JPH02175419A - Manufacture of hard plate insert module assembly window - Google Patents

Abstract

PURPOSE:To insure rigidity, adhesion, and sealing property of a gasket part by holding a hard plate-like object with pins made of metal or synthetic resin so as to form a space for injecting filler between a window glass inserted into a forming mold and the hard plate-like object. CONSTITUTION:Material forming gasket 2 is injected and filled into the space between the circumferential part of a window glass inserted and arranged in a forming mold and the inner surface of the forming mold so as to insert a hard plate-like object (iron, engineering plastics, etc.) 3. In this case, the hard plate-like object 3 is held with pins 6 made of metal or synthetic resin so as to form the space between the window glass 1 and the hard plate-like object 3 in the forming mold.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to a method for manufacturing a module assembly window with a rigid plate insert, which is mainly applied to automobile windshields.

[Prior Art] Modular assembly windows for automobiles and other vehicles have gaskets or moldings made of rubber or synthetic resin attached to the peripheral edge of the windshield for decoration or sealing purposes.In recent years, gaskets have been introduced to improve workability. etc. are manufactured by integrally forming them on the periphery of the window glass. In such a method, a window glass is placed in a mold, a gasket-forming material such as a melt of rubber or elastomer, or a raw material mixture capable of forming the rubber or elastomer is injected into the mold, and the gasket-forming material is injected into the mold. Various gaskets have been proposed in which a gasket is formed on the peripheral edge of the windshield and removed from the mold (for example, Japanese Patent Laid-Open No. 57-158481, Japanese Patent Laid-Open No. 58-7368).
No. 1, JP-A-58-110786, JP-A-60-40
No. 1.5, JP-A-60-104412, JP-A-60-
No. 63115, JP-A-61-79613, JP-A-61
(Refer to Publication No.-66645, etc.).

The above module assembly window can be attached to the vehicle body, etc. by tightening with metal fittings, or by making the outer edge of the gasket convex as shown in Figure 7, while the part of the vehicle body etc. to which it is attached is concave. Keep it
This is done by fitting the convex part of the gasket into the concave part of the vehicle body (Fig. 8).

Here, since an elastic body made of rubber or synthetic resin is usually used as the gasket forming material, it is possible to easily fit the outer edge of the gasket of the module assembly window into a recess of the vehicle body or the like. The reason why such an elastic body is used as a gasket forming material is to protect the windshield, and because it is installed in close contact with the windshield and the vehicle body, it effectively prevents rainwater, dust, exhaust gas, etc. from entering through these gaps. This is because it can be prevented.

However, although it is easy to fit and fix the outer edge of the gasket of the module assembly window into a recess in the car body, etc., the fitted part has poor rigidity and strength, so it is difficult to fix the module assembly window gasket to the car body, etc. There was a problem that long-term stability could not be ensured. In other words, after long-term use, there is a problem that looseness occurs between the vehicle body and the mosier assembly window, making it impossible to effectively prevent rainwater, dust, exhaust gas, etc. from entering through the gap, and the gasket. Problems such as deformation occurred.

[Problems to be Solved by the Invention] The present invention has been made in view of the problems of the prior art as described above, and its purpose is to ensure the rigidity of the gasket portion of the module assembly window and to improve the rigidity of the module assembly window. An excellent rigid plate insert module assembly window that achieves long-term stability when fixed to a vehicle body, etc., and prevents damage to sealing performance due to rattling of the module assembly window, and Despite having a hard plate-like shape embedded in the outer edge of the gasket, it does not impair adhesion to the windshield surface and is highly economical as it can be manufactured in one piece.
An object of the present invention is to provide a method for manufacturing an insert module assembly window made of a hard plate-like material.

[Means for Solving the Problems] As a result of intensive research in order to solve the above-mentioned drawbacks of the conventional technology, the inventor of the present invention has developed a plate made of a hard material at the outer edge of the module assembly window gasket that is fitted into the vehicle body, etc. By embedding this material, the module assembly window can be stably fixed to the vehicle body, etc., solving the problem of the module assembly window rattling, and maintaining a high sealing performance, effectively preventing the intrusion of rainwater, dust, exhaust gas, etc. In the production of hard plate insert module assembly windows, the plate made of hard material is held in the gasket molding cavity space with metal or synthetic resin pins, and the window glass is inserted as necessary. If a certain space is maintained between the window glass and the hard plate by installing a spacer between the hard plate or by making the plate into a concave shape, the gasket forming material can be removed in the cavity space. By injecting and solidifying the hard plate, the rigid plate is easily embedded in the gasket, and the rigid plate insert module assembly window can be integrated economically and stably without compromising the adhesion between the wind glass and the gasket. The present invention was completed by discovering that it can be molded in a precise manner. That is, in the present invention, a window glass is arranged in a mold, a cavity space for gasket molding is formed between the peripheral edge of the window glass and the inner surface of the mold, and a plate-shaped material made of a hard material is placed in the cavity space. In an integrated manufacturing method for a hard plate insert module assembly window, the gasket forming material is injected into the cavity space and solidified while the plate is held in the mold so as to be inserted into the mold. , or a hard plate-like object insert module assembly window characterized by holding a hard plate-like object in a mold so that a space is formed between the window glass and the hard plate-like object with synthetic resin pins. This is the manufacturing method.

[Means to solve the problem] The present invention will be explained in detail with reference to the drawings.

As shown in FIG. 1, the rigid plate insert module assembly window to be manufactured according to the present invention includes a window glass, a gasket disposed around the peripheral edge of the window glass, and a portion near the outer edge of the gasket. It consists of a plate-like object made of a hard material embedded in (see Fig. 6).

The window glass l used in the present invention may be a single sheet of normal glass, a laminated glass made by bonding two sheets of glass with an interlayer film such as polyvinyl butyral, or a sheet of glass or laminated glass with polyurethane resin or polyester resin on one side. Various types of glass can be used, such as pie layer, which is made by laminating sheets such as, double-glazed glass, which is made by laminating two sheets of glass with a gap between them, sealing the periphery, and filling the gap with dry air, nitrogen gas, etc. Moreover, these glasses may be air-cooled strengthened.

Gasket forming materials include molten synthetic resin that cools and solidifies in the mold, and fluid synthetic resin raw material mixtures that react and solidify in the mold (for example, synthetic resin raw materials for reaction injection molding). Preferably used. Examples of the former include, but are not limited to, molten vinyl chloride resin, thermoplastic polyester elastomer, styrene-diene thermoplastic elastomer, ethylene-unsaturated carboxylic acid copolymer, etc.
Examples of synthetic resins obtained from the latter raw material mixture include, but are not limited to, polyurethane elastomers, polyurethaneurea elastomers, polyurea elastomers, polyamide resins, epoxy resins, and unsaturated polyester resins. It's not something you can do.

When forming a gasket, it is preferable to apply a mold release agent to the inner surface of the cavity space of the mold.Also, apply a primer or adhesive to the periphery of the window glass in advance, and after drying, apply the gasket forming material to the cavity. This is to improve the adhesion of the gas get to the window glass, which is preferably injected into a space and solidified to form a gasket.

The hard plates used in the present invention are iron, steel, I
metal such as resin, or polyamide, polyacetal,
Any material may be used as long as it has excellent synthesis and mechanical properties and can be formed into a plate shape, such as synthetic resins such as so-called engineering plastics such as polycarbonate, polysulfone, and ABS resin, or composite materials such as FRP and FRTP.

More preferably, the plate-like material made of these hard materials is embedded in the gasket, and desirably has excellent adhesiveness to the gasket forming material. Therefore, a metal plate whose surface is coated with a synthetic resin may also be used.

In addition, the shape of the hard plate-like object may be a concave plate-like shape as shown in Figs. 1 to 3 and Fig. 5 (1) as long as it is a plate shape that allows the outer edge of the gasket to be easily fitted into the vehicle body etc. , as shown in Fig. 4 and Fig. 5 (2), it may be in the shape of a concave plate, giving rigidity to the outer edge portion of the gasket and stably providing strength to the joint portion between the vehicle body, etc. and the Modineal assembly window. The module assembly window may be of any size or thickness as long as it provides excellent sealing performance without rattling (see FIG. 6, 3).

Next, the method for manufacturing the hard plate insert module assembly window of the present invention will be explained in detail with reference to the drawings.

The metal pin or synthetic resin pin used for holding the hard plate-like object in the cavity space used in the present invention may be one that holds the hard plate-like object in the mold.
It may be of any material, shape, or size. However, after forming the gasket and cutting the pins, the rigid plate-shaped object insert module assembly window is taken out, so the rigid plate-shaped object is held in a fixed position in the mold with a shape as small as possible. When removing the pin, it is preferable to seal it with a sealing material to prevent water from entering through the hole where the pin was removed and damaging the hard metal plate. When using synthetic resin pins shown in Figure 3, fill or seal the punched holes of the metal pins or the cut surfaces of the pins with synthetic resin etc. when using metal pins. It is effective as a rust preventive measure, as there is a risk of rust if left untreated. In addition to the method of cutting the protrusion from the gasket formed using a resin pin as shown in Figure 3, it is also possible to use a resin pin that also serves as a spacer and another method that does not require cutting as shown in Figure 9. A method of supporting a hard plate-like object using a resin pin, or a method of supporting a hard plate-like object using a resin pin that also serves as a spacer and another resin pin that also serves as a spacer after molding, as shown in Figure 10. A method of cutting the protruding portion of the resin pin from the gasket can also be adopted.

The spacer used in the present invention to form a space between the window glass and the hard plate-like object can stably secure a space at a constant distance between the window glass and the hard plate-like object. It may be made of any material, size, or shape as long as it is made of any material, size, or shape.However, as shown in Figures 2 and 3, one side is made of window glass and the other side is made of a hard plate-like material. Since these are layered in contact with
It is desirable that it has excellent adhesion to both surfaces.
As a result of securing a certain space between the window glass and the hard plate-like object using the spacer, it is possible to inject gasket-forming material into the cavity space and solidify it despite the presence of the hard plate-like object. Then, the gasket forming material flows into the space, and the rigid plate insert module assembly window is manufactured integrally without impairing the adhesion between the window glass and the gasket.

A constant space between the window glass and the hard plate can also be ensured by forming the hard plate into a concave shape in advance, as shown in FIG. In this case, the gasket forming material flows into the hard plate-shaped recess,
A rigid plate insert module assembly window can be manufactured integrally in the same manner as in FIGS. 2 and 3 without impairing adhesive properties.

As shown in Figs. 1 to 4, the shape of the gasket used in the present invention is such that the outer edge of the gasket, in which a hard plate-like material is embedded, is fitted into a recess in the car body, etc., so that it tightly adheres to the windshield and the car body. It can be any type of thing as long as it can be installed and hung.

However, in order to improve the sealing performance and effectively prevent rainwater, dust, exhaust gas, etc. from entering through the gap between the gasket and the vehicle body, it is necessary to install multiple lips 8 as shown in Fig. 5. It is preferable to prevent the inflow of rainwater, dust, exhaust gas, etc. As shown in FIG. This is effective because it increases the rigidity of the part and more effectively prevents rainwater from entering.

C Application of the Invention As described above, the method for manufacturing a rigid plate insert module assembly window of the present invention can be applied not only to automobile window glass but also to building window glass. It can be widely applied to the field of manufacturing module assembly windows embedded in plate-shaped objects.

[Effects of the Invention] According to the present invention as described above, when a module assembly window is fitted into a recessed part of a vehicle body and fixed, the module assembly window does not wobble even after long-term use. It is possible to provide an excellent module assembly window that has excellent sealing properties and can effectively prevent rainwater, dust, exhaust gas, etc. from entering through the gap between the windshield and the vehicle body.

Moreover, according to the manufacturing method of the present invention, even though the hard plate-like object is embedded, the hard plate-like object insert module can be easily integrated into the module without impairing the adhesion between the windshield glass and the gasket. It is possible to obtain an assembly wind, and to manufacture a stable and economical hard plate insert module assembly wind.

[Brief explanation of the drawing]

FIG. 1 is a sectional view showing a hard plate insert module assembly window manufactured according to the present invention, and FIG.
The figure is a perspective view when this is attached to a vehicle body. Figures 2 to 5 and Figures 9 and 10 are cross-sectional views showing an embodiment of the method for manufacturing a rigid plate insert module assembly window of the present invention. FIG. 7 is a sectional view of the conventional example, and FIG. 8 is a perspective view of the conventional module assembly window attached to the vehicle body. 1... Windshield 2 ・ 3 ・ 4 ・ 5 ・ 6 ・ 7 ・ 8 ・ Gasket Hard plate-shaped object Vehicle body spacer Metal pin Synthetic resin pin Lip Figure Figure Figure Figure Figure Figure Figure Figure Figure Figure

Claims (4)

[Claims] (1) A window glass is placed in a mold, a cavity space for forming a gasket is formed between the peripheral edge of the window glass and the inner surface of the mold, and a plate-shaped material made of hard material is inserted into the cavity space. In this integrated manufacturing method for a hard plate insert module assembly window, the gasket forming material is injected into the cavity space and solidified while the plate is held in the mold. A method for manufacturing a hard plate insert module assembly window, which comprises holding a hard plate in a mold so that a space is formed between the window glass and the hard plate. (2) A window glass is placed in a mold, a cavity space for gasket molding is formed between the peripheral edge of the window glass and the inner surface of the mold, and a plate-like material made of hard material is inserted into the cavity space. In an integrated manufacturing method for a hard plate insert module assembly window, in which gasket forming material is injected into the cavity space and solidified while the plate is held in the mold, synthetic resin pins are A method for manufacturing a hard plate insert module assembly window, comprising holding a hard plate in a mold so that a space is formed between the window glass and the hard plate. (3) Arranging a window glass in a mold, forming a gasket molding cavity space between the peripheral edge of the window glass and the inner surface of the mold, and inserting a hard plate into the cavity space. In an integrated manufacturing method for a rigid plate-shaped insert module assembly window, in which gasket forming material is injected into a cavity space and solidified while the plate-shaped article is held in a mold. A spacer is placed in the mold with a pin to form a space between the window glass and the hard plate-like object, so that one side is in contact with the hard plate-like object and the other side is in contact with the window glass. A method for manufacturing a rigid plate insert module assembly window. (4) In order to form a space between the window glass and the hard plate, the hard plate has a concave shape and is arranged so that only the convex portion of the hard plate is in contact with the window glass. The method for manufacturing a hard plate insert module assembly window according to claim 1.