CN206374307U - High temperature resistant plastic uptake PE electrostatic protection films - Google Patents

Abstract

The utility model discloses a kind of high temperature resistant plastic uptake PE electrostatic protection films, includes PE basic units, layer of silica gel, electrostatic self-adhesion suction film layer, PET plastic uptakes layer, release layer, thermal insulation layer, uvioresistant layer, high-temperature-resistant layer and antistatic hardening coat；By being provided with layer of silica gel, external impact can preferably be absorbed, to implement more preferable protection to article, film layer and PET plastic uptakes layer are inhaled by being equipped with electrostatic self-adhesion, preferably to adsorb on the surface of article, it is difficult for drop-off, tack is more preferable, by setting thermal insulation layer and uvioresistant layer, so that this product has heat-insulated and anti-ultraviolet characteristic, to meet use requirement, by being provided with high-temperature-resistant layer, so that this product has more preferable high-temperature stability, by being provided with antistatic hardening coat, it can effectively prevent product surface from producing electrostatic, dust adsorption is avoided on the surface of product.

Description

High temperature resistant plastic uptake PE electrostatic protection films

Technical field

The utility model is related to protection of film art, refers in particular to a kind of high temperature resistant plastic uptake PE electrostatic protection films.

Background technology

Diaphragm can be applicable to following some fields by application point：Metal product surface, coating metal product table Face, plastic product surface, automobile product surface, electronic product surface, label product surface, product forms surface and other productions Product surface.

In each industrial circle, it is necessary to which application diaphragm has enough to meet the need to product surface, procedure for producing, and product turnout and product make Protected in, defective products generation is reduced with this.In existing production activity, generally all using PE diaphragms come to product Surface protection is carried out, however, current PE diaphragms tack and heat-resisting quantity are bad, and heat-proof quality and uviolresistance Can not be good, surface also easily produces electrostatic and adsorbs dust, it is difficult to meet use requirement.Therefore, it is necessary to be protected to current PE Cuticula is improved.

Utility model content

In view of this, in view of the existing deficiencies of the prior art, its main purpose is to provide a kind of high temperature resistant to the utility model Plastic uptake PE electrostatic protection films, its tack and heat-resisting quantity are good, and with heat-insulated and anti-ultraviolet property, surface is not easy to be stained with Dust.

To achieve the above object, the utility model is using following technical scheme：

A kind of high temperature resistant plastic uptake PE electrostatic protection films, include PE basic units, layer of silica gel, electrostatic self-adhesion suction film layer, PET plastic uptakes Layer, release layer, thermal insulation layer, uvioresistant layer, high-temperature-resistant layer and antistatic hardening coat；The layer of silica gel is coated in PE basic units On bottom surface, the electrostatic self-adhesion inhales film layer and PET plastic uptakes layer is covered on the bottom surface of layer of silica gel, and PET plastic uptakes layer for annular simultaneously Positioned at the periphery of electrostatic self-adhesion adsorbed film, the release layer is strippingly covered in the bottom that electrostatic self-adhesion inhales film layer and PET plastic uptakes layer On face, the thermal insulation layer is covered on the surface of PE basic units, and uvioresistant layer is covered on the surface of thermal insulation layer, the high-temperature-resistant layer On the surface for being covered in uvioresistant layer, the antistatic hardening coat is coated on the surface of high-temperature-resistant layer.

As a kind of preferred scheme, the thickness of the PE basic units is 50-54 μm.

As a kind of preferred scheme, the layer of silica gel is transparent silica gel material, and its thickness is 28-30 μm.

As a kind of preferred scheme, it is PE plastics self-adhesive layers that the electrostatic self-adhesion, which inhales film layer, and its thickness is 18-20 μm.

As a kind of preferred scheme, the thickness of the PET plastic uptakes layer is 18-20 μm.

As a kind of preferred scheme, the release layer is PET materials, and its thickness is 14-16 μm.

As a kind of preferred scheme, the thickness of the thermal insulation layer is 8-10 μm.

As a kind of preferred scheme, the thickness of the uvioresistant layer is 6-8 μm.

As a kind of preferred scheme, the thickness of the high-temperature-resistant layer is 16-18 μm.

As a kind of preferred scheme, the thickness of the antistatic hardening coat is 6-8 μm.

The utility model has clear advantage and beneficial effect compared with prior art, specifically, by above-mentioned technology Scheme is understood：

By being provided with layer of silica gel, external impact can be preferably absorbed, to implement more preferable protection to article, by coordinating Electrostatic self-adhesion is set to inhale film layer and PET plastic uptakes layer, difficult for drop-off preferably to adsorb on the surface of article, tack is more preferable, By setting thermal insulation layer and uvioresistant layer so that this product has heat-insulated and anti-ultraviolet characteristic, to meet use requirement, , can by being provided with antistatic hardening coat by being provided with high-temperature-resistant layer so that this product has more preferable high-temperature stability Effectively prevent product surface from producing electrostatic, it is to avoid dust adsorption is on the surface of product.

More clearly to illustrate architectural feature of the present utility model and effect, come below in conjunction with the accompanying drawings with specific embodiment pair The utility model is described in detail.

Brief description of the drawings

Fig. 1 is the sectional view of the preferred embodiment of the utility model.

Accompanying drawing identifier declaration：

10th, PE basic units 20, layer of silica gel

30th, electrostatic self-adhesion inhales film layer 40, PET plastic uptakes layer

50th, release layer 60, thermal insulation layer

60th, uvioresistant layer 80, high-temperature-resistant layer

90th, antistatic hardening coat.

Embodiment

It refer to shown in Fig. 1, that show the concrete structure of the preferred embodiment of the utility model, include PE basic units 10th, layer of silica gel 20, electrostatic self-adhesion inhale film layer 30, PET plastic uptakes layer 40, release layer 50, thermal insulation layer 60, uvioresistant layer 70, resistance to height Warm layer 80 and antistatic hardening coat 90.

The layer of silica gel 20 is coated on the bottom surface of PE basic units 10, in the present embodiment, and the thickness of the PE basic units 10 is 50- 54 μm, the layer of silica gel 20 is transparent silica gel material, and its thickness is 28-30 μm, and layer of silica gel 20 is absorbable from outside impact Power.

The electrostatic self-adhesion inhales film layer 30 and PET plastic uptakes layer 40 is covered on the bottom surface of layer of silica gel 20, and PET plastic uptakes layer 40 is Annular and positioned at the periphery of electrostatic self-adhesion adsorbed film 30, in the present embodiment, the electrostatic self-adhesion inhale film layer 30 be PE plastics from Adhesion coating, its thickness is 18-20 μm, and the thickness of the PET plastic uptakes layer 40 is also 18-20 μm.

The release layer 50 is strippingly covered in electrostatic self-adhesion and inhaled on the bottom surface of film layer 30 and PET plastic uptakes layer 40, in this reality Apply in example, the release layer 50 is PET materials, its thickness is 14-16 μm.

The thermal insulation layer 60 is covered on the surface of PE basic units 10, and thermal insulation layer 60 is used for the transmission of trap heat；In this implementation In example, the thickness of the thermal insulation layer 60 is 8-10 μm.

Uvioresistant layer 70 is covered on the surface of thermal insulation layer 60, and uvioresistant layer 70 is used to obstruct ultraviolet, at this In embodiment, the thickness of the uvioresistant layer 70 is 6-8 μm.

The high-temperature-resistant layer 80 be covered in uvioresistant layer 70 surface on, high-temperature-resistant layer 80 can bear higher temperature without Deformation, in the present embodiment, the thickness of the high-temperature-resistant layer 80 is 16-18 μm.

The antistatic hardening coat 90 is coated on the surface of high-temperature-resistant layer 80, and the antistatic hardening coat 90 is used to prevent The generation of product surface electrostatic, in the present embodiment, the thickness of the antistatic hardening coat 90 is 6-8 μm.

During making, first, PE basic units 10 are molded, then, layer of silica gel is formed in the bottom-surface coated silica gel of PE basic units 10 20, then, paste electrostatic self-adhesion in the bottom surface shaping of layer of silica gel 20 and inhale film layer 30 and PET plastic uptakes layer 40, then, by release layer 50 It is covered in electrostatic self-adhesion to inhale on the bottom surface of film layer 30 and PET plastic uptakes layer 40, then, in the heat-insulated painting of surface coating of PE basic units 10 Expect and form thermal insulation layer 60, then, be coated with anti-ultraviolet paint on the surface of thermal insulation layer 60 and form uvioresistant layer 70, connect , paste high-temperature-resistant layer 80 in the surface forming of uvioresistant layer 70, finally, be coated with the surface of high-temperature-resistant layer 80 antistatic Coating and form antistatic hardening coat 90.

In use, release layer 50 is peeled off, electrostatic self-adhesion is then inhaled into film layer 30 and PET plastic uptakes layer 40 is covered in article On surface, electrostatic self-adhesion inhales film layer 30 by electrostatic and coordinates PET plastic uptakes layer 40 to be firmly adsorbed on the surface of object.

Design focal point of the present utility model is：By being provided with layer of silica gel, external impact can be preferably absorbed, with to thing Product implement more preferable protection, film layer and PET plastic uptakes layer are inhaled by being equipped with electrostatic self-adhesion, preferably to adsorb the table in article Difficult for drop-off on face, tack is more preferable, by setting thermal insulation layer and uvioresistant layer so that this product has heat-insulated and anti-purple The characteristic of outside line, to meet use requirement, by being provided with high-temperature-resistant layer so that this product has more preferable high-temperature stability, By being provided with antistatic hardening coat, it can effectively prevent product surface from producing electrostatic, it is to avoid dust adsorption is on the surface of product.

It is described above, only it is preferred embodiment of the present utility model, not technical scope of the present utility model is made Any limitation, therefore every any trickle amendment made according to technical spirit of the present utility model to above example, equivalent change Change with modification, in the range of still falling within technical solutions of the utility model.

Claims (10)

1. a kind of high temperature resistant plastic uptake PE electrostatic protection films, it is characterised in that：Include PE basic units, layer of silica gel, electrostatic self-adhesion suction film Layer, PET plastic uptakes layer, release layer, thermal insulation layer, uvioresistant layer, high-temperature-resistant layer and antistatic hardening coat；The layer of silica gel is coated On the bottom surface of PE basic units, the electrostatic self-adhesion inhales film layer and PET plastic uptakes layer is covered on the bottom surface of layer of silica gel, and PET plastic uptakes Layer is for annular and positioned at the periphery of electrostatic self-adhesion adsorbed film, and the release layer is strippingly covered in electrostatic self-adhesion and inhales film layer and PET On the bottom surface of plastic uptake layer, the thermal insulation layer is covered on the surface of PE basic units, and uvioresistant layer is covered on the surface of thermal insulation layer, The high-temperature-resistant layer is covered on the surface of uvioresistant layer, and the antistatic hardening coat is coated on the surface of high-temperature-resistant layer.

2. high temperature resistant plastic uptake PE electrostatic protection films according to claim 1, it is characterised in that：The thickness of the PE basic units is 50-54μm。

3. high temperature resistant plastic uptake PE electrostatic protection films according to claim 1, it is characterised in that：The layer of silica gel is transparent silicon Glue material matter, its thickness is 28-30 μm.

4. high temperature resistant plastic uptake PE electrostatic protection films according to claim 1, it is characterised in that：The electrostatic self-adhesion inhales film layer For PE plastics self-adhesive layers, its thickness is 18-20 μm.

5. high temperature resistant plastic uptake PE electrostatic protection films according to claim 1, it is characterised in that：The thickness of the PET plastic uptakes layer Spend for 18-20 μm.

6. high temperature resistant plastic uptake PE electrostatic protection films according to claim 1, it is characterised in that：The release layer is PET materials Matter, its thickness is 14-16 μm.

7. high temperature resistant plastic uptake PE electrostatic protection films according to claim 1, it is characterised in that：The thickness of the thermal insulation layer is 8-10μm。

8. high temperature resistant plastic uptake PE electrostatic protection films according to claim 1, it is characterised in that：The thickness of the uvioresistant layer Spend for 6-8 μm.

9. high temperature resistant plastic uptake PE electrostatic protection films according to claim 1, it is characterised in that：The thickness of the high-temperature-resistant layer For 16-18 μm.

10. high temperature resistant plastic uptake PE electrostatic protection films according to claim 1, it is characterised in that：The antistatic hardening is applied The thickness of layer is 6-8 μm.