CN-224211591-U - High-strength bubble film

Abstract

The utility model belongs to the field of bubble films, in particular to a high-strength bubble film, which aims at the problems that the protection effect is often limited when the existing bubble film has certain buffering and shockproof functions but is used for a long time in the face of larger impact force, and the high-strength bubble film comprises a rubber pad, wherein the top and the bottom of the rubber pad are adhered with a base layer film, the inside of the base layer film is provided with a second cavity, and both sides of the base layer film are provided with third communication holes which are communicated with the second cavity.

Inventors

• YAO YONGHOU
• YAO HUIHUA

Assignees

• 吉林三鑫工贸有限责任公司

Dates

Publication Date

20260508

Application Date

20250227

Claims (8)

1. 1. A high strength bubble film comprising: The rubber pad (1), the top and the bottom of rubber pad (1) all bond basic unit's membrane (2), second cavity (13) have been seted up to the inside of basic unit's membrane (2), third intercommunicating pore (11) have all been seted up to the both sides of basic unit's membrane (2), third intercommunicating pore (11) are linked together with second cavity (13), the both ends of rubber pad (1) all are provided with the buffer unit who is used for buffering; The two sides of the base layer films (2) which are far away from each other are provided with protection components for protection; the inside of rubber pad (1) is provided with the enhancement subassembly that is used for promoting bubble membrane intensity.
2. 2. A high-strength bubble film according to claim 1, wherein the buffer assembly comprises a side film (6), the side film (6) is integrally formed on two sides of the rubber pad (1), two first communication holes (7) symmetrically arranged are formed on one side of the side film (6), and the first communication holes (7) correspond to the third communication holes (11).
3. 3. A high strength bubble film according to claim 1, wherein said protective member comprises a plurality of bubble layers (12) integrally formed on top of a base film (2), a plurality of rubber protrusions (14) integrally formed on top and bottom of said rubber pad (1), a plurality of said rubber protrusions (14) corresponding to said plurality of bubble layers (12), said rubber protrusions (14) being located inside of said bubble layers (12).
4. 4. A high strength bubble film as claimed in claim 1, wherein the reinforcing member comprises a plurality of insertion holes (15) formed in the rubber pad (1), and a plurality of insertion rods (10) are embedded in the insertion holes (15).
5. 5. A high strength bubble film according to claim 3, wherein a plurality of protective layers (3) are integrally formed on the surfaces of a plurality of bubble layers (12), and a plurality of folds (4) are formed on the surfaces of the protective layers (3).
6. 6. A high strength bubble film according to claim 2, wherein a second communication hole (9) is provided at one side of the side film (6), the second communication hole (9) being in communication with the first cavity (8).
7. 7. A high strength bubble film as claimed in claim 2, wherein the side film (6) has a first cavity (8) formed therein, and the first communication hole (7) communicates with the first cavity (8).
8. 8. A high-strength bubble film as claimed in claim 6, wherein the second communication hole (9) is embedded with a buffer film (5) in communication.

Description

High-strength bubble film Technical Field The utility model relates to the technical field of bubble films, in particular to a high-strength bubble film. Background Although the conventional bubble film has a certain buffering and shockproof function, the protection effect is limited when the bubble film is used for a long time or in the face of a large impact force. Breakage of the bubble film may not only result in a decrease in the protective performance, but also may lose the cushioning effect due to the broken bubbles, failing to provide sufficient protection for the packaged article. In addition, the conventional bubble film has a plurality of inconveniences in folding and storing, and limits the application range thereof. To solve these problems, there is a market demand for a bubble film having higher strength, better cushioning effect and easier folding storage. Such a bubble film is not only required to be able to effectively protect the packaged goods upon impact, but also to have sufficient strength and durability to accommodate various harsh transportation and storage environments. Disclosure of utility model The utility model aims to solve the defect that the protection effect of a bubble film in the prior art is limited when the bubble film is used for a long time or in the face of a large impact force although the bubble film has certain buffering and shockproof functions. In order to achieve the above purpose, the present utility model adopts the following technical scheme: The high-strength bubble film comprises a rubber pad, wherein the top and the bottom of the rubber pad are both adhered with a base film, a second cavity is formed in the base film, third communication holes are formed in two sides of the base film, the third communication holes are communicated with the second cavity, and buffer assemblies used for buffering are arranged at two ends of the rubber pad; The two sides of the base layer films, which are far away from each other, are respectively provided with a protection component for protection; The inside of rubber pad is provided with the enhancement subassembly that is used for promoting bubble membrane intensity. In one possible design, the buffer assembly includes a side film, the side film is integrally formed at two sides of the rubber pad, two first communication holes symmetrically arranged are formed in one side of the side film, a first cavity is formed in the side film, the first communication holes correspond to the third communication holes, and the first communication holes are communicated with the first cavity. In one possible design, the protection component comprises a plurality of bubble layers integrally formed on the top of the base layer film, a plurality of rubber bulges uniformly formed on the top and the bottom of the rubber pad, a plurality of rubber bulges corresponding to the plurality of bubble layers, and the rubber bulges are positioned in the bubble layers. In one possible design, the reinforcing component comprises a plurality of jacks formed in the rubber pad, and a plurality of inserting rods are embedded in the jacks. In one possible design, the surfaces of the bubble layers are integrally formed with a plurality of protective layers, and the surfaces of the protective layers are provided with a plurality of folds. In one possible design, a second communication hole is formed in one side of the side film, the second communication hole is communicated with the first cavity, and a buffer film which is communicated with the second communication hole is embedded in the second communication hole. When the bubble film folding device is used, the bubble film can be coated outside an article, the article can be protected at the moment, meanwhile, due to the arrangement of folds, the bubble film can be folded, the application range of the bubble film is improved, and due to the fact that the plurality of inserting rods are inserted into the jacks, gaps of the inserting rods correspond to the folds, normal folding of the bubble film is guaranteed, and the strength of the bubble film can be improved; When protecting, can make protective layer extrusion bubble layer, the bubble layer can extrude the basic unit membrane to owing to the setting of rubber arch and rubber pad, can reduce the damaged condition of basic unit membrane and bubble layer, and then can continuously provide the protective effect, and when receiving great impact, the inside of the inside gas of second cavity gets into the inside of first cavity through the third intercommunicating pore and the first communication hole of both sides this moment, and send into the inside of buffer membrane through the second intercommunicating pore, make the buffer membrane can strut, avoid the basic unit membrane to appear breaking. The buffer effect is improved by arranging the second cavity in the base film and the first cavity in the side film, and arranging the buffer film, so that when a l