CN220484001U - Immune cell storage device - Google Patents

Abstract

The utility model provides an immune cell storage device, which relates to the technical field of immune cell storage and comprises a storage box, wherein a sealing door is hinged to one side surface of the storage box through a hinge, a plurality of brackets are fixedly arranged in the storage box, and a plurality of freezers are arranged on one side of the inner wall of the storage box. According to the utility model, a worker places the test tube in the positioning hole, then presses the two adjacent connecting blocks to enable the two ejector blocks to move relatively, so that one side, away from each other, of the two adjacent ejector blocks is separated from the inner wall of the sliding groove, then pushes the two adjacent sliding blocks to enable the two clamping plates to move relatively, after the opposite side of the two clamping plates is attached to the tube wall of the test tube, the worker releases the connecting blocks, and under the action of the elastic force of spring reset, the clamping plates can clamp the test tube stably, so that test tubes with different specifications can be fixed in the positioning hole, and the practicability is improved.

Description

Immune cell storage device

Technical Field

The utility model relates to the technical field of immune cell storage, in particular to an immune cell storage device.

Background

Immune cells refer to cells involved in or associated with an immune response. Including lymphocytes, dendritic cells, monocytes/macrophages, granulocytes, mast cells, and the like. Immune cells can be divided into a variety of classes, and various immune cells play an important role in humans. In a laboratory, when the immune cells are required to be stored, an immune cell storage gradient cooling device is required to be used, the immune cell storage gradient cooling device is provided by the patent of CN201821180899.X, and comprises a cabinet body, a heat radiation port, a handle, a control panel, a storage chamber, a fan door, a telescopic storage plate, a material infusion hole and an observation window.

However, in the above technical scheme, when the gradient cooling device for immune cell storage is used, the holes formed in the storage plate can only be used for placing immune cell test tubes with fixed diameters, and test tubes with different specifications cannot be placed, so that the practicability is greatly reduced.

Disclosure of Invention

The utility model mainly aims to provide an immune cell storage device, which can effectively solve the problem that when an immune cell storage gradient cooling device in the background technology is used, holes arranged on a storage plate can only be used for placing immune cell test tubes with fixed diameters, and test tubes with different specifications cannot be placed, so that the practicability is greatly reduced.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

an immune cell storage device comprises a storage box, wherein a sealing door is hinged to one side surface of the storage box through a hinge;

a plurality of brackets are fixedly arranged in the storage box, and a plurality of freezers are arranged on one side of the inner wall of the storage box;

every the locating hole has all been run through to the bracket upper surface, every two spouts have all been seted up to bracket upper surface and be located the locating hole position, and two adjacent the relative one end of spout is linked together with the locating hole that corresponds respectively, every all slide in the spout is provided with the slider, and two adjacent the opposite one side of slider all has splint through support fixed mounting.

Preferably, a connecting groove is formed in the upper surface of each sliding block, and two connecting blocks are slidably arranged in each connecting groove;

and each connecting groove inner wall both side surfaces are penetrated and provided with an avoidance groove, and two adjacent connecting blocks are fixedly provided with a top block on one side far away from each other.

Preferably, a connecting rod is fixedly installed between two sides of the inner wall of each connecting groove, two adjacent connecting blocks are respectively arranged on two sides of a corresponding connecting rod body in a sliding mode, and an elastic piece capable of being compressed and reset is sleeved in the middle of the connecting rod body.

Preferably, the elastic member is a spring.

Preferably, first mounting grooves are formed in the surfaces of two sides of the inner wall of each sliding groove, and first magnetic strips are fixedly arranged in each first mounting groove;

two adjacent kicking blocks keep away from one side surface each other and have all seted up the second mounting groove, every in the second mounting groove all fixed mounting have the second magnetic stripe, adjacent first magnetic stripe and second magnetic stripe.

Preferably, the two adjacent opposite side surfaces of the clamping plates are provided with arc grooves.

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

(1) The staff is through placing the test tube in the locating hole, then the staff presses two adjacent connecting blocks for two kicking blocks relative movement, thereby make two adjacent kicking blocks keep away from one side each other and break away from with the spout inner wall, then the staff promotes two adjacent sliders, make two splint relative movement, behind the laminating of the pipe wall of two opposite sides and test tube at two splint, the staff loosens the connecting block, spring reset, under spring reset's elasticity effect, kicking block one side closely laminates with the spout inner wall, thereby make splint can be stable carry out the centre gripping to the test tube, thereby can fix the test tube of different specifications in the messenger locating hole, thereby the practicality has been increased.

Drawings

FIG. 1 is a schematic diagram of the whole structure of an immune cell storage device according to the present utility model;

FIG. 2 is a schematic diagram showing the front view of an immune cell storage device according to the present utility model;

FIG. 3 is a schematic cross-sectional view of the immune cell storage device of the present utility model at A-A in FIG. 2;

FIG. 4 is a schematic diagram showing a cross-sectional structure of the immune cell memory device of the present utility model at B-B in FIG. 2;

FIG. 5 is an enlarged schematic view of the immune cell storage device of FIG. 3 according to the present utility model.

In the figure: 1. a storage tank; 2. a hinge; 201. sealing the door; 3. a bracket; 4. a freezer; 5. positioning holes; 501. a chute; 502. a slide block; 503. a bracket; 504. a clamping plate; 5021. a connecting groove; 5022. a connecting block; 5023. a connecting rod; 5024. an elastic member; 5025. an avoidance groove; 5026. a top block; 6. a first mounting groove; 601. a first magnetic stripe; 7. a second mounting groove; 701. a second magnetic stripe; 8. an arc-shaped groove.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, 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 utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1 to 5, an immune cell storage device according to an embodiment of the present utility model includes a storage box 1, and a sealing door 201 hinged to one side surface of the storage box 1 through a hinge 2;

a plurality of brackets 3 are fixedly arranged in the storage box 1, and a plurality of freezers 4 are arranged on one side of the inner wall of the storage box 1;

the upper surface of each bracket 3 is provided with a positioning hole 5 in a penetrating way, the upper surface of each bracket 3 is provided with two sliding grooves 501 at the position of the positioning hole 5, the opposite ends of two adjacent sliding grooves 501 are respectively communicated with the corresponding positioning holes 5, a sliding block 502 is arranged in each sliding groove 501 in a sliding way, and the opposite sides of the two adjacent sliding blocks 502 are fixedly provided with clamping plates 504 through brackets 503;

a connecting groove 5021 is formed in the upper surface of each sliding block 502, and two connecting blocks 5022 are slidably arranged in each connecting groove 5021;

the surfaces of two sides of the inner wall of each connecting groove 5021 are provided with avoiding grooves 5025 in a penetrating manner, and a top block 5026 is fixedly arranged on one side, away from each other, of each two adjacent connecting blocks 5022;

a connecting rod 5023 is fixedly arranged between two sides of the inner wall of each connecting groove 5021, two adjacent connecting blocks 5022 are respectively arranged on two sides of a corresponding connecting rod 5023 rod body in a sliding mode, and an elastic piece 5024 capable of being compressed and reset is sleeved in the middle of each connecting rod 5023 rod body;

the elastic member 5024 is a spring.

Staff is through placing the test tube in locating hole 5, then the staff presses two adjacent connecting blocks 5022 for two kicking blocks 5026 relative movement, thereby make two adjacent kicking blocks 5026 keep away from one side each other and break away from with spout 501 inner wall, then the staff promotes two adjacent slider 502, make two splint 504 relative movement, behind the laminating of two splint 504 opposite side and test tube's pipe wall, the staff loosens connecting block 5022, the spring resets, under the spring return's elasticity effect, kicking block 5026 one side closely laminates with spout 501 inner wall, thereby make splint 504 can be stable carry out the centre gripping to the test tube, thereby can fix the test tube of different specifications in the messenger locating hole 5, the practicality has been increased.

First mounting grooves 6 are formed in the surfaces of two sides of the inner wall of each sliding groove 501, and first magnetic strips 601 are fixedly arranged in each first mounting groove 6;

two adjacent top blocks 5026 keep away from one side surface each other and all have seted up second mounting groove 7, and equal fixed mounting has second magnetic stripe 701 in every second mounting groove 7, and first magnetic stripe 601 and second magnetic stripe 701 opposite arrangement.

Through setting up first magnetic stripe 601 and second magnetic stripe 701 of opposite sex, when kicking block 5026 to spout 501 inner wall laminating, first magnetic stripe 601 can attract with second magnetic stripe 701 to make slider 502 be difficult for removing more, and then strengthened the stability when splint 504 carries out the centre gripping to the test tube.

In another embodiment of the present utility model, the opposite side surfaces of two adjacent clamping plates 504 are provided with arc-shaped grooves 8.

Through setting up arc wall 8 for the clamping face of splint 504 can laminate with the pipe wall surface of test tube, has further strengthened the centre gripping effect.

The working principle of the immune cell storage device is as follows:

during the use, the staff is through placing the test tube in locating hole 5, afterwards, the staff presses two adjacent connecting blocks 5022, make two kicking blocks 5026 relative movement, thereby make two adjacent kicking blocks 5026 keep away from one side each other and spout 501 inner wall break away from, afterwards, staff promotes two adjacent slider 502, make two splint 504 relative movement, behind the laminating of the pipe wall of two splint 504 opposite sides and test tube, the staff unclamps connecting block 5022, the spring resets, under the elasticity effect of spring reset, kicking block 5026 one side closely laminates with spout 501 inner wall, thereby make splint 504 can be stable carry out the centre gripping to the test tube, thereby can fix the test tube of different specifications in the locating hole 5, the practicality is increased, afterwards, staff's pipe closes sealing door 201, then start refrigerator 4, make the inside temperature of bin 1 reduce, so that the immune cell in the test tube stores.

It should be understood that the foregoing examples of the present utility model are merely illustrative of the present utility model and not limiting of the embodiments of the present utility model, and that various other changes and modifications can be made by those skilled in the art based on the above description, and it is not intended to be exhaustive of all of the embodiments, and all obvious changes and modifications that come within the scope of the utility model are defined by the following claims.

Claims (6)

1. Immune cell storage device, comprising a storage tank (1), characterized in that: a sealing door (201) is hinged on one side surface of the storage box (1) through a hinge (2);

a plurality of brackets (3) are fixedly arranged in the storage box (1), and a plurality of freezers (4) are arranged on one side of the inner wall of the storage box (1);

every locating hole (5) have all been run through to bracket (3) upper surface, every bracket (3) upper surface just is located two spouts (501) have all been seted up to locating hole (5) position, and two adjacent opposite one end of spout (501) is linked together with corresponding locating hole (5) respectively, every all slide in spout (501) is provided with slider (502), two adjacent opposite one side of slider (502) all has splint (504) through support (503) fixed mounting.

2. An immune cell storage device according to claim 1, wherein: a connecting groove (5021) is formed in the upper surface of each sliding block (502), and two connecting blocks (5022) are slidably arranged in each connecting groove (5021);

each connecting groove (5021) inner wall both sides surface has all run through and has been seted up dodging groove (5025), and two adjacent connecting block (5022) keep away from each other one side and all fixed mounting have kicking block (5026).

3. An immune cell storage device according to claim 2, wherein: every fixed mounting has connecting rod (5023) between connecting groove (5021) inner wall both sides, two adjacent connecting block (5022) slide respectively and set up in corresponding connecting rod (5023) shaft both sides, every connecting rod (5023) shaft middle part cover is equipped with elastic component (5024) that can compress and reset.

4. An immune cell storage device according to claim 3, wherein: the elastic piece (5024) is a spring.

5. The immune cell storage device of claim 4, wherein: a first mounting groove (6) is formed in the surface of two sides of the inner wall of each sliding groove (501), and a first magnetic strip (601) is fixedly arranged in each first mounting groove (6);

two adjacent kicking blocks (5026) keep away from one side surface each other and all have seted up second mounting groove (7), every in second mounting groove (7) all fixed mounting has second magnetic stripe (701).

6. An immune cell storage device according to claim 2, wherein: the surfaces of the opposite sides of the two adjacent clamping plates (504) are provided with arc grooves (8).