KR101924431B1 - manufacturing method of decoration film with multi-layer film protecting emboss of the base film under high temperature and pressure pressing process and thereby decoration film - Google Patents

Abstract

A method of manufacturing a decorative film having a multilayer protective film for preventing emboss disappearance of a base film in a high-temperature, high-pressure pressing and bonding process of the present invention includes a base film heating step for heating a base film of a synthetic resin material to a required temperature, A coextrusion step in which the first layer and the second layer are extruded and laminated on the base film using a DIE (die die) Wherein the first layer is made of a mixture of PE and EVA, and the second layer is made of PE, wherein the first layer is made of PE and the second layer is made of PE, And the ratio of vinyl acetate through mixing of PE and EVA in the layer is controlled within the range of 5 to 15%.

Description

[0001] The present invention relates to a method for producing a decorative film having a multi-layer protective film for preventing the disappearance of the embossing of the base film in a high-temperature and high-pressure press bonding process, and a decorative film made by this manufacturing method a base film under high temperature and pressure pressing process and a decoration film}

The present invention relates to a decorative film, and more particularly, to a decorative film in which a printed pattern or an emboss formed on a base film is adhered to an iron plate, an AL plate or an ABS panel at a high temperature and a high pressure, The present invention relates to a method for manufacturing a decorative film which can increase the quality of a decoration film by allowing a manufacturer's source mark to be formed on a protective film and can reduce costs and ensure discrimination.

Many kinds of films have been used for packaging and interior use, and in particular, coextruded films have been widely used in recent years.

The coextruded film is produced by melting a plurality of extruders using different or homogeneous resins and discharging the coextruded films in a multilayered molten state through a feedblock system or a multi-manifold system, Refers to a multilayer film produced through a longitudinal stretching process and a biaxial stretching process which is a transverse stretching process.

The use of a coextruded film as a multi-layer film is for a high-performance film product that complements the disadvantages of a single-layer film composed of a single material or requires a combination of different properties.

On the other hand, coextruded films are often used in order to reduce cost and ensure price competitiveness by properly combining materials having a high material cost and cheap materials so as not to affect the durability.

Decoration films, which are generally used for interior or exterior purposes, should be adhered with a protective film on the base film for the purpose of preventing surface scratches before installation. Such a protective film often has a multi-layer structure.

When using the decorative film, the protective film on the base film is removed, and the base film is stuck to the wall or the ceiling.

On the other hand, the decoration film is sold in a roll state. If the wrapping paper on the surface is removed, the source of the decoration film can not be correctly identified.

As mentioned above, after removing the protective film to use the decoration film, it may be difficult to confirm the origin of the film. Especially, in the place where various decoration films are handled, a lot of decorating film often occurs. At this time, decorating films having similar colors have difficulties in knowing their origin, and even when they are installed in one place, there is a problem that they are mixed with slightly different films from various sources.

When a construction film is mixed with a decoration film that is not the same source, there may be a slight difference in color or pattern, which often causes complaints from consumers.

In general, decorating films adhered to furniture, moldings, windows, etc. can be adhered without overheating by overlay or wrapping method, but in the case of decorating film adhered to iron plate, AL plate or ABS panel, Heat and pressure must be applied to ensure adhesion.

The decoration film uses a base film made of a material such as polyvinyl chloride (PVC) or polypropylene (PP). In many cases, a pattern or an emboss is formed on the base film for decorative purposes.

When such a decoration film is bonded to an iron plate, an AL plate, and an ABS panel, there is a problem that printed patterns or embosses are damaged due to high temperature and high pressure, and the emotional quality such as the original texture of the decoration film is remarkably deteriorated.

In order to solve this problem, a product having a protective film bonded to a base film is being developed. In this method, a two-layered protective film composed of PE and EVA is produced by coextrusion, The protective film is bonded.

The base film and the protective film are press-bonded using a roll press. Since the EVA layer is melted by applying heat to the protective film in advance, the protective film is adhered to the base film while being stretched by heat. Therefore, There is a problem that the adhesive force is rapidly changed with the lapse of time.

If the decoration film produced in this manner is bonded to the steel plate, the AL plate or the ABS panel under high temperature and high pressure, there is a defect in the protective film of the decoration film itself, so that there is a problem that the quality satisfaction is not high.

There is a " PVC interior sheet in which the surface layer is protected by a film and a manufacturing method thereof "in Korean Patent Laid-Open No. 10-2008-0072363.

1 is a block diagram of a PVC interior sheet in which a surface layer according to the prior art is protected with a film.

The prior art is characterized in that a surface protection release film is laminated on a glossy surface of an inner sheet and an inner sheet on which a glossy surface is formed, and a PVC sheet is prepared by a calendering method, and then a PVC sheet Is preheated in a heating drum at 150 to 170 DEG C, a surface luminous flux is applied with a mirror-surface embossing roll, and then a surface protective film is laminated on the surface luminous surface.

That is, the prior art also has a problem that the surface protective film is laminated only for the purpose of protecting the surface of the inner sheet, and the process is complicated in that the protective film produced separately is bonded to the PV sheet.

Korean Patent Publication No. 10-2008-0072363

In the present invention, when a decoration film is bonded to an iron plate, an AL plate or an ABS panel under high temperature and high pressure conditions, a multilayer protective film is formed on the base film so that a printed pattern or an emboss formed on the base film is not damaged, PE layer, the emboss disappearance of the base film in the high-temperature and high-pressure pressing bonding process, which can solve the problem that the EVA, which forms the lower layer when the decoration film is bonded to the steel plate, the AL plate or the ABS panel, And to provide a method for producing a decoration film having a multilayer protective film.

The present invention also relates to a multilayer film for preventing the disappearance of the embossing of the base film in a high-temperature and high-pressure pressing bonding process in which a back-printed PE film is formed as the uppermost layer, A method for manufacturing a decoration film having a protective film, and a decoration film.

A method of manufacturing a decorative film having a multi-layer protective film for preventing the disappearance of embossing of a base film in a high-temperature and high-pressure pressing bonding process of the present invention for achieving the above- A co-extrusion step in which the first layer and the second layer are extruded and laminated on the base film by using a T-DIE (Tie die); a co-extrusion step of cooling Wherein the first layer is made of a mixture of PE and EVA, and the second layer is made of PE, characterized in that the base film, the first layer and the second layer are jointed by using a roll , And the ratio of vinyl acetate through mixing of PE and EVA in the first layer is controlled within a range of 5 to 15%.

The method for producing a decorative film having a multilayer protective film for preventing emboss disappearance of a base film in a high-temperature and high-pressure pressing bonding process of the present invention includes a base film heating step for heating a base film of a synthetic resin material to a required temperature; A coextruding step of allowing the first layer and the second layer to be laminated while being extruded on the base film using T-DIE (Tie Die); A PE film feeding step in which a PE film having a source indication on the back side or no source indication is fed onto the second layer; A first layer, a second layer, and a PE film are laminated using a cooling roll maintained at a temperature of 18 캜 to 22 캜, wherein the first layer is a mixture of PE and EVA And the second layer is made of PE, wherein the ratio of vinyl acetate through mixing of PE and EVA in the first layer is controlled within a range of 5 to 15%.

Preferably, the base film is fed after heat treatment at a temperature of 30 ° C to 50 ° C.

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Preferably, feeding of the base film, extrusion of the T-die, and feeding of the PE film are stopped when the temperature of the cooling roll is out of the range of 18 ° C to 22 ° C.

Another aspect of the present invention relates to a decorative film having a multi-layer protective film for preventing the disappearance of embossing of a base film in a high-temperature, high-pressure pressing bonding process, which is produced by the manufacturing method of the present invention.

Further, in the decoration film of the present invention, the PE film has a source indication, and includes a manufacturer's logo, a company name, a telephone number, and the like, and also includes a method of using the decoration film.

According to the method for producing a decoration film having a multilayer protective film for preventing the disappearance of the embossing of the base film in the high-temperature and high-pressure pressing bonding process according to the present invention and the decoration film made by the manufacturing method, It is possible to construct the emboss without damaging it, and it is possible to clearly show the origin of the emboss, which is advantageous in that the decoration film can be conveniently managed and constructed.

In addition, since the source is displayed on the multi-layer protective film, it is possible to provide a high advertising effect, and it is also possible to insert a guidance message such as a usage method in addition to the source indication, thereby eliminating the need to attach a separate user's manual.

In addition, when the decorating film of the present invention is adhered to the steel plate, the AL plate or the ABS panel under high temperature and high pressure, there is no need to worry about the damage of the base film so that the working efficiency can be improved and the base film is not damaged, It also has the effect of increasing satisfaction.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a block diagram of a PVC interior sheet in which a surface layer according to the prior art is protected with a film. Fig.
2 is a process diagram for a method of manufacturing a decoration film according to the present invention.
3 is a process diagram for another method of producing a decoration film according to the present invention.
4 is a process diagram for the production method of the present invention.
5 is a process diagram for another method of the present invention.
6 is an enlarged sectional view of a decoration film according to the present invention.
7 is an enlarged cross-sectional view of another decoration film;
8 is an enlarged cross-sectional view of a decoration film having a source mark on a PE film.
9 is a perspective view of a decoration film having a source indication.

Hereinafter, a method of manufacturing a decorative film having a multi-layer protective film for preventing the disappearance of embossing of a base film in a high-temperature and high-pressure pressing and bonding process according to the present invention and a decorative film produced by the manufacturing method will be described in detail. Reference will be made to the accompanying drawings. It should be understood, however, that the drawings and detailed description thereof illustrate one feasible example according to the technical idea of the present invention, and the technical scope of protection of the present invention is not limited thereto.

FIG. 2 is a process diagram of a method of manufacturing a decoration film according to the present invention, FIG. 3 is a process diagram of another manufacturing method of a decoration film according to the present invention, FIG. 4 is a process diagram of a manufacturing method of the present invention, 5 is an enlarged cross-sectional view of another decoration film of the present invention, Fig. 6 is an enlarged cross-sectional view of a decoration film of the present invention, Fig. 7 is an enlarged sectional view of another decoration film, Fig. 9 is an enlarged cross-sectional view of a decoration film, and Fig. 9 is a perspective view of a decoration film having a source indication.

As shown in the figure, a method of manufacturing a decoration film having a multi-layer protective film for preventing the disappearance of embossing of a base film in a high-temperature and high-pressure pressing and bonding process according to the present invention includes: heating a base film (S100) , And a merging step (S300).

The present invention may also include a base film heating step (S100), a co-extrusion step (S200), a PE film feeding step (S250), and a coalescing step (S300).

The present invention is for producing a decoration film, wherein the decoration film (100) comprises a base film (110) and a multilayer protective film (120). The multilayer protective film 120 covers and protects the surface of the base film 110 and removes the multilayer protective film 120 and attaches the base film 110 to a desired place.

The base film 110 is made of a synthetic resin material. Preferably, the PVC film or the PP film is favorable, and the base film 110 is heated by using the drying device 50 so as to apply the proper heat to the base film 110 The base film heating step S100 is first required.

Since the base film 110 is manufactured in advance, minute moisture may remain on the surface due to environmental factors, so that the base film 110 is heated to about 30 to 50 ° C to remain on the base film 110 Remove any moisture. Preferably, the hot air of the appropriate wind speed is applied to the base film 110 by using the drying device 50 to remove fine dust or foreign matter which may be buried in the base film 110.

In addition, by applying appropriate heat to the base film 110, it is possible to solve the problem caused by the shrinkage occurring during the production and storage of the base film. That is, when heat is applied to the base film, the base film becomes soft. When feeding with appropriate tension, the smoothness of the base film is improved, which can help improve the quality of the decoration film.

The base film 110 may have a printed pattern or an embossed convexo-convex in consideration of the texture and texture of the base film 110. Such printed patterns or embosses expressed in the base film 110 itself can be recognized as a high-quality decoration film only after the decoration film 100 is kept in a circular state, so that the base film should not be damaged during storage or construction There is a need.

The base film heating step S100 is followed by a co-extrusion step S200. In the co-extrusion step S200, a first layer to be laminated on the base film 110 is formed using a T-DIE The first layer 121 and the second layer 122 are simultaneously extruded.

That is, the materials for forming the first layer 121 and the second layer 122 are melted and then extruded at the same time.

The first layer 121 and the second layer 122 are made of different materials. In this embodiment, the first layer 121 is a mixed composition of PE and EVA, Is made of PE.

After the materials of the first and second layers are melted in each melting hopper 20, the molten material is supplied to a T-die (T-DIE) 10 and the first layer 121 and the second layer (122) material is extruded.

Preferably, the mixing ratio of the first layer 121 made of a mixture of PE and EVA can be adjusted according to the print pattern or embossing of the base film 110. It is preferable that the TOTAL VA% is in the range of 5 to 15% in the combination of PE: EVA considering the entirety of the first layer and the second layer.

EVA is a raw material obtained by copolymerizing ethylene with vinyl acetate, and VA% generally means the content of vinyl acetate contained in EVA.

Accordingly, TOTAL VA% means the weight ratio of vinyl acetate to the total weight of ethylene required to form the first layer 121. In the present invention, the first layer 121, which is bonded to the base film 110, Mixing ratio is adjusted so that the content of vinyl acetate is 5 ~ 15% by mixing PE and EVA. The method for adjusting the TOTAL VA% to 5 to 15% can be achieved by adjusting the mixing ratio.

The reason for limiting TOTAL VA% is that it is important for the peelability of the first layer 121 and the second layer 122, which are protective films.

The higher the VA%, the higher the peel strength is, and therefore the appropriate peelability control is required.

The peelability refers to the strength required for peeling the protective film from the laminated protective film (first layer and second layer) at a speed of 3 m / min at an angle of 90 degrees. When the peeling force is less than 20 gf / 50 mm, , And it was confirmed that the peeling was good when it was in the range of 20 to 120 gf / 50 mm, and it was confirmed that there was a problem when it was 120 gf / 50 mm.

Therefore, the TOTAL VA% of the protective film should be adjusted so that the peelability is in the range of 20 to 120 gf / 50 mm, and the preferable range is 5 to 15%.

Table 1 below shows the results of the peelability test, which can be used to define a critical meaning that limits the value of TOTAL VA%.

Thickness of protective film (탆) Of protective film
Total VA% Peelability (gf / 50mm) Example 1 80 5 31 Example 2 80 7 44 Example 3 80 9 62 Example 4 80 11 73 Example 5 80 13 91 Example 6 80 15 117 Example 7 90 5 23 Example 8 90 7 38 Example 9 90 9 59 Example 10 90 11 81 Example 11 90 13 98 Example 12 90 15 112

For example, when a protective film (constitution of the first layer and a second layer) having a thickness of 80 탆 is produced, if the second layer is fixed to 20 탆 which is the optimum thickness and the total VA is set to 5% 5% of the EVA is 4 탆, and the initial VA% of the basic EVA is 18%, resulting in 4 * 100/18 = 22.22 탆. Therefore, the thickness ratio of PE to EVA in the first layer is 37.78 mu m vs. 22.22 mu m, so that the raw material is mixed with PE: EVA = 1.7: 1 to satisfy this requirement. This makes it possible to manufacture a protective film having a thickness of 80 μm and a TOTAL VA of 5%.

In the co-extrusion step (S200) of the present invention, the first layer 121 made of PE and EVA and the second layer 122 made of PE are simultaneously extruded while being combined with each other, Can be achieved.

The coalescing step S300 may be performed immediately after the co-extrusion step S200, or the coalescing step S300 may be performed after the PE film feeding step S250 is further performed.

Coextrusion Step S200 Next, a PE film feeding step (S250) may be followed. A predetermined origin indication 124 may be printed on the back of the PE film 123. [ The fed PE film 123 is fed onto the second layer 122 which is extruded through the co-extrusion step S200.

The PE film 123 is previously prepared and wound on a roll, and the paper is fed while the roll is rotated.

The source display 124 printed on the PE film 123 may basically include the manufacturer's name, telephone number, brand name and the like, and may also include a description of other methods of use.

The PE film 123 may have the source indication 124 and there may be no source indication but the PE film 123 is once again bonded onto the second layer 122 made of PE, 110) can be protected while improving the workability at the time of construction.

The base film 110, the first layer 121, the second layer 122 and the PE film 123 are joined together as a single product while being squeezed and cooled through the cooling roll 30.

The process for this lap is followed by a coalescing step (S300).

In the coalescing step S300, the base film 110, the first layer 121, the second layer 122, and the PE film 123, which are components of the decoration film 100, enter the cooling roll 30, And a decorating film 100 of a certain thickness by a cooling action.

At this time, the idler rollers 40 are provided adjacent to the cooling rolls 30 to supply the respective elements between the cooling rolls 30 and the idle rollers 40 and press them to complete the decorating film.

Preferably, the cooling roll 30 should be controlled to maintain a constant temperature, and may be maintained in a temperature range of 18 ° C to 22 ° C.

It is more preferable that the temperature of the cooling roll 30 and the idle roller 40 is also within this range, and the reason why the temperature control is required is to secure the quality of the product.

For example, when the temperature of the cooling roll 30 or the idle roller 40 is less than 18 ° C, the possibility of moisture generation increases. When the temperature exceeds 22 ° C, the cooling roll 30 or the idle roller 40 is decorated with a decoration film A problem may occur that the base 100 is stuck to the base.

If the temperature of the cooling roll 30 is outside the optimum temperature range of 18 ° C to 22 ° C, the base film 110 ), Extrusion in the tie die 10 and feeding of the PE film 123 can be stopped.

In the control unit (not shown), the temperature of the cooling roll 30 or the idle roller 40 can be checked in real time, and the control unit controls the supply of the cooling water according to the temperature of the cooling roll and the idler roller measured in real time .

As another aspect of the present invention, a decoration film having a multilayer protective film for preventing emboss disappearance of a base film in a high-temperature, high-pressure pressing bonding process will be described.

The decoration film 100 of the present invention may be a base film 110 and a first layer 121 on the base film 110 and a second layer 122 on the first layer 121, A PE film 123 may be coupled to the second layer 122 and a source indication 124 may be formed on the back surface of the PE film 123. [

6 is a cross-sectional view of a decoration film comprising a base film, a first layer and a second layer. The second layer 122 is made of PE, so that when the decoration film 100 is subjected to high-temperature and high- And the second layer 122 protects the EVA of the first layer 121 which is weak against heat and protects the PE of the second layer 122, And the base film 110 can be effectively protected by forming a multi-layered protective film.

7 shows a cross-sectional view of a decorative film comprising a base film, a first layer, a second layer, and a PE film. In addition to increasing the thermal stability by further forming a PE film 123 on the second layer 122, Thereby providing an advantage that the embossing of the base film can be surely protected during the bonding process.

8 is a cross-sectional view of the decoration film for the case where the source mark is printed on the back side of the PE film, and the source mark 124 is indicative of the origin of the mark, such as the logo, telephone number, .

Further, the same instruction as the usage of the decoration film 100 can be printed on the PE film 123, which eliminates the need to provide a booklet such as a separate instruction manual.

In general, the decoration film 100 is cut and used according to the place where the construction is to be performed. In addition, the use of decor films of a variety of companies, rather than only one company, makes it difficult to manage squatting decoration films.

Decoration films with similar colors and shapes must be managed by each company, so they can be used in combination when used in construction.

In this respect, the decorative film according to the present invention has an advantage that the decoration film can be clearly identified by which company the product is, because there is a source mark on the PE film until the construction.

Hereinafter, a bonding method for actually using a decoration film for preventing the disappearance of the embossing of the base film in the high-temperature and high-pressure pressing bonding process according to the present invention will be briefly described. The method of adhering the decorating film to the steel plate or the AL plate includes a pre-treatment step, an adhesive application step, an iron plate (AL plate) supply step, and a decoration film coalescing step.

The pretreatment step is to smoothly join the decoration film by removing oil or various foreign substances present on the surface of the steel plate or AL plate to which the decoration film is to be attached.

The adhesive application step is followed by heating the steel plate or AL plate to 200 to 250 ° C and applying a high temperature adhesive to the top surface. High-temperature adhesives should be selected for use in commercial high-temperature adhesives.

After the high-temperature adhesive is applied to the steel plate or the AL plate, an iron plate (AL plate) feeding step for feeding the steel plate or the AL plate to the press roll is performed.

Followed by a decorating film coalescing step for attaching the decorating film while allowing the steel plate or AL plate to be fed continuously.

The decorating film is bonded to the steel plate or the AL plate by the press roll while supplying the decorating film over the steel plate or AL plate coated with the high-temperature adhesive. The base film constituting the decoration film is attached while being in contact with the steel plate or the AL plate and the decoration film can be smoothly bonded under the high temperature and high pressure condition while the pressure of the press roll is applied to the multilayer protective film attached to the base film.

Further, the decoration film of the present invention can be attached to an ABS panel. Specific bonding methods are as follows.

 That is, the method of attaching the decorating film to the ABS panel may include the ABS panel molding and supply step and the decorating film combining step.

That is, in the present invention, the decoration film is adhered to the ABS panel. In the ABS panel molding and supply step, the ABS panel is continuously formed by extrusion to be supplied to the press roll.

The ABS panel formed into a plate by extrusion and supplied to a press roll has latent heat of high temperature and latent heat of about 200 ° C.

Therefore, the decorating film can be directly incorporated without applying any heat or using a high-temperature adhesive.

 In the decorating film coalescing step, the decorating film can be bonded to the ABS panel by the latent heat and the adhesive force of the ABS panel when the prepared decorating film is supplied onto the ABS panel and pressed by the press roll.

Even if the decorating film is bonded to the steel plate or the AL plate or the ABS panel by the pressing process under such a high temperature and high pressure, the decorating film having the multilayer protective film of the present invention can smoothly bond the printed pattern or emboss And can improve the completeness of the product.

The present invention can be utilized for the production of decoration films.

S100: Base film heating step
S200: co-extrusion step
S250: PE film feeding step
S300: coalescing step
100: Decoration film
110: base film
120: multilayer protective film 121: first layer
122: Second layer 123: PE film
124: Source Indication
10: Tie Dye
20: Melting hopper
30: cooling roll
40: idler rollers

Claims (7)

A base film heating step for heating the base film of the synthetic resin material to a required temperature;
A coextruding step of allowing the first layer and the second layer to be laminated while being extruded on the base film using T-DIE (Tie Die);
Wherein the base film, the first layer, and the second layer are laminated using a cooling roll maintained at a temperature of 18 ° C to 22 ° C,
Wherein the first layer is made of a mixture of polyethylene (PE) and ethylene vinyl acetate (EVA), and the second layer is made of polyethylene (PE), wherein the first layer of polyethylene (PE) Layer protective film for preventing the disappearance of the embossing of the base film in a high-temperature, high-pressure pressing bonding process characterized in that the ratio of vinyl acetate through mixing of acetate (EVA) is controlled within a range of 5 to 15% ≪ / RTI > A base film heating step for heating the base film of the synthetic resin material to a required temperature;
A coextruding step of allowing the first layer and the second layer to be laminated while being extruded on the base film using T-DIE (Tie Die);
A polyethylene (PE) film feeding step for allowing a polyethylene (PE) film having a source indication on the backside or no source indication to be fed onto the second layer;
A first layer, a second layer, and a polyethylene (PE) film are laminated using a cooling roll maintained at a temperature of 18 ° C to 22 ° C,
Wherein the first layer is made of a mixture of polyethylene (PE) and ethylene vinyl acetate (EVA), and the second layer is made of polyethylene (PE), wherein the first layer of polyethylene (PE) Layer protective film for preventing the disappearance of the embossing of the base film in a high-temperature, high-pressure pressing bonding process characterized in that the ratio of vinyl acetate through mixing of acetate (EVA) is controlled within a range of 5 to 15% ≪ / RTI > 3. The method according to claim 1 or 2,
Wherein the base film is fed after heat treatment at a temperature of 30 ° C to 50 ° C to prevent the emboss disappearance of the base film in the high temperature and high pressure pressing bonding process. The method of claim 3,
The first layer is made of a mixture of PE and EVA, and the second layer is made of PE. The ratio of vinyl acetate through mixing of PE and EVA in the first layer is in the range of 5 to 15% Wherein the embossing of the base film is prevented in the high-temperature, high-pressure pressing bonding process. The method according to claim 1,
And the feeding of the base film, the extrusion of the tee die and the feeding of the PE film are stopped when the temperature of the cooling roll is out of the range of 18 to 22 占 폚. Layer protective film for preventing decay. A decoration film having a multilayer protective film for preventing emboss disappearance of a base film in a high-temperature, high-pressure press bonding process, which is produced by the manufacturing method of claim 1 or 2. [ The decorating film produced by the manufacturing method of claim 2,
Characterized in that the PE film has a source indication and includes the manufacturer's logo, company name, telephone number and the like as the source indication, and also includes a method of using the decoration film. A decorative film having a multi-layer protective film to prevent the embossing of the film.

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