KR20120005810U - Ejecting device for processing inside under cut - Google Patents

Abstract

The present invention relates to an internal undercut treatment combined ejecting apparatus, and in view of its features, the upper and lower cores (1) and (2) mesh together to form a cavity space (3). A take-out pin 10 provided on one of the upper and lower cores 1 and 2, and provided to be moved by the movable side plate 4; An insert core 20 connected to the upper end of the takeout pin 10 and positioned in the cavity space 3 to process an inner undercut; And a stop pin (30) installed on one side of the upper and lower cores (1) and (2) provided with a takeout pin (10) and connected to one end of the insert core (20) to limit the lifting height. Characterized in that comprises a.
Accordingly, the present invention is simple in the molding process as the inner ring-shaped undercut of the hole is processed by the turning operation of the insert core while the molded product is taken out by the lifting operation of the extraction pin, and the damage and deformation of the molded product are prevented during extraction. As the molded product is taken out by the turning operation of the insert core, there is an effect of preventing molding defects and appearance damage due to direct pressurization of the mill pin.

Description

Ejecting device for processing inside under cut}

The present invention relates to an inner undercut treatment double ejection apparatus, and more particularly to an inner undercut treatment combined ejection apparatus for processing a ring-shaped undercut formed on the inner peripheral surface of the hole in the process of taking out the molded article.

In general, the molded article is injected into the cavity space formed by the combination of the upper core and the lower core, and when the melt is cured, the upper and lower cores are opened, and the molded article is taken out through the mill pin.

In addition, the portion corresponding to the undercut of the molded article is provided with a slide core separately from the upper and lower cores to move in a direction away from the undercut portion at the time of mold molding to process the undercut.

However, in the case of a molded article having a structure in which the moving space of the slide core cannot be secured, that is, a molded article having a ring-shaped undercut for fitting the lens to the inner circumferential surface of the lens installation hole, such as an eyeglass frame, the moving space of the slide core is moved away from the undercut portion. It is difficult to secure the undercut of the molded article and take out because it is not secured.

Conventionally, although the core for molding the lens mounting hole of the spectacle frame is integrally fixed to either side of the upper and lower cores and forcedly ejected by pressing the molded article using a mill pin after mold opening, it is formed on the inner peripheral surface of the lens mounting hole. The molded article and the core are closely engaged by the ring-shaped undercut, and thus the molded article is scratched or deformed without being easily taken out when pressed with a mill pin.

In addition, due to the processing tolerances of the mill pin and the cavity space in which the mill pin is installed, the stepped and burrs are formed on the exterior of the molded product corresponding to the mill pin, and after the completion of the molding process, it is necessary to go through a post-processing process including a polishing process. .

The present invention has been made in view of the above-mentioned point, and more particularly, it is possible to easily process a ring-shaped undercut formed on the inner circumferential surface of the hole at the same time as ejection, and to provide an internal undercut treatment double ejection device for preventing damage and deformation of the molded article during ejection. For that purpose.

In order to achieve the above object, a feature of the present invention is that the upper and lower cores (1) (in the inner undercut treatment combined ejecting apparatus in which the upper and lower cores (1) (2) are engaged to form the cavity space (3)). 2) take-out pin 10 which is installed on any one of the core, and provided to be sent by the movable side plate (4); An insert core 20 connected to the upper end of the takeout pin 10 and positioned in the cavity space 3 to process an inner undercut; And a stop pin (30) installed on one side of the upper and lower cores (1) and (2) provided with a takeout pin (10) and connected to one end of the insert core (20) to limit the lifting height. Characterized in that comprises a.

At this time, the insert core 20 has a guide hole 42 is formed at the other end, the guide hole 42 is any one core having the take-out pin 10 of the upper and lower cores (1) (2) It is characterized in that it is accommodated in the inclined pin 40 is reduced in diameter toward the top.

In addition, a stroke adjusting bolt 12 is provided at the upper end of the ejecting pin 10, and the stroke adjusting bolt 12 is formed on the insert core 20 corresponding to the ejecting pin 10. It is characterized in that the fastening via.

In addition, a lift limiting bolt 32 is provided at an upper end of the stop pin 30, and the lift limiting bolt 32 is formed on the insert core 20 corresponding to the stop pin 30. It is characterized in that the fastening via.

In addition, the extraction pin 10 is characterized in that the inclined surface 14 is formed on one side of the upper end.

According to the above configuration and operation, the present invention is easy to take out the molded article by the lifting operation of the take-out pin and the inner ring-shaped undercut of the hole is processed by the turning operation of the insert core, the molding process is simple and damage and deformation of the molded product during extraction In particular, as the molded article is taken out by the turning operation of the insert core, there is an effect of preventing molding defects and appearance damage due to the direct pressurization of the mill pin.

1 is a configuration diagram showing the inside undercut combined ejecting apparatus according to the present invention as a whole.
Figure 2 is an enlarged perspective view of the main portion of the inner undercut treatment combined ejecting apparatus according to the present invention.
Figure 3 is a block diagram showing an operating state of the inner undercut treatment combined ejecting device according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to an internal undercut treatment combined ejecting apparatus in which upper and lower cores (1) and (2) are engaged to form a cavity space (3). In order to easily process the ring-shaped undercut made of a major configuration, including the take-out pin 10, the insert core 20, the stop pin (30).

The extraction pin 10 according to the present invention is provided on one of the cores of the upper and lower cores 1 and 2 and is provided to be moved by the movable side plate 4. The takeout pin 10 is provided on the fixed side core of the upper and lower cores 1 and 2, and in the present invention, the lower core 2 is the fixed side core as the fixed side core. This provided state is shown.

Here, the take-out pin 10 is inserted on the lower core 2 and provided so as to move up and down in the direction in which the upper core 1 is opened. At this time, the lower end of the take-out pin 10 is connected to the movable side plate (4), the transfer force is applied according to the lifting and lowering, and the upper end is provided to be exposed to the cavity space (3) is connected to the insert core 20 to be described later do.

In addition, the insert core 20 according to the present invention is connected to pivot to the upper end of the take-out pin 10, is located in the cavity space (3) to process the inner undercut. The insert core 20 is located in the cavity space 3 between the upper and lower cores 1 and 2 to form the hole portion of the molded article and to process the ring-shaped undercut formed on the inner circumferential surface of the hole. (In Figure 2, the insert core 20 shows a state formed in the shape of the eyeglass lens in order to mold the lens mounting hole of the eyeglass frame.)

And, the insert core 20 is connected so as to pivot in a state seated on the upper end of the take-off pin 10, the take-out pin 10 is lifted together at the time of lifting and extracting the molded product on the lower core 2, at a set height The insert core 20 is pivoted while the transfer of one end portion is limited by the stop pin 30 to be described later, thereby naturally leaving the molded article.

At this time, the insert core 20 is coupled to the upper end and the hinge (not shown) of the take-out pin 10, or is connected by the stroke adjustment bolt 12, the connection configuration by the stroke adjustment bolt 12 will be described later See content.

The stroke adjusting bolt 12 is provided at the upper end of the ejecting pin 10, and the stroke adjusting bolt 12 is passed through the first long hole 22 formed on the insert core 20 corresponding to the ejecting pin 10. Is fastened. The first long hole 22 is formed to penetrate the central portion of the insert core 20, and the longitudinal direction of the first long hole 22 faces the turning direction of the insert core 20, that is, the stop pin 30 to be described later. do.

In addition, the stroke adjusting bolt 12 is screwed to the upper end of the take-out pin 10 via the first long hole 22, the insert core 20 is pivotally connected to the stroke adjusting bolt 12, The turning radius of the insert core 20 is adjusted according to the protruding length of the stroke adjusting bolt 12.

On the other hand, in order to prevent the insert core 20 from loosening the stroke control bolt 12 screwed on the take-off pin 10 during the turning operation, tighten the bolt to the female threaded hole of the take-out pin 10, the mood bolt It is preferable to screw the upper end and the lower end of the adjusting bolt 12 to engage.

In addition, the take-out pin 10 is formed with an inclined surface 14 on one side of the upper end. The inclined surface 14 is formed on the upper surface of one side of the ejecting pin 10 corresponding to the stop pin 30 so that the insert core 20 is closely interviewed with the bottom surface of the insert core 20 when the insert core 20 is turned by the stop pin 30. As the insert core is prevented from flowing after the turning operation, and as shown in FIG. 3, the turning space of the insert core 20 is secured by the inclined surface 14 to reduce the stroke adjusting bolt 12. .

In addition, the stop pin 30 according to the present invention is installed on any one core provided with the take-out pin 10 of the upper and lower cores (1) (2), and connected to one end of the insert core (20) Limit the height The stop pin 30 is provided with a lifting limit bolt 32 at the upper end, and the lifting limit bolt 32 is passed through the second long hole 24 formed on the insert core 20 corresponding to the stop pin 30. Is tightened.

At this time, the second long hole 24 is formed through the edge portion of the insert core 20, the longitudinal direction of the second long hole 24 toward the turning direction of the insert core 20, that is, the ejection pin 10 It is formed to.

In addition, the lifting limit bolt 32 is screwed to the upper end of the stop pin 30 via the second long hole 24, and the insert core 20 is caught by the head of the lifting limit bolt 32 during lifting and lowering. Slewing operation with limited feed. At this time, the turning operation time of the insert core 20 is determined according to the protruding length according to the screwing of the lift limiting bolt 32.

That is, by the operation of the extraction pin 10, the insert core 20 is elevated until it reaches the head of the lift limiting bolt 32, and the molded article is taken out on the lower core 2, and then the insert core 20 The end is caught by the head of the lifting limit bolt 32, the feed is limited and the stroke adjusting bolt 12 is pivoted about the axis, and the insert core 20 is separated from the molded part, and the ring-shaped undercut formed in the hole part Is processed.

In addition, the insert core 20 has a guide hole 42 formed at the other end thereof, and the guide hole 42 has a core on which one of the upper and lower cores 1 and 2 is provided with the ejection pins 10. It is provided on the inclined pin 40 is reduced in diameter toward the top is accommodated. The guide hole 42 is positioned on the opposite side of the second long hole 24 with respect to the extraction pin 10, and the insert core 20 is guided up and down in the longitudinal direction with the inclined pin 40 inserted therein.

At this time, the lower end of the inclined pin 40 is processed tolerant in consideration of the inner diameter of the guide hole 42, the mesh is closely engaged during molding to prevent flow, and is formed in a conical shape that is reduced in diameter toward the top of the insert core 20 Since the turning allowable range is gradually extended according to the lifting height, malfunction and mold damage due to the rapid turning operation of the insert core 20 are prevented.

On the other hand, when the upper and lower cores (1) and (2) are mated, the stroke adjusting bolt (12), the lifting limiting bolt (32), and the temporal plate (20) are in close contact with the insert core (20) located in the cavity space (3). Preferably, the receiving hole is formed on the upper core 1 corresponding to 40).

10: ejection pin 20: insert core 30: stop pin
40: inclined pin

Claims (5)

In the inner undercut treatment combined ejecting apparatus in which the upper and lower cores (1) and (2) are engaged to form the cavity space (3),
A takeout pin (10) provided on one of the upper and lower cores (1) and (2) to be transported by the movable side plate (4);
An insert core 20 connected to the upper end of the takeout pin 10 and positioned in the cavity space 3 to process an inner undercut; And
A stop pin (30) installed on one of the upper and lower cores (1) and one of the cores having the ejection pins (10) provided thereon, and connected to one end of the insert core (20) to limit the lifting height; Inner undercut treatment combined ejecting device comprising a. The method of claim 1,
The insert core 20 has a guide hole 42 formed at the other end thereof, and the guide hole 42 is formed on any one core of which the ejection pins 10 are provided among the upper and lower cores 1 and 2. Inner undercut treatment combined ejecting device, characterized in that accommodated in the inclined pin 40 is reduced in diameter toward the top. 3. The method according to claim 1 or 2,
The stroke adjusting bolt 12 is provided at the upper end of the ejecting pin 10, and the stroke adjusting bolt 12 passes through the first long hole 22 formed on the insert core 20 corresponding to the ejecting pin 10. Inner undercut treatment combined ejecting device, characterized in that by fastening. 3. The method according to claim 1 or 2,
The lift limiting bolt 32 is provided at the upper end of the stop pin 30, and the lift limiting bolt 32 is passed through the second long hole 24 formed on the insert core 20 corresponding to the stop pin 30. Inner undercut treatment combined ejecting device, characterized in that by fastening. The method of claim 1,
The ejection pin 10 is an inner undercut treatment combined ejecting device, characterized in that the inclined surface 14 is formed on one side of the upper end.

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