JP2002079611A - Integrated structure of glass and resin and method for manufacturing the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an integrated structure of glass and a resin, capable of being enhanced in assembling accuracy, by applying insert or outsert molding to the resin so as to integrate the resin with adherend glass such as car window glass or the like to strongly bond the resin to the adherend glass for a short time without requiring a drying process. SOLUTION: A polybutylene terephthalate resin 2 is injection-molded to be bonded to the adherend glass 1 coated with a one-pack type urethane primer or urethane adhesive 3 to which a silane coupling agent is added.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a glass / resin integrated structure in which a resin component such as a holder to be mounted on a guide channel of a window glass elevating device for an automobile is integrally formed with a window glass, and a method of manufacturing the same.

[0002]

2. Description of the Related Art A front and rear door and a part of a back door of an automobile are provided with an elevating device for elevating and lowering a window glass. This type of elevating device raises and lowers a window glass attached to a guide channel of the link mechanism by manually or automatically operating a link mechanism provided inside the door. For this reason, the guide channel and the window glass are assembled via a glass holder. As a method of integrally assembling such a window glass and a resin glass holder, a glass molding method of injection-molding the holder into the window glass or a glass molding method which has already been used. A post-processing method for bonding a molded resin part to glass is known.

[0003] As a glass forming method, a glass coated with a primer or an adhesive is set in a mold, and PVC is set.
There are known a method of injection molding (polyvinyl chloride) and a method of placing glass having a resin film attached thereto in a mold and injection molding with various resin materials. In addition, post-processing methods include a method of fastening stud bolts and parts with integrated cushioning material to the glass into the glass hole, or inserting a resin grommet into the glass hole and then tapping the screw through the guide channel. There is known a method of tightening the grommet and expanding the inner wall of the grommet with a tapping screw to prevent the grommet from falling out of the glass hole. Also, a method of inserting a special nut into the grommet and pulling in the nut by tightening the bolt, a method of press-fitting the glass into the holding portion of the guide channel via the glazing grabber of the buffer material, or a method of inserting the nut A method is known in which a resin component (holder) obtained by insert-molding is fixed to glass with an adhesive.

[0004]

However, the glass forming method is a method in which glass coated with a primer or an adhesive is put into a mold and injection molding of PVC (polyvinyl chloride) is performed. This product focuses on external appearance performance and focuses on flash surfaces by reducing the thickness, but it is difficult to adopt it for mechanical parts that do not have sufficient adhesive strength and require high adhesive strength. there were.

[0005] In addition, a method in which glass having a resin film adhered thereto is put into a mold and injection molding is performed with various resin materials is adapted to a door glass part and has advantages of increasing strength and eliminating the bonding process. Such a resin film is fused to glass at a high temperature, which is disadvantageous in cost and is not practical.

A method using a stud bolt in the post-processing method is a method of fastening a part in which a stud bolt and a buffer material for glass are integrated into a glass hole.
There is a problem that a variation in tightening torque causes loosening of the bolt. In addition, the number of parts is large, which is disadvantageous in cost.

Further, a method of inserting a resin grommet into a glass hole, and then tightening a tapping screw through an elevating part to expand the inner wall of the grommet with a screw so that the grommet does not come out of the glass hole is a general-purpose bolt. Cannot be used, and since the tapping screw has a structure in which it bites into the resin, the screw is likely to be cut.
Therefore, safety must be maintained so that threading does not occur, and the fastening force of the tapping screw decreases. In addition, since the positional accuracy between the glass and the elevating component depends on the positional accuracy of the glass hole, an elevating failure is likely to occur.

The method of inserting a special nut into the grommet and tightening the bolt is a specification in which the thread of the grommet is improved, and the same effect as the above grommet specification can be obtained. Not resolved.
Furthermore, the use of a dedicated nut is disadvantageous in terms of cost.

[0009] Also, at the mouth of the guide channel,
The method of press-fitting the glass through the gray gin grabber of the cushioning material is just to press the glass in and hold it,
There is a problem that the pull-out force is small. Furthermore, there is a problem that the length of the guide channel is as small as 200 mm or more in order to secure a certain amount of pulling force, and the weight increases.

The present invention adheres to glass in a stable manner and with high strength in a short time, does not require an adhesive drying step, improves the assembling accuracy, and can reduce the cost, size, and weight. It is an object of the present invention to provide an integrated structure of glass and resin that can be used for a mechanism part of a glass to be lifted or slid that requires high performance and a method of manufacturing the same.

[0011]

According to the present invention, a resin component is injection-molded so as to be integrated with a glass to which a primer or an adhesive is applied.

That is, according to the present invention, a one-pack type urethane-based primer layer or silane coupling containing a glass to be adhered and a silane coupling agent formed directly or indirectly on the surface of the glass to be adhered. Glass and resin integrated with a urethane-based adhesive layer containing an agent, and a polybutylene terephthalate-based or polyethylene terephthalate-based resin layer formed on the surface of the one-component urethane-based primer layer or the urethane-based adhesive layer. A structure is provided.

Further, a one-part urethane-based primer or a urethane-based adhesive containing a silane coupling agent is applied directly or indirectly to the surface of the glass to be adhered, and a polybutylene terephthalate-based primer is applied to the glass to be adhered. Alternatively, there is provided a method for producing an integrated structure of glass and resin by outsert molding or insert molding a polyethylene terephthalate resin.

In the above invention, although not particularly limited,
Coating ceramic on the surface of the adhered glass,
A structure in which the one-component urethane-based primer or urethane-based adhesive is applied to the surface of the ceramic layer, and a ceramic layer is provided between the adhered glass and the one-component urethane-based primer layer or the urethane-based adhesive layer. It may be a body.

Although not particularly limited in the above invention, it is more preferable that the silane coupling agent is contained in the one-pack type urethane-based primer or urethane-based adhesive at a ratio of 5% by weight or less.

Further, in the above invention, although not particularly limited, the polybutylene terephthalate-based or polyethylene terephthalate-based resin may contain glass fibers.

[0017]

The adhesion of the glass according to the present invention, a one-pack type urethane primer containing a silane coupling agent or a urethane adhesive containing a silane coupling agent and a polybutylene terephthalate or polyethylene terephthalate resin. The coupling operation will be described.

First, the adhered glass and the one-pack type urethane-based primer or urethane-based adhesive containing a silane coupling agent are bonded as follows. That is, 5% by weight of the one-component urethane-based primer or urethane-based adhesive is used.
The silane coupling agent added at the following ratio has an organic functional group (NH ₂ ) and an alkoxy group (OR) extending from a silicon atom (Si) at the terminal as shown in the following formula, and Hydrolysis upon contact with moisture (OH-H),
It forms silanol and releases alcohol.

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The silanolized silane coupling agent undergoes a dehydration-condensation reaction with the adsorbed water adsorbed on the surface of the glass to be adhered, as expressed by the following formula, and evaporates the water in the air, and reacts with the adhered glass. Linked by strong siloxane bonds.

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The water generated during the siloxane bonding is 20
A polybutylene terephthalate-based or polyethylene terephthalate-based resin that is heated to 0 to 300 ° C. and is injection-molded by insert molding, or outsert molding or the like onto a coated glass coated with a one-component urethane-based primer or urethane-based adhesive. It is forcibly evaporated by the heat of molding.
Therefore, the silane coupling agent contained in the one-pack type urethane-based primer or urethane-based adhesive and the surface of the glass for automobiles or the like are siloxane-formed in a short time by heating by injection molding, and are firmly bonded.

On the other hand, the NH ₂ group constituting the terminal of the silane coupling agent reacts with the isocyanate (OCN to NCO) constituting the terminal of the urethane as expressed by the following formula, and the silane coupling agent is added. Urea bonds with urethane.

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In the one-pack type urethane primer, as shown by the formula, an OH group constituting the terminal of the polyol reacts with an isocyanate (OCN to NCO) to form a urethane bond.

Embedded image Therefore, the one-pack type urethane-based primer or urethane-based adhesive containing the silane coupling agent at a ratio of 5% by weight or less binds firmly to the glass to be adhered.

Next, the adhesion mechanism between the polybutylene terephthalate-based or polyethylene terephthalate-based resin and the urethane-based adhesive will be described based on a chemical reaction formula.
Although a description will be given of a polybutylene terephthalate resin as a representative, a polyethylene terephthalate-based resin also functions similarly. The polybutylene terephthalate resin has an ester group (—COO) having strong polarity and an ester bond has a negative electron-withdrawing group, as represented by the following chemical structural formula.

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On the other hand, the urea bond or the urethane bond NH bond of the urethane adhesive has a positive electron-withdrawing group as represented by the following formula.

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Therefore, the polybutylene terephthalate resin and the urethane adhesive are strongly bonded by mutual electron attraction as represented by the following formula.

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As described above, the adhered glass and the polybutylene terephthalate-based resin are firmly bonded via the one-part urethane-based primer or the urethane-based adhesive containing the silane coupling agent.

[0027]

FIG. 1 is a perspective view showing an integrated structure of glass and resin of the present invention, and FIG. 2 is a sectional view taken along the line II-II of FIG. As shown in FIG. 1, in the integrated structure of glass and resin of the present embodiment, silane coupling is applied to an adhered glass 1 such as an untreated automotive window glass having a ceramic coating on the surface or an untreated window glass. The one-pack type urethane-based primer or urethane-based adhesive to which the agent is added is applied in a thickness of about 5 to 50 μm. Reference numeral 2 denotes a resin component such as a glass holder, which is a natural resin of polybutylene terephthalate resin or a composite resin containing glass fiber in the natural grade of polybutylene terephthalate resin, and is formed into a predetermined shape by injection molding.

The glass 1 to which the one-component urethane-based primer or urethane-based adhesive 3 containing a silane coupling agent has been applied is applied to the slider table system shown in FIG. 3 or the turntable system shown in FIG. A resin material such as polybutylene terephthalate or glass fiber-containing polybutylene terephthalate, which is set in a mold such as an injection molding apparatus and heated to 200 to 300 ° C. on a glass surface to be adhered, is directly outsert molded or insert molded. Is done.

In FIGS. 3 and 4, reference numeral 11 denotes a vertical injection molding machine main body, and an upper die 12 which can be moved up and down, and a movable table 13 which can move right and left or rotate in a direction perpendicular to the movable direction of the upper die 12. Lower dies 14A, 14B fixed on top
Is provided. The glass 1 to which the coating agent 3 has been applied in advance is set by hand or a transfer robot at a predetermined position of the lower mold 14A which is operated at a position deviated from immediately below the upper mold 12. The adhered glass 1 set on the lower mold 14A is moved directly below the upper mold 12 together with the movable table 13, and is clamped by the lowering of the upper mold 12.

Here, a PBT resin material, which has been softened by heating, is injected under pressure into a cavity formed by the upper mold 12 and the moved lower mold 14A, and the resin member 2 is directly outsert molded into the glass 1 to be adhered, or Insert molding is performed.

The injection molding of the resin component 2 onto the glass surface to be adhered eliminates the cause of the impact and concentrated stress generated by the unreasonable assembling, eliminates the damage of the glass to be adhered 1 and 200 to 300 ° C. A resin material such as polybutylene terephthalate or glass fiber-filled polybutylene terephthalate, which has been softened by heating, and a coating agent 3 such as a one-pack type urethane-based primer or urethane-based adhesive containing a silane coupling agent, and glass are used. React in the mold,
Produced water which causes a delay in the reaction bonding time between the adhered glass 1 and the resin component 2 is forcibly evaporated.

Therefore, the reaction bonding between the adhered glass 1 and the resin component 2 is completed together with the injection molding, and the molding efficiency is improved. In addition, since the coating material 3 firmly bonds between the adhered glass 1 and the resin component 2, the adhered glass 1 that has cleared all the test specifications such as shearing, bending, creep, vibration, heat cycle, and impact is used. It realizes high-strength bonding of the resin component 2 and can be used as a mechanism of the adhered glass 1 that moves up and down or slides where dynamic performance is required. Also, after molding, the adhesive drying step is not required, so that it can be put on a delivery pallet and delivered directly to the customer.

[0033]

As described above, the integrated structure of the glass and the resin of the present invention comprises: (1) glass and polybutylene by the interposition of a one-part urethane-based primer or a urethane-based adhesive containing a silane coupling agent; Since the adhesive strength (especially creep force) with a terephthalate-based or polyethylene terephthalate-based resin is improved, the peeling resistance required for automotive glass having a lot of vibration during use can be increased, and the effect of improving watertightness can be obtained. is there. (2) By directly outsert molding a heat-softening resin material such as polybutylene terephthalate on the adhered glass, the cause of the impact and concentrated stress caused by unreasonable assembly is eliminated, and the adhered glass 1 is not damaged. In addition to this, it is not necessary to use auxiliary parts necessary for joining, and it is possible to achieve downsizing (including weight reduction and cost reduction) of resin parts based on high joining force. (3) In addition, the resin material, the coating agent, and the glass, which have been softened by heating to 200 to 300 ° C., are bonded and reacted in a short time in a mold, so that the adhesive strength is reduced due to inadvertent vibration during the bonding reaction. This has the effect of eliminating variations and stabilizing quality and further reducing the defective rate. (4) Furthermore, it is possible to form a resin part having a high-precision glass integrated structure by outsert molding and insert molding, and to improve the mounting pitch between parts, the precision of mounting and assembling individual parts, and to raise and lower or slide the glass structure. It has effects such as being able to improve the glass elevating performance. (5) Further, the water generated during the binding reaction of the one-component urethane-based primer or urethane-based adhesive containing a silane coupling agent, glass and polybutylene terephthalate-based or polyethylene terephthalate-based resin is forcibly heated by molding. Because of the transpiration, natural drying and forced drying using dry fuel can be abolished, the pallet transport process for transporting the primer and adhesive delivered to the holder to the drying chamber can be reduced, and the delivery tact time is improved. Further, since a resin component forming a holder or the like integrated with the adhered glass is directly formed on the adhered glass by an injection molding machine, the economical effect is large such that the inventory of the resin component can be eliminated.

[Brief description of the drawings]

FIG. 1 is an exploded perspective view showing an example of an integrated structure of glass and resin of the present invention.

FIG. 2 is a cross-sectional view showing an example of an integrated structure of glass and resin of the present invention.

FIG. 3 is a perspective view showing an example of a manufacturing apparatus used in the method for manufacturing an integrated structure of glass and resin according to the present invention.

FIG. 4 is a perspective view showing another example of the manufacturing apparatus used in the method for manufacturing an integrated structure of glass and resin according to the present invention.

[Explanation of symbols]

 1: glass to be adhered 2: glass holder 3: primer or adhesive

Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat II (Reference) B29K 105: 12 B29K 105: 20 105: 20 B29L 9:00 B29L 9:00 B60J 1/17 C (72) Inventor Sakai No. 3031 Hara, Kamiyori, Atsugi-shi, Kanagawa Prefecture, inside Hori Glass Co., Ltd. AG00C AH06B AK42C AK51B AK51G BA03 BA04 BA07 BA10A BA10C CA23B CA23C CB00 DG01C EH362 EJ65B EJ67B GB32 JK06 4F206 AA24 AB25 AD04 AD16 AD34 AG03 AH17 AH46 JA07 JB12 JF05

Claims (8)

[Claims] 1. A one-pack type urethane-based primer layer containing a silane coupling agent formed directly or indirectly on the surface of a glass to be adhered and a urethane-based primer layer containing a silane coupling agent An integrated glass / resin structure comprising: an adhesive layer; and a polybutylene terephthalate-based or polyethylene terephthalate-based resin layer formed on the surface of the one-component urethane-based primer layer or urethane-based adhesive layer. 2. The integrated structure of glass and resin according to claim 1, further comprising a ceramic layer between the adhered glass and the one-component urethane-based primer layer or urethane-based adhesive layer. 3. The integrated structure of glass and resin according to claim 1, wherein the silane coupling agent is contained in the one-component urethane-based primer or the urethane-based adhesive at a ratio of 5% by weight or less. 4. The integrated structure of glass and resin according to claim 1, wherein the polybutylene terephthalate-based or polyethylene terephthalate-based resin layer contains glass fibers. 5. A one-pack type urethane-based primer or urethane-based adhesive containing a silane coupling agent is applied directly or indirectly to the surface of a glass to be adhered, and a polybutylene terephthalate-based primer is applied to the glass to be adhered. Alternatively, a method for producing an integrated structure of glass and resin by outsert molding or insert molding a polyethylene terephthalate resin. 6. The glass-resin integrated structure according to claim 5, wherein a ceramic is coated on a surface of the glass to be adhered, and the one-pack type urethane-based primer or urethane-based adhesive is applied to a surface of the ceramic layer. Manufacturing method. 7. The glass and resin integrated structure according to claim 5, wherein the silane coupling agent is contained in the one-pack type urethane-based primer or the urethane-based adhesive at a ratio of 5% by weight or less. Production method. 8. The method according to claim 5, wherein the polybutylene terephthalate-based or polyethylene terephthalate-based resin contains glass fibers.