JPH0674011B2 - Window glass member manufacturing method - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a method for manufacturing a window glass member suitable for an automobile window glass or a building window glass, and particularly, to a glass sheet having a gasket formed on the spot in the periphery of the glass sheet. The present invention relates to a method for manufacturing a window glass member.

[Prior Art] A front glass and a rear glass of an automobile are usually attached to a window frame of a vehicle body through a gasket (in the present invention, the gasket is sometimes called a wind seal or a molding). The gasket is usually made of rubber or elastomer, and has the role of isolating the outside of the vehicle body (preventing the circulation of air and the invasion of rain) and relaxing the stress applied to the window glass from the window frame. Conventionally, the attachment of the window glass has often been performed by a physical fixing method, but in recent years, an adhesive method has been widely used. The adhesive method has a feature that it can be easily attached and the window frame and the gasket may have a simple structure. FIG. 2 is a partial cross-sectional view showing an example of the attachment portion of the window glass attached by the bonding method. The glass plate (1) is attached to the window frame (3) via the gasket (2), and the gasket (2) and optionally the surface of the glass plate and the window frame (3) are bonded together with an adhesive (4). There is. In many cases, an isolation material called a dam or the like is provided between the glass plate (1) and the window frame (3) in order to seal the adhesive so that the adhesive does not flow out toward the center of the glass plate (to the right in the figure) during bonding. 5) is provided.
FIG. 3 shows a plan view of the window glass member. This window glass member is composed of a glass plate (1) and a gasket (2) attached to the periphery thereof.

As a method of attaching the gasket to the peripheral portion of the glass plate, a method of fitting a linear gasket member formed by extrusion molding or the like around the glass plate is usually adopted. But,
This method is uneconomical because it has a large number of steps and requires many manpower. As a method of solving this problem, a glass plate is placed in a molding die, and a melt of a rubber or an elastomer or a raw material mixture capable of forming a rubber or an elastomer is injected into the molding die, and a glass plate peripheral portion is formed in the molding die. There is known a method for producing a window glass member made of a glass plate with a gasket, which comprises forming a gasket on a mold and taking it out from a molding die (Japanese Patent Laid-Open Nos. 57-158481 and 60-60).
4015 publication).

[Problems to be Solved by the Invention] When the above-mentioned known method is adopted, one of the problems is a problem of sealing the gasket forming cavity. FIG. 4 is a partial cross-sectional view of a molding die in which a glass plate as described in the above-mentioned known example is arranged and closed. A gasket forming cavity (8) is formed by the inner surface of the molding die including the upper die (6) and the lower die (7) and the glass plate (1). The melt or raw material mixture is injected into the cavity (8), and they are solidified on the spot to form a gasket. The mold is usually made of metal. Therefore, the mold is a glass plate (1)
Direct contact with the glass plate (1) surface scratches,
The glass plate (1) may be broken. Therefore, it is preferable that the portion of the mold that comes into contact with the glass plate (1) is made of a relatively soft material. Also, the cavity (8)
In order to prevent the melt or the raw material mixture injected into the glass from leaking from the contact part between the glass plate (1) and the mold, the contact part between the glass plate (1) and the mold around the cavity (8) is It is preferably sealed with an elastic material. Therefore, the part (9) that contacts the glass plate (1) of the upper mold (6)
The part (10) of the lower mold (7) that contacts the glass plate (1) is preferably made of an elastic material such as rubber or elastomer. However, it has been found that such a known sealing method is difficult to achieve a sufficient sealing effect. Particularly when the gasket is made of a polyurethane resin by the RIM method as described below, the raw material mixture has a low viscosity, which is a characteristic of the RIM method, and thus the sealing becomes more difficult. Upper mold (6) and lower mold (7) to enhance the sealing effect
Tightening is likely to cause deformation of the mold and large strain in the glass plate (1).

[Means for Solving Problems] The present invention has been made to solve the above problems, and is characterized by using a hollow elastic body as a sealing material. That is, the present invention relates to a method of manufacturing a window glass member made of a glass plate having a gasket formed on the peripheral portion thereof, in which the glass plate is placed in a molding die and a gasket is formed between the glass plate and the inner surface of the molding die. While forming the cavity, a hollow elastic body is interposed between the molding die and the glass plate around the cavity, and a pressurized fluid is introduced into the hollow elastic body to pressurize the molding die and the glass plate. A window glass characterized in that the space is sealed with a hollow elastic body, a gasket material or a raw material of the material is injected into the cavity to form a gasket, and then the glass plate on which the gasket is formed is taken out from a molding die. The manufacturing method of the member.

FIG. 1 is a partial sectional view of a molding die similar to FIG. 4 for showing an embodiment of the present invention. Upper mold (11) and lower mold (12)
A glass plate (13) is arranged inside a mold made of, and a gasket forming cavity (14) is formed by these. Hollow elastic bodies (15) and (16) are provided between the upper mold (11) and the glass plate (13) and between the lower mold (12) and the glass plate (13), respectively, and these are used to form the cavity. (14) is sealed. The hollow elastic body (15)
(16) is made of elastic material such as rubber or elastomer,
The internal space is filled with a fluid such as gas or liquid. These fluids are pressurized, and the presence of the pressurized fluid causes the hollow elastic body to expand more than when it is not pressurized. The original shape of the hollow elastic body is not particularly limited,
The cross-sectional shape may be circular, elliptical, polygonal, or any other shape. When the molding die is closed, the hollow elastic body is usually pressed against the surface of the glass plate or the like to be deformed.
After closing the molding die, a pressurized fluid is introduced into the hollow elastic body through an introduction pipe communicating with the outside of the molding die to expand the hollow elastic body and further improve the sealing property. By using a hollow elastic body as a sealing material, the shape of the hollow elastic body (for example, wall thickness or cross-sectional shape)
It becomes easy to adjust the elastic force by means of and the elastic force by pressurizing with a pressurized fluid, and it is possible to easily enhance the sealing property. A particularly preferred fluid is a gas such as air.
FIG. 5 is a partial cross-sectional view of a molding die showing another embodiment of the present invention. Similar to Fig. 1, upper mold (11) lower mold (12)
A glass plate (13) is placed in a mold made of, and a gasket forming cavity (14) is formed by these. The part (17) that contacts the glass plate (13) of the upper mold (11)
The part (18) of the lower mold (12) that contacts the glass plate (13) is made of a solid elastic body. Hollow elastic bodies (19) and (20) are provided as sealing materials on the side opposite to the cavity (14) in those portions. The portions (17) and (18) also have a sealing action, but are mainly used to make the cavity (14) of a fixed shape or to support the glass plate (13), and to form a hollow elastic body (10). ) (20) is mainly used for sealing. As a result, the position of the glass plate (13) in the molding die can be maintained accurately. Since the portions (17) and (18) are not particularly required to have a sealing property, they may be made of a material other than an elastic body. The hollow elastic body in the present invention is made of a material such as synthetic rubber, natural rubber or synthetic resin elastomer. Further, when non-adhesiveness is particularly required, it is preferable to use fluorine-containing rubber, fluorine-containing elastomer, silicone rubber, silicone resin elastomer, etc. among them.

The glass plate used in the present invention may be so-called processed glass such as tempered glass or laminated glass used as window glass for automobiles, or bent glass. Of course, it may be an unprocessed glass plate used as a building window glass. Further, the peripheral portion of the glass plate may be subjected to a treatment for increasing the adhesive strength between the gasket and the glass plate, and for example, a glass plate having a predetermined portion coated with a primer can be used.
In addition, since the surface with the gasket can be seen through from the opposite side, there is a risk of appearance problems.Therefore, apply an opaque paint or a non-transparent strip on the surface where the gasket is formed or its surroundings as a blind. You can also glue things. In addition, a peelable protective film may be formed for protecting the surface of the glass plate on which the gasket is not formed, as described in JP-A-57-158481.

As the mold, various molds as described in the above-mentioned publication can be used. The molding die may be a molding die in which all parts of the glass plate can be arranged inside, or may be a molding mold in which the glass plate part where the gasket or the like is not formed is exposed from the molding die. The latter includes, for example, a frame-shaped molding die in which the central portion of the glass plate is exposed. The obtained window glass member is preferably attached to the window frame by the bonding method. However, the present invention is not limited to this, and may be attached to the window frame by a conventional physical fixing method.

In the present invention, the material of the gasket injected into the cavity or the raw material of the material is made of a synthetic resin or a synthetic resin raw material that can be solidified.

The solidifiable synthetic resin or the synthetic resin raw material means that it can be changed from a fluid state to a non-fluid state. In the case of a synthetic resin raw material, it means a synthetic resin when it is made non-fluid. . In the case of a thermoplastic resin, it becomes a fluid state by heating and melting, and becomes a non-fluid state by cooling. The thermosetting resin is liquid to solid in the uncured state, and the solid one is in a fluid state by heating or the like, and is in a non-fluid state due to a so-called curing or crosslinking reaction.
In addition, there is also one in which two or more components are mixed with a solid synthetic resin raw material which can be in a liquid state to a fluid state and reacted to form a non-fluid state synthetic resin. The solidification in the present invention means a change in a state in which the synthetic resin and the raw material thereof injected into the cavity in the fluidized state become the non-fluidized state in the cavity.

According to the method of forming a synthetic resin, in the present invention, an injection molding method, a transfer molding method, a RIM method, and L
A method such as IM method may be used. Particularly, the RIM method and the LIM method, which can inject the synthetic resin and the raw material thereof at a relatively low pressure, are preferable. In the RIM method and LIM method, a method of molding using a synthetic resin mixed with a reinforcing material and its raw material is especially R-RI.
Although sometimes referred to as the M method or the R-LIM method, these R-RIM method and R-LIM method can also be used in the present invention.
Hereinafter, these are regarded as a kind of RIM method or LIM method.

Preferred molding methods in the present invention are the RIM method and the LIM method, particularly the RIM method. RIM (Reaction Injection M
The distinction between olding) and LIM (Liquid Injection Molding) is not clear, but the former is a method of injecting by mixing two or more components by collision at relatively high pressure, and the latter is a method of two or more at lower pressure. It means a method of mixing the components and injecting them. Although it is injected at a relatively high pressure in the RIM method, the pressure after injection into the mold is about 3 kg / cm ² or less, which is much lower than that normally used in the injection molding method of molten thermoplastic resin. Is. These molding methods use a synthetic raw material composed of two or more components. For example, they may be a combination of reactive raw materials such as a polyol and an isocyanate compound, or a combination of a polymerizable raw material and a polymerization catalyst thereof such as caprolactam and a catalyst. These liquids may be in the form of slurries containing solids such as fillers. The synthetic resin raw material may be used by adding various additives such as a filler, a reinforcing material, a coloring agent, a foaming agent, a catalyst, a stabilizer, and the like. It is also possible to fill the cavity space with a reinforcing material in advance. This method may be a kind of LIM method conventionally called a resin injection molding method.

The synthetic resin obtained by the RIM method or LIM method,
Polyurethane resin, epoxy resin, polyester resin,
Vinyl ester resin, silicone resin, nylon-6, etc. are available. Particularly preferred is a polyurethane resin,
This is mainly obtained by the RIM method from at least two raw materials of a component containing a polyol as a main component and a component containing a polyisocyanate compound as a main component. In this case, it is preferable that the mold, particularly the mold portion in contact with the cavity space, is heated to room temperature to 100 ° C, particularly 40 to 70 ° C. In the case of molding other thermoplastic resins, it is preferable that the temperature is 150 ° C. or lower, particularly 50 to 150 ° C., and the thermosetting resin is 250 ° C. or lower, particularly 130 to 200 ° C. In the RIM method and LIM method, solidification occurs due to the increase in the molecular weight due to the reaction of the synthetic resin raw material, and the obtained synthetic resin contains the so-called thermosetting resin and thermoplastic resin as described above.

In cases other than the RIM method and the LIM method, the thermosetting resin is heated and melted, poured into the cavity space, and cooled and solidified in the space. The thermoplastic resin causes a curing reaction in the cavity space and is solidified. Various additives may be added to these synthetic resins as in the case of the synthetic resin raw material. In particular, thermosetting resins are often used as molding materials to which relatively large amounts of fillers and reinforcing materials are added. For example, there is a molding material containing a filler called BMC and a reinforcing material such as glass fiber. The type of these synthetic resins is not particularly limited, and an elastomer or a thermoplastic rubber having rubber elasticity can also be used.

EFFECTS OF THE INVENTION According to the present invention, it is possible to effectively prevent the synthetic resin or the synthetic resin raw material injected into the gasket forming cavity from leaking out of the cavity along the surface of the glass plate. In particular, since it is easy to adjust the elastic force of the hollow elastic body, even if there is a change in the shape of the glass plate or the cavity, it is possible to easily follow the shape, and there is little risk that the sealing performance will deteriorate.

[Brief description of drawings]

FIG. 1 is a partial cross-sectional view of a closed mold showing an embodiment of the present invention. FIG. 2 is a partial sectional view showing a mounted state of the window glass member, and FIG. 3 is a plan view of the window glass member. FIG. 4 is a partial cross-sectional view of a molding die for showing an embodiment. FIG. 5 is a partial sectional view of a molding die showing another embodiment of the present invention. 1,13 …… Glass plate, 2 …… Gasket 6,11 …… Upper mold, 7,12 …… Lower mold 8,14 …… Gasket forming cavity 15,16,19,20 …… Hollow elastic body

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Claims (3)

[Claims] 1. A method for manufacturing a window glass member made of a glass plate having a gasket formed in the peripheral portion thereof, wherein the glass plate is placed in a molding die and a gasket forming cavity is provided between the glass plate and the inner surface of the molding die. While forming a tee, a hollow elastic body is interposed between the molding die and the glass plate around the cavity, and a pressurized fluid is introduced into the hollow elastic body to pressurize the molding die and the glass plate. A window glass characterized in that the space is sealed with a hollow elastic body, a gasket material or a raw material of the material is injected into the cavity to form a gasket, and then the glass plate on which the gasket is formed is taken out from a molding die. Manufacturing method of parts. 2. The method according to claim 1, wherein the gasket is made of synthetic resin, and the synthetic resin is a synthetic resin obtained by the RIM method. 3. The method according to claim 2, wherein the synthetic resin is a polyurethane elastomer.