KR20080073182A - Method for adhering material to a side of glass-panel and the adhering glass-panel - Google Patents

Abstract

A method for adhering soft materials on the side of a glass and the glass joined with the soft material are provided to diversify wall finishing materials by firmly adhering a glass panel and the wall finishing material by removing an air layer and to minimize the time of attaching the glass panel and the wall finishing material by executing second and third processes at the same time. A method for adhering soft materials on the side of a glass comprises a first process for forming a laminate by successively laminating a wallpaper of which the outer side is coated to secure water resistance, a thermoplastic adhesive film(30) reacting to apply the adhesive property under melting condition, and a glass panel(10); a second process for inserting the laminate into a chamber forming vacuum; a third process for sucking the internal air of the chamber from the outside; a fourth process for melting the thermoplastic adhesive film closely adhered between a soft wall finishing material(20) and the glass panel, by heating the inside of the vacuum chamber at the adhesive film melting temperature for the certain time; and a fifth process for cooling down the chamber and the laminate and then, collecting the adhered laminate from the inside of the chamber.

Description

Method for adhering glass cross-section of ductile material and method for adhering material sectional glass

1 is a block diagram showing the process of the present invention.

2 is a longitudinal sectional view showing a lamination state in a first step;

3 is a longitudinal sectional view showing a final attachment state.

Figure 4 is a longitudinal sectional view showing another embodiment of the present invention.

Figure 5 is a longitudinal cross-sectional view showing a state of attachment of glass and wall finish in the prior art.

※ Explanation of codes for main parts of drawing

10: glass plate 11: air layer

20: wall finish material 21: coating film

30: adhesive film

The present invention relates to a method of attaching a wall finishing material having irregularities such as wallpaper, cloth, leather, etc. on the surface of a glass plate, and more particularly, to a glass joint. It relates to a cross-sectional joining method and its bonding glass.

In general, in order to decorate a desired pattern on the wall surface of the interior space, wall finishing materials of various materials having ductility such as wallpaper, cloth, leather, etc. are used, in this case by attaching the wall finishing material using a common adhesive or the like to the interior wall surface. It is possible to decorate the interior space with the design desired by the user. In particular, among recent wall finishing materials, such as wallpaper, cloth, leather, etc. are added to the pattern formed on the surface of the material unevenly to emphasize the three-dimensional appearance has been released to enable more various expressions on the interior wall.

On the other hand, recently, there has been an attempt to improve the aesthetics of the interior wall surface through the interior work of adding a glass plate using silicon or the like to the wall surface to which the interior wall surface finishing material is bonded. However, if irregularities are formed unevenly among the wall surface finishing materials, such as wallpaper, cloth, leather, etc., the gap between the glass plate and the interior wall finishing materials may be easily broken. In order to solve such a problem, in the conventional indoor wall interior work, the glass plate 100 and the wall finish material 200 as shown in Fig. 5 in the workshop using a glue or industrial adhesive 300, and then glass on the wall surface A method of attaching a joining wall finish material has been used. However, when the wall finish material 200 is attached to the glass plate 100 having high roughness using a paste or an industrial adhesive 300, bubbles 400 are generated in the space between the wall finish material 200 and the glass plate 100. There was a problem that a limit occurs in the adhesive force.

In addition, the wall finishing materials such as leather or cloth may be restored to a circular shape before the adhesive is completely cured by the original restoring force of the material itself, and thus the gap between the glass plates may be generated, resulting in an air layer, and the original adhesive shape may be changed by the original restoring force. In addition to the problem, when bubbles are generated, the adhesive force is lowered due to the bubbles themselves, and when the temperature of the bubbles rises, the volume of the bubbles expands and the wall finishing material and the glass plate are separated from each other.

Due to the above problems, there was a problem that the wall finishing material is attached to the glass, which is very difficult to use in interior and exterior, and in order to solve the problem, paints of various colors are painted on the surface of the glass. There was a limit in expressing various patterns and shapes such as cloth and leather.

An object of the present invention is to eliminate the conventional problems as described above, while completely removing the air layer remaining in the space between the glass and the flexible wall finish material while the glass plate and the wall finish material is firmly attached to the flexible wall surface material that can express a variety of patterns The present invention provides a method for joining a glass cross section of a flexible material and a laminated glass thereof, which can be utilized not only indoors but also outdoors.

In addition, an object of the present invention is to minimize the attachment time of the glass plate and the wall finish material.

In addition, it is an object of the present invention to further increase the weather resistance and moisture resistance of the wall finish material attached to the glass.

In addition, an object of the present invention is to allow the wall finish material to be attached in a more tightly adhered state to the glass.

In order to achieve the above object, the present invention provides a method for manufacturing a soft material single-sided laminated glass, which is coated with an outer surface coated with moisture resistance, a thermoplastic adhesive film reacting with adhesion under melting conditions, and a glass plate sequentially laminated. A first step of forming water; A second step of accommodating a stack formed through the first step in a chamber configured to form a vacuum; A third step of sucking air in the chamber from the outside; A fourth step of heating the inside of the chamber in the vacuum state to the adhesive film melting temperature for melting the thermoplastic adhesive film in close contact between the flexible wall finish material and the glass plate; And a fifth step of collecting the laminate bonded from the inside of the chamber after cooling the chamber and the laminate.

In addition, the second process and the third process may be performed at the same time, in the manufacturing method, cloth or leather may be used instead of wallpaper.

In addition, the chamber may be formed of a vacuum pack that is contracted or expanded according to the inflow and discharge of air so that the chamber may be used to compress the laminate at a predetermined pressure when the internal air is sucked from the outside.

Soft material cross-section laminated glass of the present invention for achieving the above another object is bonded to the surface of the wallpaper formed so that the outer surface is moisture-resistant and one surface of the glass plate using a thermoplastic adhesive film having adhesiveness in the melting conditions It is characterized by. Of course, the wall finishing material laminated glass may be used cloth or leather instead of wallpaper.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a flow chart showing a process of the present invention, Figure 2 is a longitudinal cross-sectional view showing a laminated state in the first step (Sl), Figure 3 is a longitudinal cross-sectional view showing a final attachment state, the present invention as shown The first step (Sl) for accommodating a stack of the glass plate 10 and the thermoplastic adhesive film 30 and the wallpaper 20 having adhesiveness in the melting conditions therein, and the inside of the chamber vacuum The second step (S2) of sucking the air between the laminate from the outside while in a state, and the vacuum chamber is heated for a predetermined time to a temperature at which the thermoplastic adhesive film can be melted, the glass plate 10 and the wallpaper 20 The glass plate 10 is subjected to a third step (S3) of melting the thermoplastic adhesive film 30 in close contact therebetween, and a fourth step (S4) of collecting the laminate after cooling the chamber and the laminate. Bubbles do not form between the wall and the wallpaper 20, and the glass plate 10 and the wallpaper 20 are firm. It is to be bonded.

The first step (S1) is a step of laminating the wallpaper 20, the thermoplastic adhesive film 30 and the glass plate 10 in order, and storing the laminate in the chamber, the interior of the chamber having heat resistance and airtightness By stacking and storing the wallpaper 20, the thermoplastic adhesive film 30, and the glass plate 10 in order, it can be said to be a preparation process for attaching the glass plate 10 to the wallpaper 20. The chamber needs to be formed of a material having a degree of resistance that does not change its properties due to temperature changes, and may use an autoclave or the like that is typically used for vacuum processing of glass joints. And the chamber may be formed to be able to process a plurality of glass plate 10 and wallpaper 20 at a time by putting a plurality of laminates inside. The bonding process may be performed on the upper side of the flexible wallpaper 20 introduced into the chamber while placing a plate having a weight such as a rubber plate or a silicon plate so that the glass plate 10 and the wallpaper 20 are in close contact with each other in a vacuum state. have. In addition, the vacuum chamber has a certain rigidity so that the overall shape does not change due to the pressure change according to the vacuum, it is preferable to use an autoclave or the like, which is usually used for vacuum processing of glass, and inside the vacuum chamber It is also possible to input a plurality of laminates so that a plurality of glass plate 10 and the wallpaper 20 is processed at once.

The second step (S2) is a process of removing the air layer 11 between the glass plate 10, the wallpaper 20, and the thermoplastic adhesive film 30, and the inside of the chamber is connected to a separate suction pump to By sucking air to the outside, the entire air inside the chamber is removed and the air layer 11 between the stacks is removed while keeping the glass plate 10 and the thermoplastic adhesive film 30 and the wallpaper 20 in uniform contact. . At this time, since the wallpaper 20 is a soft material capable of shrinking wallpaper, leather, cloth, etc., the bonding surface is firmly applied by applying a predetermined pressure to the wallpaper 20 and the glass plate 10 by shrinking the chamber. It is desirable to have a close contact.

In the third step S3, the thermoplastic adhesive film 30 is melted by applying heat while the glass plate 10, the thermoplastic adhesive film 30, and the wallpaper 20 are in close contact with each other while the vacuum is maintained in the chamber. While the glass plate 10 and the wallpaper 20 is to be bonded. The thermoplastic adhesive film 30 is manufactured by using a polyvinyl-butyral (PVB) resin or EVA (Ethylene Vinyl Acetate) resin, which is melted under melting temperature conditions and cured at room temperature, thereby producing a thermoplastic adhesive film 30. This melted completely penetrates between the fine gaps of the glass plate 10 and the wallpaper 20 to maintain a strong adhesive force. In addition, the thermoplastic adhesive film 30 is preferably used in the above-described PVB film or EVA film, but melted at a high temperature to form an adhesive force, using a film of a conventional synthetic resin material having a thermoplastic property of curing at room temperature conditions It is okay to do it.

In the fourth step S4, the thermoplastic adhesive film 30 is melted by the third step S3 described above, completely flows into the gap between the glass plate 10 and the wallpaper 20, and then the thermoplastic thermoplastic adhesive film ( 30) is cured again, and the laminate is collected, and the thermoplastic adhesive film 30 is quickly cured by lowering the overall temperature of the vacuum chamber by a normal water cooling or air cooling method such that the vacuum chamber described above is rapidly cooled. While not preventing the air layer 11 from being generated between the glass plate 10 and the wallpaper 20, not only to be firmly bonded, but also to facilitate the collection of the final wallpaper 20 laminated glass.

As the glass plate 10 and the wallpaper 20 are attached by the thermoplastic adhesive film 30 through the process as described above to produce the wallpaper laminated glass, the glass plate 10 and the thermoplastic adhesive film 30 as shown in FIG. ) And the wallpaper 20 are separated from each other, the thermoplastic adhesive film 30 completely penetrates between the minute bends and gaps of the wallpaper 20 and the glass plate 10, and the air between the glass plate 10 and the wallpaper 20. Will be able to completely remove the glass plate 10 and the wallpaper 20 will be able to maintain a firmly coupled state.

In the above manufacturing method, the above-described second step (S2) and the third step (S3) is preferably carried out sequentially, but may be carried out simultaneously to shorten the manufacturing time.

In addition, as shown in Figure 4 in the above-described first step (S1) by further stacking the coating film 21 of the synthetic resin material on the outside of the wallpaper 20 to be integrally attached, relatively weak moisture resistance compared to glass and The weather-resistant and fire-resistant wallpaper 20 is directly exposed to moisture, air or ultraviolet rays to prevent it from being easily deformed, corroded or deteriorated, so that the glass with wall finishing materials can be used for interior decoration as well as indoor space. It's okay.

In addition, the chamber is formed of a vacuum pack formed of a synthetic resin rubber material or silicon to shrink and expand according to the intake and discharge of air while having thermal conductivity and heat resistance, and discharges the air inside the vacuum pack to the outside to maintain a vacuum state. When maintained, the vacuum pack is contracted as a whole, and the inner surface of the vacuum pack is in close contact with the glass plate 10 and the wall finish material 20 so that the glass plate 10, the thermoplastic adhesive film 30, and the wall finish material 20 are firmly held by air pressure. It is also possible to make the attachment state of the glass plate 10 and the wall finish material 20 more uniform by making the following 3rd process perform in a fixed state.

In addition, a plurality of vacuum packs may be stacked inside the chamber to attach the plurality of glass plates and wall finishes at a time so that the above-described third process may be performed inside the chamber.

As described above, the present invention provides a glass-bonded wall finish material that allows the glass plate and the wall finish material to be firmly attached while completely removing the air layer formed between the glass plate and the soft wall finish material such as wallpaper, cloth, and leather that can express various patterns. By providing a variety of wall finishes, it is possible to extend the life while preventing contamination of the wall finishes.

In addition, the present invention by performing the second step of discharging the air of the vacuum chamber and the third step of heating the thermoplastic adhesive film at the same time to minimize the adhesion time of the glass plate and the wall finish material, further increasing the productivity of the laminated glass wall finish material You can increase it.

In addition, the present invention by laminating the coating film on the outside of the wall finish material to further increase the weather resistance and moisture resistance of the wall finish material attached to the glass, the location constraints of the glass finish wall laminated material is reduced, can be utilized in the outer wall, etc. In addition, it has the effect of longer life.

In addition, the present invention by forming a vacuum chamber to shrink and expand the vacuum pack so that the wall finish material is more tightly adhered to the glass, the adhesion state of the wall finish material is more uniform, not only the appearance is more beautiful, but also attached state Will have a more robust effect.

In addition, the present invention can protect the constructor from debris due to breakage of the glass during wall finish construction by bonding the glass and the soft wall finish material.

Claims (6)

A first step of forming a laminate by sequentially laminating a wallpaper coated with an outer surface to have moisture resistance, a thermoplastic adhesive film reacting to have adhesion under melting conditions, and a glass plate; A second step of accommodating a stack formed through the first step in a chamber configured to form a vacuum; A third step of sucking air in the chamber from the outside; A fourth step of heating the inside of the chamber in the vacuum state to the adhesive film melting temperature for melting the thermoplastic adhesive film in close contact between the flexible wall finish material and the glass plate; And And a fifth step of collecting the laminate bonded from the inside of the chamber after cooling the chamber and the laminate. A first step of forming a laminate by sequentially laminating a cloth material coated with an outer side to have moisture resistance, a thermoplastic adhesive film reacting to have adhesion under melting conditions, and a glass plate; A second step of accommodating a stack formed through the first step in a chamber configured to form a vacuum; A third step of sucking air in the chamber from the outside; A fourth step of heating the inside of the chamber in the vacuum state to the adhesive film melting temperature for melting the thermoplastic adhesive film in close contact between the flexible wall finish material and the glass plate; And And a fifth step of collecting the laminate bonded from the inside of the chamber after cooling the chamber and the laminate. A first step of forming a laminate by sequentially laminating a leather material coated with an outer side to have moisture resistance, a thermoplastic adhesive film reacting to have adhesion under melting conditions, and a glass plate; A second step of accommodating a stack formed through the first step in a chamber configured to form a vacuum; A third step of sucking air in the chamber from the outside; A fourth step of heating the inside of the chamber in the vacuum state to the adhesive film melting temperature for melting the thermoplastic adhesive film in close contact between the flexible wall finish material and the glass plate; And And a fifth step of collecting the laminate bonded from the inside of the chamber after cooling the chamber and the laminate. 1. The wallpaper single-sided laminated glass of claim 1, wherein the outer surface is coated with a pattern forming surface of the wallpaper coated with one surface of the glass plate using a thermoplastic adhesive film having adhesiveness under melting conditions. A cloth-form laminated glass material, characterized in that the outer surface is bonded to the pattern forming surface and the glass plate surface of the coated cloth material using a thermoplastic adhesive film having adhesiveness in the melting conditions. Leather-coated single-sided laminated glass, characterized in that the outer surface is coated with a pattern-forming surface and a glass plate of the leather material coated using a thermoplastic adhesive film having adhesion in the melting conditions.

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