KR102313738B1 - Double layed glass window with ceramic coating - Google Patents

Abstract

The present invention, the frame 10 for receiving and supporting the glass; a first glass 20 accommodated in the frame and positioned on the outdoor side; a second glass 30 accommodated in the frame and positioned on the indoor side; a third glass 40 positioned between the first glass and the second glass; a first interstitial rod (60) provided between the first glass and the third glass to maintain a gap; a second interstitial rod 80 provided between the second glass and the third glass to maintain a gap; a first sealant 70 and a second sealant 90 respectively provided between the first glass and the third glass and between the second glass and the third glass; a first ceramic coating 25 applied by a first width t1 from an edge end on the surface of the first glass; and a third ceramic coating 45 applied from the edge end to the third width t3 on the surface of the third glass; including, the first ceramic coating 25 and the third ceramic coating ( 45), it provides a double-layer glass, characterized in that the separated gap between the first interstitial bar 60 and the second interstitial bar 80 is not visible.
The double-layer glass according to the present invention has the advantage of being able to prevent the sealant from corroding due to exposure of the glass to visible light or reflected heat even though it is a double-layer glass of the hidden bar type, which is an exposure type by the above configuration. The advantageous effect of creating a beautiful image in appearance is exerted by removing this multi-line phenomenon.

Description

DOUBLE LAYED GLASS WINDOW WITH CERAMIC COATING}

The present invention prevents the sealant from corroding when the glass installed on the window frame is exposed to visible light or reflected heat. It is related to the technology of manufacturing double-layer glass with excellent aesthetics.

In general, double-glazed windows are widely used in buildings for the purpose of soundproofing and insulation. This double-glazed window is composed of two sheets of glass installed in a parallel state on the window frame, and at this time, the two sheets of glass maintain a predetermined distance from each other. In this double-glazed window, one glass is located on the indoor side and the other glass is located on the outdoor side, and an air layer is formed in the space between the two sheets of glass. Therefore, the cold temperature and noise of the outside are primarily reduced and blocked by the outside glass, and the cold temperature and noise transmitted to the outside glass are reduced and blocked again in the air layer, so that the indoor space is comfortable without interference from the outside temperature and noise. can be kept As prior art related thereto, Korean Patent Publication No. 0731987 and Korean Utility Model Publication No. 0353808 are known.

However, conventional double-glazed or triple-glazed windows have a problem in that the glass installed on the window frame is exposed to visible light and the sealant positioned between the glass and the glass is corroded as the space between the glass and the glass rises to a very high temperature. There were problems such as the leakage of argon gas generated during corrosion and the corrosion of the inside of the double-glazed glass as air was introduced into the interior due to corrosion of the sealant.

In addition, the conventional double-glazed glass is made of double or triple glass, and due to the reflection of the gap between the glasses, the gap is visible in several lines, which has an aesthetic problem (see FIG. 1 ).

The present invention is intended to solve the problems of the prior art described above, and provides a technique for preventing the sealant from corroding when a double-layer glass is exposed to visible light or reflected heat, and also eliminates the phenomenon in which a multi-layer glass appears in multiple lines. It aims to create a beautiful image in appearance.

The present invention, the frame 10 for receiving and supporting the glass; a first glass 20 accommodated in the frame and positioned on the outdoor side; a second glass 30 accommodated in the frame and positioned on the indoor side; a third glass 40 positioned between the first glass and the second glass; a first interstitial rod (60) provided between the first glass and the third glass to maintain a gap; a second interstitial rod 80 provided between the second glass and the third glass to maintain a gap; a first sealant 70 and a second sealant 90 respectively provided between the first glass and the third glass and between the second glass and the third glass; a first ceramic coating 25 applied by a first width t1 from an edge end on the surface of the first glass; and a third ceramic coating 45 applied from the edge end to the third width t3 on the surface of the third glass; including, the first ceramic coating 25 and the third ceramic coating ( 45), provides a double-layer glass, characterized in that the separated gap between the first interstitial bar 60 and the second interstitial bar 80 is not visible.

A second ceramic coating applied by a second width from the edge end on the surface of the second glass; may further include. In addition, the first width t1 of the first ceramic coating 25 is 1.5 times larger than the third width t3 of the third ceramic coating 45 . The first ceramic coating and the third ceramic coating are automatically applied by CNC equipment.

The upper end (25a) of the first ceramic coating (25), the upper end (45a) of the third ceramic coating (45), and the upper end (30a) of the surface where the second glass (30) and the second bar (80) are in contact The line connecting the three points should form an angle of 45° to the horizontal line.

The double-layer glass according to the present invention has the advantage of being able to prevent the sealant from corroding when the glass is exposed to visible light or reflected heat while being a double-layered glass of the hidden bar type, which is an exposure type by the above configuration, By eliminating this multi-line phenomenon, an advantageous effect of creating a beautiful image in appearance is exhibited.

1 is an actual photographic image of a double-glazed double-glazed glass according to the prior art;
2 and 3 are a front view and a cross-sectional view of a cap-type double-glazed glass, which is one form of the multi-layered glass according to the present invention,
4 and 5 are a front view and a cross-sectional view of a hidden bar type multilayer glass, which is another form of the multilayer glass according to the present invention,
6 is a view showing a ceramic coating is applied to the glass window provided in the multi-layer glass according to the present invention,
7 shows a structure for preventing the interstitial rod from being double in the double-layer glass according to the present invention.

The objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments taken in conjunction with the accompanying drawings. In addition, the terms used are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user operator. Therefore, definitions of these terms should be made based on the content throughout this specification.

2 and 3 are a front view and a cross-sectional view of a cap type multilayer glass, which is one form of the multilayer glass according to the present invention. A front view and a cross-sectional view of the glass, FIG. 6 is a ceramic coating on a glass window provided in the double-glazed glass according to the present invention, and FIG. is showing

In general, the double-layer glass is composed of a plurality of double or triple glass, and has a structure in which the inner glass located on the indoor side and the outer window located on the outdoor side are installed in the frame, the inner glass is located on the indoor side and the outer glass is located on the outdoor side It is disposed to be spaced apart from each other by a predetermined distance so as to be located in the accommodating space is formed between the inner glass and the outer glass. The accommodation space is a space surrounded by a frame and glass, and may be filled with general air or argon gas, or may be in a vacuum state if necessary. A glass may be further provided between the outer glass and the inner glass. Then, a space member (interstitial rod) for maintaining a gap between the glass plates is provided, and an adhesive solution such as butyl rubber is applied on both sides of the space member, and then a predetermined pressure and heat is applied in a vacuum to apply a glass plate to both sides of the space member. It can be made by bonding. Such a double-glazed window is excellent in sound insulation and heat insulation effect by the vacuum part formed between the glass plates.

In this case, the glass may be composed of general glass, preferably low-e glass (Low-E Glass, Low-emissivity, low-reflection glass) and general glass are used together. The transmittance of low-e glass is similar to that of ordinary glass, whereas ordinary glass reflects only a part of infrared rays, whereas low-e glass is glass in which a metal film (usually silver (Ag)) with high infrared reflectance is coated on ordinary glass. The metal film of low-e glass transmits visible light to enhance indoor light, and at the same time reflects infrared rays, so it is an energy-saving glass that minimizes the movement of indoor and outdoor heat and makes the temperature change in the room small.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.

2 and 3 are a front view and a cross-sectional view of a cap-type double-layer glass, which is one type of double-layer glass, and FIGS. 4 and 5 are a front view and a cross-sectional view of a hidden bar-type double-layer glass that is another form of the double-layer glass. look. 2 is a method of inserting a glass in a manner of detaching and attaching a cap (jjolldae) to the frame, and is a method in which the frame is visible when viewed from the outside. 4 is a hidden bar type (hidden bar), and when viewed from the outside, only glass is visible, and because of the clean image, it is often reflected in the design and construction. 2 to 4, all of the construction of the glass to the frame is fixed with a sealant. The problems mentioned in the problems of the prior art of the present invention (inter-rod separation and sealant corrosion) are more and more problems mainly in the hidden bar type shown in FIGS. 4 to 5, because in the hidden bar type, sunlight is directly irradiated. This is because the glass is directly exposed without a frame from the outside.

However, only the difference between the visible form (FIGS. 2 and 3) and the invisible form (Figs. 4 and 5) of the frame (cap) between the glass and the glass in a state in which the glass is exposed to the outside when viewed from the outside However, the basic structure is similar.

The multi-layer glass according to the present invention includes a frame 10 for receiving and supporting glass, and a first glass, a second glass, and a third glass that are received and fixed in the frame. Here, the first glass 20 is a glass located on the outdoor side for convenience, and the second glass 30 is a glass located on the indoor side. In addition, a third glass 40 may be further provided between the first glass and the second glass to become a triple glass. A gap is maintained between these glasses, and a gap is provided between the first gap 60 and the second glass and the third glass provided between the first and third glass to maintain the gap It consists of a second interstitial rod (80) for maintaining the. Then, the first sealant 70 and the second sealant 90 respectively provided between the first glass and the third glass and between the second glass and the third glass are applied to fix the glass. In the drawings, reference numeral 100 denotes a sealant for fixing between the glass and the frame.

In the present invention, a ceramic coating is applied to the edge of the glass surface in order to prevent the phenomenon that the interstitial rod appears double and to solve the problem caused by direct sunlight irradiating the sealant directly. That is, the ceramic coating is applied to the outer surface edge of the first glass 20 located on the outdoor side with a predetermined width. This ceramic coating is done automatically by CNC machine tools.

That is, on the surface of the first glass, the first ceramic coating 25 is applied from the edge end to the first width t1, and the third ceramic coating 25 is applied by the third width t3 from the edge end to the surface of the third glass. A coating 45 is applied (see FIG. 6 ). Through this, when the multilayer glass is viewed from the outside, due to the first ceramic coating 25 and the third ceramic coating 45, the separated gap between the first inter-bar 60 and the second inter-bar 80 is not visible. It is possible to prevent direct sunlight from directly irradiating the first sealant 70 and the second sealant 90 . A second ceramic coating applied to the surface of the second glass by a second width from the edge end thereof may be further included, and the width and shape may be similar to those of the first glass or the third glass.

In order not to see the separated gap between the first interstitial bar 60 and the second interstitial bar 80 , the first width t1 of the first ceramic coating 25 is the third ceramic coating 45 . It is preferable to make it larger than the 3 width t3, and preferably, the first width t1 is 1.5 times larger than the third width t3. The first ceramic coating and the third ceramic coating are automatically applied by CNC equipment.

And, when the double-layer glass is viewed from the outside, the first glass 20 ), the line connecting the upper end (25a) of the first ceramic coating (25) and the upper end (45a) of the third ceramic coating (45) of the third glass (40) is the second glass (30) and the second The two rods 80 pass through the upper end 30a of the contacting surface. And, the upper end (25a) of the first ceramic coating (25), the upper end (45a) of the third ceramic coating (45), and the upper end of the surface where the second glass (30) and the second bar (80) are in contact ( 30a), it is preferable that the line form an angle of 45° with respect to the horizontal line (θ=45 in FIG. 7).

When the laminated glass processed according to the present invention is constructed, the sealant part is clean and the sealant is protected from sunlight such as ultraviolet rays because the inside of the sealant part of the laminated glass is not visible and the ceramic coating surface is visible.

Existing glass according to the prior art was light in weight, and the external visible light or the temperature and heat of the internal cooling and heating exchanged with each other to some extent during construction and installation. However, since the glass windows installed and constructed these days are constructed with the insulation performance given priority, the glass itself is used as low-e glass with good insulation performance. Low-e glass refers to a glass surface coated with silver to increase thermal performance. Insulation glass generates more than twice the heat temperature on the glass surface than conventional glass.

In particular, these days, the temperature of the glass surface rises higher because the glass is thickened with double or triple glazing due to its thermal insulation performance. Even as the temperature rises, the heat insulates well and the exchange of internal and external heat does not occur, so this generated heat is the main cause of glass breakage.

The present invention has developed a technology to block visible light by coating the outer four sides of the glass with a special coating, a ceramic coating, in order to prevent glass breakage due to such heat. In addition, it is a technology that cleanly processes the image seen from the outside by improving the image that is not good in appearance as the spacer is exposed and looks double and triple when viewed from the outside, so that the cross bar is seen as a single piece even in the triple glass. In addition, when the glass is inserted into the window frame, visible light is blocked by the ceramic coating part of the double-glazed glass processing sealant to prevent the sealant from corroding.

Although preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements by those skilled in the art using the basic concept of the present invention as defined in the following claims are also provided. is within the scope of the

Claims (4)

Frame 10 for receiving and supporting the glass;
a first glass 20 accommodated in the frame and positioned on the outdoor side;
a second glass 30 accommodated in the frame and positioned on the indoor side;
a third glass 40 positioned between the first glass and the second glass;
a first interstitial rod (60) provided between the first glass and the third glass to maintain a gap;
a second interstitial rod 80 provided between the second glass and the third glass to maintain a gap;
a first sealant 70 and a second sealant 90 respectively provided between the first glass and the third glass and between the second glass and the third glass;
a first ceramic coating 25 applied by a first width t1 from an edge end on the surface of the first glass; and
A third ceramic coating 45 applied by a third width t3 from the edge end on the surface of the third glass; Including;
When viewed from the outside, due to the first ceramic coating (25) and the third ceramic coating (45), the separated gap between the first bar (60) and the second bar (80) is not visible. double layered glass. According to claim 1,
A second ceramic coating applied by a second width from the edge end on the surface of the second glass; further comprising,
The first to third ceramic coatings are multilayer glass, characterized in that automatically coated by CNC equipment. According to claim 1,
The first width (t1) of the first ceramic coating (25) is 1.5 times larger than the third width (t3) of the third ceramic coating (45). According to claim 1,
The upper end (25a) of the first ceramic coating (25), the upper end (45a) of the third ceramic coating (45), and the upper end (30a) of the surface where the second glass (30) and the second bar (80) are in contact Double-layer glass, characterized in that the line connecting the three points has an angle of 45° with respect to the horizontal line.

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