JPH0357454Y2 - - Google Patents

Description

[Detailed Description of the Invention] (Industrial Application Field) The present invention relates to an improvement in an in-mold coating device that coats a molded article formed in a mold with a thermosetting paint within the mold.

(Prior Art) A so-called in-mold coating device, which is a device that coats the surface of a molded product with a thermosetting paint while the molded product remains in the mold, is known.

For example, Japanese Patent Publication No. 59-23552 discloses an example of such an in-mold coating device.

This disclosed apparatus is provided with a pair of molds for molding a glass fiber reinforced thermosetting resin constituting a molded product, that is, a sheet molding compound (SMC), and after molding the molded product, one mold is used. The mold is moved back a predetermined distance to form a certain space between it and the cured molded product.

Then, in-mold coating of the molded article is performed by injecting a thermosetting paint into the space through a nozzle and curing it within the mold.

In this case, the nozzle is equipped with a pin that reciprocates inside, and the amount and timing of injection of the thermosetting paint for coating the molded article are controlled by this pin.

(Problem to be solved) In the in-mold coating device, the mold is
It is maintained at a predetermined temperature to accelerate the curing of the thermosetting paint.

However, in the nozzle, in order to prevent the thermosetting paint from curing and to inject it without any problems,
Must be maintained below the curing temperature of the resin.

For this purpose, in the device disclosed in the above-mentioned Japanese Patent Publication No. 59-23552, a cooling chamber is provided inside the nozzle assembly to cool the nozzle, and the resin before injection is hardened by heat transfer from the mold. It is configured so that it does not.

However, although this configuration can provide the desired cooling effect for the nozzle, it cannot cool the pin that jets the thermosetting paint in the nozzle toward the surface of the molded product. The parts that come into contact with the pins will harden more quickly than other parts, which may result in nozzle malfunction or partially cured (gelled) paint being injected, resulting in coating defects. There is.

In addition, in order to solve this problem, if the cooling effect of the nozzle is increased and the pin is cooled by this, the temperature of the nozzle becomes too low, and the part that comes into contact with the nozzle that forms part of the mold. Another problem arises in that the resin paint cures more slowly than other parts, reducing the quality of the coating.

(Means for solving the problem) The present invention was constructed in view of the above circumstances, and can effectively prevent the hardening of the thermosetting paint before injection.
The object of the present invention is to provide an in-mold coating device that can inject paint without any trouble and can ensure excellent quality of the coating formed on the surface of the molded product.

The in-mold coating device according to the present invention includes an in-mold coating nozzle that injects a thermosetting paint onto the surface of a molded product and located in the mold, and an in-mold coating nozzle that opens and closes the in-mold coating nozzle. and a pin for controlling the supply of the thermosetting paint, so that the surface of the molded product in the mold is coated with the thermosetting paint.

In the in-mold coating apparatus according to the present invention, a cooling passage for supplying cooling fluid is formed near the tip inside the pin that controls opening and closing of the in-mold coating nozzle.

In a preferred embodiment of the present invention, the nozzle opening/closing pin is capable of reciprocating inside the nozzle, and when the pin advances, the required amount of thermosetting paint to be injected into the nozzle tip is stored, and the nozzle is opened. When retracted, this stored thermosetting paint is injected into the space between the mold and the molded article.

The pin is preferably constituted by a hollow member with a closed end, into which a cooling fluid supply pipe is inserted in a nested manner. It's open.

Cooling fluid is supplied from the rear end side of this supply pipe.

(Effects of the Invention) According to the present invention, the pin disposed inside the nozzle can be directly cooled, so that the cooling of the entire nozzle assembly can be controlled as required. As a result, it is possible to properly cool the thermosetting paint before injection and effectively prevent it from curing.This allows the paint injection work to be carried out without any hindrance and provides a coating of excellent quality. It can be formed on the surface of the molded product.

(Example) Hereinafter, an example of the present invention will be described with reference to the drawings.

Referring to FIG. 1, the in-mold coating apparatus 1 of this example is equipped with a mold consisting of an upper mold 2 and a lower mold 3, and a molded product of a predetermined shape, In this example, a cavity 4 for molding sheet molding compound (SMC) is formed.

A spray device 6 having a nozzle 5 for spraying thermosetting paint onto the surface of the SMC that has already been molded is installed in the upper mold 2.

The upper die 2 is provided with an opening 7 communicating with the cavity 4 , and the tip of the nozzle 5 of the injection device 6 is arranged in the opening 6 so as to face the cavity 4 .

The nozzle 5 is made of a hollow member,
A pin 9 is arranged in the hollow part 8 in a nested manner so as to be reciprocally movable. A paint supply device 11 having a chamber 10 for receiving a thermosetting paint is attached to the rear end of the nozzle 5.
A paint supply pipe 12 for feeding paint is connected to.

The rear end of the pin 9 is attached to the piston member 14 of the cylinder device 13 via a coupling member 15. The cylinder device 13 is configured to reciprocate the piston member 14 based on a predetermined control signal, whereby the pin 9 reciprocates inside the nozzle 5 and heats up the inside of the nozzle 5 at a predetermined time. The curable paint is injected into the cavity 4.

The thermosetting paint is introduced into the space 16 between the nozzle 5 and the pin 9 via the paint supply pipe 12 and the paint supply device 11, and then introduced into the cavity 4 from the tip of the nozzle 5. It's summery.

Also referring to FIG. 2, the nozzle 5 is housed in a cylindrical member 17 in a nested manner, and the space between the outer wall of the nozzle 5 and the cylindrical member 17 constitutes a cooling water chamber 18.

A cooling water supply pipe 19 for supplying cooling water to the cooling water chamber 18 and a drain pipe 20 for discharging cooling water from the chamber 18 are connected to the rear end of the cylindrical member 17, respectively.

Further, the pin 9 is provided with a spacer 21 that stabilizes the positional relationship with the nozzle 5.

Further, referring to FIG. 3, the inside of the pin 9 is hollow and is closed at the tip.

An air pipe 23 through which cooling air flows is inserted into the hollow part 22. This air pipe 23 extends to near the tip of the hollow portion 22 of the pin 9, and the tip is open.

An air exhaust passage 24 is formed at the rear end of the pin 9 to communicate the hollow portion 22 with the atmosphere.

Note that the tip of the pin 9 is cut obliquely so as to match the surface of the SMC.

Next, the operation of the in-mold coating apparatus of this example will be explained.

First, in cavity 4 between upper mold 2 and lower mold 3.
The SMC molding material is filled and the primary molding of the molded product is performed. When this material hardens and the primary molding is completed, the upper die 2 moves slightly to expand the cavity 4. The pin 9 is then retracted by the operation of the cylinder device 13. As a result, the thermosetting paint filling the space 16 between the nozzle 5 and the pin 9 is introduced into the space of the cavity 4 from the nozzle 5 in front of the pin 9.

Next, the piston member 14 is actuated again, and the pin 9 moves forward until the tip end surface of the pin 9 is at approximately the same position as the molding surface of the cavity 4 of the upper mold 2. Thereafter, the upper mold 2 is closed, and the surface of the SMC is covered with thermosetting paint. This thermosetting paint then comes into contact with the mold, which is held at a temperature higher than the curing temperature of the paint, and hardens, coating the surface of the SMC.

In the device of this example, the tip of the nozzle 5 is fitted and held in the upper mold 2, and the mold temperature is transferred from this part to the tip of the nozzle 5, but cooling water is introduced around the nozzle 5. As well as pin 9
Since cooling air is constantly introduced into the vicinity of the tip of the hollow portion 22 via the air pipe 23, the thermosetting paint can be appropriately cooled before being sprayed. As a result, it is possible to prevent the paint from curing and to successfully inject it into the cavity 4.
A good quality coating of SMC can be obtained.

[Brief explanation of drawings]

FIG. 1 is a sectional view of an in-mold coating device according to an embodiment of the present invention, FIG. 2 is a sectional view taken along line AA of the device shown in FIG. 1, and FIG. 3 is a sectional view of a pin used in the in-mold coating device. FIG. 1... In-mold coating device, 2... Upper mold,
3... Lower mold, 4... Cavity, 4, 5... Nozzle, 6... Injection device, 7... Opening, 8... Hollow part, 9... Pin, 10... Chamber, 11... Paint supply Device, 12... Paint supply pipe, 13... Cylinder device, 14... Piston member, 15... Connection member, 16... Space, 17... Cylindrical member, 18
...Cooling water chamber, 19...Cooling water supply pipe, 2
0...Drain pipe, 21...Spacer, 22...Hollow part, 23...Air pipe.

Claims (1)

[Scope of utility model registration request] An in-mold coating nozzle for injecting a thermosetting paint onto the surface of a molded product formed by a mold and located in the mold, and controlling the supply of the thermosetting paint by opening and closing the in-mold coating nozzle. an in-mold coating device for coating a surface of a molded product in the mold with the thermosetting paint, the in-mold coating device comprising a pin for controlling opening and closing of the in-mold coating nozzle, and supplying cooling fluid to the vicinity of the tip inside the pin that controls opening and closing of the in-mold coating nozzle. An in-mold coating device characterized by having a cooling passage formed therein.