CN210593384U - Reagent kit - Google Patents

Abstract

The utility model provides a kit. Specifically, the utility model provides a kit, which comprises a box body, wherein the box body is provided with an upper kit and a lower cooling box; the upper kit comprises an upper kit body, wherein the upper kit body comprises a top cover, a bottom plate, a front plate, a rear plate, a left side plate and a right side plate; the upper box body is provided with a first partition board which divides the interior of the upper box body into a left cavity and a right cavity, the left cavity is provided with a second partition board which divides the left cavity into a first upper cavity and a first lower cavity, and the right cavity is provided with a third partition board which divides the right cavity into a second upper cavity and a second lower cavity; the left side plate and the first partition plate facing the left cavity are provided with a first movable sliding groove in the vertical direction on the surface, and the left front plate is arranged in the first movable sliding groove and slides in the vertical direction. Kit satisfy carry out low temperature, normal atmospheric temperature to the reagent bottle that is equipped with the reagent and preserve and transport and can make things convenient for taking of reagent bottle and experimental materials.

Description

Reagent kit

Technical Field

The utility model relates to an experimental apparatus field, specifically, the utility model relates to a kit.

Background

The kit can be used for containing reagent bottles for detecting reagents of medicines (such as chemical medicines and protein medicines) and materials (such as 96-well plates) for detection, and can avoid the need of preparing various detection reagents and searching for required experimental reagents or experimental materials during detection after the reagent bottles containing the reagents required by the medicines for detection and the required experimental materials are stored in the kit, thereby effectively improving the detection efficiency.

However, most of the existing kits on the market only simply place containers for holding reagents and used experimental materials, and only have the ordinary storage and storage functions. However, the current kits, especially the kits used in the field of biological assay, usually contain various detection reagents, and different detection reagents are often required to be stored in different environments (such as normal temperature and low temperature environments), and furthermore, assays in many fields of biological assay also require reaction assays in different environments, for example, some detection reagents are required to be stored at low temperature, some detection reagents are required to be stored only at normal temperature, and cannot be used for low temperature storage, and the like. In addition, the prior art kit often simply puts the materials (such as a 96-well plate) used for detection and reagent bottles together, and the reagent bottles and the experimental materials are mixed together in the storage and transportation process, so that the reagent bottles and the experimental materials need to be sorted again when in use, and the trouble is brought to the experimental operator.

Therefore, there is a need in the art to develop a reagent kit that can satisfy the requirement of low-temperature and normal-temperature storage and transportation of reagent bottles containing reagents and can facilitate the taking of reagent bottles and experimental materials.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can satisfy carry out low temperature, normal atmospheric temperature to the reagent bottle that is equipped with the reagent and preserve and transport and can make things convenient for reagent bottle and experimental materials's kit of taking

The utility model provides a reagent box in the first aspect, which comprises a box body, wherein the box body is provided with an upper reagent box 10 and a lower cooling box 20;

the upper kit comprises an upper kit body, wherein the upper kit body comprises a top cover 11, a bottom plate 12, a front plate, a rear plate, a left side plate 13 and a right side plate 14;

the upper box body is provided with a first partition plate 15 which divides the interior of the upper box body into a left chamber and a right chamber, the first partition plate divides the front plate into a left front plate and a right front plate, the first partition plate divides the rear plate into a left rear plate and a right rear plate, the left chamber is provided with a second partition plate 18 which divides the left chamber into a first upper chamber 16 and a first lower chamber 17, and the right chamber is provided with a third partition plate 111 which divides the right chamber into a second upper chamber 19 and a second lower chamber 110;

a first movable sliding groove along the vertical direction is arranged on the surfaces of the left side plate and the first partition plate facing the left chamber, and the left front plate is arranged in the first movable sliding groove and slides in the vertical direction; a second movable sliding groove along the vertical direction is formed in the surfaces of the right side plate and the first partition plate facing the right chamber, and the right front plate is arranged in the second movable sliding groove and slides in the vertical direction; a third movable sliding groove along the front-back horizontal direction is formed in the surfaces of the left side plate and the first partition plate facing the left chamber, and the second partition plate is arranged in the third movable sliding groove and slides in the front-back horizontal direction;

the upper surfaces of two sides of the lower cooling box are provided with sliding blocks, two sides of the lower bottom surface of the bottom plate of the upper kit are provided with sliding grooves matched and connected with the sliding blocks, and the lower cooling box can slide along the front-back horizontal direction of the bottom plate of the upper kit through the movement of the sliding blocks in the sliding grooves;

the surfaces of a left side plate, a left front plate, a first partition plate and a left rear plate which correspond to the first lower chamber are provided with heat insulation layers, the surfaces of a right side plate, a right front plate, the first partition plate and a right rear plate which correspond to the second lower chamber are provided with heat insulation layers, the second partition plate, the third partition plate and the bottom plate of the upper kit are made of heat insulation materials, and the bottom plate of the upper kit is provided with a heat conduction hole communicated with the containing cavity of the lower cooling box;

the lower cooling box in be equipped with division board 21, the division board with lower cooling box separate into 2 and hold chamber 22, work as lower cooling box be located when the box internal chamber of kit, the board plane of division board with the board plane of first baffle is located same vertical plane.

In another preferred embodiment, the lower cooling box is a thermal insulation box.

In another preferred embodiment, the lower cooling box is made of a thermal insulation material.

In another preferred embodiment, the thermal insulation layer is made of thermal insulation material.

In another preferred embodiment, the thermal insulation material is selected from the group consisting of: an EPC thermal insulation material, a thermal insulation plastic foam, or a combination thereof.

In another preferred embodiment, the thermal insulation plastic foam is polystyrene foam.

In another preferred embodiment, the second separator is provided with a buffer gasket.

In another preferred embodiment, the cushion pad is an elastic material pad.

In another preferred example, the buffer pad is provided with plastic foam, and the plastic foam is provided with holes for accommodating the reagent bottles.

In another preferred example, the left front plate is provided with a sliding block corresponding to the first movable sliding groove.

In another preferred example, the right front plate is provided with a sliding block corresponding to the second movable sliding groove.

In another preferred example, the second partition board is provided with a sliding block corresponding to the third movable sliding groove.

In another preferred embodiment, the top cover is hinged to the upper box body through a hinge.

In another preferred embodiment, the second partition board is provided with plastic foam, and the plastic foam is provided with holes for accommodating the reagent bottles.

In another preferred embodiment, plastic foam is arranged on the corresponding bottom plate in the first lower chamber, and the plastic foam is provided with holes for accommodating the reagent bottles.

In another preferred example, the number of the third movable chutes is one or more.

In another preferred example, the number of the third movable chutes is 1-4.

In another preferred example, the number of the third movable chutes is 2-4.

In another preferred example, the third movable chutes are arranged in sequence from top to bottom.

In another preferred embodiment, the chamber height of the first upper chamber is lower than the chamber height of the first lower chamber.

In another preferred embodiment, the kit is made of a light-shielding material.

In another preferred example, the light-shielding material is opaque plastic.

In another preferred example, the reagent bottle is a reagent bottle containing a reagent.

In another preferred embodiment, the first upper chamber is used for placing a reagent bottle.

In another preferred example, the first upper chamber is used for placing a reagent bottle which is stored at normal temperature and contains reagents.

In another preferred example, the first lower chamber is used for placing a reagent bottle.

In another preferred example, the first lower chamber is used for placing a reagent bottle which is stored at low temperature and is filled with reagents.

In another preferred embodiment, the second upper chamber is used for placing experimental materials.

In another preferred embodiment, the second lower chamber is used for placing a reaction bottle or a reagent bottle.

In another preferred embodiment, the second lower chamber is used for placing a reaction bottle containing a low-temperature reaction liquid or a reagent bottle containing a reagent for low-temperature preservation.

In another preferred example, the body of the reagent bottle is provided with a label for marking the internal reagent.

In another preferred embodiment, a bottom plate corresponding to the first lower chamber is provided with a supporting plate, a surface of the left side plate and a surface of the first partition plate facing the left chamber are provided with fourth movable sliding grooves along the front-back horizontal direction, and the supporting plate is arranged in the fourth movable sliding grooves and slides in the front-back horizontal direction.

In another preferred example, the supporting plate is a heat conducting plate.

In another preferred embodiment, the supporting plate is provided with heat conducting holes.

In another preferred embodiment, the plastic foam is arranged on the supporting plate.

In another preferred example, the accommodating cavity of the lower cooling box is used for accommodating a refrigerant.

In another preferred example, the refrigerating substance is ice bags or dry ice.

In another preferred embodiment, the lower reagent box is provided with a handle 23.

It is understood that within the scope of the present invention, the above-mentioned technical features of the present invention and those specifically described below (e.g. in the examples) can be combined with each other to constitute new or preferred technical solutions. Not to be reiterated herein, but to the extent of space.

Drawings

Fig. 1 is a schematic structural diagram of a reagent kit according to a preferred embodiment of the present invention.

Fig. 2 is a longitudinal sectional view of a reagent cartridge according to a preferred embodiment of the present invention.

Wherein the various numbers in the figures represent:

10 is an upper reagent box, 11 is a top cover, 12 is a bottom plate, 13 is a left side plate, 14 is a right side plate, 15 is a first clapboard, 16 is a first upper chamber, 17 is a first lower chamber, 18 is a second clapboard, 19 is a second upper chamber, 110 is a second lower chamber, 111 is a third clapboard, 20 is a lower cooling box, 21 is a clapboard, 22 is an accommodating chamber and 23 is a handle.

Detailed Description

The inventor develops a kit through extensive and intensive research, wherein the kit comprises a kit body, the kit body is provided with an upper kit body and a lower cooling box, the upper kit body is divided into four chambers by a first partition plate, a second partition plate and a third partition plate, the lower cooling box is internally provided with a partition plate, the lower cooling box is divided into 2 accommodating chambers by the partition plate, and a refrigerant (such as an ice bag or dry ice) can be placed in the 2 accommodating chambers of the lower cooling box according to requirements, so that the first lower chamber and the second lower chamber can keep a low-temperature environment, and therefore the requirement that reagent bottles or reaction containers (such as reaction bottles) which are placed in the first lower chamber and the second lower chamber and are filled with reagents are stored, transported or reacted in the low-temperature environment can be met. In addition, left front bezel establish first activity spout in and vertical direction slide, right front bezel establish second activity spout in and vertical direction slide, the second baffle establish third activity spout in and the horizontal direction slides, along vertical direction first activity spout and second activity spout, along the third activity spout of horizontal direction around convenient first chamber, the second of going up the chamber and the second in reagent bottle or experimental material take down in the chamber. Furthermore, the kit can realize that normal atmospheric temperature preserves reagent bottle, low temperature and preserves reagent bottle and experimental materials and be located different cavities and preserve or transport to avoid experimental materials (like 96 orifice plates) to mix together with the reagent bottle. On this basis, the inventors have completed the present invention.

Term(s) for

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

As used herein, the terms "comprises," "comprising," and "including" are used interchangeably and refer not only to the closed definition but also to the open definition.

As used herein, the terms "upper," "lower," "left," "right," "bottom," "top," "front," and "rear," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the invention, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention.

As used herein, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to a number of the technical features indicated. Thus, features defined as "first," "second," etc. may explicitly or implicitly include one or more of the features.

The term "plurality" as used herein refers to two or more, such as 2-4.

For convenience of explanation, the present invention will be further described with reference to fig. 1 and 2, it being understood that the drawings are for convenience of description and do not limit the scope of the invention.

Typically, the present invention provides a kit, which comprises a box body provided with an upper kit 10 and a lower cooling box 20;

the upper kit comprises an upper kit body, wherein the upper kit body comprises a top cover 11, a bottom plate 12, a front plate, a rear plate, a left side plate 13 and a right side plate 14;

the upper box body is provided with a first partition plate 15 which divides the interior of the upper box body into a left chamber and a right chamber, the first partition plate divides the front plate into a left front plate and a right front plate, the first partition plate divides the rear plate into a left rear plate and a right rear plate, the left chamber is provided with a second partition plate 18 which divides the left chamber into a first upper chamber 16 and a first lower chamber 17, and the right chamber is provided with a third partition plate 111 which divides the right chamber into a second upper chamber 19 and a second lower chamber 110;

a first movable sliding groove along the vertical direction is arranged on the surfaces of the left side plate and the first partition plate facing the left chamber, and the left front plate is arranged in the first movable sliding groove and slides in the vertical direction; a second movable sliding groove along the vertical direction is formed in the surfaces of the right side plate and the first partition plate facing the right chamber, and the right front plate is arranged in the second movable sliding groove and slides in the vertical direction; a third movable sliding groove along the front-back horizontal direction is formed in the surfaces of the left side plate and the first partition plate facing the left chamber, and the second partition plate is arranged in the third movable sliding groove and slides in the front-back horizontal direction;

the upper surfaces of two sides of the lower cooling box are provided with sliding blocks, two sides of the lower bottom surface of the bottom plate of the upper kit are provided with sliding grooves matched and connected with the sliding blocks, and the lower cooling box can slide along the front-back horizontal direction of the bottom plate of the upper kit through the movement of the sliding blocks in the sliding grooves;

the surfaces of a left side plate, a left front plate, a first partition plate and a left rear plate which correspond to the first lower chamber are provided with heat insulation layers, the surfaces of a right side plate, a right front plate, the first partition plate and a right rear plate which correspond to the second lower chamber are provided with heat insulation layers, the second partition plate, the third partition plate and the bottom plate of the upper kit are made of heat insulation materials, and the bottom plate of the upper kit is provided with a heat conduction hole communicated with the containing cavity of the lower cooling box;

the lower cooling box in be equipped with division board 21, the division board with lower cooling box separate into 2 and hold chamber 22, work as lower cooling box be located when the box internal chamber of kit, the board plane of division board with the board plane of first baffle is located same vertical plane.

According to actual save, transportation and reaction condition, the kit can satisfy simultaneously and preserve, transport the reagent bottle that is equipped with reagent of needs low temperature, normal atmospheric temperature environment save or reaction, typical work theory of operation as follows:

the reagent box of the utility model comprises a box body, the box body is provided with an upper reagent box and a lower cooling box, the lower cooling box is divided into 2 accommodating cavities by the division plate, when the lower cooling box is positioned in the inner cavity of the box body of the reagent box, the plate plane of the division plate and the plate plane of the first division plate are positioned on the same vertical plane;

according to the requirement, a refrigerating substance (such as an ice bag or dry ice) can be placed in two accommodating cavities of the lower cooling box at the same time, or the refrigerating substance can be placed in the accommodating cavity of one of the cooling boxes, so that when the refrigerating substance is placed in the accommodating cavity of the cooling box, the refrigerating substance in the accommodating cavity enables the cavity (such as the first lower cavity and/or the second lower cavity) corresponding to the accommodating cavity to be in a low-temperature environment through the heat transfer effect of the heat conduction hole which is formed in the bottom plate of the upper reagent kit and communicated with the accommodating cavity of the lower cooling box, therefore, when reagent bottles placed in the reagent kit need to be stored or transported at a low temperature, the reagent bottles can be placed in the first lower cavity and/or the second lower cavity, and the refrigerating substance can be placed in the accommodating cavity of the lower cooling box corresponding to the first lower cavity and/or the second lower cavity. Since the refrigerant placed in the accommodating cavity can enable the first lower chamber and/or the second lower chamber to be in a low-temperature environment, some low-temperature reactions can be performed in the first lower chamber and/or the second lower chamber;

in addition, because the first upper chamber and the second upper chamber are not in contact with the two accommodating chambers of the lower cooling box, the refrigerating substances placed in the two accommodating chambers of the lower cooling box can not enable the first upper chamber and the second upper chamber to be in a low-temperature environment, and the first upper chamber and the second upper chamber to be in a room-temperature environment, so that the first upper chamber and the second upper chamber can be used for placing reagent bottles or experimental materials containing reagents which do not need to be stored at low temperature or cannot be stored at low temperature;

to sum up, the kit can satisfy simultaneously and preserve reagent bottle or experimental material, low temperature preservation reagent bottle to needs normal atmospheric temperature and preserve or transport in the cavity of difference.

The reagent box can avoid reagent bottle and experimental materials to mix together, typical work theory of operation as follows:

in the kit, experimental material (such as 96 orifice plates, centrifuging tube, pipette etc.) and the reagent bottle that is equipped with reagent can place in the cavity of difference to avoid reagent bottle and experimental material to mix together, the problem of inconvenience is brought for experimental operator. For example, the experimental material (such as 96-well plate, centrifuge tube, pipette, etc.) is placed in the second upper chamber, the reagent bottle with reagent that needs to be preserved at normal temperature is placed in the first upper chamber, the reagent bottle with reagent that needs to be preserved at low temperature is placed in the first lower chamber and/or the second lower chamber, and the refrigerating substance is placed in the accommodating cavity of the lower cooling box, so that the reagent bottle and the experimental material are prevented from being mixed together.

Reagent box can conveniently be equipped with taking of reagent bottle, the experimental materials of reagent, typical work theory of operation as follows:

in the kit, the left front plate is arranged in the first movable sliding groove and the vertical direction slides, the right front plate is arranged in the second movable sliding groove and the vertical direction slides, the second clapboard is arranged in the third movable sliding groove and the front and back horizontal directions slide. The utility model discloses in, along the first movable chute and the second movable chute of vertical direction, along the third movable chute of horizontal direction around, make things convenient for taking of the reagent bottle that is equipped with reagent and experimental materials (like 96 orifice plates) in cavity and the second cavity down on first last cavity, first cavity, the second. For example, when the reagent bottle that is equipped with reagent of first cavity of taking needs, with the vertical motion that makes progress of left front bezel along first activity spout, thereby expose first cavity, take reagent bottle from first cavity, and in the same way, place the reagent bottle that is equipped with reagent or the reaction bottle that is equipped with reaction liquid in second cavity down through the vertical motion that makes progress of right front bezel along second activity spout, expose second cavity down, take reagent bottle or reaction bottle from second cavity down, thereby the loaded down with trivial details operation that can take down layer reagent bottle after the double-deck kit in the current technique need take out upper reagent bottle has been avoided. For another example, to placing reagent bottle (like little reagent bottle) on the second baffle, if take out from the kit top (opening top cap department promptly), the operator often can only observe the bottle lid of the reagent bottle on the second baffle, consequently often unable quick differentiation every reagent bottle on the second baffle in the kit, when the reagent bottle that will place on the second baffle is taken out, can be earlier with left front bezel along the vertical motion of first activity spout upwards, then will place the second baffle of reagent bottle and slide along third activity spout horizontal direction around, at this moment, place the reagent bottle on the second baffle and shift out from the kit, very convenient taking to the reagent bottle of having avoided among the prior art to take the reagent bottle from the top cap department leads to unable shortcoming of distinguishing every reagent bottle fast.

In a preferred embodiment of the present invention, the lower cooling box is a thermal insulation box. Preferably, the lower cooling box is made of a thermal insulation material.

In a preferred embodiment, the thermal insulation layer is made of thermal insulation material.

In a preferred embodiment of the present invention, the thermal insulation material includes (but is not limited to): an EPC thermal insulation material, a thermal insulation plastic foam, or a combination thereof. Typically, the thermal insulation plastic foam is polystyrene foam. As used herein, the EPC thermal insulation material is a rigid foam board manufactured by using a polystyrene resin as a raw material, adding other raw and auxiliary materials and a polymer, heating and mixing by an euro-energy mold temperature machine while injecting a catalyst, and then extrusion-molding, and is known as an extruded polystyrene foam for thermal insulation.

In another preferred example, the accommodating cavity is used for placing a refrigerating substance. Typically, the refrigerant is an ice bag or dry ice.

In another preferred embodiment of the present invention, the second partition plate is provided with a cushion pad. The buffer pad plays a buffering role, can play a buffering role to the reagent bottle of placing at the second baffle, avoids the shock in transfer, the transportation to cause the destruction to the reagent bottle. Typically, the cushion pad is an elastic material pad.

In another preferred embodiment, the cushion pad is an elastic material pad.

In another preferred example, the buffer pad is provided with plastic foam, and the plastic foam is provided with a hole for accommodating the reagent bottle. Reagent bottles can be fixed in the holes, so that the protection effect of the reagent kit on the reagent bottles in the storage and transportation processes is improved.

In another preferred embodiment of the present invention, the bottom plate corresponding to the first lower chamber is provided with a plastic foam, and the plastic foam is provided with a hole for accommodating the reagent bottle. Reagent bottles can be fixed in the holes, so that the protection effect of the reagent kit on the reagent bottles in the storage and transportation processes is improved.

In another preferred embodiment, the second partition board is provided with plastic foam, and the plastic foam is provided with holes for accommodating the reagent bottles. Reagent bottles can be fixed in the holes, so that the protection effect of the reagent kit on the reagent bottles in the storage and transportation processes is improved.

In another preferred embodiment of the present invention, the bottom plate corresponding to the first lower chamber is provided with a supporting plate, the left side plate and the first partition plate facing the left chamber are provided with a fourth movable sliding groove along the front-rear horizontal direction on the surface, and the supporting plate is disposed in the fourth movable sliding groove and slides along the front-rear horizontal direction. The reagent bottle that places in can further make things convenient for the taking of the reagent bottle of placing in the first cavity of following is removed along the fourth activity spout of horizontal direction around to the backup pad, for example, when the reagent bottle that is equipped with reagent of the first cavity of following (the reagent bottle is placed in the backup pad) needs to be taken, with the vertical motion that makes progress of left front bezel along first activity spout to expose first cavity of following, then, slide the backup pad along fourth activity spout horizontal direction around, at this moment, the reagent bottle of placing in the backup pad shifts out from the kit, very conveniently takes.

In another preferred embodiment of the present invention, the number of the third movable chutes is one or more (preferably 1-4). In the kit, the setting of a plurality of third activity spouts can satisfy multiple difference in height reagent bottle and place in first last cavity and first cavity, for example, when the reagent bottle that is equipped with reagent that the low temperature was preserved highly higher, the second baffle can be established in higher third activity spout for the cavity height increase of first cavity, so that deposit the great reagent bottle of high height in the first cavity.

In another preferred embodiment of the present invention, the kit is made of a light-shielding material. In another preferred example, the light-shielding material is opaque plastic. The shading material can be protected from light by a light-sensitive degradation reagent.

The utility model discloses a main advantage includes:

1. the reagent box can satisfy the reagent bottle that is equipped with reagent that needs low temperature, normal atmospheric temperature environment to preserve, transport.

2. Reagent box can avoid reagent bottle and experimental materials to mix together, need sort again during the use, bring loaded down with trivial details problem for experiment operator.

3. Reagent box can conveniently be equipped with taking of reagent bottle, the experimental materials of reagent.

The present invention will be further described with reference to the following specific examples. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. The experimental procedures, in which specific conditions are not noted in the following examples, are generally carried out under conventional conditions or conditions recommended by the manufacturers.

Example 1

The embodiment provides a kit, and the kit comprises a kit body, wherein the kit body is provided with an upper kit 10 and a lower cooling kit 20;

the upper kit comprises an upper kit body, the upper kit body comprises a top cover 11, a bottom plate 12, a front plate, a rear plate, a left side plate 13 and a right side plate 14, and the top cover is hinged with the upper kit body through a hinge;

the upper box body is provided with a first partition plate 15 which divides the interior of the upper box body into a left chamber and a right chamber, the first partition plate divides the front plate into a left front plate and a right front plate, the first partition plate divides the rear plate into a left rear plate and a right rear plate, the left chamber is provided with a second partition plate 18 which divides the left chamber into a first upper chamber 16 and a first lower chamber 17, and the right chamber is provided with a third partition plate 111 which divides the right chamber into a second upper chamber 19 and a second lower chamber 110;

a first movable sliding groove along the vertical direction is arranged on the surfaces of the left side plate and the first partition plate facing the left chamber, and the left front plate is arranged in the first movable sliding groove and slides in the vertical direction; a second movable sliding groove along the vertical direction is formed in the surfaces of the right side plate and the first partition plate facing the right chamber, and the right front plate is arranged in the second movable sliding groove and slides in the vertical direction; a third movable sliding groove along the front-back horizontal direction is formed in the surfaces of the left side plate and the first partition plate facing the left chamber, and the second partition plate is arranged in the third movable sliding groove and slides in the front-back horizontal direction;

the upper surfaces of two sides of the lower cooling box are provided with sliding blocks, two sides of the lower bottom surface of the bottom plate of the upper kit are provided with sliding grooves matched and connected with the sliding blocks, and the lower cooling box can slide along the front-back horizontal direction of the bottom plate of the upper kit through the movement of the sliding blocks in the sliding grooves;

the surfaces of a left side plate, a left front plate, a first partition plate and a left rear plate which correspond to the first lower chamber are provided with heat insulation layers, the surfaces of a right side plate, a right front plate, the first partition plate and a right rear plate which correspond to the second lower chamber are provided with heat insulation layers, the second partition plate, the third partition plate and the bottom plate of the upper kit are made of heat insulation materials, and the bottom plate of the upper kit is provided with a heat conduction hole communicated with the containing cavity of the lower cooling box;

the lower cooling box in be equipped with division board 21, the division board with lower cooling box separate into 2 and hold chamber 22, work as lower cooling box be located when the box internal chamber of kit, the board plane of division board with the board plane of first baffle is located same vertical plane.

Typically, one working principle of embodiment 1 is as follows:

the reagent bottle with reagent which needs to be stored at low temperature is placed in the first upper chamber of the upper reagent box, the reagent bottle with reagent which does not need to be stored at low temperature or can not be stored at low temperature is placed in the first upper chamber of the upper reagent box, the experimental material (such as 96-pore plate, centrifuge tube, pipette tube and the like) is placed in the second upper chamber of the upper reagent box, during the storage and transportation process, the refrigerating material (such as ice bag or dry ice) is placed in the accommodating cavity of the lower cooling box corresponding to the first lower chamber, and the refrigerating material is in low temperature environment through the heat transfer function of the heat conduction hole which is arranged on the bottom plate of the upper reagent box and communicated with the accommodating cavity of the lower cooling box, and the first upper chamber of the upper reagent box is in room temperature environment, therefore, the reagent box of embodiment 1 can simultaneously satisfy the requirements of low temperature, And storing and transporting the reagent bottles which are stored in the normal temperature environment and are filled with the reagents. In addition, when the reagent of the reagent kit needs to react in a low-temperature environment, the reaction bottle containing the reaction liquid is placed in the second lower chamber, a refrigerating object (such as an ice bag or dry ice) is placed in the accommodating cavity of the lower cooling box corresponding to the second lower chamber, and the refrigerating object enables the second lower chamber of the upper reagent kit to be in the low-temperature environment through the heat transfer effect of the heat conduction hole which is formed in the bottom plate of the upper reagent kit and communicated with the accommodating cavity of the lower cooling box, so that the reaction liquid can perform low-temperature reaction in the second lower chamber. Still, left front bezel establish first activity spout in and vertical direction slide, right front bezel establish second activity spout in and vertical direction slide, the second baffle establish third activity spout in and around the horizontal direction slide, along vertical direction first activity spout and second activity spout, along around the horizontal direction third activity spout make things convenient for taking of reagent bottle or experimental material in the cavity under first chamber, the second.

All documents mentioned in this application are incorporated by reference into this application as if each were individually incorporated by reference. Furthermore, it should be understood that various changes and modifications of the present invention may be made by those skilled in the art after reading the above teachings of the present invention, and these equivalents also fall within the scope of the appended claims.

Claims (10)

1. The kit is characterized by comprising a kit body, wherein the kit body is provided with an upper kit (10) and a lower cooling box (20);

the upper kit comprises an upper kit body, wherein the upper kit body comprises a top cover (11), a bottom plate (12), a front plate, a rear plate, a left side plate (13) and a right side plate (14);

the upper box body is provided with a first partition plate (15) for dividing the interior of the upper box body into a left chamber and a right chamber, the first partition plate divides the front plate into a left front plate and a right front plate, the first partition plate divides the rear plate into a left rear plate and a right rear plate, the left chamber is provided with a second partition plate (18) for dividing the left chamber into a first upper chamber (16) and a first lower chamber (17), and the right chamber is provided with a third partition plate (111) for dividing the right chamber into a second upper chamber (19) and a second lower chamber (110);

a first movable sliding groove along the vertical direction is arranged on the surfaces of the left side plate and the first partition plate facing the left chamber, and the left front plate is arranged in the first movable sliding groove and slides in the vertical direction; a second movable sliding groove along the vertical direction is formed in the surfaces of the right side plate and the first partition plate facing the right chamber, and the right front plate is arranged in the second movable sliding groove and slides in the vertical direction; a third movable sliding groove along the front-back horizontal direction is formed in the surfaces of the left side plate and the first partition plate facing the left chamber, and the second partition plate is arranged in the third movable sliding groove and slides in the front-back horizontal direction;

the upper surfaces of two sides of the lower cooling box are provided with sliding blocks, two sides of the lower bottom surface of the bottom plate of the upper kit are provided with sliding grooves matched and connected with the sliding blocks, and the lower cooling box can slide along the front-back horizontal direction of the bottom plate of the upper kit through the movement of the sliding blocks in the sliding grooves;

the surfaces of a left side plate, a left front plate, a first partition plate and a left rear plate which correspond to the first lower chamber are provided with heat insulation layers, the surfaces of a right side plate, a right front plate, the first partition plate and a right rear plate which correspond to the second lower chamber are provided with heat insulation layers, the second partition plate, the third partition plate and the bottom plate of the upper kit are made of heat insulation materials, and the bottom plate of the upper kit is provided with a heat conduction hole communicated with the containing cavity of the lower cooling box;

the lower cooling box in be equipped with division board (21), the division board with lower cooling box separate into 2 and hold chamber (22), work as lower cooling box be located when the box internal chamber of kit, the board plane of division board with the board plane of first baffle is located same vertical plane.

2. The kit of claim 1, wherein the lower cooling chamber is made of a thermally insulating material.

3. The kit of claim 1, wherein the second separator is a buffer liner.

4. The kit of claim 1, wherein the top lid is hingedly connected to the top case by a hinge.

5. The reagent kit of claim 1, wherein the second partition is provided with a plastic foam, and the plastic foam is provided with a hole for accommodating a reagent bottle.

6. The reagent kit of claim 1, wherein the corresponding bottom plate in the first lower chamber is provided with plastic foam, and the plastic foam is provided with holes for accommodating reagent bottles.

7. The kit of claim 1, wherein the number of the third movable chutes is one or more.

8. The kit of claim 1, wherein the kit is made of a light-blocking material.

9. The reagent kit as claimed in claim 1, wherein the bottom plate of the first lower chamber is provided with a support plate, the left side plate and the surface of the first partition plate facing the left chamber are provided with a fourth movable sliding groove along the front-rear horizontal direction, and the support plate is arranged in the fourth movable sliding groove and slides in the front-rear horizontal direction.

10. The kit of claim 1, wherein the lower cooling box has a cooling substance disposed in the receiving cavity.

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