model.

In the figure:

cold and warm storage box 1, sealing door 2, backup pad 3, sample storage chamber 4 mainly adsorb bottom 41, heat preservation shell 42, sealing top 43, spout 44, heat preservation lid 45, auxiliary support bottom 46, sample seat 47, sample support frame 48.

Detailed Description

In order that those skilled in the art will better understand the present utility model, a technical solution of the embodiments of the present utility model will be clearly and completely described below, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without making any inventive effort, shall fall within the scope of the present utility model.

As shown in fig. 1 to 2.

The utility model provides an intelligent cold and warm storage device for a medical laboratory, which comprises a cold and warm storage box 1, a sealing door 2, a support plate 3 and a sample storage cavity 4, wherein: the sealing door 2 is mounted on the front side of the cold and warm storage box 1 through a hinge, the support plate 3 is slidably mounted inside the cold and warm storage box 1, and the sample storage cavity 4 is placed on the surface of the support plate 3; the sample storage cavity 4 comprises a main adsorption bottom 41, a heat preservation shell 42, a sealing top 43, a sliding chute 44, a heat preservation cover 45, an auxiliary support bottom 46, a sample seat 47 and a sample support frame 48, wherein the main adsorption bottom 41 is adsorbed on the surface of the support plate 3, and the heat preservation shell 42 is adhered on the surface of the main adsorption bottom 41; the sliding groove 44 is formed in the front side of the heat-insulating shell 42, the heat-insulating cover 45 is arranged in the sliding groove 44 through a sliding block, and the sealing top 43 is adhered to the tops of the heat-insulating shell 42 and the heat-insulating cover 45; the auxiliary supporting base 46 is adhered to the bottom of the heat insulation cover 45, the sample holder 47 is fixed on the surface of the main adsorption base 41 through bolts, and the sample supporting frame 48 is mounted on the surface of the sample holder 47 through a sliding rail.

The intelligent cold-warm storage device for the medical laboratory provided by the utility model has the advantages that the cold-warm storage box 1 and the sealing door 2 are used for forming a sealed space, the cold-warm storage box can be refrigerated to facilitate the low-temperature storage of specimens, the cold-warm storage box 1 and the sealing door 2 are of common structures, and an intelligent temperature control system is arranged in the cold-warm storage box and can adjust the internal temperature according to requirements; the support plate 3 is used for supporting the sample storage cavity 4; the heat preservation shell 42 in the sample storage cavity 4 is made of a hard shell made of plastic, the heat preservation shell 42 is hollow, three layers of addition are filled in the heat preservation shell 42, and a heat preservation foam board, tinfoil paper and a heat preservation foam board are respectively arranged from inside to outside; the structure inside the heat preservation shell 42 is completely consistent with the heat preservation cover 45, the heat preservation shell 42 can enable the heat preservation cover 45 to slide in the vertical direction through the sliding groove 44 in front, and a protruding table extends upwards from the bottom of the heat preservation shell 42; the heat preservation shell 42 is provided with a sample seat 47 through a raised platform in the heat preservation shell 42, so that a space for placing a sample test tube is formed, and after the heat preservation shell 42 is placed on the surface of the support plate 3, the heat preservation cover 45 can slide downwards under the influence of gravity, so that the heat preservation shell 42 is in an open state, and the sample test tube can be contacted with a low-temperature environment in the cold-temperature storage box 1, so that the sample can be stored conveniently; when the heat preservation shell 42 is taken out, a person can hold the handle on the surface of the heat preservation cover 45 upwards to enable the heat preservation cover 45 to seal the heat preservation shell 42, and the heat preservation shell 42 forms a closed state at the moment, so that a test tube for placing a specimen can still be in a low-temperature environment for a long time after leaving the cold-temperature storage box 1, the test tube can conveniently move for a short distance, has gravity, and cannot tilt forward when being placed on a table top; the sample support 48 in the sample storage cavity 4 adopts a strip-shaped plastic table, the surface of the sample support 48 is provided with a plurality of round holes matched with test tubes for storing samples, and the inner wall of the round hole on the surface of the sample support 48 is adhered with a plurality of silica gel origins protruding outwards; the protruding origin on the inner wall of the sample support 48 will deform after being pressed, and the slide rail of the sample support 48 below can slide on the surface of the sample seat 47 horizontally for storing the test tube for placing the sample, and the test tube can be blocked by the protruding silica gel point, so that the test tube can be prevented from falling off, and can be conveniently taken out through the horizontal sliding of the test tube.

By utilizing the technical scheme of the utility model or under the inspired by the technical scheme of the utility model, a similar technical scheme is designed by a person skilled in the art, so that the technical effects are achieved, and the technical scheme falls into the protection scope of the utility model.

Claims (3)

1. A medical laboratory intelligence cold temperature accumulator, its characterized in that: including cold temperature storage box (1), sealing door (2), backup pad (3) and sample storage chamber (4), wherein: the sealing door (2) is arranged on the front side of the cold-warm storage box (1) through a hinge, the supporting plate (3) is slidably arranged in the cold-warm storage box (1), and the sample storage cavity (4) is arranged on the surface of the supporting plate (3); the sample storage cavity (4) comprises a main adsorption bottom (41), a heat preservation shell (42), a sealing top (43), a sliding chute (44), a heat preservation cover (45), an auxiliary support bottom (46), a sample seat (47) and a sample support frame (48), wherein the main adsorption bottom (41) is adsorbed on the surface of the support plate (3), and the heat preservation shell (42) is adhered to the surface of the main adsorption bottom (41); the sliding chute (44) is arranged on the front side of the heat-insulating shell (42), the heat-insulating cover (45) is arranged in the sliding chute (44) through a sliding block, and the sealing top (43) is adhered to the tops of the heat-insulating shell (42) and the heat-insulating cover (45); the auxiliary support bottom (46) is adhered to the bottom of the heat preservation cover (45), the sample seat (47) is fixed on the surface of the main adsorption bottom (41) through bolts, and the sample support frame (48) is arranged on the surface of the sample seat (47) through a sliding rail.

2. A medical laboratory intelligent cold temperature storage according to claim 1, wherein: the heat-insulating shell (42) is made of a hard shell made of plastic, the heat-insulating shell (42) is hollow, three layers of addition are filled in the heat-insulating shell (42), and a heat-insulating foam board, tinfoil paper and a heat-insulating foam board are respectively arranged from inside to outside; the structure inside the heat preservation shell (42) is completely consistent with the heat preservation cover (45), the heat preservation shell (42) can enable the heat preservation cover (45) to slide in the vertical direction through a sliding groove (44) in front, and a protruding table extends upwards from the bottom of the heat preservation shell (42); the thermal insulation shell (42) is provided with a sample seat (47) through a table protruding inside the thermal insulation shell.

3. A medical laboratory intelligent cold temperature storage according to claim 1, wherein: the sample support frame (48) adopts a strip-shaped plastic table, a plurality of round holes matched with test tubes for storing samples are formed in the surface of the sample support frame (48), and a plurality of silica gel origins protruding outwards are adhered to the inner wall of the round holes in the surface of the sample support frame (48); the raised origin on the inner wall of the sample supporting frame (48) can deform after being pressed, and the sample supporting frame (48) can slide on the surface of the sample seat (47) in the horizontal direction through the sliding rail below the sample supporting frame.