CN210261625U - Polymer UV membrane - Google Patents

Abstract

The utility model discloses a polymer UV membrane, including polymer hot melt rete be equipped with on the polymer hot melt rete compound glue layer be equipped with on the compound glue layer flexible polymer thin layer be equipped with the photocuring layer of feeling on the flexible polymer thin layer, the photocuring layer of feeling is formed through ultraviolet curing by UV elastic resin. The utility model can have uneven hand feeling effect only by pasting the macromolecule UV film on the ceiling material or the ceiling base material without silk-screen printing; printing ink is not used for silk-screen printing, so that the environment is protected and the energy is saved; the high-molecular UV film has the advantages of reasonable design, simple structure, strong practicability and wide market prospect.

Description

Polymer UV membrane

Technical Field

The utility model belongs to the technical field of a decorative film technique and specifically relates to a polymer UV membrane.

Background

The polymer UV film is a decorative film adhered to the surface of the suspended ceiling, and can play roles in heat insulation, heat preservation, ultraviolet light resistance, anti-glare, decoration, privacy protection, safety, explosion prevention and the like, wherein the polymer UV film plays a role in decoration. Although patterns, characters, patterns and the like of the high-molecular UV film in the prior art can be manufactured to have uneven hand feeling effect, the film needs to be attached to a suspended ceiling, and then silk printing is carried out, so that the effect is achieved. Thus, the manufacturing process is complex and the manufacturing cost is high. Therefore, a high molecular UV film having the same effect with a simple manufacturing process is urgently required.

Disclosure of Invention

An object of the utility model is to provide a polymer UV membrane has solved all the above-mentioned problems that propose in the background art.

In order to achieve the above object, the utility model adopts the following technical scheme: the utility model provides a polymer UV membrane, includes polymer hot melt rete be equipped with compound glue layer on the polymer hot melt rete be equipped with flexible polymer thin layer on the glue layer accord with, be equipped with the photocuring layer of feeling on the flexible polymer thin layer, the photocuring layer of feeling is formed through ultraviolet curing by UV elastic resin.

Further, a layer of light-cured UV oil is attached to the light-cured hand feeling layer.

Further, the high-molecular hot-melt film layer is a PE film.

Further, the flexible polymer film layer is a BOPET layer.

Further, the photo-curing hand feeling layer comprises a printing pattern layer, wherein the printing pattern layer is positioned between the flexible polymer film layer and the photo-curing hand feeling layer.

Further, the composite glue layer comprises a printing pattern layer, and the printing pattern layer is positioned between the composite glue layer and the flexible polymer film layer.

Furthermore, the thickness of the light-cured hand feeling layer is 0.01 mm-0.5 mm.

Furthermore, the light-cured hand feeling layer is provided with raised grains.

The utility model discloses the beneficial technological effect of institute product lies in: the high-molecular UV film is only required to be pasted on a ceiling material or a ceiling base material, and the uneven hand feeling effect can be achieved without silk-screen printing; printing ink is not used for silk-screen printing, so that the environment is protected and the energy is saved; the high-molecular UV film has the advantages of reasonable design, simple structure, strong practicability and wide market prospect.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a partially enlarged view of the area a in fig. 1.

Fig. 3 is a schematic structural diagram of another embodiment of the present invention.

The reference numbers are as follows:

1. a high-molecular hot-melt film layer; 2. compounding a glue layer; 3. printing a pattern layer; 4. a flexible polymer film layer; 5. a light-cured hand-feeling layer; 6. raised lines.

Detailed Description

In order to explain technical contents, structural features, and objects and effects of the present invention in detail, the following description is made in conjunction with fig. 1 to 2.

Example 1

As shown in the attached drawing 1, the high-molecular UV film comprises a high-molecular hot-melt film layer 1, a composite glue layer 2 arranged on the high-molecular hot-melt film layer 1, a flexible polymer thin film layer 4 arranged on the glue layer 2, and a photo-curing hand feeling layer 5 arranged on the flexible polymer thin film layer 4, wherein the photo-curing hand feeling layer 5 is formed by UV elastic resin through ultraviolet light curing, and further comprises a printed pattern layer 3, and the printed pattern layer 3 is positioned between the composite glue layer 2 and the flexible polymer thin film layer 4.

A layer of light-cured UV oil is attached to the light-cured hand feeling layer 5. Attach one deck photocuring UV oil on polymer UV membrane, can make its surface have high glossiness to it is water-fast, resistant draw, heat-resisting, resistant light, acid and alkali-resistance, right the utility model discloses have the guard action.

The high-molecular hot-melt film layer 1 is a PE film. The PE film has high transparency, can prevent rain and moisture, is nontoxic and tasteless, and is not easy to fall off.

The flexible polymer film layer 4 is a BOPET layer. The BOPET layer is a biaxially oriented polyester film and has the characteristics of high strength, good rigidity, transparency, high glossiness and the like; and has no odor, taste, color and toxicity, and outstanding toughness.

The thickness of the light-cured hand feeling layer 5 is 0.01 mm-0.5 mm. When the thickness is less than 0.01mm, the flexible polymer film layer 4 is not well jointed and is easy to wrinkle or fall off; when the thickness is more than 0.5mm, the cost is high.

As shown in fig. 2, the light-cured hand feeling layer 5 has raised grains 6 thereon. After the suspended ceiling is pasted with the high-molecular UV film, the suspended ceiling surface has hand feeling due to the convex grains, and the grains with hand feeling are not required to be printed by using ink silk screen printing, so that a process step is saved, and the suspended ceiling is environment-friendly and energy-saving. The high-molecular UV film has the advantages of reasonable design, simple structure, strong practicability and wide market prospect.

The preparation method of the polymer UV film described in this embodiment includes the following steps:

step A, preparing a BOPET film, and printing a printing pattern layer on the front surface of the BOPET layer;

b, printing a photocuring hand feeling layer on the reverse side of the BOPET layer by a gravure roll by using a reprinting frame in a laser plate making mode;

step C, coating a layer of composite glue layer on the printing pattern layer;

step D, attaching a high-molecular hot-melt film layer on the composite glue layer;

and E, slitting and packaging to obtain the high-molecular UV film.

Example 2

As shown in the attached drawing 3, the polymer UV film comprises a polymer hot-melt film layer 1, a composite glue layer 2 arranged on the polymer hot-melt film layer 1, a flexible polymer thin film layer 4 arranged on the glue layer 2, and a photo-curing hand feeling layer 5 arranged on the flexible polymer thin film layer 4, wherein the photo-curing hand feeling layer 5 is formed by UV elastic resin through ultraviolet light curing, and further comprises a printed pattern layer 3, and the printed pattern layer 3 is positioned between the flexible polymer thin film layer 4 and the photo-curing hand feeling layer 5.

A layer of light-cured UV oil is attached to the light-cured hand feeling layer 5. Attach one deck photocuring UV oil on polymer UV membrane, can make its surface have high glossiness to it is water-fast, resistant draw, heat-resisting, resistant light, acid and alkali-resistance, right the utility model discloses have the guard action.

The high-molecular hot-melt film layer 1 is a PE film. The PE film has high transparency, can prevent rain and moisture, is nontoxic and tasteless, and is not easy to fall off.

The flexible polymer film layer 4 is a BOPET layer. The BOPET layer is a biaxially oriented polyester film and has the characteristics of high strength, good rigidity, transparency, high glossiness and the like; and has no odor, taste, color and toxicity, and outstanding toughness.

The thickness of the light-cured hand feeling layer 5 is 0.01 mm-0.5 mm. When the thickness is less than 0.01mm, the flexible polymer film layer 4 is not well jointed and is easy to wrinkle or fall off; when the thickness is more than 0.5mm, the cost is high.

As shown in fig. 2, the light-cured hand feeling layer 5 has raised grains 6 thereon. After the suspended ceiling is pasted with the high-molecular UV film, the suspended ceiling surface has hand feeling due to the convex grains, and the grains with hand feeling are not required to be printed by using ink silk screen printing, so that a process step is saved, and the suspended ceiling is environment-friendly and energy-saving. The high-molecular UV film has the advantages of reasonable design, simple structure, strong practicability and wide market prospect.

The preparation method of the polymer UV film described in this embodiment includes the following steps:

step A, preparing a BOPET film, and printing a printing pattern layer on the reverse side of the BOPET layer;

b, printing a photocuring hand feeling layer on the gravure roll of the printing pattern layer by using a reprinting frame in a laser plate-making mode;

step C, coating a composite glue layer on the front surface of the BOPET layer;

step D, attaching a high-molecular hot-melt film layer on the composite glue layer;

and E, slitting and packaging to obtain the high-molecular UV film.

The above description of the embodiments is only intended to help understand the method of the present invention and its core ideas. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (8)

1. A polymer UV film, characterized in that: including polymer hot melt rete (1), be equipped with on polymer hot melt rete (1) composite glue layer (2), be equipped with flexible polymer thin layer (4) on composite glue layer (2), be equipped with photocuring on flexible polymer thin layer (4) and feel layer (5), photocuring feels layer (5) and is formed by UV elastic resin through ultraviolet curing.

2. The polymeric UV film of claim 1, wherein: a layer of light-cured UV oil is attached to the light-cured hand feeling layer (5).

3. The polymeric UV film of claim 1, wherein: the high-molecular hot-melt film layer (1) is a PE film.

4. The polymeric UV film of claim 1, wherein: the flexible polymer film layer (4) is a BOPET layer.

5. The polymeric UV film of claim 1, wherein: the photo-curing hand feeling layer is characterized by further comprising a printing pattern layer (3), wherein the printing pattern layer (3) is located between the flexible polymer film layer (4) and the photo-curing hand feeling layer (5).

6. The polymeric UV film of claim 1, wherein: the composite glue layer is characterized by further comprising a printing pattern layer (3), wherein the printing pattern layer (3) is located between the composite glue layer (2) and the flexible polymer film layer (4).

7. The polymeric UV film of claim 1, wherein: the thickness of the photocuring hand feeling layer (5) is 0.01 mm-0.5 mm.

8. The polymeric UV film of claim 1, wherein: the light-cured hand feeling layer (5) is provided with raised grains (6).

Images