KR200451369Y1 - Undercut processing structure of injection molding - Google Patents

Abstract

The present invention allows the core pin forming the inner diameter portion of the pipe-type undercut to retreat first during the driving of the inclined pin, and then drives the slide core forming the outer diameter portion of the pipe-type undercut, but the core pin and the slide core are inclined. By operating in direct interaction with the pin, to provide an undercut processing apparatus having a simple structure while easily and accurately processing the inner and outer diameter portion of the undercut at the same time.

Undercut, slide, pipe

Description

Pipe type undercut ejection apparatus using a slide core {Undercut processing structure of injection molding}

The present invention relates to a pipe-type undercut take-out apparatus using a slide core that is formed in a pipe shape and to easily and easily process take-out of a molded article having a pipe-type undercut having a protrusion on the outside.

In general, injection molding is a molding method in which a thermoplastic or thermosetting plastic molding material is heated and melted in an injection molding machine, and then press-filled into a cavity of an injection mold through a screw, and solidified or cured and taken out as a molded product.

The part which makes it difficult to separate a molded article from a cavity in the process of taking out a molded article is called an undercut, and the apparatus for taking out the molded article which has a pipe-shaped undercut formed in the form of a pipe and the protrusion formed in the outer part among these undercuts is provided. When the undercut of the outer diameter is small, it is forced to take out by using the slide core. When the undercut of the outer diameter is large, the shape of the molded product becomes poor at the time of forcible extraction. see.

1 is a cross-sectional view showing a conventional injection mold for a molded article having a pipe-shaped undercut formed with a protrusion on the outside, having an upper movable die 20 and a lower fixing die 30, wherein the upper movable die 20 and the lower portion The stationary die 30 is provided with cores 21 and 31, respectively, for forming the first cavity 40 for molding the molded article.

One side of the cores 21 and 31 is larger than the diameter of the second cavity 42 at the end of the second cavity 42 and the second cavity 42 communicating with the first cavity 40 to form a pipe-shaped undercut. An outer undercut cavity 44 having a large diameter is formed, and a slide core 50 having an insertion hole 46 communicating with the second cavity 42 is formed.

A slide 70 is installed outside the slide core 50. One end of the core pin 80 is embedded and fixed to a portion corresponding to the insertion hole 46 of the slide 70, and the other end of the core pin 80 is inserted through the insertion hole 46 and the second cavity 42. It is retractably inserted into the first cavity 40. In addition, the slide 70 is formed with a two-stage insertion hole 72 formed in two stages, the traction pin 74 is inserted into the two-stage insertion hole 72 to be movable so that the end of the slide core (50) Is fixed to. In addition, an inclined hole 76 is formed in the slide 70, and the inclined pin 90 is inserted to be movable across the upper movable die 20 and the lower fixing die 30 through the inclined hole 76. Reference numeral 32 is an eject pin for ejecting the molding.

Looking at the apparatus for taking out a molded article using a conventional injection mold configured as described above, if the inclined pin 90 rises vertically after the molten resin injected into the cavities (40, 42, 44) is cured, the inclined pin (90) When the slide 70 is retracted by the inclined surface of the core pin 80 is released from the inside of the pipe-shaped undercut. Then, when the slide 70 is retracted by a predetermined distance, the slide core 50 is retracted by the traction pin 74, so that the slide core 50 is separated from the outer peripheral surface of the pipe-type undercut. In this state, when the upper movable die 20 is completely removed, the molded article can be taken out by the advancement of the eject pin 32.

However, in the conventional injection molding mold as described above, the insertion hole must be drilled in a two-stage structure in order to penetrate the traction pin 74 on the slide 70, and the retraction of the slide 70 is behind the traction pin. In order to pull the slide core 50 at the time, the stopper must be formed to protrude so that the structure for the installation of the traction pin 74 has a complicated problem.

In addition, since the slide core 50 must be driven by the traction pin 74, the load of the slide core 50 is concentrated on the traction pin 74, thereby causing damage to the traction pin 74, and the slide core 50 is towed. Since the force is received only through the end of the pin 74, the movement direction of the slide core 50 is not penetrated by the exact rule as a whole, so that it is penetrated, and there is a problem in that a drawout defect such as distortion is generated in the undercut portion.

An object of the present invention for solving the above problems is to allow the core pin forming the inner diameter portion of the pipe-type undercut to retreat first in the driving process of the inclined pin, and then to drive the slide core forming the outer diameter portion of the pipe-type undercut. However, the core pin and the slide core to operate in direct interaction with the inclined pin, to provide an undercut processing apparatus having a simple structure while easily and accurately processing the inner diameter portion and the outer diameter portion of the undercut at the same time.

Features of the present invention for achieving the above object, the inclined pin integrally installed on the movable side, the tip forms the outer diameter portion of the pipe-shaped undercut slide core perforated with a slanted first operating hole formed longer than the inclined pin And a core pin forming an inner diameter portion of the pipe-shaped undercut, the core pin being integrally installed in the front and inserted into the slide core so as to be movable forward / backward and having a dimension corresponding to the inclined pin. The ball consists of a slanted perforated core pin slide, the core pin is driven first in the process of driving the slanted pin to solve the inner diameter of the pipe-type undercut, and then the slide core is driven to process the outer diameter of the pipe-type undercut. .

On the other hand, in the above configuration, the locking jaw is formed at the rear of the second slide core, the stopper is formed at a position corresponding to the locking jaw of the slide core to limit the retreat position of the second slide core.

According to the present invention as described above, when the mold is opened, the core pin forming the inner diameter portion of the pipe-type undercut is first retracted by the inclined pin to process the inner diameter portion of the pipe-type undercut, and the inclined pin is then pipe-shaped. By retreating the slide core forming the outer diameter portion of the undercut by processing the outer diameter portion, it is possible to simultaneously process the inner diameter and outer diameter undercut during the mold opening process.

In addition, since the core pin and the slide core are directly driven by the inclined pin, the treatment structure for processing the inner / outer diameter undercut has a simple effect.

In addition, since the operating force of the inclined pin is uniformly applied to the slide core and the core pin slide as a whole during the processing of the inner / outer diameter undercut, the ejection failure rate due to the unbalance of the pulling force during the ejection of the molded article is greatly reduced. .

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

2 to 4 is a cross-sectional view showing a pipe-type undercut processing apparatus according to the present invention, Figure 2 is a view showing a state in which the mold is closed, Figure 3 is a cross-sectional view showing a retracted state of the core pin slide, Figure 4 It is a figure which shows the state in which all the metal mold | die was open.

Pipe-type undercut processing apparatus according to the present invention is largely, the inclined pin 100 integrally installed on the movable side, the tip forms an outer diameter portion of the pipe-type undercut 200 and is inclined formed to be longer than the inclined pin 100 The slide core 300 perforated with the first operating hole 310, the core pin 400 forming the inner diameter portion of the pipe-type undercut 200, the core pin 400 is integrally installed in the front and the The inclined pin is inserted into the inside of one slide core 300 so as to be movable before and after, and the second operation hole 510 having a size corresponding to the inclined pin 100 is inclined to be inclined. In the driving process of 100, the core pin 400 is driven first to solve the inner diameter portion of the pipe-type undercut 200, and then the slide core 300 is driven to process the outer diameter portion of the pipe-type undercut 200. will be.

In the above configuration, the slide core 300 has a tip formed in a shape corresponding to the outer shape of the molded article, and a molding groove 320 is formed at one end of the pipe-shaped undercut 200 to form an outer diameter portion thereof. An insertion hole 330 connected to the groove 320 is horizontally drilled, and an insertion groove 340 is formed from an end to a rear end of the insertion hole 330, and crosses the insertion groove 340. The first elliptical shape of the first operation hole 310 formed to correspond to the outer diameter of the inclined pin 100 is formed to be inclined perforated in accordance with the installation direction of the inclined pin 100, such a slide core 300 ) Is installed on the fixed side so as to be movable before and after.

In addition, the core pin 400 is formed to form the inner end of the pipe-shaped undercut 200, the tip portion is inserted into the insertion hole 330 of the slide core 300 except for the undercut forming portion and the shaft at the rear end In the vertical projection 410 is formed.

The core pin slide 500 for forwarding / reversing the core pin 400 is formed to be inserted into the insertion groove 340 of the slide core 300, and the core pin 400 is formed at the front end thereof. Integrally fastened, the operation groove 530 is formed in the vicinity of the core pin 400, the spring 520 is inserted therein, the second operation hole 510 corresponding to the outer diameter of the inclined pin 100 It is perforated obliquely.

On the other hand, the stopper 540 protrudes from the rear end portion of the insertion groove 340 of the slide core 300 in the above configuration, the locking jaw corresponding to the stopper 540 in the rear of the core pin slide 500 550 is formed to limit the rearward movement distance of the core pin slide 500.

In addition, the stopper 350 is further protruded to limit the rear movement distance of the slide core 300 on the fixed side.

In addition, a fixing groove 360 is formed at the rear lower portion of the slide core 300, and the slide core 300 corresponds to the fixing groove 360 at a position where the slide core 300 has stopped retreating by the stopper 350. The ball plunger 370 for fixing the position of the slide core 300 is installed, the position is fixed in the state in which the slide core 300 is retracted and is advanced in the process of closing the mold only by the inclined pin 100.

Looking at the embodiment of the present invention having the configuration as described above, first, when the molding is completed in the closed state of the mold of Figure 2 the mold is opened while the inclined pin 100 is raised.

In this process, the core pin slide 500 in which the second operation hole 510 formed to fit the outer diameter of the inclined pin 100 is retracted as shown in FIG. 3 according to the driving of the inclined pin 100. The pin 400 processes the inner diameter portion of the pipe-type undercut 200.

In addition, as shown in FIG. 3, the outer circumferential surface of the inclined pin 100 comes into contact with the inner circumferential surface of the second half of the first operating hole 310 of the slide core 300 by the rising process of the inclined pin 100. Due to the slide core 300 is retracted by the inclined pin 100 to process the outer diameter portion of the pipe-shaped undercut 200 as shown in Figure 4, in this process, the pipe-shaped undercut 200 of the molded product The outer diameter portion of the pipe-shaped undercut 200 is processed while being pushed back to the inside by the contracting force of the undercut 200.

On the other hand, in the retraction process of the core pin slide 500 as described above, the core pin slide 500, the spring 520 is installed in the operation groove 530 is compressed and extended while the inclined pin 100 is the second operation hole ( Even if it is separated from the 510 is maintained in a retracted state, and after the mold is closed again to advance only by the inclined pin 100.

In addition, the slide core 300 is also fixed by the fixing groove 360 and the ball plunger 370 in a retracted position, and is advanced only by the inclined pin 100 in the process of closing the mold.

1 is a cross-sectional view showing an inner / outer undercut processing apparatus for a molded article using a slide core and a deformation mill according to the present invention.

2 is a cross-sectional view showing a pipe-type undercut processing apparatus according to the present invention, a cross-sectional view showing a state in which the molds are all closed.

3 is a cross-sectional view showing a retracted state of the core pin slide of FIG.

Figure 4 is a cross-sectional view showing a state in which all the molds open in accordance with the present invention.

* Description of the symbols for the main parts of the drawings *

100: inclined pin 300: slide core

400: core pin 500: core slide

Claims (3)

Apparatus for processing pipe-type undercut in an injection mold, Inclined pin 100 integrally installed on the movable side; The tip forms an outer diameter portion of the pipe-type undercut 200, and the slide core 300 is installed so that the inclined first operating hole 310 formed to be longer than the inclined pin 100 is drilled to be moved forward and backward on the fixed side. )Wow, Core pin 400 to form the inner diameter portion of the pipe-shaped undercut 200, The core pin 400 is integrally installed at the front and inserted into the slide core 300 so as to be movable forward and rearward, and the second operation hole 510 having a size corresponding to the inclination pin 100 is Characterized in that it consists of a core pin slide 500 perforated inclined, the core pin 400 is first driven in the driving process of the inclined pin 100 to solve the inner diameter portion of the pipe-type undercut 200, the slide core Pipe-type undercut take-out apparatus using a slide core 300 is driven to process the outer diameter portion of the pipe-type undercut (200). The method of claim 1, An operating groove 530 in which the spring 520 is inserted is formed at the front end of the core pin slide 500, and a stopper 540 protrudes at the rear end of the insertion groove 340 of the slide core 300. It is formed, the pipe-type undercut take-out apparatus using a slide core, characterized in that the locking jaw 550 corresponding to the stopper 540 is formed at the rear of the core pin slide 500. According to claim 1, wherein the stopper 350 for further limiting the rear movement distance of the slide core 300 is formed on the fixed side, the fixing groove 360 is formed on the rear lower portion of the slide core 300 And a ball plunger 370 for fixing the position of the slide core 300 at a fixed side position corresponding to the fixing groove 360 at the position where the slide core 300 has stopped retreating by the stopper 350. Pipe-type undercut extraction device using a slide core, characterized in that the installation.

Images