JPH069804Y2 - Core melting and discharging device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial field of application) The present invention is suitable for heating a low melting point metal core built into a thermoplastic resin product by induction heating to melt and discharge it from the resin product. Regarding the device.

(Prior Art and Problem) Conventionally, it is generally manufactured by using a core (hereinafter referred to as a metal core) formed of a metal having a melting point lower than that of the thermoplastic resin product having a cavity. The metal core is melted and discharged from the resin product. However, it takes a very long time to discharge the metal core from the resin product, and it is difficult to completely discharge the metal core, and molten metal often remains and adheres to the resin product. There was a problem that the removal was forced by a brush or shot blast.

The present invention has been made to solve the above problems.

(Means for Solving the Problems) In order to achieve the above object, in the core melting and discharging apparatus according to the present invention, an induction heating coil in which a vibrating product holding mechanism is installed in an oil bath for oil storage It is arranged so that it can be moved in and out.

(Operation) In the core melting / discharging device configured as described above, the product holding mechanism holding the resin product containing the metal core is inserted into the induction heating coil installed in the oil bath for oil storage. After that, while heating the metal core by induction heating means,
Vibration is applied to resin products and metal cores. As a result, the metal core in the resin product can be accurately discharged in a short time.

(Example) An example will be described with reference to FIG. (1) in the figure
Is an oil bath installed on the base (2) and equipped with an oil heating means (not shown).
Oils such as mineral oil, vegetable oil, silicone oil, ethylene glycol, polyethylene glycol are 130-1
It is heated and stored at a temperature of 80 ° C. Further, in the oil bath (1), an induction heating coil (3) having an inner diameter into which a product holding mechanism (9) described later can enter and capable of melting a metal core (C) described later, It is installed so that it is submerged in oil. Further, a portal frame (4) is installed on the base (2), and a downward cylinder (5) is mounted on the ceiling of the portal frame (4). Then, the piston rod (5
An elevating frame (6) is fixed to the lower end of a), and four coil springs (7) are attached to the lower surface of the elevating frame (6).
A vibrating frame (8) is suspended via (7).
A product holding mechanism (9) is provided on the lower surface of the vibrating frame (8).
And a pair of horizontally extending guide bars (1) mounted on the lower surface of the vibrating frame (8) via brackets (10) and (10).
1) (11) and the guide bars (11), (11), the upper portions of which are slidably fitted, and a cylinder (not shown)
A pair of claws (1
2) and (12). A vibration generator (13) is installed at the center of the upper surface of the vibration frame (8). In addition, (14) is a guide rod, (1
5) is a guide rod holder.

Next, the operation of the apparatus thus configured will be described. A thermoplastic resin product (W) with a built-in metal core (C)
After being clamped by the claws (12) and (12) of the product holding mechanism (9), the elevating frame (6), the vibrating frame (8), etc. are lowered by the extension operation of the cylinder (5), and the claw (1
2) The resin product (W) sandwiched by (12) is caused to enter the induction heating coil (3). The metal core (C) is made of an alloy having a melting point lower than the melting point of 232 ° C. of tin. Next, power is supplied to the induction heating coil (3) to heat and melt the metal core (C), and
The vibration generator (13) is driven to apply vibration to the resin product (W) and the metal core (C). By applying such vibration, the melted metal core (C) is properly discharged from the resin product (W) in a short time. By discharging the dissolved metal in the oil, it is possible to prevent the metal from being oxidized. After the completion of discharging the metal core (C) from the resin product (W), driving of the vibration generator (13) and power supply to the induction heating coil (3) are stopped, and then the cylinder (5) is contracted. By operating, the lifting table (6), the vibration table (8) and the like are raised to lift the resin product (W) discharged from the metal core (C) from the oil in the oil bath (1). Next, the nails (12) (12) of the product holding mechanism (9) are opened to take out the resin product (W),
Complete one cycle.

The product holding mechanism (9) may be configured to include product rotating means as shown in FIG. 2 so that the resin product (W) and the metal core (C) are rotated in a vertical plane. This structure is effective when the metal core (C) has a more complicated shape. That is, the product holding mechanism (29) includes a pair of horizontally extending guide bars (31) (31) mounted on the lower surface of the vibrating frame (8) via the brackets (30) (30), and the guide bars. (3
1) The upper part is slidably fitted to (31), and can be opened / closed by the expansion / contraction operation of a cylinder (not shown). Further, the product holder (32) is placed in the lower part of them in a vertical plane. Two arms (33) (3)
4), a motor (35) with a reducer attached to the upper end of one arm (33), an output shaft of the motor (35) with a reducer, and a support shaft of the product holder (32) And a transmission means (39) consisting of a chain wheel (36) (37) and a roller chain (38). Then, when the metal core (C) is melted and discharged, the resin product (W) and the like are rotated in the vertical plane through the product holder (32) by the drive of the motor with reduction gear (35). Even when (C) has a complicated shape, the melted metal core (C) can be reliably and easily dissolved and discharged from the resin product (W).

Furthermore, the product holders (9), (29) are not limited to these, and may have any structure that can hold the product or can hold the product and rotate in a vertical plane. .

Further, the coil springs (7) and (7) can be provided with other elastic supporting members such as an air spring to obtain the same effect.

(Effect of the Invention) As is apparent from the above description, according to the present invention, the metal core contained in the resin product is melted and discharged by vibrating it and rotating it in the vertical plane. Even if the core has a complicated shape, the molten metal core can be easily and surely discharged from the resin product in a relatively short time, which is an excellent practical effect.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a partially sectional front view of a first embodiment, and FIG. 2 is a partially sectional front view of a second embodiment. (1): oil bath, (3): induction heating means, (9),
(29): Product holding means

 ─────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-58-63406 (JP, A) JP-A-63-227310 (JP, A) Jitsukaihei 2-71609 (JP, U)

Claims (1)

[Scope of utility model registration request] 1. A melt-discharging device for a core, in which a resin-made low melting metal core is heated by induction heating to be melted and discharged in a resin product, the oil bath storing oil and having an oil heating means. An induction heating coil disposed in the oil bath and capable of melting the metal core; and a product rotating means for holding a resin product containing the metal core and rotating the resin product in a vertical plane. And a product holding mechanism which is arranged so that the product can enter the induction heating coil and is configured to vibrate.