CN-224211542-U - Integrated nutrient agar storage and allocation bag

CN224211542UCN 224211542 UCN224211542 UCN 224211542UCN-224211542-U

Abstract

The utility model relates to the technical field of nutrient agar storage and preparation, which aims to solve the problems that the existing tank body is adopted to store nutrient agar, the taking is inconvenient in the operation of a clinical laboratory, and the risk of cross contamination and deterioration of powder in the tank exists; the utility model provides an integrated nutrient agar storage and blending bag which comprises a bag body and a material guide assembly, wherein a separation air bag is arranged in the bag body, the bag body is separated into a pure water cavity and a powder cavity through the separation air bag, the material guide assembly is communicated with the powder cavity, and the material guide assembly penetrates through the bag body.

Inventors

Ji Diayi

Assignees

成都千麦医学检验所有限公司

Dates

Publication Date: 20260508
Application Date: 20250613

Claims (8)

1. The integrated nutrient agar storage and allocation bag is characterized by comprising a bag body (1) and a material guide assembly (2), wherein a separation air bag (3) is arranged in the bag body (1), the bag body (1) is separated into a pure water cavity (11) and a powder cavity (12) through the separation air bag (3), the material guide assembly (2) is communicated with the powder cavity (12), and the material guide assembly (2) penetrates through the bag body (1).
2. The integrated nutrient agar storage and dispensing bag as claimed in claim 1, wherein a sealing component (4) is arranged at one end of the powder cavity (12) close to the separation air bag (3).
3. The integrated nutrient agar storage and deployment bag according to claim 2, wherein the sealing assembly (4) comprises a silica gel groove (41) and a silica gel strip (42), the silica gel groove (41) and the silica gel strip (42) are oppositely arranged in the bag body (1), and the silica gel strip (42) is embedded into a groove cavity of the silica gel groove (41).
4. The integrated nutrient agar storage and preparation bag according to claim 3, wherein a first pressing strip (5) and a second pressing strip (6) are oppositely arranged outside the bag body (1), the first pressing strip (5) is oppositely arranged on one surface of the bag body (1) far away from the silica gel groove (41), and the second pressing strip (6) is oppositely arranged on one surface of the bag body (1) far away from the silica gel strip (42).
5. The integrated nutrient agar storage and dispensing bag according to claim 4, wherein two ends of the first pressing strip (5) extend out of the side part of the bag body (1), and two ends of the second pressing strip (6) extend out of the side part of the bag body (1) and are respectively clamped with two ends of the first pressing strip (5).
6. The integrated nutrient agar storage and deployment bag according to claim 5, wherein a kneading part (7) is arranged at one end of the bag body (1) close to the material guiding assembly (2), and the kneading part (7) is arranged on one surface of the powder cavity (12).
7. The integrated nutrient agar storage and dispensing bag as claimed in claim 6, wherein a plurality of protrusions (8) corresponding to the kneading part (7) are arranged outside one end of the bag body (1) close to the separation air bag (3).
8. The integrated nutrient agar storage and deployment bag according to claim 7, wherein the material guide assembly (2) comprises an insertion tube (21) and a plug body (22), the insertion tube (21) penetrates through one corner of the bag body (1), the insertion tube (21) is communicated with the powder cavity (12), and the plug body (22) penetrates through the insertion tube (21) and is clamped with the insertion tube (21).

Description

Integrated nutrient agar storage and allocation bag Technical Field The utility model relates to the technical field of nutrient agar storage and preparation, in particular to an integrated nutrient agar storage and preparation bag. Background The nutrient agar is used as a basic microorganism culture medium, and the core components of the nutrient agar comprise beef extract, peptone, sodium chloride and agar, in the prior art, nutrient agar culture medium products are usually prepared into powder and stored in a tank body for storage and selling, so that when the nutrient agar culture medium is used, the nutrient agar culture medium can be used only by opening the tank to obtain the powder and then adopting pure water to prepare the powder into paste, however, the risk of cross contamination and deterioration of the powder in the tank is caused in the process of repeatedly taking the nutrient agar culture medium because one tank cannot be used in a short period, and in addition, when the nutrient agar culture medium is quantitatively prepared, the powder is required to be repeatedly taken, so that the preparation is inconvenient, the weighing accuracy is difficult to ensure, and the cross infection and deterioration are further aggravated. Based on the foregoing, there is a need for an integrated nutrient agar storage and deployment bag that is capable of storing nutrient agar and facilitating quantitative deployment. Disclosure of utility model The utility model aims to provide an integrated nutrient agar storage and allocation bag, and aims to solve the technical problems that the existing tank body is adopted to store nutrient agar, the taking is inconvenient, the cross contamination is caused, and the powder in the tank is bad. The embodiment of the utility model is realized by the following technical scheme: The integrated nutrient agar storage and blending bag comprises a bag body and a material guiding assembly, wherein a separation air bag is arranged in the bag body, the bag body is divided into a pure water cavity and a powder cavity through the separation air bag, the material guiding assembly is communicated with the powder cavity, and the material guiding assembly penetrates through the bag body. Preferably, a sealing component is arranged at one end of the powder cavity, which is close to the separation air bag. Preferably, the sealing assembly comprises a silica gel groove and a silica gel strip, wherein the silica gel groove and the silica gel strip are oppositely arranged in the bag body, and the silica gel strip is embedded into a groove cavity of the silica gel groove. Preferably, a first pressing strip and a second pressing strip are oppositely arranged outside the bag body, the first pressing strip is oppositely arranged on one surface, far away from the silica gel groove, of the bag body, and the second pressing strip is oppositely arranged on one surface, far away from the silica gel strip, of the bag body. Preferably, two ends of the first pressing strip extend out of the side part of the bag body, and two ends of the second pressing strip extend out of the side part of the bag body and are respectively clamped with two ends of the first pressing strip. Preferably, a kneading part is arranged at one end of the bag body close to the material guiding assembly, and the kneading part is arranged at one surface of the powder cavity. Preferably, a plurality of protrusions corresponding to the kneading parts are arranged outside one end of the bag body, which is close to the separation air bag. Preferably, the material guiding assembly comprises an insertion pipe and a plug body, wherein the insertion pipe penetrates through one corner of the bag body, the insertion pipe is communicated with the powder cavity, and the plug body penetrates through the interior of the insertion pipe and is connected with the insertion pipe in a clamping mode. The technical scheme of the embodiment of the utility model has at least the following advantages and beneficial effects: According to the utility model, the bag body can be divided into two chambers, namely the pure water chamber and the powder chamber through the separation air bag, wherein the pure water chamber is used for quantitatively storing pure water, the powder chamber is used for quantitatively storing nutrient agar powder, when the bag is required to be used, the separation air bag is extruded to break the powder chamber, and then pure water is introduced into the powder chamber to be mixed with the nutrient agar powder, so that the batching is realized. Drawings FIG. 1 is a front view of the present utility model; FIG. 2 is a front cross-sectional view of the present utility model; FIG. 3 is a side view of the present utility model; FIG. 4 is a side cross-sectional view of the present utility model; FIG. 5 is a bottom view of the present utility model; fig. 6 is an exploded view of the guide assembly of the present utility model. The icons