JPH0442876A - Light transmitting panel using natural stone and its production - Google Patents

Abstract

PURPOSE:To obtain a light transmitting panel having both designability of natural stone and light transmissivity of glass by superposing and binding a natural stone sliced to a prescribed thickness to a glass plate. CONSTITUTION:A transparent resin film, capable of softening and melting with heat and exhibiting bonding performance and having 0.08-1.5mm thickness is prepared. The resultant film is interposed between a natural stone sliced to 1-8mm thickness and a glass plate and heated under pressure to bond the aforementioned sliced stone to the glass plate.

Description

[Detailed Description of the Invention] (Industrial Application Field) The present invention provides a panel used for lighting equipment, fittings, etc. in buildings that has the design properties of natural stones such as marble and the translucency of glass, and a manufacturing method. This is related to.

(Prior technology) There has never been a composite panel in which a thin transparent stone and an ultra-thin glass plate are bonded together, but a glass plate is layered on a slightly thick stone using an adhesive or physical method. I can think of something that happened.

(Problems to be Solved by the Invention) However, such materials do not have translucency and are difficult to manufacture, requiring sufficient care and affecting work efficiency.

The present invention was proposed in view of the above circumstances, and its purpose is to provide a transparent panel using natural stone that is transparent and has both a design effect and a lighting effect, and a method for manufacturing the same. It is in the point of providing.

(Means for Solving the Problems) In order to achieve the above object, a translucent panel using natural stone according to the present invention is obtained by laminating natural stone sliced to a thickness of 1 to 8111 In and bonded to a glass plate. It is configured.

Further, according to the method for manufacturing a translucent panel according to the present invention, the adhesive properties of 0, 08 to 1.
A transparent resin film with a thickness of 5 mm is interposed between a natural stone sliced to a thickness of 1 to 8 mm and a glass plate, and the film is softened and melted by heating and pressurizing in a deaerated state, The natural stone is bonded to a glass plate.

In addition, in manufacturing the translucent panel, the thickness is 1 to 5I.
A certain minute gap is created between the sliced natural stone and the glass plate, and a transparent resin of room temperature reaction curing type, heat reaction curing type, or light reaction curing type is injected into the gap and cured by heat or light. Alternatively, the transparent resin may be cured by being left at room temperature, and the natural stone and the glass plate may be bonded together. The transparent resin adheres to both the natural stone and the glass plate, and one of a room temperature reaction curing type, a heat reaction curing type, and a light reaction curing type transparent resin is used.

(Function) As described above, the translucent panel according to the present invention has a thickness of 1 to
It is constructed by layering and bonding natural stone sliced into 8 pieces on a glass plate, so it has translucency and
It serves as a filter material, transmitting and softening strong sunlight and illumination rays.

The invention according to claim 2 provides a film having a thickness of 0.08 to 1.5 am that is softened and melted by heat to exhibit adhesive performance between the sliced natural stone and the glass plate, and in a deaerated state. By heating and pressurizing the film to soften and melt it, it is possible to bond ultra-thin materials, compared to conventional methods that use adhesives. This makes it possible to manufacture the above-mentioned translucent panel by adhering multiple layers to a plate.

The invention of claim 3 injects a transparent resin of a room temperature reaction curing type, a heat reaction curing type, or a light reaction curing type between the sliced natural stone and the glass plate provided with a minute gap as described above. and by curing the transparent resin by leaving it at room temperature or by heating or light, it is possible to bond extremely thin members compared to conventional methods using adhesives,
The natural stone sliced as described above is laminated and adhered to a glass plate, thereby making it possible to manufacture the above-mentioned transparent panel.

(Example) The present invention will be described below with reference to the illustrated embodiments.

By applying processing technology for ceramic IC substrates, natural stone, which is normally cut to a thickness of 20 to 30 mm, can be sliced into 11 to 11 square meters and 1 to 8 m thick.

A transparent resin film (3), which exhibits adhesive properties by being softened and melted by heat, is placed between the natural stone (1) sliced as described above and the ultra-thin glass plate (2).
) and has a heating chamber (4) at the bottom (5)
Inside, the film (3) is sufficiently degassed by a vacuum pump (6) and heated by a heater (7) in the heating chamber (4) to soften and melt the glass plate (2). The sliced natural stone (1) is brought into close contact with the natural stone (1) by applying pressure due to its own weight, and a translucent pasule is manufactured. (See Figure 1) As the resin (3), for example, polyvinyl butyral (PVB) resin, ethylene vinyl acetate copolymer, etc. are used.

FIG. 2 shows the implementation of another embodiment of the method of the invention,
In a drying chamber (9) containing a built-in heater (8), the stone (1) sliced as described above and the glass plate (2) are placed opposite each other with a gap of, for example, 0.5 to 2 strokes, A room temperature reaction curing type, heat reaction curing type, or light reaction curing type transparent resin (10) is injected into the same gap, and the resin (10) is cured by heat or light, and the stone material (1) and the glass plate (
2) Manufacture a translucent panel in which both are laminated and bonded.

In the figure, (11) indicates a fixing jig, and (12) indicates a rubber.

Further, as the resin (10), for example, acrylic resin is used.

As shown in Fig. 3, the translucent baffle prisoner manufactured as described above is attached to the opening of a building (Bl), and when attached to a ceiling light, for example, it can weaken the strong light of the afternoon sun and improve air conditioning efficiency. It improves the appearance of the stone and makes the pattern of the stone stand out, creating a design effect.It also has a glare prevention effect when attached to a ceiling light.

In addition, as shown in Figure 4, a mercury lamp (13) with high lighting efficiency is used for office lighting, and 5 to 5
The translucent panel is installed as a light filter material at a distance of 0.00 m, and methods such as colored film, sputtering, and coloring are used to make this filter material possess a reddish spectrum that mercury lamps do not possess. synthesizes light.

This makes it possible to use mercury lamps, which were traditionally considered unsuitable for office lighting due to their strong light, as a light source.
A filter material is used to homogenize excessively strong light, and the filter material imparts a reddish spectrum that mercury lamps do not possess, providing an appropriate level of light intensity for workers and improving work efficiency.

In addition, by incorporating the translucent panel into open fittings such as windows, with the glass surface facing the exterior and the natural stone surface facing the interior, the design of natural stone can be seen from both the interior and exterior.
Furthermore, by providing a glass plate, highly durable opening sash fittings can be constructed while retaining the design effect of natural stone.

(Effects of the Invention) According to the present invention, as described above, natural stones sliced into 1 to 5 plate thicknesses are laminated and bonded to a glass plate to form a translucent panel. By attaching it to openings and ceiling lights in buildings, it reduces the strong light of the afternoon sun, improves air conditioning efficiency, and brings out the patterns of the stone, creating an elegant design effect. It's something to know.

Furthermore, by using the light-transmitting panel of the present invention as a filter material in an office that uses mercury lamps, the light from the mercury lamps can be softened to an appropriate intensity for workers, thereby improving work efficiency.

The invention according to claim 2 provides a transparent resin film having a thickness of 0.08 to 1.5 mm that exhibits adhesive properties by being softened and melted by heat between the natural stone sliced to a thickness of 1 to 8 mm and the glass plate. By interposing the film and heating it in a deaerated state, the sliced ultra-thin natural stone material and the glass plate can be bonded together by softening and melting the film to produce a translucent panel.

The invention of claim 3 injects a transparent resin of a room temperature reaction curing type, a heat reaction curing type, or a light reaction curing type into a gap provided between a natural stone sliced to a thickness of 1 to 8 mm and a glass plate. Then, the resin is left to stand at room temperature or cured by heating or light, and the ultra-thin sliced natural stone is adhered to a glass plate to produce a translucent panel.

[Brief explanation of drawings]

1 and 2 are longitudinal cross-sectional views showing the implementation status of each embodiment of the method for producing a translucent panel using natural stone, and FIGS. FIG. 2 is an explanatory diagram showing the usage status of 2 files. (1)...Natural stone, (2)...Glass plate, (3)...Transparent resin film, (4)...Translucent panel. (10)...Transparent resin, Agent: Patent attorney Shige Okamoto, 1 extra person

Claims (1)

[Claims] 1. A translucent panel using natural stone, characterized in that it is made by laminating and bonding natural stone sliced to a thickness of 1 to 8 mm to a glass plate. 2. 0.08 which exhibits adhesive performance by softening and melting with heat
~1.5mm thick transparent resin film, 1~8mm thick
Interposed between the sliced natural stone and the glass plate,
A method for manufacturing a translucent panel using natural stone, characterized in that the film is softened and melted by heating and pressurizing in a deaerated state, and the natural stone is bonded to a glass plate. 3. A certain minute gap is created between the natural stone sliced to a thickness of 1 to 8 mm and the glass plate, and a room temperature reaction curing type, heat reaction curing type, or light reaction curing type transparent resin is injected into the gap. . A method for manufacturing a translucent panel, which comprises curing the transparent resin and bonding the natural stone and the glass plate.