CN-224211483-U - Plastic sucking box

Abstract

The utility model relates to the technical field of medical equipment, in particular to a plastic sucking box, which comprises a box body, wherein a main clamping groove for loading a main product, an auxiliary clamping groove for loading an auxiliary product of the main product, an auxiliary clamping groove for loading a drying agent and an oxygen absorbent and an air flow groove for air circulation in the box body are formed in the box body, the main clamping groove, the auxiliary clamping groove and the auxiliary clamping groove are mutually communicated by the air flow groove to form a coherent air flow channel, and the air flow channel is provided with an air inlet and an air outlet which are respectively communicated with the box body. Can realize that main product and its auxiliary product integral type merge packing and sterilization, satisfy low dose irradiation sterilization, communicate main draw-in groove, auxiliary draw-in groove and vice draw-in groove each other through set up the air current groove in the box body and form coherent air current passageway for the gas in the box body can effectively be replaced, avoids the interior water oxygen of box to be detained, thereby reduces the influence of water oxygen to main product life-span.

Inventors

• SONG YALI

Assignees

• 浦易(上海)生物技术股份有限公司

Dates

Publication Date

20260508

Application Date

20250522

Claims (9)

1. 1. The utility model provides a plastic uptake box, its characterized in that, includes box body (1), the inside of box body (1) is formed with main draw-in groove (2) that are used for loading main product (100), is used for loading auxiliary product (200) of main product (100) auxiliary draw-in groove (3), be used for loading drier and oxygen absorbent (300) vice draw-in groove (4) and confession air current groove (5) of the interior gas circulation of box body (1), air current groove (5) will main draw-in groove (2), auxiliary draw-in groove (3) with vice draw-in groove (4) intercommunication each other forms consecutive air current passageway (6), air current passageway (6) have respectively link up air inlet (61) and gas outlet (62) of box body (1).
2. 2. A blister pack according to claim 1, wherein a plurality of said auxiliary clamping slots (3) are provided, a plurality of said auxiliary clamping slots (3) being provided for respectively loading different said auxiliary products (200).
3. 3. A blister pack according to claim 1, wherein the airflow channel (6) comprises a plurality of airflow paths (7) communicating the air inlet (61) and the air outlet (62), a plurality of the airflow paths (7) being connected in parallel.
4. 4. A blister pack according to claim 3, wherein each of the air flow paths (7) passes through at least two of the primary card slot (2), the secondary card slot (3) and the secondary card slot (4).
5. 5. A plastic uptake box according to claim 1, characterized in that the air inlet (61) and the air outlet (62) are located at the two ends in the longitudinal direction of the box body (1), respectively.
6. 6. A blister pack according to claim 1, wherein a projection (8) is formed on one side of the pack (1) projecting towards the outside of the pack (1), the projection (8) being adapted to support the pack (1) for horizontal placement.
7. 7. A blister pack according to claim 6, wherein a plurality of the projections (8) are provided, the plurality of projections (8) being spaced apart along the length of the pack body (1).
8. 8. A blister pack according to claim 6 or 7, wherein the projection (8) forms a recess in the interior of the pack body (1), in which recess the primary (2) or secondary (3) or secondary (4) or air flow (5) slots are formed.
9. 9. A plastic uptake box according to claim 1, characterized in that the air flow groove (5) is any one or a combination of several of a straight pipe type air flow groove, a flat type air flow groove, a wave-shaped air flow groove and a honeycomb-shaped ventilation hole type air flow groove.

Description

Plastic sucking box Technical Field The utility model relates to the technical field of medical instruments, in particular to a plastic sucking box. Background The packaging of medical equipment, especially degradation products which are highly sensitive to oxygen and moisture, is particularly important in the primary packaging design of the products, and is required to have the following points that 1) the structural design can support and protect the products, has stability, can ensure that the whole shelf life of the products is not crushed and deformed, 2) the products can block oxygen, moisture and avoid light, and protect the performance of the degradation products, and 3) the products can withstand various sterilization processes. In the prior art, degradation products have limited sterilization process, the dosage cannot be too high during irradiation sterilization, and high temperature and high humidity can be generated during ethylene oxide sterilization. Thus, the existing degradation products are packaged with several of the following: 1) The degradation product is packaged separately from its ancillary product, the degradation product is sterilized by low dose irradiation alone, and the ancillary product is sterilized by suitable means alone. The packaging mode has the advantages of complex packaging, high cost, low sterilization efficiency and high cost of each set of products. 2) Packaging the degraded product and its auxiliary product into a plastic box, sealing with tyvek (Tevex), sterilizing with ethylene oxide, and packaging with aluminum foil bag and desiccant oxygen absorbent in a short time after sterilization. The packaging mode needs to be stuck and packaged, is not beneficial to production scheduling, has two-time packaging, has high packaging cost, and can generate high heat and high humidity due to sterilization of ethylene oxide, thereby influencing the service life of degraded products. 3) And (3) filling the degraded product and an auxiliary product thereof into a plastic sucking box, then sleeving an aluminum foil bag for packaging, and carrying out low-dose radiation sterilization. The packaging mode greatly reduces the cost, but because the degradation products and the auxiliary products are placed in the plastic suction box, the inner volume of the plastic suction box is relatively large, the design of an internal air passage is insufficient, the gas in the plastic suction box cannot be effectively replaced, and the retention of water and oxygen can influence the service life of the degradation products. In addition, when using the plastic uptake box packing, the outer edge round of plastic uptake box generally draws to rise to the highest department and put as the plastic uptake box level and support, once the inside product of plastic uptake box is too big, and when the plastic uptake box outward flange was drawn to rise overlength, can lead to drawing to rise the attenuation, warp easily, therefore has the structural stability inadequately, can not be suitable for the problem of the great product of structural variation. Disclosure of utility model In view of the above-mentioned drawbacks of the prior art, the present utility model is to provide a plastic suction box, which can effectively replace the gas in the box and reduce the influence of water and oxygen on the service life of the product contained in the plastic suction box. In order to solve the technical problems, the utility model adopts the following technical scheme: The utility model provides a plastic sucking box, which comprises a box body, wherein a main clamping groove used for loading a main product, an auxiliary clamping groove used for loading an auxiliary product of the main product, an auxiliary clamping groove used for loading a drying agent and an oxygen absorbent and an air flow groove used for enabling air in the box body to circulate are formed in the box body, the main clamping groove, the auxiliary clamping groove and the auxiliary clamping groove are mutually communicated by the air flow groove to form a coherent air flow channel, and the air flow channel is provided with an air inlet and an air outlet which are respectively communicated with the box body. Preferably, a plurality of auxiliary clamping grooves are provided, and the plurality of auxiliary clamping grooves are respectively used for loading different auxiliary products. Preferably, the airflow channel comprises a plurality of airflow paths communicating the air inlet and the air outlet, and the plurality of airflow paths are connected in parallel. Preferably, each airflow path passes through at least two of the primary card slot, the secondary card slot, and the secondary card slot. Preferably, the air inlet and the air outlet are respectively located at both ends of the box body in the length direction. Preferably, a protruding part protruding to the outside of the case is formed at one side of the case, and the protruding part