JPH0370626A - Method for mounting molding and gasket to glass plate - Google Patents

Abstract

PURPOSE:To perform rapid and firm mounting of a molding to a glass plate by a method wherein the molding made of thermoplastic resin is brought into contact with the peripheral edge of the glass plate through a conductor, and along with the generation of heat of the conductor through high frequency induction, a contact surface is locally melted. CONSTITUTION:In a mounting work, an annular or a beltform gasket or moulding 4 made of premolded thermoplastic resin is disposed to the peripheral edge part, on which a polymer 2 is applied, of the glass plate 1 through a conductor, for example, a tape 3 made of polyvinyl chloride containing particles of iron. Through utilization of high frequency induction effected by means of a pair of coils 5, the conductor 3 is caused to generate heat to locally melt a contact surface between the gasket or the molding 4 and the glass plate 1. This method causes rapid and firm adhesion of the gasket or the molding 4 to the glass plate 1. The gasket or the molding 4 is mounted even to the glass plate 1, having low strength, without breakage of glass.

Description

[Detailed Description of the Invention] [Industrial Application Field J] The present invention relates to a method for manufacturing window glass members suitable for vehicle window glasses and architectural window glasses, and particularly relates to a method for manufacturing window glass members suitable for vehicle window glasses and architectural window glasses. , or a method of wearing a molding.

[Prior Art] In glass windows for buildings or vehicles, a gasket for fitting into the window frame is fitted to the periphery of the glass plate, or a decoration is attached to the periphery of the glass plate fitted into the window. In order to improve the sealing performance or to improve the sealing performance, moldings are sometimes fitted. Conventionally, the method of attaching a gasket or molding to the periphery of window glass is to place the glass in a mold and inject a molten synthetic resin or a reactive raw material capable of forming a synthetic resin into the cavity space of the mold. A method of integrally molding glass and a gasket or molding, by fitting the periphery of a glass plate into the groove of a gasket with a groove formed in a band shape and passing it around, or by fitting the periphery of a glass plate into the groove of a gasket with an annular groove. The method of attaching the molding is to attach a clip to both the glass plate and the window frame, and to attach the molding by engaging the clip with the clip.

Regarding the first method, there is a problem that glass cracking is likely to occur due to insufficient precision of the glass when inserting the glass into the mold and clamping the mold, and due to a large molding difference during injection molding. Regarding the second method, it is difficult to reliably attach the gasket to the periphery of the glass plate, and the gasket often comes off, deforms, or has insufficient sealing, and the adhesion takes a long time. There is a problem that it takes time, and the third method has the drawback that it requires many work steps and the work is complicated, which causes an increase in cost.

[Problems to be Solved by the Invention] The purpose of the present invention is to improve the above-mentioned drawbacks of the prior art, and to provide a gasket or molding around the periphery of the glass plate without causing glass breakage. It is an object of the present invention to provide a method for simply and firmly attaching the device.

[Means for Solving the Problems] In order to solve the above-mentioned problems, the present invention provides an annular or band-shaped gasket or molding made of thermoplastic resin formed in advance, which is attached to the periphery of a glass plate through a conductor. A gasket for a glass plate, characterized in that the contact surface of the gasket or molding with the glass plate is locally melted by heating of the conductor by high frequency induction, thereby firmly adhering the two in a short time. Alternatively, the present invention provides a method for attaching a gasket or a molding to a glass plate to be molded.

The present invention will be explained in detail below.

In the present invention, a thermoplastic resin is used as the material for the gasket or molding, such as vinyl chloride resin, vinyl acetate resin, ABS resin, acrylic resin, polyethylene resin, polypropylene resin, polystyrene, etc. The gasket or molding can be preformed from the thermoplastic resin by extrusion molding, injection molding, or any other suitable method.

The shape of the gasket or molding is appropriately designed depending on the application state of the glass plate with the gasket or molding.
It is generally ring-shaped or band-shaped, with a cross-sectional shape having an end into which a glass plate is fitted.

The formed gasket or molding is temporarily attached to a glass plate via a conductor. As the conductor, any material can be used as long as it generates heat by generating an induced current due to high frequency induction, but conductive metals and alloys are preferably used.

Examples include iron, aluminum, stainless steel, brass, and copper. In particular, magnetic materials with electrical conductivity are excellent in terms of heat generation efficiency. The shape of these metals can be appropriately selected from various shapes such as sheet, tape, fine powder, and minute flakes depending on the shape of the gasket or molding. Various methods can be considered for interposing the conductor between the gasket or seal and the glass plate. For example, there is a method in which a conductor is prepared by molding a thermoplastic resin containing a conductive substance into a tape or sheet shape, and the conductor is sandwiched between a gasket or molding and a glass plate. In this method,
It is preferable to use a material of the same quality as the gasket or molding as the conductive substance-containing thermoplastic resin in order to increase adhesive strength.

Another method for interposing a conductor between a gasket or molding and a glass plate is to mix a conductive substance in an adhesive or a primer and apply this to the adhesive surface of the glass plate, gasket, or molding. In this case, as the conductive material, for example, metal in the form of fine powder or minute flakes is preferably used because it is easy to mix uniformly with the adhesive or primer.

It is also possible to form the molding or gasket in advance so that the adhesive surface locally contains a conductive material. For example, in the case of injection molding, fine powder or minute flakes of metal are applied to the adhesive surface of the mold, metal tape is temporarily fixed, or thermoplastic resin tape containing metal is temporarily fixed. These can then be integrated with moldings and gaskets by molding. In the case of extrusion molding, by extruding two layers of a thermoplastic resin and a thermoplastic resin containing a conductive substance, it is possible to mold a molding or a gasket that locally contains a conductive substance on the adhesive surface.

[Example] Examples of the present invention will be described below.

(Example 1) Using vinyl chloride resin as the thermoplastic resin, an annular molding having a cross-sectional shape shown in Figure 1 was molded by injection molding. Next, a primer (○) was applied to the peripheral edge of the glass plate, and a tape (■) of vinyl chloride resin with a thickness of 0.3 mm containing fine iron powder was inserted into the groove of the molding. Next, the molding part was placed in a high-frequency heating device so that it was located between the high-frequency induction coils placed above and below, and the coil was heated with a high frequency of 600 kHz for 15 seconds, thereby bonding the molding to the glass plate ■. A glass plate with a molding was obtained. The iron-containing vinyl chloride sheet was completely melted by heating, but the shape of the molding portion was only locally melted at the adhesive surface with the glass plate, and there was almost no change in shape. The adhesive strength between the molding and the glass plate was measured by a peel adhesion test and was 8 kg/cm.
Met.

(Example 2) An adhesive containing 30 wt % iron powder was applied to the peripheral edge of a glass plate, and the glass plate was fitted into the groove of the same molding as in Example 1. Next, set it in a high frequency heating device and set the coil to 400kHz.
A glass plate with a molding was obtained by bonding the molding to the glass plate by applying dielectric heating to a high frequency wave for 8 seconds.

The adhesive strength between the molding and the glass plate was measured by a peel adhesion test and was found to be 7 kg/cm.

(Example 3) The part corresponding to the adhesive surface of the mold for injection molding the molding was coated with fluororesin, and an adhesive containing 15 wt % of aluminum powder was applied thereon. By injection molding vinyl chloride resin using this mold, a molding having the same shape as in Example 1 and containing aluminum powder on the adhesive surface was molded. A glass plate coated with a primer was fitted into the groove of this molding, and the molding was bonded to the glass plate by setting it in a high-frequency heating device and dielectrically heating the molding with a high-frequency coil of 600 kHz for 18 seconds. The adhesive strength between the molding and the glass plate was measured by a peel adhesion test and was found to be 10 kg/cm.

[Effects of the Invention] As explained above, according to the present invention, a gasket and a molding can be attached to the periphery of an unreinforced and low-strength glass plate such as laminated glass without causing the problem of glass cracking. Furthermore, since the time required for bonding is extremely short, large-scale equipment such as a heating furnace is not required, and costs can be reduced.

Furthermore, since heat is applied locally only to the adhesive interface, deformation of the gasket and molding does not occur.

4,

[Brief explanation of drawings]

No. The diagram shows a specific example of the method of the present invention. Ming diagram. 256- No. figure

Claims (6)

[Claims] (1) A ring-shaped or band-shaped gasket or molding made of pre-formed thermoplastic resin is arranged around the periphery of the glass plate through a conductor, and the gasket or molding contacts the glass plate due to the heat generated by the conductor due to high frequency induction. A method for attaching a molding, a gasket, etc. to a glass plate, characterized by bonding the two firmly in a short time by locally melting the surfaces. (2) The method according to claim (1), wherein the method for interposing the conductor between the gasket or molding and the glass plate includes inserting a conductor-containing thermoplastic resin sheet or tape between the two. (3) The method according to claim (1), wherein the method for interposing a conductor between the gasket or molding and the glass plate includes applying a conductor-containing adhesive to the adhesive surface of the glass plate, gasket, or molding. (4) The method according to claim (1), wherein the method for interposing a conductor between the gasket or molding and the glass plate includes applying a conductor-containing primer to the adhesive surface of the glass plate, gasket, or molding. (5) As a method of interposing a conductor between the gasket or molding and the glass plate, when the gasket or molding is molded using thermoplastic resin, the conductor is included in the part that corresponds to the adhesive surface with the glass plate. The method according to claim (1), which comprises molding. (6) The method according to any one of claims (1) to (5), wherein the conductor is a magnetic material having conductivity.