JPH09278498A - Double layer glass and double layer glass supporting structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain double layer glass which may be produced at a low cost in a factory, may be built into buildings at a low cost and eliminates the possibility of the shearing breakage of secondary seals by embedding specific holder receivers into the packing parts of the sealing materials for the structure of the double layer glass. SOLUTION: Two sheets of sheet glass 2a, 2b are arranged apart from each other via spacers 4 disposed in the peripheral parts thereof and an air layer 3 is formed between two sheets of such sheet glass 2a and 2b. The sealing materials 7 for the structure are packed and sealed on the glass plate end edge sides of the spacers 4. The holder receivers 8a made of resins are embedded into the packing parts of the sealing materials 7 for the structure. The holder receivers 8a have groove parts 9 having an approximately U shape in section. The groove parts 9 have inner wall surfaces 25 and outer wall surfaces 26 and the apertures of the groove parts 9 are exposed. The inner wall surfaces 25 and outer wall surfaces 26 are exposed in parallel on the main surface of the sheet glass 2a, 2b.

Description

Detailed Description of the Invention

[0001]

FIELD OF THE INVENTION The present invention relates to double glazing and double glazing support structures.

[0002]

2. Description of the Related Art Due to demands for energy saving and a comfortable indoor environment, double glazing having a heat insulating effect and a dew condensation preventing effect is used as a panel material such as an opening of a building.

When a multi-layer glass as a panel material is attached to a roof of a building as a top light or is attached to an outer wall, conventionally, four sides of each multi-layer glass in the vertical direction and the horizontal direction are placed in a metal sash such as aluminum. I was wearing and supporting it. Since such a metal sash was provided so as to project from the flat glass surface of the roof or the outer wall, the design of the entire building was poor. Especially when used as a top light, there was a problem that dust and water were accumulated on the protrusions on the outer side of the sash, causing dirt and water leakage.

A structural silicone construction method (hereinafter also referred to as an SSG construction method) is known as an example of a panel material supporting structure on the outer surface of a building. This construction method is composed of a metal member made of aluminum or the like that substantially supports the panel member, and a structural sealing member made of silicone rubber or a silicone sealant that joins the metal member and the panel member.

According to the SSG construction method of supporting such a panel material by adhesion, the panel can be held without projecting a supporting member such as a metal sash to the outer surface of the building, and the design is improved. Especially when used as a top light, for the blind part, the double glazing is supported by adhesion, and the projection by the support member is eliminated in the direction of the water flow of the top light. Although the problem of occurrence of the problem is solved, such a construction method requires a complicated operation for mounting the double-glazing, and is considerably expensive.

To solve the problem of high cost in the SSG construction method, as shown in FIG. 9, a multi-layer glass 1 having a mounting member 30 is prepared in advance, and is attached to a frame (not shown) to support the multi-layer glass support structure. Is proposed (Actual Kaihei 4-56890), and the step of bonding the double glazing and the skeleton in the SSG construction method is not necessary, and there is an effect of cost reduction.

In the multi-layer glass 1, the inner plate glass 2a and the outer plate glass 2b are provided at their peripheral portions, and a spacer 4 having a desiccant 5 is arranged with butyl rubbers 6, 6 as primary seals interposed therebetween. And the air layer 3 is formed. Next, the secondary seal 7 as a structural sealing material
Is manufactured, and the metal mounting member 30 is pierced and fixed before the secondary seal 7 is hardened. The mounting member 30 is made of an aluminum alloy and has a protrusion 31, a side portion 32, and a leg portion 33. The above steps are carried out in the process of assembling double glazing in a factory.

The prior art shown in FIG. 9 provided a solution to the high cost problem of the SSG construction method, but there were three new problems described below.

First, when the double glazing 1 is stored in the factory or shipped from the factory, the double glazing 1 is provided with the mounting member 30 so that it is difficult to package and is bulky in storage and transportation. It was a factor that increased costs.

Secondly, in the factory production of the double glazing 1, it is necessary to mount the mounting member 30.
This means that the bulky mounting member 30 needs to be carried into the factory and stored as a component for assembly, which is a factor of cost increase.

Thirdly, the double glazing 1 and the double glazing supporting structure using the double glazing 1 have a high possibility of the secondary seal 7 being sheared and broken when subjected to a large temperature change. . The reason is as follows.

A high modulus structural sealing material is used as the secondary seal 7 so that the double glazing 1 can withstand wind pressure or the like from the outside with respect to the outer side glazing 2b. The coefficient of thermal expansion of the aluminum alloy forming the mounting member 30 is about 2.4 × 10 ⁻⁵ / ° C., and the coefficient of thermal expansion of the inner plate glass 2 a and the outer plate glass 2 b is 9 to 10.
It is 10 × 10 ⁻⁶ / ° C. That is, the attachment member 30
Is more easily expanded and contracted than the inner glass plate 2a and the outer glass plate 2b, and since the glass plates 2a, 2b and the mounting member 30 are not elastically deformed, a strong force in the T direction is applied to the secondary seal 7.

The C dimension of the mounting member 30 is 2 to 3 mm for maintaining the strength thereof, and the thickness A of the air layer of the double glazing 1 is usually set to 6 to 12 mm. If A = 6 mm and C = 2 mm, B = 2 m
However, since the distance between the mounting member 30 and the inner glass sheet 2a and the outer glass sheet 2b is too small, the secondary seal 7 having a high modulus is likely to be sheared and broken.

[0014]

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and is produced at a low cost in a factory, stored and transported at a low cost, and even when incorporated in a building, It is an object of the present invention to provide a double glazing and a double glazing supporting structure which are incorporated at a cost and in which the secondary seal does not have a risk of shear fracture.

[0015]

According to the present invention, two sheet glasses are separated by a spacer arranged in the periphery thereof, and an air layer is formed between these two sheet glasses.
In a multi-layer glass in which a structural sealing material is filled and sealed on the glass plate edge side of a spacer, a resin holder receiver is embedded in the filled portion of the structural sealing material, and the holder receiver is A groove having a substantially U-shaped cross section, the groove having an inner wall surface and an outer wall surface,
There is provided a double glazing characterized in that the opening of the groove is exposed and the inner wall surface and the outer wall surface are arranged parallel to the main surface of the glass sheet.

The present invention also provides that the holder receiver is
Is integrally formed in the vertical direction from the inner wall surface, and
There is provided a double glazing, which also has a protective portion extending parallel to the edge of the glass sheet. The holder receiver is
Extruded products of silicone rubber or vinyl chloride can be used.

According to the present invention, a metal holder is inserted into the holder receiving member of the above-mentioned double glazing, the holder is fixed to the skeleton, and the double glazing is attached to the skeleton. A multi-layer glass support structure is provided.

[0018]

BEST MODE FOR CARRYING OUT THE INVENTION A first embodiment of the double glazing of the present invention will be described with reference to FIGS. In the multi-layer glass 1a, an inner plate glass 2a and an outer plate glass 2b are provided around the periphery thereof, and a spacer 4 having a desiccant 5 is arranged so as to be spaced apart with butyl rubbers 6 serving as primary seals interposed therebetween. 3 is formed. The inner plate glass 2a has two opposite sides,
It is formed in a short dimension with respect to the outer plate glass 2b. Next, a secondary seal 7 as a structural sealing material is cast, and before the secondary seal 7 is cured, a holder holder 8a made of resin is inserted and fixed to produce the product.

As the holder receiver 8a, a silicone rubber extruded product or a product made of vinyl chloride resin is used, and the holder receiver 8a has a groove portion 9 having a substantially U-shaped cross section.
Inner wall surface 25 and outer wall surface 2 having a groove 9
6 are arranged parallel to the main surfaces of the inner glass pane 2a and the outer glass pane 2b, and are integrally formed in the vertical direction from the inner wall surface 25, and the glass panes 2a, 2b
It also has a protective part 10 parallel to the end of the. In this embodiment, the holder receivers 8a, 8a are arranged at both ends of the double glazing 1a.

As described above, according to this embodiment,
Since the laminated glass 1a has no protruding portion, it is easy to pack and is efficient because it is not bulky in storage and transportation. It is not necessary to carry in and store the bulky mounting member 30 in the factory for manufacturing the double glazing. The resin holder holder 8a is different from a metal mounting member or holder such as an aluminum alloy in that the holder holder 8a is elastically deformed, so that the double glazing 1a and the double glazing 1a are elastically deformed.
The double-layered glass support structure using is not likely to cause shear failure of the secondary seal 7 even when subjected to a large temperature change.

It is preferable to use an appropriately thin holder holder 8a made of resin because the holder holder 8a itself is more likely to be elastically deformed. Silicone rubber is generally used as a structural sealing material, and holder holder 8
When a silicone rubber extruded product is used as a, the coefficient of thermal expansion is similar to that of the structural sealing material, so that nothing is pierced into the structural sealing material and nothing is inserted. Therefore, there is almost no risk of the structural sealing material breaking by shearing.

FIG. 5 will be described in comparison with the first to fourth examples of the double glazing of the present invention. FIG. 5 (a) is the above-described first embodiment, in which the holder receivers 8a, 8a are made of the double glazing 1
It is arranged at both ends of a.

FIG. 5 (b) shows a second embodiment, in which holder holders 8a, 8a, 8b, 8b are arranged on four sides of the double glazing 1b. FIG. 5C is a third embodiment, in which the holder receivers 8c, 8c, 8b, 8b are arranged on four sides of the double glazing 1c. FIG. 5D shows a fourth embodiment, in which a frame-shaped holder receiving member 8d is arranged so as to surround the spacer 4 of the double glazing 1d.

In the case of the second and third embodiments shown in FIGS. 5 (b) and 5 (c), the same procedure as in the case of the first embodiment described above is adopted.
Resin holder holder 8 before the next seal 7 hardens
Double glazing is produced by inserting and fixing a, 8b, 8c, but in the case of the fourth embodiment shown in FIG. 5 (d), the inner glazing 2a and the outer glazing 2b are surrounded by their peripheral portions. , The spacers 4 having the desiccant 5 are arranged at intervals with the butyl rubbers 6, 6 as primary seals interposed, and when the air layer 3 is formed, the holder receiver 8d is fitted. After that, the secondary seal 7 is cast and fixed to produce the double glazing.

Referring to FIG. 6, a first embodiment of the double glazing support structure of the present invention will be described. Adjacent double glazing 1a, 1
a is a holder 17, which is fixed to the skeleton 19 by a fixing means such as welding, and a holder portion 1 forming part of the skeleton 19.
It is attached to the body 19 by 8. Holder 1
7, the holder portion 18 is an L-shaped portion 2 having a substantially L-shaped cross section.
7, the holders 8a, 8a of the double glazings 1a, 1a have protrusions 28 at the tips of the L-shaped portions 27, 27,
28 are inserted. Adjacent double glazing 1a, 1a
A backup material 15 is provided between the side surfaces formed by the, and a sealing material 16 is provided on the outside thereof.

Referring to FIG. 7, a fifth embodiment of the double glazing of the present invention will be described. Unlike the first embodiment, this double glazing unit 1e uses an inner glazing 2c and an outer glazing 2b having the same dimensions. Along with this, the shape of the holder receiver 8e is slightly different. When the holder 17 is fitted into the holder receiving member 8e, it is preferable to use the cushion material 20 in order to protect the edge of the plate glass.

A second embodiment of the double glazing support structure of the present invention will be described with reference to FIG. Adjacent double glazings 1e, 1
e is a holder 17 and a skeleton 1 which are respectively fixed to the skeleton 19.
It is attached to the skeleton body 19 by a holder portion 18 forming a part of 9. The other points are similar to those of the first embodiment shown in FIG.

[0028]

According to the above-described structure of the present invention, even when it is produced at a low cost in a factory, is stored and transported at a low cost, and is incorporated into a building, it can be incorporated at a low cost and a secondary seal can be installed. It is possible to provide a double glazing and a double glazing supporting structure which are not likely to be sheared and broken.

[Brief description of drawings]

FIG. 1 is a sectional view of an essential part of a first embodiment of a double-glazing unit of the present invention.

FIG. 2 is a perspective view of a holder receiver used for the double glazing of FIG.

FIG. 3 is a partially cutaway perspective view of the double glazing shown in FIG.

4 is an explanatory view of assembling the double glazing of FIG. 1,
(A) is a sectional view before completion, and (b) is a sectional view after completion.

FIG. 5 is a comparative explanatory view of the double glazing of the present invention,
(A) is the first embodiment, (b) is the second embodiment, (c) is the third embodiment, and (d) is the fourth embodiment.

FIG. 6 is a cross-sectional view of a main part of a first embodiment of the double-glazing support structure of the present invention.

7 (a) and 7 (b) are explanatory views of a fifth embodiment of the double glazing glass of the present invention, in which (a) is a cross-sectional view of a main part thereof and (b) is a cross-sectional view of the main part with a holder fitted therein.

FIG. 8 is a cross-sectional view of essential parts of a second embodiment of the double-glazing support structure of the present invention.

FIG. 9 is an explanatory view of a main part of a conventional double glazing.

[Explanation of symbols]

 1, 1a, 1b, 1c, 1d, 1e: Double glazing 2a, 2c: Inner glazing 2b: Outer glazing 3: Air layer 4: Spacer 7: Secondary seal (structural sealing material) 8a, 8b, 8c, 8d , 8e: Holder receiver 9: Parallel part 10: Protective part 17: Holder 18: Holder part 19: Body 20: Cushion material

Claims (3)

[Claims] 1. Two sheet glasses are separated by a spacer arranged in the periphery thereof, an air layer is formed between these two sheet glasses, and a spacer is formed on the glass sheet end edge side. In a multi-layer glass in which a sealing material is filled and sealed, a resin holder holder is embedded in a filled portion of the structural sealing material, and the holder holder has a groove portion having a substantially U-shaped cross section. The groove portion has an inner wall surface and an outer wall surface, and the inner wall surface and the outer wall surface are arranged so as to expose the opening of the groove portion and in parallel to the main surface of the plate glass. Multi-layer glass characterized by. 2. The holder holder according to claim 1, further comprising a protection portion integrally formed in the vertical direction from the inner wall surface and extending parallel to an end portion of the plate glass. Layered glass. 3. A holder made of metal is inserted into the holder receiving member of the double glazing according to claim 1 or 2, and the holder is fixed to a skeleton, and the double glazing is attached to the skeleton. A multi-layer glass support structure characterized by