CN220640695U - In-vitro cell detection kit - Google Patents

Abstract

The utility model relates to the technical field of reagent boxes, in particular to an in-vitro cell detection reagent box, which comprises a box body and a top cover, wherein the top cover is covered on the box body, the inner space of the box body is divided into the same placing groove by a plurality of partition boards, a plurality of clamping block assemblies which are sequentially distributed at equal intervals are arranged in the placing groove, each clamping block assembly consists of a fixed clamping block and a movable clamping block, a groove for clamping a reagent bottle is formed in the surface of the fixed clamping block, which is opposite to the movable clamping block, the fixed clamping block is fixedly arranged in the placing groove, the movable clamping block elastically slides along the groove of the placing groove in the direction of approaching or separating from the fixed clamping block, the movable clamping block can be ensured to elastically move along the transverse direction by the elastic acting force of a spring, and the two clamping blocks are mutually matched to ensure the position fixation of the reagent bottle.

Description

In-vitro cell detection kit

Technical Field

The utility model relates to the technical field of kits, in particular to an in-vitro cell detection kit.

Background

The kit is used for containing chemical reagents for detecting chemical components, drug residues, virus types and the like, and the cell detection kit is a box for containing the chemical reagents for detecting the cell types, so that the appearance of the cell detection kit can enable experimenters to save complex reagent preparation and optimization time, and the cell detection kit can be prepared according to specifications. The traditional cell detection kit has a complex structure, and a reagent bottle in the kit is not easy to take and place, so that inconvenience is brought to experimenters in preparing medicaments, and therefore, the in-vitro cell detection kit is provided.

Disclosure of Invention

The utility model aims to solve the defects in the prior art and provides an in-vitro cell detection kit.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides an external cell detection kit, including box body and top cap, the top cap lid closes on the box body, the inner space of box body is distinguished the same standing groove through a plurality of baffle, the inside of standing groove is provided with the clamp splice subassembly that a plurality of equidistant was arranged in proper order, the clamp splice subassembly comprises fixed clamp splice and activity clamp splice, the recess that is used for the card to establish the reagent bottle is all offered on the surface that fixed clamp splice is relative with the activity clamp splice, fixed clamp splice fixed mounting is in the standing groove, the activity clamp splice is to being close to or keep away from the direction elastic sliding of fixed clamp splice along the channel of standing groove.

In a preferred technical scheme, the groove walls at two sides of the placing groove are respectively provided with a sliding groove, and the outer walls at two sides of the movable clamping block are respectively provided with a sliding block which is in sliding fit with the sliding grooves.

In a preferred technical scheme, the movable clamping block is hinged with a first movable arm on the side surface of the movable clamping block, which is far away from the fixed clamping block, the movable end of the first movable arm is hinged with a second movable arm, and the tail end of the second movable arm is hinged on the surface of the fixed clamping block adjacent to the second movable arm or the inner wall of the placing groove.

In a preferred technical scheme, the movable clamping block is provided with a spring on the side surface of the movable clamping block, which is far away from the fixed clamping block, and the other end of the spring is butted on the surface of the fixed clamping block adjacent to the movable clamping block or the inner wall of the placing groove.

In a preferred technical scheme, locating holes are respectively formed in four corners of the upper surface of the box body, and locating columns matched with the locating holes are respectively arranged in four corners of the bottom surface of the top cover.

In a preferred technical scheme, the grooves formed on the surfaces of the fixed clamping blocks, which are opposite to the movable clamping blocks, are designed to be V-shaped grooves or U-shaped grooves.

The beneficial effects of the utility model are as follows: through the kit structure that this scheme provided, solved the reagent bottle of depositing in the kit and got the inconvenient problem of putting, the suggestion of this kit structure can ensure through the elastic force of spring that the activity clamp splice is along horizontal elastic movement, and two clamp splice mutually support and can ensure reagent bottle fixed in position, under such design, both conveniently deposit the reagent bottle, also conveniently take the reagent bottle simultaneously, provide convenience for manual operation.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a kit according to the present utility model;

FIG. 2 is a schematic top view of a cartridge body of the kit according to the present utility model;

fig. 3 is a schematic structural diagram of the assembly relationship between a fixed clamping block and a movable clamping block in a single placing groove according to the present utility model.

In the figure: 1. a case body; 2. a partition plate; 3. a placement groove; 4. fixing the clamping blocks; 5. a movable clamping block; 6. a chute; 7. a first movable arm; 8. a second movable arm; 9. a top cover; 10. positioning holes; 11. positioning columns; 12. a spring; 13. reagent bottles.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

In this embodiment, referring to fig. 1-3, an in vitro cell detection kit includes a case body 1 and a top cover 9, the top cover 9 is covered on the case body 1, positioning holes 10 are respectively formed at four corners of the upper surface of the case body 1, and positioning columns 11 adapted to the positioning holes 10 are respectively provided at four corners of the bottom surface of the top cover 9. The top cover 9 is covered on the box body 1 to realize sealed storage.

The inner space of box body 1 is divided into the same standing groove 3 through a plurality of baffle 2, the inside of standing groove 3 is provided with the clamp splice subassembly that a plurality of equidistant was arranged in proper order, the clamp splice subassembly comprises fixed clamp splice 4 and movable clamp splice 5, the recess that is used for the card to establish reagent bottle 13 is all offered on the surface that fixed clamp splice 4 is relative with movable clamp splice 5, fixed clamp splice 4 fixed mounting is in standing groove 3, movable clamp splice 5 is to being close to or keep away from the direction elastic sliding of fixed clamp splice 4 along the channel of standing groove 3.

As shown in fig. 3, the groove walls on two sides of the placing groove 3 are respectively provided with a sliding groove 6, and corresponding sliding blocks which are in sliding fit with the sliding grooves 6 are respectively arranged on the outer walls on two sides of the movable clamping block 5. In addition, referring to fig. 3, the movable clamping block 5 is hinged with a first movable arm 7 at the side surface far away from the fixed clamping block 4, the movable end of the first movable arm 7 is hinged with a second movable arm 8, and the tail end of the second movable arm 8 is hinged on the surface of the fixed clamping block 4 adjacent to the second movable arm or the inner wall of the placing groove 3. The movable clamping block 5 is provided with a spring 12 at the side surface far away from the fixed clamping block 4, and the other end of the spring 12 is butted on the surface of the fixed clamping block 4 adjacent to the spring or the inner wall of the placing groove 3. The spring 12 can provide elasticity, under normal conditions, the movable clamping block 5 is pressed against the fixed clamping block 4, when the reagent bottle 13 is inserted, only the movable clamping block 5 is required to be pushed out, the reagent bottle 13 can be placed by expanding the distance between the fixed clamping block 4 and the movable clamping block 5, the spring 12 has elastic potential energy after being compressed, the reagent bottle 13 can be placed completely, the rebound resilience of the spring 12 can press the movable clamping block 5 against the reagent bottle 13 again, thereby clamping the reagent bottle 13 in the middle, the first movable arm 7 and the second movable arm 8 are designed to ensure that the movable clamping block 5 has certain stability when sliding back and forth, and also to avoid that the spring 12 is pressed aside unevenly when the spring 12 is compressed, and finally, the spring 12 has certain direction when sliding, so as to ensure that the movable clamping block 5 does not have a channeling phenomenon.

It should be noted that, the grooves formed on the opposite surfaces of the fixed clamping block 4 and the movable clamping block 5 are designed as V-shaped grooves or U-shaped grooves. The notch design of the groove is used for conveniently inserting the reagent bottle 13, and meanwhile, the function of clamping the reagent bottle 13 can be achieved, and the position of the reagent bottle 13 is ensured to be fixed. In order to prevent the movable clamp block 5 from pressing the reagent bottle 13, a buffer rubber pad should be adhered to the wall of the V-shaped groove or the U-shaped groove.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (6)

1. The utility model provides an external cell detection kit, its characterized in that, is in including box body (1) and top cap (9), top cap (9) lid is in on box body (1), the inner space of box body (1) is distinguished into the same standing groove (3) through a plurality of baffle (2), the inside of standing groove (3) is provided with the clamp splice subassembly that a plurality of equidistant is arranged in proper order, the clamp splice subassembly comprises fixed clamp splice (4) and movable clamp splice (5), and the recess that is used for the card to establish reagent bottle (13) is all offered on the surface that fixed clamp splice (4) are relative with movable clamp splice (5), fixed clamp splice (4) fixed mounting is in standing groove (3), the direction elasticity slip that movable clamp splice (5) are close to or keep away from fixed clamp splice (4) along the channel of standing groove (3).

2. The in-vitro cell detection kit according to claim 1, wherein sliding grooves (6) are respectively formed in the groove walls on two sides of the placing groove (3), and sliding blocks which are in sliding fit with the sliding grooves (6) are respectively arranged on the outer walls on two sides of the movable clamping block (5).

3. An in vitro cell detection kit according to claim 1, wherein the movable clamping block (5) is hinged with a first movable arm (7) at the side surface of the movable clamping block (5) far away from the fixed clamping block (4), the movable end of the first movable arm (7) is hinged with a second movable arm (8), and the tail end of the second movable arm (8) is hinged on the surface of the fixed clamping block (4) adjacent to the second movable arm or the inner wall of the placing groove (3).

4. An in vitro cell detection kit according to claim 3, wherein the movable clamping block (5) is provided with a spring (12) at the side thereof away from the fixed clamping block (4), and the other end of the spring (12) is butted on the surface of the fixed clamping block (4) adjacent to the spring or the inner wall of the placing groove (3).

5. The in vitro cell detection kit according to claim 1, wherein positioning holes (10) are respectively formed in four corners of the upper surface of the kit body (1), and positioning columns (11) adapted to the positioning holes (10) are respectively arranged in four corners of the bottom surface of the top cover (9).

6. The in vitro cell detection kit according to claim 1, wherein the surface of the fixed clamping block (4) opposite to the movable clamping block (5) is provided with a groove designed as a V-shaped groove or a U-shaped groove.