JP2005104784A5 - - Google Patents

Description

Laminated glass according to claim 1 includes a pair of glass sheets facing each other, in a laminated glass and an intermediate layer interposed between the pair of glass sheets, met hand is wire-reinforced plate glass of the pair of glass sheets Te, Ri other is reinforced plate glass der, the thickness of the intermediate layer is characterized 0.76~2.28mm der Rukoto.

The laminated glass according to claim 2 , wherein the laminated glass includes a pair of plate glasses opposed to each other and an intermediate film interposed between the pair of plate glasses, wherein one of the pair of plate glasses is a heat-resistant plate glass, Ri other is reinforced plate glass der, the thickness of the intermediate layer is characterized 0.76~2.28mm der Rukoto.

The laminated glass according to claim 3 is the laminated glass according to claim 1 or 2 , wherein the tempered plate glass has a soda-lime-based composition and a surface compressive stress of 88 to 157 MPa (900 to 1600 kgf / cm ² ). It characterized Rukoto to have a mechanical property.

The laminated glass according to claim 4 is the laminated glass according to any one of claims 1 to 3 , wherein the heat-resistant plate glass has a soda-lime-based composition and a surface compressive stress of 167 to 255 MPa (1700 to 1700). It characterized Rukoto to have a mechanical property of 2600kgf / cm2).

Laminated glass according to claim 5, wherein, in the laminated glass according to any one of claims 1 to 4, wherein the intermediate layer is a polyvinyl butyral resin film der wherein Rukoto.

According to the laminated glass of claim 1 wherein, I hand the wire-reinforced plate glass der of the pair of glass sheets and the other Ri heat resistant glass plate der, the thickness of the intermediate layer is Ru 0.76~2.28mm der Therefore, when the tempered plate glass side is the heating surface and the meshed plate glass side is the non-heated surface, the tempered plate glass on the heating surface is crushed and dropped, and the meshed plate glass on the non-heated surface becomes a single-plate glass state, which is combustible. All of the heat-resistant interlayer film burns in the furnace, and the meshed plate glass can stop the flame. Also, if the meshed plate glass side is the heating surface and the tempered plate glass side is the non-heating surface, the mesh on the heating surface side An intermediate film that is fluidized by heat without damaging the tempered plate glass on the non-heated surface side by reducing the thermal load on the tempered plate glass on the non-heated surface side by maintaining the self-supporting state without falling off Close to hermetically sealed with two sheet glass Flame can stave off by the can improve the fire performance in the event of a fire and has a sufficient safety performance at the time of impact by an external force with.

According to the laminated glass of claim 2, wherein, a one heat plate glass of the pair of glass sheets, Ri other is reinforced plate glass der, the thickness of the intermediate layer is 0.76~2.28mm der Runode, reinforced When the plate glass side is the heating surface and the heat-resistant plate glass side is the non-heated surface, the tempered plate glass on the heating surface is crushed and dropped off , but the heat-resistant plate glass on the non-heated surface can stop the flame without breaking , heat the glass sheet side and the heating surfaces, if the reinforced plate glass side was unheated surface, heat the glass sheet on the heating surface side of the self-standing state without crushing maintaining the thermal load on the reinforced plate glass of the non-heated surface side not reduce reinforced plate glass of the non-heated surface side is destroying the intermediate membrane sealed can write Mel between the heat resistant glass plate of the heating surface and the reinforced plate glass of non-heated surface side, upon impact by an external force with Have sufficient safety performance in It can be on the improvement fire performance when both fire.

According to the laminated glass according to claim 3, reinforced plate glass has the composition of soda-lime, surface compressive stress having a mechanical properties of 88~157MPa (900~1600kgf / cm2) Runode outside force it can be on further countercurrently fire performance in the event of a fire and has a sufficient safety performance at the time of impact by.

According to the laminated glass of claim 4, the heat-resistant plate glass has a soda-lime-based composition,
Be on further countercurrently fire performance in the event of a fire and having as they may face compressive stress having a mechanical properties of 167~255MPa (1700~2600kgf / cm2), a sufficient safety performance at the time of impact by external force Can do.

According to the laminated glass according to claim 5, the intermediate layer can it to easily bond the pair of glass sheets can be improved polyvinyl butyral resin film der Runode, the impact resistance.

The present inventor has conducted intensive studies to achieve the above object, a pair of glass sheets facing each other, in a laminated glass and an intermediate layer interposed between the pair of glass sheets, one pair of plate glass If one is in one of which a heat resistant glass plate and the other is reinforced plate glass of a by the other reinforced plate glass, a pair of sheet glass wire-reinforced plate glass, in the event of a fire and has a sufficient safety performance at the time of impact by an external force It has been found that the fire performance can be further improved.

The pair of glass plates 11 and 12 have a thickness of 2.0 to 19.0 mm, preferably 3 to 8 m.
m, and for example, they are constituted by a set of reinforced plate glass and wire-reinforced plate glass, the intermediate film has Nozomu Mashiku thickness 30-90 mils (0.76～2.28Mm) of polyvinyl butyral resin ( Hereinafter, it is made of a film made of “PVB”. Thereby, it is possible to have sufficient safety performance at the time of impact by an external force and to improve fire prevention performance at the time of fire occurrence. Here, although the film made of PVB has high impact resistance performance, it is very flammable when exposed to fire, and there is a problem with fire prevention performance. And is composed of a set of mesh plate glass.

A pair of plate glass 11 and 12 may be comprised by the group of tempered plate glass and heat-resistant plate glass.

Next, about this laminated glass was carried out fire door tested in almost the same conditions as Class B fire door test by the Ministry of Construction Notice 1125 No.. That is, the temperature inside the furnace when the heating time is set to t (minutes) and the glass is mounted on the side wall of the furnace provided with a heating device and a measuring device for measuring the temperature in the furnace so that one surface of the laminated glass faces the inside of the furnace. The inside of the furnace was heated for 20 minutes using a heating device so that the average value T (° C.) of the sample became the value represented by the following formula (1).

In the second embodiment, reinforced plate glass, heat plate glass, and the like fire door test in the first embodiment by using a laminated glass composed of PVB film made performed. Table 1 shows the results of evaluation of fire resistance for the second embodiment.

On the other hand, in the first comparative example was performed similar fire door test in the first embodiment by using a laminated glass composed of a pair of wire-reinforced plate glass and PVB film made. Table 1 shows the results of evaluation of fire resistance for the first comparative example.

Table 1, in the laminated glass, while the reinforced plate glass in a to the other wire-reinforced plate glass of the pair of glass sheets and the other a one is reinforced plate glass of the pair of glass sheets is a heat plate glass, upon impact by an external force It was found that fire safety performance can be improved in the event of a fire as well as having sufficient safety performance.

In the first example, a laminated glass composed of a tempered plate glass, a meshed plate glass, and a PVB film having a soda-lime composition and a mechanical property of a surface compressive stress of 88 MPa (= 900 kgf / cm 2) is used. In the third and fourth examples, instead of the reinforced plate glass of the first example, each has a soda-lime-based composition and has a surface compressive stress of 118 MPa (= 1200 kgf / The same as in the first embodiment, using the tempered glass sheet A having a mechanical characteristic of cm2) and the tempered glass sheet B having a soda-lime composition and a mechanical characteristic of a surface compressive stress of 157 MPa (= 1600 kgf / cm2). A fire door test was conducted. Table 2 shows the results of the fireproof evaluation performed on the third and fourth examples. In Table 2, “PASS” is indicated by “◯”, “FAIL” is indicated by “X”, and so on.

According to the third embodiment and the fourth embodiment, even if any side of the outer surface of the laminated glass is used as a heating surface, flames and the like on the non-heating surface are not confirmed. there were.

On the other hand, in the second comparative example, a soda-lime-based composition, a laminated plate glass C having a mechanical property of a surface compressive stress of 69 MPa (= 700 kgf / cm 2), a mesh plate glass, and a PVB film are combined. A fire door test similar to that of the first example was performed using glass. Table 2 shows the results of the fireproof evaluation performed on the second comparative example.

In the second comparative example, when the tempered plate glass side is a non-heated surface, the tempered plate glass C is cracked, and the intermediate film reacts with oxygen in the air outside the furnace, thereby causing flames on the non-heated surface. It was confirmed and failed.

In the present embodiment, a PVB film is used as an intermediate film for bonding plate glasses together, but the present invention is not limited to this, but a polyvinyl acetal resin, polyvinyl chloride, a vinyl chloride / ethylene copolymer, vinyl chloride. / Ethylene / glycidyl (meth) acrylate copolymer, vinyl chloride / glycidyl (meth) acrylate copolymer, polyvinylidene chloride, vinylidene chloride / acrylonitrile copolymer, partially saponified ethylene / vinyl acetate copolymer, ethylene / (Meth) acrylate copolymer, polyurethane resin, plastisol film made of vinyl chloride resin and alkylbenzyl phthalate can be used, but from the viewpoint of adhesion to glass, transparency, impact energy absorption, etc. Especially in the automobile field, it is represented by PVB resin. That it made of polyvinyl acetal resin and a plasticizer thickness 0. A film made of polyvinyl acetal resin having a thickness of about 76 to 2.28 mm is most preferable. In the field of building materials and the like, a partially saponified ethylene / vinyl acetate copolymer, vinyl chloride / ethylene / glycidyl (meth) acrylate is used. A resin film such as a copolymer may be used.

Claims (5)

In a laminated glass comprising a pair of plate glasses opposed to each other and an intermediate film interposed between the pair of plate glasses,
Wherein a pair of hand is wire-reinforced plate glass of the glass sheet, Ri other is reinforced plate glass der, laminated glass thickness of the intermediate layer is characterized 0.76~2.28mm der Rukoto. In a laminated glass comprising a pair of plate glasses opposed to each other and an intermediate film interposed between the pair of plate glasses,
Wherein one of the pair of glass sheets is a heat-resistant glass sheet, Ri other is reinforced plate glass der, glass allowed if the thickness of the intermediate film you characterized 0.76~2.28mm der Rukoto. The reinforced plate glass has the composition of soda-lime, according to claim 1 or 2 together according to said Rukoto to have a mechanical properties of the surface compressive stress is 88~157MPa (900~1600kgf / cm ²⁾ Glass. The heat resistant glass plate has a composition of soda lime, either surface compressive stress 167~255MPa of (1700~2600kgf / cm2) according to claim 1, wherein the Rukoto to have a mechanical property of 1 Laminated glass according to item . The intermediate film, laminated glass according to any one of claims 1 to 4, characterized in polyvinyl butyral resin film der Rukoto.