KR101566513B1 - Method of producing glass window system with thermal insulation and the pattern film - Google Patents

Abstract

The present invention relates to a producing method of a glass window system having a pair glass and, more specifically, to a producing method of a glass window system having a thermal insulating material and a pattern film, comprising: a first step (S100) of removing a foreign substance in a pair of plate glasses (100a, 100b); a second step (S200) of having a spacer (200a to 200d) where a first space unit (210) and a second space unit (510) are formed, and respectively fixing both surfaces of the spacer (200a to 200d) on an inner surface of a pair of the plate glasses after cleaning the spacer; a third step (S300) of respectively bonding a pair of pattern films (300a, 300b) using a polystyrene (PS) adhesive or a dry adhesive (DA) to situate the pattern films on an inner surface of a pair of the plate glasses; a fourth step (S400) of fixing an air cap (400), which bonds a first air cap (401) and a second air cap (402) by a laminated film (403) on the first space unit (210); and a fifth step (S500) of injecting a silicone finish material (500) into the second space unit (510) to mutually bond a pair of the plate glasses and the spacer.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a glass window system having a heat insulating material and a pattern film,

The present invention relates to a method of manufacturing a glass window system having a heat insulating material and a pattern film. In particular, by incorporating a single heat insulating material or a multiple thermal insulating material and a pattern film in a space of a pair glass, And to a method for manufacturing a glass window system having a heat insulating material and a pattern film for preventing glass fragments from being scattered during decoration and breakage.

Recently, in order to improve the insulation and soundproofing of the glass window together with the energy conservation movement due to the high oil prices, a double glazing is used in which a shutter is installed on a window, or two glass pieces are separated to a certain size in order to lower a heat conduction rate and increase a sound insulation effect. As auxiliary materials, curtains, blinds, verticals, insulating films, foils, and insulating sprays are used.

These energy conservation movements represent about 22% of the total energy currently in the building, and as the proportion of people in advanced countries increases, energy conservation in the building sector is becoming an important issue. In particular, the window is considered to be the primary object of energy efficiency as the area that generates the largest heat loss in the building, and since the heat loss prevention regulation of the building was first established in 1979, the window was treated as a main insulation object. The application was obligatory (except Jeju Island). Because of the difference in performance of up to 5 times depending on the type and construction method of the window and window frame, the total heat performance including the performance of the window frame was revised in June 2001, And the additional thermal performance improvement effect is secured. At present, the heat capacity of the window can be technically realized up to 1.0kcal / ㎡h ℃, but the current regulation is 3.3kcal / ㎡h ℃ (central region), 3.6kcal / ㎡h ℃ (southern region), 4.5kcal / ㎡ h ℃ (Jeju Island).

In terms of energy saving, the window area of buildings is small, but the window area of modern buildings is gradually increasing. Therefore, the biggest factor of increase of energy consumption of buildings is window, but before the energy conservation, It is difficult to limit the one-sided window area. Therefore, it is necessary to induce the design so that the excessive increase of the window area can be suppressed as much as possible in order to conserve the building energy, but basically, it is essential to improve the insulation level of the installed window itself.

For example, according to the structure of the heat insulating glass for wall installation of Korean Patent Laid-Open No. 10-2005-0073867 (2005.07.18) and the manufacturing method thereof, in the heat insulating glass having the double glass structure, A pair of reinforcing glass members 11 and 12, a pair of reinforcing glass members 11 and 12, spaced apart from each other by a predetermined distance, And a heat insulating material 19 that is filled in the inner side of the heat insulating member 19 (see FIG. 1).

However, the heat insulating material of this patented technology is a structure in which foamed resin A and foamed resin B are mixed and filled at a ratio of 50:50 through a filling hole 18 after a window is assembled. However, when the mixed foam resin is injected through the small filling hole (18), the adhesion of the two reinforced glass surfaces is reduced and the surface of the glass is not smooth or the aesthetic appearance is thick. There is still a problem that can not be done.

The present invention has been accomplished in order to achieve the above-mentioned object, and more particularly, to provide a single layer air cap or a multi-layer air cap and a pattern film in a pair of glass spaces to enhance heat insulation and sound insulation efficiency, The present invention provides a method for manufacturing a glass window system having a heat insulating material and a pattern film for preventing scattering of fragments during glass breakage.

According to another aspect of the present invention, there is provided a method of manufacturing a glass window system having a pair of glass plates, the method comprising: providing a pair of plate glasses 100a, A first step S100 of removing foreign substances such as moisture, dust, A spacer 200a to 200d for forming a first space portion 210 for maintaining a gap between the pair of plate glasses and a second space portion 510 for injecting the silicone finishing material 500, Is placed 3 to 20 mm inward from the end of the pair of plate glasses, and is washed with toluene or acetone solvent, and then the polyisobutylene-based sealant is applied to both sides of the pair of plate glasses 200a to 200d. A second step (S200) of sticking and fixing to the sides respectively; (Air cap) 400, which is accommodated in the first space 210 and has an adiabatic function and an optical lens function, wherein a pattern pattern is printed on one side of the air cap, A third step (S300) of bonding the glass sheet to the inner side of the pair of plate glasses by PS (Polystyrene) adhesive method or DA (Dry Adhesive) adhesive method; A heat insulating function in which the first air cap 401 and the second air cap 402 are formed into a semicircular shape by a molding roller device (not shown), and the semicircular air caps are bonded to each other with a jointing film 403 A fourth step S400 of inserting and fixing an air cap 400 having an optical lens function in the first space 210; The silicon finishing material 500 is injected into the second space 510 located outside the spacer to form the same surface as the outer surface of the pair of plate glasses, And a fifth step (S500) of inserting the patterned film.

According to another embodiment of the present invention, the air cap 400 of the fourth step may be fixed to the inner surface of the pair of plate glasses 100a and 100b without using an adhesive, And a width W of 1 mm to 5 mm.

According to another embodiment of the present invention, the air cap 400 of the fourth stage has a pair of single-layer air caps 410 and 420, And is bonded to the inner surfaces of the pair of plate glasses 100a and 100b, respectively.

According to another embodiment of the present invention, in the air cap 400 of the fourth step, the end portion of the air cap may be connected to a silicon cap (not shown) for finishing a portion contacting the spacers 200a to 200d. , A rubber cap, a plastic cap, a double-sided tape, or a film is selected and processed.

The manufacturing method of the glass window system having the heat insulating material and the pattern film of the present invention has the following effects.

(1) The pattern film, the air cap with the heat insulation function and the optical function, can prevent water condensation on the pair glass (or double glass) due to the external rain water through the aluminum chassis of the glass window system or the condensation due to the temperature difference between the inside and the outside This eliminates the phenomenon that occurs.

(2) By adhering the pattern film to the inner side of the pair glass, it is possible to replace the color glass for privacy as well as the insulation effect, thereby significantly reducing the glass value during installation of the glass window, It is possible to prevent scattering of fragments, prevent harmful ultraviolet rays, prevent discoloration and discoloration of furniture and fabrics, and protect eyesight according to the effect of suppressing glare.

(3) When a conventional heat insulating film or pattern film is adhered to the outer surface of the glass by a PS adhesive system or a DA adhesive system, there occurs a phenomenon in which a film adhered to the glass substrate by living scratches or physical contact is stuck and peeled off. By adhering to the inner surface of the glass, there is no occurrence of scratches, peeling and peeling, and the glass surface can be kept clean at all times.

(4) A single layer air cap or a multi-layer air cap having an insulating function and an optical lens function according to an embodiment of the present invention greatly improves the heat insulation and sound insulation effect, In case of a safety accident such as a typhoon, it absorbs the glass debris, the outside sunlight is collected inside the insulation, and the heat in the room can be prevented from escaping through the window.

(5) In the multi air cap according to the embodiment of the present invention, the air layer formed in the place or place where the high temperature and high pressure act is formed, It is possible to prevent distortion of the product surface image after the application due to internal shrinkage or expansion of the product surface.

(6) Since the multi-layer air cap of the present invention is tightly applied to the inside of the pair of glasses, it tends to act outwardly from the inside of the pair of glasses, thereby preventing the plate glass from being easily damaged by strong winds such as typhoons.

BRIEF DESCRIPTION OF THE DRAWINGS Fig.
2 is a schematic view of a glass window system having a heat insulating material and a pattern film according to a preferred embodiment of the present invention
3 is a view showing an air cap and a first / second space portion having an insulating function and an optical lens function for a glass window system having a heat insulating material and a pattern film according to a preferred embodiment of the present invention
FIG. 4 is a conceptual diagram for manufacturing an air cap having an insulating function and an optical lens function for a glass window system having a heat insulating material and a pattern film according to a preferred embodiment of the present invention
5 illustrates a patterned film and a single-layer air cap for a glass window system having a heat insulating material and a patterned film according to a preferred embodiment of the present invention
6 is a view showing a pattern film and a multi-layer air cap for a glass window system having a heat insulating material and a pattern film according to a preferred embodiment of the present invention
7 illustrates a pair of single-layer air caps that are bonded to a glass window for a glass window system having a heat-insulating material and a patterned film according to a preferred embodiment of the present invention
8 illustrates a multi-layer air cap that is bonded to a window of a glass window system having a thermal barrier and a patterned film according to a preferred embodiment of the present invention;
9 is a view for explaining the adiabatic and soundproof effect on a glass window system having a heat insulating material and a pattern film according to a preferred embodiment of the present invention
10 is a flowchart of a method for manufacturing a glass window system having a heat insulating material and a patterned film according to a preferred embodiment of the present invention
Figs. 11 to 13 are flowcharts of a flow chart < RTI ID = 0.0 >

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, like reference numerals refer to like elements throughout. Although the same reference numerals are used in the different drawings, the same reference numerals are used throughout the drawings. The prior art should be interpreted by itself. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

2 to 9, a method of manufacturing a glass window system having a heat insulating material and a pattern film according to a preferred embodiment of the present invention includes a pair of glass plates 100a and 100b, 200a to 200d, pattern films 300a and 300b, an air cap 400, and a silicone finishing material 500.

The pair of plate glasses 100a and 100b is cut into a standard by means for application to a glass window system having a pair glass. The cutting of the pair glass depends on the standard of the window frame and is generally cut into a rectangle.

Here, in a pair glass, when two glass plates are separated from each other by a thickness of two times or more of their thickness, and the air between them is subtracted, the heat insulation property and the sound absorption property are increased. The double glass is free from frost on the inner glass surface when the outside air is blowing. If there is only one windowpane, a cold downward current will flow to cool the bottom, but this can be prevented if the windows are double. This pair glass (or double layer glass) has an effect of preventing the loss of room energy because the heat conduction rate (K value, U value) is about 1/2 as compared with the single glass due to the thermal performance of the intermediate air layer, The temperature of the surface is not low and there is an advantage of preventing dew formation.

2 and 3, the spacers 200a to 200d are a means for forming an intermediate air layer on the pair of plate glasses 100a and 100b, and the pair of plate glasses are spaced apart from each other by a predetermined distance (Or end portions) of a pair of plate glasses to be adhered and fixed by an adhesive so that the first space portion 210 is formed facing each other.

In this case, the spacers 200a to 200d for maintaining the interval between the pair of plate glasses are made of a cavity-shaped aluminum having a thickness of 95% or more and a thickness of 0.5 mm or more of Al ₂ O ₃ component, In order to form the first space part 210 between the pair of plate glasses 100a and 100b, the inner surface of the edge of the pair of plate glasses is washed with toluene or acetone solvent, The spacer (200a to 200d) is adhered and fixed using an isobutylene-based sealant.

In such spacers 200a to 200d, the thickness of the intermediate air layer formed by the width of the spacer has a decisive influence on the heat insulating effect of the double-layer glass. At present, it is important to note that in Korea, 6mm is generally used for apartments but 12mm is used for foreign countries, and 16 ~ 18mm is required for Europe (Germany etc.) and 24 ~ 30mm is used. In addition, since the pair of plate glasses are cut into a rectangular shape according to the window frame, the spacer of the spider is cut into a rectangular shape so that the possibility of chemical leakage of the hygroscopic agent and adhesive caused by the firmness of connecting the four spiers with the corner key, It is adopted as a standard.

Referring to FIGS. 2 and 3, the pattern films 300a and 300b are means for harmoniously refining monotony of a transparent or opaque glass window, protecting privacy, and preventing scattering of heat and glass fragments, A PS (polystyrene) adhesive method or a DA (dry adhesive) adhesive method is applied to each of the inner side surfaces of the pair of plate glasses 100a and 100b and pictures or traditional patterns can be printed. You can make a variety of choices through customized production.

As described above, the conventional heat insulating film or pattern film is attached to the outer surface of the glass by the PS adhesive method or DA adhesive method, so that the film adhered due to life scratch or external physical contact easily peels off However, according to the present invention, there is no phenomenon of scratching, peeling, and peeling by adhering to the inner surface of the glass, and the glass surface is always kept clean. In addition, the pattern film of the present invention harmonizes the monotony of blocking the outside view in the room when the glass window becomes opaque due to the air cap, which is a heat insulating material embedded in the first space portion of the pair of glasses, It is possible to prevent scattering of the glass fragments when they occur.

3, the air cap 400 is a heat insulating means incorporated in the intermediate air layer of the pair glass for heat insulation and soundproofing. The pair of plate glasses 100a (300a, 300b) to which the pattern films 300a, And 100b are embedded in the first space 210, which are located at regular intervals, and are adhered and fixed by an adhesive.

3 and 4, according to an embodiment of the present invention, the air cap 400 is disposed between the first air cap 401 and the second air cap 402, The outer circumferential surfaces of the air caps having a semicircular shape are joined to each other by a joint film 403 for joining the air caps having the semicircular shapes so as to be opposed to each other, So that the sunlight introduced from the outside is converged and attracted to the interior of the air cap to dissipate (dissipate) the heat insulating function and the optical lens function as well as the soundproofing function.

Here, the conventional forming device can be utilized for the forming roller device for manufacturing the air cap according to the embodiment of the present invention, so that further explanation is omitted.

5, the air cap 400 according to the embodiment of the present invention includes a pair of single layer air caps 410 and 420, and includes a first space portion 210 And is fixedly adhered to the pattern films 300a and 300b, respectively.

6, the air cap 400 according to the embodiment of the present invention has a multi-layer air cap 430, and is installed in the first space 210 And are adhered and fixed to the pattern films 300a and 300b, respectively.

7, the air cap 400 according to the embodiment of the present invention includes a pair of single-layer air caps 410 and 420, and includes a first space portion 210 ) Of the pair of plate glasses is adhered and fixed to the inner surfaces of the pair of plate glasses.

8, the air cap 400 according to the embodiment of the present invention has a multi-layer air cap 430, and is installed in the first space 210 And are adhered and fixed to the inner surfaces of the pair of plate glasses 100a and 100b, respectively.

In this case, the multi-layer air cap 430 is formed to be 1 to 5 mm larger than the width W of the first space 210, and the pair of plate glasses 100a, 100b.

As described above, the single layer air cap (410, 420) or the multi-layer air cap (430) having the heat insulating function and the optical lens function according to the embodiment of the present invention, And the soundproof effect is greatly improved. In addition, when a safety accident such as a typhoon occurs, glass fragments are absorbed, external sunlight is collected inside the insulation, and heat in the room can be prevented from escaping through the window .

In addition, the multi-layer air cap according to an embodiment of the present invention is a multi-layered air cap which is formed by a pair glass (or a double-layer glass) installed at a location or place where high temperature and high pressure act, It is possible to prevent the distortion of the surface image of the product after the construction due to the internal shrinkage or expansion of the air layer generated by the air layer.

Referring again to FIGS. 2 and 3, the silicone finish 500 includes a plurality of spacers 200a-200d as means for securing and securing the glass window system, intercepting the incoming moisture, and protecting the pair of pane glasses. Silicon is injected into the second space portion 510 of the second space portion 510 so as to form the same surface line as the outer surface of the pair of plate glasses.

The silicone finishing material 500 according to the embodiment of the present invention may be used to fix the pair of plate glasses 100a and 100b and the spacers 200a to 200d and to prevent the rain from flowing into the air cap 400 It is to prevent moisture from penetrating and to block heat from escaping to the outside.

Referring to FIG. 9, there is shown a heat insulating and sound insulating effect on a glass window system having a heat insulating material and a pattern film according to a preferred embodiment of the present invention.

가 된다.9, a pattern film 300b having passed through an air cap having an air cap having an air cap of T ₂ (T _{∞ 1} ), a temperature of the pattern film 300a being T ₂ , and an air cap of 7 to 14 mm, the temperature T _3, when referred to the temperature of the outer glass surface T ₄ (T _∞2), the top heat transfer rate through a window which has passed through the T ₄ in the T ₁ is

.

값이 크면 실내의 온도는 유리창을 통해 외부로 빠져나가는 열손실이 증가하게 된다. At this time

If the value is large, the indoor temperature will increase the heat loss through the window to the outside.

If this re-analysis as a thermal resistance (Thermal Resistance), interior to R _in, interior window (100a) and the pattern film (300a) with R _1, the heat insulating member in the air cap, R _2, outdoor window (100b) and the pattern film ( 300b are R ₃ , and outdoor is R _out , the relationship R _in > R _out and R ₁ = R ₃ are established. And R ₂ represents the highest thermal resistance. The high heat resistance means that the heat insulation and the sound insulation effect are as high as the heat transfer theory proves.

값을 낮출수록 유리창을 통한 정상 열전달률을 낮출 수 있기 때문에 이를 위해서는 광학기능을 갖는 에어 캡(400)과 패턴 필름(300a,300b)을 사용하여 실내온도가 유리창을 통해 외부로 빠져나가는 열손실을 획기적으로 줄이고 방음효과를 크게 개선한 것에 그 특징이 있다고 할 것이다.Therefore,

The lower the value, the lower the normal heat transfer rate through the window. Therefore, by using the air cap 400 having the optical function and the pattern films 300a and 300b, it is possible to prevent the heat loss It is remarkable that it has drastically reduced and greatly improved the soundproofing effect.

Hereinafter, a method of manufacturing a glass window system having a pair glass according to a preferred embodiment of the present invention will be described in detail.

First, there is a first step (S100) of removing foreign substances such as moisture, dust and oil film on a pair of plate glasses 100a and 100b cut into a rectangle having a predetermined size.

Next, a first space portion 210 for maintaining the gap between the pair of plate glasses and a spacer 200a to 200d for forming a second space portion 510 into which the silicon finishing material 500 is injected are formed . The spacer forming the second space portion is possible by being located within 3 to 20 mm from the end of the pair of plate glasses. The pair of plate glasses and spacer were cleaned with toluene or acetone solvent, and then applied onto both sides of the spacer 200a to 200d and the inner side surfaces of the pair of plate glasses using a polyisobutylene-based sealant, And a second step S200 of sticking and fixing.

Further, it has an air cap 400 having an insulating function and an optical lens function built in the first space 210. (PS) method or a DA (Dry Adhesive) adhesive method so that the pattern pattern is printed on one side of the air cap and the printed pattern pattern is located on the inner side of the pair of plate glasses. (S300).

The first air cap 401 and the second air cap 402 are formed into a semicircular shape by a molding roller device (not shown), and the semicircular air caps are adhered to each other with a jointing film 403 And an air cap (400) having an optical lens function is built in the first space part (210) and fixed by adhesion (S400).

According to another embodiment of the present invention, the air cap 400 of the fourth step may be fixed to the inner surface of the pair of plate glasses 100a and 100b without using an adhesive, The width W of the part 210 is 1 to 5 mm larger than the width W of the part 210, thereby eliminating the use of an adhesive, thereby making it possible to produce an environmentally friendly glass window system.

The air cap 400 in the fourth step has a pair of single-layer air caps. The air cap 400 maintains a uniform space in the first space 210, And are bonded to the inner surfaces of the pair of plate glasses 100a and 100b, respectively. At this time, a single layer air cap can be joined by applying a temperature to the plate glass for bonding.

The air cap 400 in the fourth step may be formed so that the end face of the air cap is covered with a silicone cap, a rubber cap, a plastic cap, Tape, or film is selected and installed.

This construction method is to prevent the end of the cut multi-layer air cap from being sagged downward by gravity in the first space and to adhere to the plate glass.

As described above, the air cap 400 according to the embodiment of the present invention is configured such that a pair glass (or a double-layer glass) installed at a location or place where high temperature and high pressure are applied, It is possible to prevent the distortion of the surface image of the product after the construction due to the internal shrinkage or expansion of the air layer caused by the temperature and pressure state.

The silicon finishing material 500 is injected into the second space 510 located on the outer surface of the spacers 200a to 200d so as to form the same plane as the outer surface of the pair of plate glasses, And a fifth step (S500) of mutually coupling the plate glass and the spacer.

Here, after the fifth step, it is obvious that the method may further include a step of washing with air and water, followed by drying and packaging.

The operation and effect of the method of manufacturing a glass window system having a heat insulating material and a pattern film according to a preferred embodiment of the present invention will be described with reference to FIGS. 2 to 13. FIG.

The present invention is characterized by a pair of plate glasses 100a and 100b having a pair glass and spacers 200a to 200d for forming a first space portion (or an intermediate air layer 210) A pattern film (300a, 300b) on which a picture or a pattern is printed on each of the inner surfaces of the pair of plate glasses, and a heat insulating function and an optical lens function built in the first space part By implementing a method of manufacturing a glass window system using an air cap 400 and a silicone finishing material 500 into which a sealant is injected into the outer second space 510 of the spacer, And it has a unique feature that it prevents scattering of glass fragments in the event of a safety accident and maximizes the aesthetic effect of the outside window glass.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the scope of the present invention but to limit the scope of the technical idea of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

100a, 100b: a pair of plate glasses
200a to 200d: Spacer 210:
300a, 300b: pattern film
400: Air cap 401: First air cap
402: second air cap 403: laminated film
410,420: a pair of single layer air cap 430: multi layer air cap
500: silicone finish material 510: second space portion

Claims (4)

A method of manufacturing a glass window system having a pair glass,
The method includes a first step (S100) of removing foreign substances such as moisture, dust, and oil film on a pair of plate glasses 100a and 100b cut into a rectangle having a predetermined size;
A spacer 200a to 200d for forming a first space portion 210 for maintaining a gap between the pair of plate glasses and a second space portion 510 for injecting the silicon finishing material 500, The washer is located within 3 to 20 mm from the edge of the edge of the pair of plate glasses. The washer is cleaned with toluene or acetone solvent, and the both surfaces of the spacer 200a to 200d are coated with the pair of plate glasses 200a to 200d with a polyisobutylene- A second step (S200) of sticking and fixing to the inner surface of the base member (200);
A PS (polystyrene) adhesive system or a DA (dry) method is used so that a pair of pattern films 300a and 300b, which are accommodated in the first space 210 and on which pattern patterns are printed, are respectively positioned on the inner surfaces of the pair of plate glasses. A third step (S300) of adhering each of the substrates in an adhesive manner;
An air cap having an insulating function and an optical lens function in which a first air cap 401 and a second air cap 402, which are semi-circularly formed by a molding roller device (not shown) (S400) of inserting and fixing the air cap (400) in the first space part (210);
The silicon finishing material 500 is injected into the second space 510 located outside the spacer to form the same surface as the outer surface of the pair of plate glasses, (Step S500)
The air cap 400 of the fourth step may be formed by a silicone cap, a rubber cap, a plastic cap, a double-sided tape, a cap, or the like for the end portion of the portion of the air cap contacting the spacers 200a to 200d, Wherein the film is processed by selecting one of the film and the film.
The method according to claim 1,
The air cap 400 of the fourth step may be formed to have a width W of 1 mm or less than a width W of the first space 210 for tightly fixing the air cap 400 to the inside of the first space 210 without using an adhesive, Wherein the thickness of the insulating film is greater than the thickness of the insulating film.
The method according to claim 1,
The air cap 400 in the fourth step has a pair of single layer air caps 410 and 420 and a space is uniformly spaced in the first space 210 (300a, 300b), and the pattern films (300a, 300b) are adhered to the inner surfaces of the pattern films (300a, 300b), respectively. delete

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