JPH0960433A - Thin double glazing - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a window glass suitable for a revised lusulation standard by assembling a glazing channel into a sash for single glass and closely fitting a double glazing of a prescribed thickness in which inert gas is filled between two plate glasses. SOLUTION: Two plate glasses 3 at least one of which is low radiation glass or stuck with radiation adjusting film are sealed with sealing agent 4 containing a spacer 5 around the periphery of it in order to form a thin double glazing 1 of 2.0mm in clearance and 7.0 to 7.5mm in overall thickness. In the formation, inert gas is filled in the clearance 2. Also the thin double glazing 1 is installed in a sash A for single glass which is provided with a glazing channel 7 inside it. In this case, the end surface is sealed by polyvinyl chloride tape 6. Then its thickness is reduced and a heat transmission coefficient is suppressed to a prescribed limit. Thus it can be used as a double glazing for general dwelling house which is based on a revised insulation standard and expected to be adopted in the southern area of the Tohoku district or more southern.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to thin double glazing for general houses.

[0002]

2. Description of the Related Art A double glazing having two glass plates facing each other at a predetermined interval has been conventionally used in cold regions. Conventionally, as double glazing, the plate glass having a heat transmission coefficient of 3.0 Kcal / m ² h ° C or less and a thickness of 3 is used.
mm, the distance between the plate glasses is 6 mm, and the total thickness is 12 mm, and the multilayer glass is generally 3 mm, the plate glass has a thickness of 3 mm, the interval between the plate glasses is 12 mm, and the total thickness is 18 mm.

[0003]

[Problems to be Solved by the Invention] Under the Energy Conservation Law amended in 1992, the heat insulation standard for building openings was strengthened. According to the new insulation standard, the required insulation performance (heat transmission coefficient) of the opening is 4.0 Kcal / m ² h ° C or less in the southern Tohoku region, Kanto northeast region, and Koshinetsu region, and 5.6 Kcal in the south of the above regions. / M ² h ° C. or less. Also,
In tandem with the strengthening of the insulation standards for openings, the loan amount of the Housing Finance Corporation for general houses that meet the insulation standards for openings has been raised. With the increase in the loan amount of the Housing Finance Corporation, even in the area south of the Tohoku region where the use of double glazing for conventional homes was low, the use of double glazing for general homes is expected to increase in the future. . 12mm total thickness
When using ~ 18 mm double glazing in a building, conventionally, a sash for double glazing with a wide glass frontage is custom-made,
Double glazing was incorporated into the sash. On the other hand, when using a double glazing having a total thickness of 12 mm to 18 mm for a general house, conventionally, as shown in FIG. 6, a commercially available glass sash for a single plate glass having a frontage of 9 mm is made of an aluminum alloy. Incorporated double glazing via the attachment. The double glazing window having such a structure has the following problems. The use of attachments reduces the area of the opening and reduces the view from the room. After assembling the multi-layer glass and the attachment, the assembly of the multi-layer glass and the attachment is incorporated into the sash for single-plate glass, so that it takes time and effort to incorporate the multi-layer glass into the sash for single-plate glass. The attachment may not fit well in the sash for single-plate glass, and the double-glazing window may come into contact with the screen door during use. The heat transmission coefficient of 3.0 Kcal / m ² h ° C or less is excessive quality as double glazing used for general houses in the south and south of the Tohoku region in view of the new insulation standard. The present invention has been made in view of the above problems, does not narrow the field of view from the room when incorporated into a sash for single-plate glass for general housing, does not take time to incorporate into a sash for single-plate glass, for single-plate glass It is an object of the present invention to provide a double glazing that fits well into a sash and has appropriate heat insulating performance as a double glazing for general houses in the south and south of the Tohoku region in accordance with the new heat insulation standard.

[0004]

In order to solve the above-mentioned problems, in the present invention, two plate glasses facing each other at a predetermined interval are provided, and a peripheral edge of the gap between the two plate glasses is made of a sealing material. It is hermetically sealed and has a thickness of 7.0 mm to 7.
A thin double glazing having a thickness of 5 mm is provided. The thin double glazing according to the present invention has a thickness of 7.0 mm.
Since it is 7.5 mm to 7.5 mm, it can be incorporated in a sash for single-walled glass for general houses with a glass frontage of 9 mm without using an attachment. Therefore, the area of the opening is not reduced, the view from the room is not narrowed, the work for assembling into the sash for single plate glass does not take time, and the sash for single plate glass can be easily fitted. When the thickness is 7.0 mm to 7.5 mm, the heat transmission coefficient is 4.0 Kcal / m ^2.
h ℃ The following can be suppressed. Therefore, the thin double glazing according to the present invention has proper heat insulation performance as a double glazing for general houses in the south and south of the Tohoku region in light of the new heat insulation standard. By sealing the peripheral portion of the gap between the two sheet glasses with the sealing material, the invasion of moisture into the gap is prevented, and the deterioration of the heat insulating performance is prevented.
Also, the two plate glasses are integrated by the sealing material,
The interlayer displacement between the plate glasses is suppressed.

In a preferred aspect of the present invention, the predetermined interval is 2.0 mm. 2.5m thick plate glass
Sufficient strength and necessary heat insulation performance can be obtained by setting m to 3.0 mm and the plate glass interval to 2.0 mm. In a preferred embodiment of the present invention, desiccant particles are kneaded with the sealing material. By kneading the desiccant particles with the sealing material, the air in the gaps between the plate glasses is kept dry, and the heat insulating performance is maintained. In a preferred aspect of the present invention, in the seal material, a solid rod-shaped or hollow rod-shaped spacer extending along the peripheral edge of the gap is embedded in the seal material, along the peripheral edge of the gap between the glass plates. By embedding the extending solid rod-shaped or hollow rod-shaped spacers, it is possible to accurately set and maintain the gap between the glass sheets to a desired small value, and thus to set the thickness of the double glazing to a desired small value. Can be accurately set and maintained. In a preferred embodiment of the present invention, at least one of the glazings is a low emissivity glass. In a preferred embodiment of the present invention, a solar control film having a resin film coated with a metal film is attached to at least one of the plate glasses. At least one plate glass is low-emission glass, or at least one plate glass is pasted with a solar control film in which a resin film is coated with a metal film, whereby infrared rays penetrate into the room in summer and heating in winter. It is possible to prevent the infrared rays emitted from the equipment from leaking outside. As a result, the heat insulation performance of the opening of the house is improved. In a preferred aspect of the present invention, an inert gas is filled in the gap between the plate glasses. By enclosing an inert gas having a smaller thermal conductivity than air in the gap between the glass sheets, the heat insulating performance of the double glazing is improved. As a result, the heat insulation performance of the opening of the house is improved.

In a preferred embodiment of the present invention, a resin tape is attached to the periphery of the thin double-layer glass, the resin tape is covered, and a resin glazing channel is closely attached to the periphery of the thin double-layer glass. It is fitted outside. Conventionally, when assembling the double glazing into the sash, a resin glazing channel was externally fitted to the periphery of the double glazing at the site.However, in the thin double glazing according to the present invention, Since the resin glazing channel is externally fitted to the peripheral edge of the laminated glass, the work of assembling the laminated glass into the sash at the site is easier than in the past. By sticking a resin tape on the periphery of the double glazing,
Leakage of the sealing material is prevented, and the adhesion of the glazing channel to the peripheral edge of the double glazing is improved.

[0007]

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of the present invention will be described with reference to FIGS. As shown in FIGS. 1 to 5, a thin double-layer glass 1 according to an embodiment of the present invention includes two plate glasses 3 having a plate thickness of 2.5 mm and facing each other in parallel with an interval 2 of 2.0 mm. ing. The periphery of the gap 2 between the two plate glasses 3 is sealed with a butyl rubber sealing material 4 in which zeolite-based desiccant particles are kneaded, and inside the sealing material 4,
A hollow rod-shaped aluminum spacer 5 extending along the peripheral edge of the gap 2 is embedded. On the entire periphery of the two glass plates 3,
Vinyl chloride tape 6 is attached. A glazing channel 7 made of vinyl chloride is tightly fitted to the outer periphery of the two sheets of plate glass 3 while covering the vinyl chloride tape 6. As shown in FIG. 4, the thin double-layer glass 1 is
It is incorporated in a commercially available sash A for single plate glass for general housing.

Since the thin double glazing 1 according to this embodiment has a thickness of 7.0 mm, it can be incorporated into a sash A for a single glass plate for a general house having a glass frontage of 9 mm without an attachment. Therefore, the opening area of the house does not decrease, and the view from the room does not become narrow. Further, since no attachment is used, it does not take much time to assemble the double glazing 1 into the sash A for a single glass, and the double glazing 1 can be fitted in the sash A for a single glass well. Furthermore, since it does not go through the attachment, the promotion of heat conduction by the attachment (made of aluminum alloy) is blocked,
The deterioration of the heat insulation performance of the opening of the house is prevented. According to the measurement performed by the inventor of the present invention, the heat transmission coefficient of the thin double glazing 1 is 3.8 Kcal / m ² h ° C. It is. Therefore, the thin double-glazed glass 1 has appropriate heat insulation performance as a double-glazed glass for general houses in the south and south of the Tohoku region in light of the new heat insulation standard.

When the plate glass 3 is thinned and the width of the gap 2 is widened, the heat insulating performance of the thin multilayer glass 1 is improved. However, the thinness of the flat glass 3 reduces the strength of the thin double-layer glass 1. In this example, the plate glass 3 has a plate thickness of 2.5 mm and the gap 2 has a width of 2 mm, whereby the thin double-layer glass 1 having sufficient strength and necessary heat insulation performance was obtained. Since the peripheral portion of the gap 2 is sealed by the sealing material 4 in which the desiccant particles are kneaded, invasion of moisture into the gap 2 is prevented, the air in the gap 2 is kept in a dry state, and the thin multilayer The heat insulation performance of the glass 1 is maintained. In addition, the sealing material 4 integrates the two plate glasses 3 and suppresses interlayer displacement between the plate glasses 3. Seal material 4
By embedding a hollow rod-shaped spacer 5 extending along the peripheral edge of the gap 2 therein, a gap between the plate glasses 3 is formed.
It can be accurately set and maintained to a value as small as 2.0 mm, the thickness of the thin double glazing 1 can be accurately set and maintained to a value as small as 7 mm, and desired heat insulation performance can be maintained. .

When the multi-layer glass is incorporated into the sash, as a cushioning material for protecting the glass against vibration and impact,
Also, as a sealant against rainwater, it is common to fit a resin-made glazing channel to the outer periphery of the double glazing and to fit the double glazing with the resin glazing channel fitted to the outer periphery to the sash. is there. Conventionally, the work of externally fitting the glazing channel to the peripheral edge of the double glazing has been performed at the sash mounting site. It was difficult to perform the fitting work at the site where the working environment was bad. In the thin double glazing 1 according to this embodiment, since the glazing channel 7 is externally fitted to the peripheral edge of the thin double glazing 1 in advance at the thin double glazing manufacturing plant, at the sash installation site, Assembling thin thin glass 1 into sash A
It will be easier than before. By attaching a vinyl chloride tape 6 to the periphery of the thin double-layer glass 1, the sealing material 4
Is prevented, and the adhesion of the glazing channel 7 made of vinyl chloride to the peripheral portion of the thin double-layer glass 1 is improved.

Although the embodiments of the present invention have been described above, the present invention is not limited to the above embodiments. For example, one plate glass 3 may be a template plate glass having a thickness of 3 mm. In this case, the thickness of the thin double glazing 1 is 7.5 mm,
The glass frontage of the thin double-layer glass 1 having a thickness of 7.5 mm is 9 m.
It is fully possible to incorporate it into the sash A for single-plate glass of m. At least one of the plate glasses 3 may be a low-emission glass whose surface is coated with a metal film, or the at least one plate glass 3 may be attached with a solar radiation adjusting film having a resin film coated with a metal film. The use of low-emission glass and solar control film can prevent infrared rays from entering the room in the summer and leaking infrared rays from the heating equipment in the winter to the outside. As a result, the heat insulation performance of the opening of the house is improved. The gap 2 between the plate glasses 3 may be filled with an inert gas such as argon, SF6, or Freon. By enclosing an inert gas having a thermal conductivity smaller than that of air, the heat insulating performance of the double glazing can be further enhanced. As a result, the heat insulation performance of the opening of the house is improved. The spacer 5 may have a solid rod shape.

[0012]

As described above, according to the present invention, when incorporated in a sash for single-plate glass for general houses, the field of view from the room is not narrowed, and the sash for single-plate glass does not take much time to install, so that it can be used for single-plate glass. Provided is a double glazing that fits well into a sash and has suitable heat insulating performance as a double glazing for general houses in the south and south of the Tohoku region in accordance with the new heat insulation standard.

[Brief description of drawings]

FIG. 1 is a front view of a thin double-layer glass according to an embodiment of the present invention.

FIG. 2 is a right side view of the thin double glazing shown in FIG.

FIG. 3 is a top view of the thin double glazing of FIG.

4 is a cross-sectional view of the thin double glazing of FIG. 1 taken along line IV-IV. The lower end shows the state of being incorporated in a commercially available single-panel glass sash for general housing.

5 is a cross-sectional view of the thin double glazing of FIG. 1 taken along line VV.

FIG. 6 is a partial cross-sectional view of a heat insulating sash incorporating a conventional double glazing.

[Explanation of symbols]

 1 Thin multi-layer glass 2 Gap 3 Plate glass 4 Sealing material 5 Spacer 6 Vinyl chloride tape 7 Glazing channel A Sash for single plate glass

Claims (8)

[Claims] 1. A pair of plate glasses facing each other at a predetermined interval is provided, and a peripheral edge portion of a gap between the two plate glasses is sealed with a sealing material and has a thickness of 7.0 mm to 7.5 mm. Thin thin glass characterized by 2. The thin double glazing according to claim 1, wherein the predetermined interval is 2.0 mm. 3. The thin double-layer glass according to claim 1, wherein the sealant is kneaded with desiccant particles. 4. The solid rod-shaped or hollow rod-shaped spacer extending along the peripheral edge of the gap is embedded in the sealing material, according to any one of claims 1 to 3. Thin multi-layer glass. 5. The thin double-layer glass according to claim 1, wherein at least one of the plate glasses is a low-emission glass. 6. The thin multi-layer structure according to claim 1, wherein a solar control film having a resin film coated with a metal film is attached to at least one plate glass. Glass. 7. The thin double glazing according to any one of claims 1 to 6, wherein an inert gas is filled in the gap between the glass sheets. 8. A resin tape is adhered to the periphery of the resin tape, and a resin glazing channel is tightly fitted to the periphery of the resin tape by covering the resin tape. The thin double-layer glass according to any one of 1.