CN219637160U - High-temperature-resistant antistatic scratch-resistant release paper - Google Patents

Abstract

The utility model discloses high-temperature-resistant antistatic scratch-resistant release paper, which comprises the following components: the base paper layer, release agent layer, first electrically and thermally conductive rete, second electrically and thermally conductive rete and electric conduction fiber web layer, first electrically and thermally conductive rete sets up the bottom surface at the base paper layer, release agent layer sets up the bottom surface at first electrically and thermally conductive rete, the second electrically and thermally conductive rete sets up the top at the base paper layer, electric conduction fiber web layer sets up the top at second electrically and thermally conductive rete, the coating has the scratch-resistant glue film on the electric conduction fiber web layer. The high-temperature-resistant anti-static scratch-resistant release paper disclosed by the utility model has the advantages that the local high-temperature resistance and the anti-static effect are improved, and the scratch or scratch damage problem is reduced.

Description

High-temperature-resistant antistatic scratch-resistant release paper

Technical Field

The utility model relates to the technical field of release paper, in particular to high-temperature-resistant antistatic scratch-resistant release paper.

Background

The release paper can play a role of isolating objects with viscosity, and is widely used in the field of adhesive tapes or other adhesive products.

Before use, the release paper is required to protect the adhesive product, and when in use, the release paper is required to be peeled off. Therefore, the release paper is easy to peel, and the protection of the adhesive product is improved, so that the damage before use is avoided. The existing release paper adopts three layers of composite structures of base paper, coating film and release agent, has good antistatic effect, is not high-temperature resistant, cannot prevent scratching, is easy to generate the problems of crushing and glue leakage during friction, and needs to be improved.

Disclosure of Invention

The utility model aims to provide high-temperature-resistant anti-scratch release paper, which improves the high-temperature-resistant and anti-scratch effects and increases the anti-static performance.

To achieve the purpose, the utility model adopts the following technical scheme:

a high temperature resistant, antistatic scratch resistant release paper comprising: the base paper layer, release agent layer, first electrically and thermally conductive rete, second electrically and thermally conductive rete and electric conduction fiber web layer, first electrically and thermally conductive rete sets up the bottom surface at the base paper layer, release agent layer sets up the bottom surface at first electrically and thermally conductive rete, the second electrically and thermally conductive rete sets up the top at the base paper layer, electric conduction fiber web layer sets up the top at second electrically and thermally conductive rete, the coating has the scratch-resistant glue film on the electric conduction fiber web layer.

And a first conductive adhesive layer is arranged between the first conductive heat-conducting film layer and the base paper layer.

And a second conductive adhesive layer is arranged between the second conductive heat-conducting film layer and the base paper layer.

Wherein, prevent drawing the glue film and adopt UV glue.

The first electric conduction heat conduction film layer and the second electric conduction heat conduction film layer adopt aluminizers respectively.

Wherein, the array is provided with the injecting glue hole on the base paper layer, be provided with the conducting resin in the injecting glue hole.

The utility model has the beneficial effects that: high temperature resistant's antistatic type prevents drawing from type paper, when locally being heated, carry out thermal conduction and heat dissipation through first electrically conductive heat conduction rete and second electrically conductive heat conduction rete, reduce the problem of high temperature deformation, promote local high temperature resistant effect, and carry out the removal of static through electrically conductive fibre net layer, first electrically conductive heat conduction rete and second electrically conductive heat conduction rete, promote antistatic effect, still can strengthen surface strength through electrically conductive fibre net layer and the glue film of preventing drawing, reduce the problem of mar or scratch damage, the structural reliability is high.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Detailed Description

The technical solution of the present utility model is further described below with reference to fig. 1 by means of a specific embodiment.

The high temperature resistant antistatic scratch-resistant release paper as shown in fig. 1 comprises: the base paper layer 5, the release agent layer 10, the first electric conduction and heat conduction film layer 9, the second electric conduction and heat conduction film layer 3 and the electric conduction fiber net layer 2, wherein the first electric conduction and heat conduction film layer 9 is arranged on the bottom surface of the base paper layer 5 and can be antistatic and waterproof. In this embodiment, a first conductive adhesive layer 8 is disposed between the first conductive film layer 9 and the base paper layer 5, so as to ensure structural stability and avoid falling of the first conductive film layer 9.

The release agent layer 10 is disposed on the bottom surface of the first conductive and heat conductive film layer 9, and in this embodiment, the release agent layer 10 is formed by spraying and curing a release agent, so that an object with viscosity can be isolated.

The second conductive film layer 3 is disposed above the base paper layer 5, and in this embodiment, a second conductive adhesive layer 4 is disposed between the second conductive film layer 3 and the base paper layer 5, so as to perform the compounding of the second conductive film layer 3 and the base paper layer 5. The first electric conduction heat conduction film layer 9 and the second electric conduction heat conduction film layer 3 adopt aluminized films respectively, and improve heat conduction effect while being antistatic. When the release paper is locally heated, heat conduction and heat dissipation are carried out through the first electric conduction heat conduction film layer 9 and the second electric conduction heat conduction film layer 3, the problem of high-temperature deformation is reduced, and the local high-temperature resistance effect is improved.

As shown in fig. 1, the conductive fiber mesh layer 2 is disposed above the second conductive and heat conductive film layer 3, in this embodiment, the conductive fiber mesh layer 2 may be a nylon conductive fiber mesh, which has high structural stability, good wear-resistant effect, and is not easy to be damaged, and has an antistatic effect, and is matched with the first conductive and heat conductive film layer 9 and the second conductive and heat conductive film layer 3 to realize three-dimensional antistatic.

In addition, the array is provided with injecting glue hole 7 on the base paper layer 5, be provided with conducting resin 6 in the injecting glue hole 7, when promoting structural stability, can also promote antistatic effect for inside static is conducted away, avoids the accumulation of static.

In order to improve the scratch-proof capability, the conductive fiber net layer 2 is coated with a scratch-proof adhesive layer 1, so that the smoothness is improved. In this embodiment, the scratch-resistant adhesive layer 1 is made of UV adhesive, and can be cured rapidly by irradiation of ultraviolet light, so that the surface hardness is high, the wear resistance is improved, and the problems of scratch or scratch damage of the surface of release paper can be reduced.

The foregoing is merely exemplary of the present utility model, and those skilled in the art should not be considered as limiting the utility model, since modifications may be made in the specific embodiments and application scope of the utility model in light of the teachings of the present utility model.

Claims (6)

1. High temperature resistant antistatic scratch-resistant release paper, characterized by comprising: the base paper layer, release agent layer, first electrically and thermally conductive rete, second electrically and thermally conductive rete and electric conduction fiber web layer, first electrically and thermally conductive rete sets up the bottom surface at the base paper layer, release agent layer sets up the bottom surface at first electrically and thermally conductive rete, the second electrically and thermally conductive rete sets up the top at the base paper layer, electric conduction fiber web layer sets up the top at second electrically and thermally conductive rete, the coating has the scratch-resistant glue film on the electric conduction fiber web layer.

2. The high temperature resistant, anti-static scratch resistant release paper of claim 1, wherein a first conductive adhesive layer is disposed between the first conductive film layer and the base paper layer.

3. The high temperature resistant, anti-static scratch-resistant release paper of claim 1, wherein a second conductive adhesive layer is disposed between the second conductive film layer and the base paper layer.

4. The high temperature resistant, antistatic scratch resistant release paper of claim 1 wherein the scratch resistant layer is a UV glue.

5. The high temperature resistant, anti-static scratch resistant release paper of claim 1, wherein the first and second electrically and thermally conductive film layers each employ aluminized film.

6. The high temperature resistant, anti-static scratch-resistant release paper according to claim 1, wherein the base paper layer is provided with glue injection holes in an array, and conductive glue is arranged in the glue injection holes.