KR20090109927A - Smart Window Sheet and Process Thereof - Google Patents

Abstract

PURPOSE: A method for manufacturing a smart window sheet is provided to be easily attached to or detached from a window so a user does not have to exchange a window glass. CONSTITUTION: A smart window sheet comprises: two transparent polymer substrates(22); ITO thin films(24) positioned on the transparent polymer substrates; a PDLC film(26) comprising polymer-dispersed liquid crystals that are filled between the ITO thin films; and an adhesive layer(30). The adhesive layer is formed on one side of the PDLC film and consists of one or more materials selected from the group consisting of silicone-based adhesive, acrylic adhesive, epoxy-based adhesive, and urethane-based adhesive. The smart window sheet additionally contains a release film adhered to the adhesive layer.

Description

Detachable and attachable smart window sheet and its manufacturing method {Smart Window Sheet and Process Thereof}

The present invention relates to a smart window sheet using a polymer dispersed liquid crystal, and more particularly, to a smart window sheet and a method for manufacturing the same, which can be detached and attached and are easy to install and replace.

A smart window refers to a window that can freely adjust the transmittance of sunlight and is also called an electronic curtain, a variable transmittance glass, a dimming glass, or the like.

Conventionally, in order to control the transmittance of sunlight flowing into the room through glass, a method of making colored glass by adding colored oxide to the glass composition, or attaching film paper having a specific transmittance to the glass surface has been used. However, these conventional methods do not have an active control function for sunlight and are a passive method of selectively shielding or transmitting only in a certain light wavelength region.

The smart window is to solve such a conventional problem, and is an active product that can artificially adjust light transmittance and color, and is currently recognized as one of the next generation products in the glass field.

Smart windows may be classified into various types according to the type of material, and among these, smart windows using a polymer dispersed liquid crystal (PDLC), which is closest to a large size, are widely used.

1 is a cross-sectional view of a smart window using a conventional polymer dispersed liquid crystal.

In the conventional smart window using a polymer dispersed liquid crystal, an ITO thin film 8 is formed on two transparent polymer films 6, a polymer dispersed liquid crystal layer 10 is laminated thereon, and an ITO thin film 8 'is placed thereon. The PDLC film produced by the method of stacking the formed polymer film 6 'is laminated to a glass bonding sheet such as EVA (Ethylene-Vinyl Acetate, ethylene-vinyl acetate) or PVB (Polyvinyl Butyral, polyvinyl butyral). 4 ') to bond between two glass substrates 2 and 2'.

Such a smart window using a polymer dispersed liquid crystal has a problem in that a manufacturing process is complicated and a high incidence of defects is generated in the process of inserting a PDLC film into glass. In addition, when installing on existing windows or when defects occur in existing installed products and need to be replaced, there is a problem in that construction and maintenance and maintenance are difficult and uneconomical because glass must be replaced entirely.

The present invention has been made to solve such a problem, and an object thereof is to provide a smart window sheet and a method of manufacturing the same, which can be easily applied to an existing window without replacing the glass and are detachable and attachable.

To this end, the present invention in one aspect, PDLC film consisting of two transparent polymer substrates, the ITO thin film layer formed on the two opposite surfaces of the polymer substrate and the polymer dispersed liquid crystal layer filled between the ITO thin film layer; And a pressure-sensitive adhesive layer formed on one surface of the PDLC film and comprising one or more transparent pressure-sensitive adhesives selected from the group consisting of silicone-based, acrylic, epoxy-based, or urethane-based adhesives.

At this time, it is preferable that the smart window sheet further comprises a release film attached on the adhesive layer.

In addition, a polyester film, a polycarbonate film, a polymethyl methacrylate, a polyethylene naphthalate film, or the like may be used as the polymer substrate.

In another aspect, the present invention, PDLC film manufacturing step; Preparing an adhesive sheet by forming an adhesive layer on the first release film and laminating a second release film having a peeling force different from that of the first release film on the adhesive layer; And attaching the pressure sensitive adhesive sheet on the PDLC film while removing one of the release films of the pressure sensitive adhesive sheet.

At this time, the PDLC film manufacturing step is the step of applying a polymer dispersed liquid crystal on the first polymer substrate on which the ITO thin film is formed; Curing the applied polymer dispersed liquid crystal to form a polymer dispersed liquid crystal layer; And laminating a second polymer substrate on which the ITO thin film is formed on the polymer dispersed liquid crystal layer.

In addition, the first and the second polymer base material is preferably selected from the group consisting of polyester film, polycarbonate film, polymethyl methacrylate and polyethylene naphthalate film, wherein the adhesive layer is silicone, acrylic, epoxy or It is preferable that it consists of 1 or more types of transparent adhesives chosen from the group which consists of urethane type adhesives.

On the other hand, the adhesion step of the adhesive sheet is preferably carried out so that the part from which the release film is removed can be directly attached to the PDLC film surface.

Smart window sheet of the present invention made as described above can be applied to the existing glass window is easy to install, the construction cost is low.

In addition, even in the event of a defect in the product, it is convenient to replace the entire glass simply by removing the sheet attached to the glass surface and attaching a new sheet.

In addition, since a glass substrate or a glass bonding sheet is not used in the production of the product, there is an advantage in that the production cost is reduced and transportation and storage are easy.

2 shows a smart window sheet of the present invention. Hereinafter, the smart window sheet of the present invention will be described in more detail with reference to FIG. 2.

As shown in FIG. 2, the smart window sheet of the present invention includes a PDLC film 20 including a polymer substrate 22, 22 ′, an ITO thin film layer 24, 24 ′, and a polymer dispersed liquid crystal layer 26. It comprises a pressure-sensitive adhesive layer 30 is sequentially stacked on one surface of the PDLC film 20.

In addition, the smart window sheet of the present invention may further comprise a release film 40 on the adhesive layer (30).

The PDLC film 20 consists of two polymer substrates and a polymer dispersed liquid crystal layer filled between the two polymer substrates, and a method for producing such PDLC films is well known in the art. For example, a PDLC film is a polymer substrate having an ITO thin film layer formed by depositing an ITO thin film on a polymer substrate, applying a polymer dispersed liquid crystal solution on the ITO polymer substrate, curing, and then again forming a polymer on which the ITO thin film layer is formed. It can be produced by the method of laminating the substrate.

At this time, the polymer substrate used in the PDLC film is a light-transmitting polyester (Polyester, PET), polycarbonate (polycarbonate, PC), polymethyl methacrylate (Polymethylmethacrylate, PMMA), polyethylene naphthalate (Polyethylene Naphthalate, PEN) Polymer film of a transparent material such as may be used, preferably a polyester film is used.

The ITO thin film layer is a means for applying a voltage to the polymer dispersed liquid crystal layer, and is formed on the surface of the polymer substrate. ITO formation can be carried out by conventional methods well known in the art, for example by deposition.

Next, the polymer dispersed liquid crystal layer includes liquid crystal particles and a photosensitive polymer solution. When the ultraviolet light is irradiated onto the polymer dispersed liquid crystal layer, the photosensitive polymer is cured, and a large number of pores are generated inside the polymer dispersed layer, and the liquid crystal particles are included in the pores. In the state where no voltage is applied, since the polymer molecules surrounding the liquid crystal and the liquid crystal particles are randomly arranged, the light cannot be transmitted and is scattered to form an opaque state. However, when a voltage is applied, the liquid crystals are polarized and arranged with regularity, and polymer molecules are also arranged along its transmission axis, whereby light is transmitted, and as a result, becomes transparent. Therefore, light transmittance may be controlled by applying a voltage to the PDLC film.

The smart window sheet of the present invention is characterized by forming a transparent adhesive layer on one surface of the PDLC film made as described above. The adhesive layer is to allow the PDLC film to be detached and attached to the glass window, and may be generally formed of an optical adhesive such as a silicone pressure sensitive adhesive, an acrylic pressure sensitive adhesive, an epoxy pressure sensitive adhesive, and a urethane pressure sensitive adhesive. Among these, the acrylic adhesive which is excellent in an optical characteristic and durability is especially preferable as the adhesive of this invention.

The present invention forms a pressure-sensitive adhesive layer using an optical pressure-sensitive adhesive on one side of the PDLC film as described above, so that a smart window can be easily implemented by attaching the PDLC film to a conventional glass window without using a glass bonding method. It was.

 On the other hand, as described above, the smart window sheet of the present invention preferably further comprises a release film on the adhesive layer surface. A release film is a film used to protect adhesive surfaces such as an adhesive, an adhesive, and a weakening agent. When the release film is attached, the release film prevents the adhesion of the adhesive layer from deteriorating and prevents foreign substances from adsorbing. And there is an advantage that easy storage.

The smart window sheet of the present invention made as described above makes it possible to easily implement the smart window by removing the release film and then attaching the adhesive layer to the glass without having to replace the glass as a whole. In addition, if the product is damaged or tired, instead of replacing the entire glass, instead of replacing the sheet attached to the glass surface and attaching a new sheet, there is an advantage that the replacement is easy.

Hereinafter, the manufacturing method of the smart window sheet of the present invention.

The smart window sheet manufacturing method of the present invention comprises (1) PDLC film manufacturing step (2) adhesive sheet manufacturing step (3) attaching the adhesive sheet to the PDLC film.

(1) PDLC film manufacturing step

First, an ITO thin film is formed on one surface of two polymer substrates. Methods of forming an ITO thin film layer on a polymer substrate are well known in the art. Alternatively, commercially available ITO coated polymeric substrates may be used instead of forming ITO thin films.

In this case, a polyester film, polycarbonate film, poly methyl methacrylate or polyethylene naphthalate film may be used as the polymer substrate.

Next, a polymer dispersed liquid crystal solution in which a liquid crystal is dispersed in a photosensitive polymer solution such as acrylate is applied onto a surface on which an ITO thin film of one of the above polymer substrates (hereinafter, referred to as 'first polymer substrate' for convenience) is formed.

Then, the coated polymer dispersed liquid crystal is cured to form a polymer dispersed liquid crystal layer, and the formed polymer dispersed liquid crystal layer is formed with an ITO thin film of the other polymer substrate (hereinafter, referred to as 'second polymer substrate' for convenience). A PDLC film is prepared by laminating a second polymer substrate to abut on the surface.

(2) adhesive sheet manufacturing step

On the other hand, the pressure-sensitive adhesive sheet for forming the pressure-sensitive adhesive layer and the release film layer separately from the PDLC film production.

The pressure sensitive adhesive sheet is formed by applying a silicone pressure sensitive adhesive, an acrylic pressure sensitive adhesive, an epoxy pressure sensitive adhesive, and a urethane pressure sensitive adhesive onto a first release film to form an adhesive layer, and then a second release having a peeling force different from that of the first release film on the adhesive layer. By laminating films, a pressure-sensitive adhesive sheet having an adhesive layer formed between two release films having different peeling strengths is produced.

In this case, the first release film and the second release film may adjust the peel force by adjusting the thickness.

(3) attaching the adhesive sheet to the PDLC film

When the PDLC film and the pressure sensitive adhesive sheet are manufactured, the end of the release film having a weak peeling force in the pressure sensitive adhesive sheet is peeled off and adhered to one surface of the PDLC film. Then, the adhesive layer is attached to one surface of the PDLC film while pulling out and removing the peeled release film little by little.

At this time, it is preferable that the portion where the release film is removed can be directly attached to the surface of the PDLC film so as not to generate bubbles or adsorb foreign substances.

Hereinafter, the present invention will be described in more detail with reference to specific examples of the present invention. However, the following examples are merely examples for describing the present invention, and are not intended to limit the present invention.

Example

1) After dispersing the liquid crystal in the acrylate resin to prepare a PDLC solution, the PDLC solution was applied to the ITO PET film to a thickness of 23㎛, UV cured for 2 minutes, and then laminated on the ITO PET film PDLC film Was prepared.

2) Next, an acrylic adhesive (DP-1, Japan, Soken Co., Ltd.) containing a curing agent (T759H, Japan, 大 日 精 化) on a 50 μm silicone release treated PET release film (curing agent: adhesive = 13.5: 1000) Was applied to a thickness of 20㎛, and heat-cured at 120 ℃ for 2 minutes to form a pressure-sensitive adhesive layer, and a pressure-sensitive adhesive sheet was prepared by laminating a 75㎛ silicon release treated PET release film on the adhesive layer.

3) While removing the release film of the 50㎛ silicon release PET release film from the pressure-sensitive adhesive sheet prepared in 2), by attaching the exposed adhesive surface to one surface of the PDLC film produced in 1), Possible smart window sheets were prepared.

1 is a cross-sectional view showing the structure of a conventional smart window.

2 is a cross-sectional view showing the structure of a smart window sheet of the present invention.

3 is a cross-sectional view showing the structure of the pressure-sensitive adhesive sheet of the present invention.

** SIGNAL **

2, 2 ': glass substrate

4, 4 ': sheet for bonding organic substrate

6, 6 ': polymer film

8, 8 ': ITO thin film

10: polymer dispersed liquid crystal layer

20: PDLC film

22, 22 ': polymer substrate

24, 24 ': ITO thin film layer

26, 26 ': polymer dispersed liquid crystal layer

30: adhesion layer

40: first release film

50: second release film

Claims (8)

A PDLC film comprising two transparent polymer substrates, an ITO thin film layer formed on two opposing surfaces of the polymer substrate, and a polymer dispersed liquid crystal layer filled between the ITO thin film layers; And A smart window sheet which is formed on one surface of the PDLC film and comprises an adhesive layer made of one or more transparent adhesives selected from the group consisting of silicone, acrylic, epoxy and urethane adhesives. The method of claim 1, A detachable and attachable smart window sheet, further comprising a release film attached on the adhesive layer. The method of claim 1, The polymer substrate is detachable and attachable smart window sheet, characterized in that selected from the group consisting of polyester film, polycarbonate film, polymethyl methacrylate and polyethylene naphthalate film. PDLC film manufacturing step; Preparing an adhesive sheet by forming an adhesive layer on the first release film and laminating a second release film having a peeling force different from that of the first release film on the adhesive layer; And And attaching the adhesive sheet onto the PDLC film while removing one of the release films of the adhesive sheet. The method of claim 4, wherein The PDLC film manufacturing step may include applying a polymer dispersed liquid crystal on a first polymer substrate on which an ITO thin film is formed; Curing the applied polymer dispersed liquid crystal to form a polymer dispersed liquid crystal layer; And And laminating a second polymer substrate on which the ITO thin film is formed on the polymer dispersed liquid crystal layer. The method of claim 5, The first and second polymer substrates are selected from the group consisting of polyester film, polycarbonate film, polymethyl methacrylate, and polyethylene naphthalate film. The method of claim 4, wherein The pressure-sensitive adhesive layer is a method of manufacturing a detachable and attachable smart window sheet, characterized in that made of one or more transparent pressure-sensitive adhesives selected from the group consisting of silicone-based, acrylic, epoxy-based and urethane-based adhesives. The method of claim 4, wherein The attaching step of the adhesive sheet is a method of manufacturing a detachable and attachable smart window sheet, characterized in that the part is removed so that the part can be immediately attached to the PDLC film surface.

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