KR101935505B1 - Ejecting device for injection mold - Google Patents

Abstract

The present invention proposes an apparatus for ejecting an injection mold without damaging the warp miter pin. The present invention relates to an injection apparatus for an injection mold comprising an upper mold moving up and down by an injection apparatus and a lower mold coupled with the upper mold to form a cavity for product molding. The apparatus includes a take-out block (25) coupled to form an outer end of a bottom surface of an injection mold (P) on a lower circular plate (22) of a lower mold; A lower core (23) provided on the lower circular plate (22) inside the take-out block (25) and forming a part of the bottom surface of the molded product (P); A slanting pin (26) which is vertically movable through the lower core in an inclined state and forms an outer part of a bottom surface of the molded product (P); A lower plate 28 which rises in accordance with a rise of the injection apparatus and is connected to the take-out block 25 through a connection block 24; And a connecting block 24 connected to the take-out block so as to be raised and lowered and connected to the tilting pin through the connecting portion 24a to interlock the tilting pin with the take-out block.

Description

[0001] Description [0002] Ejecting device for injection mold [0003]

The present invention relates to an ejection apparatus for an injection mold, and more particularly, to a method for molding an ejection mold having an undercut portion in which a relative length of an ejection pin can be minimized, The present invention relates to an ejection apparatus for an injection mold which does not use a mold.

Korean Patent Application No. 20-2002-0033626 is one of the proposed techniques for an injection device for an injection molded article having an undercut portion in the shape of a product. According to this prior art, it is understood that in the mold apparatus of the injection molded product having the undercut portion, the portion having the undercut is configured to be vertically and horizontally movable by adjusting the thickness of the ejection pin.

However, even in such a conventional technique, since the ejection fin can be injection-molded so that the diameter of the ejection pin is made small in the middle and the horizontal movement is possible in a portion where the diameter is varied, I can not give. For example, in order to avoid interference with the undercut portion, if the ejection pin is provided at an inclined position, the ejection pin may be damaged due to the force applied during the product ejection process. According to the above- I can not say anything.

In this prior art, although the thickness of the ejection pin itself is mentioned, if the thickness of the ejection pin is changed, the strength of the ejection pin becomes more fragile. In other words, although the above-described conventional technique also mentions the change in the thickness of the end face of the eject pin, this point ultimately leads to a disadvantage that the strength of the eject pin is lowered.

A basic object of the present invention is to provide a reliable ejecting apparatus for a mold by reducing the length of the ejection pin as much as possible and providing a sufficient strength corresponding thereto.

The apparatus of the present invention is an injection mold type ejecting apparatus comprising an upper mold moving up and down by an injection apparatus and a lower mold coupled with the upper mold to form a cavity for product molding; A take-out block coupled to form an outer end of the bottom of the injection mold on the lower original plate of the lower mold; A lower core provided on the lower disk at an inner side of the blowout block and forming a part of a bottom surface of the injection body; A tilt mill pin which is vertically movable through the lower core in an inclined state and forms an outer portion of the bottom surface of the injection body; A bottom plate which rises in accordance with an increase in the running value and is connected to the take-out block through a connecting block; And a connecting block connected to the take-out block and connected to the take-up spindle through a connection, thereby connecting the take-up spindle to the take-out block.

According to the present invention having the above-described structure, since the inclined lowering pin can be lifted by the connecting block in the lower mold, the length of the inclined lowering pin can be remarkably shortened compared with the conventional one, It can be understood that it is possible to perform molding.

The fact that the length of the slanting pin can be made relatively shorter than that of the conventional one means that it can be more strongly supported by the external force received in the ejecting process. Therefore, when the present invention is applied, it is possible to improve the reliability of the product ultimately by preventing the tilting pin from being damaged by the load generated in the ejecting process.

In addition, according to the present invention, it can be seen that the tilting pin has a coupling relationship with the take-out block and the lower core exposed on the upper surface of the lower disk. Therefore, if a problem occurs with the inclined spinning pin, it is expected that the part can be partially disassembled without disassembling the entire lower mold, thereby allowing sufficient repairing at the parting line portion.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exemplary perspective view of a lower mold showing an ejection apparatus of the present invention. FIG.
2 is a cross-sectional view showing an ejection apparatus of the present invention in a state in which an injection mold is closed;
3 is a cross-sectional view showing an ejecting apparatus of the present invention in a state in which an injection mold is opened.

 Hereinafter, the present invention will be described in more detail based on the embodiments shown in the drawings.

FIG. 1 is a perspective view of the lower mold 20, and FIG. 2 is a cross-sectional view illustrating a state in which the upper mold 10 and the lower mold 20 are engaged with each other. 3, the upper mold 10 is separated from the lower mold 20 in a sectional view.

The upper mold 10 includes an upper fixing plate 16 for fixing to the injection apparatus, an upper circular plate 12 provided below the upper fixing plate 12, And an upper core 14 for forming a cavity. A lower mold 20 is provided at a lower portion of the upper mold 10 having the above-described structure, and a cavity is formed between the lower mold 20 and the lower mold 20 to form a product therebetween.

In Fig. 1, reference character P denotes a product produced by injection molding. As shown in Fig. 2, such an injection molded product P is provided with an undercut portion Pu. Hereinafter, an injection apparatus for an injection mold according to the present invention, which is designed in the lower mold 20, will be described in more detail with reference to FIGS. 1 and 2. FIG.

The lower mold 20 includes a lower fixing plate 29 to be fixed to the press device, a plurality of space blocks 27 provided on the upper portion of the lower fixing plate 29, And a lower original plate 22. Between the plurality of space blocks 27, a bottom plate 28 is provided. The bottom plate 28 is configured to move up and down in association with driving of the injection device.

The take-out block 25 is connected to the lower plate 28 through a take-out block pin 21 fixed by a bolt. Therefore, when the lower plate 28 is raised by the injection apparatus, the take-out block 25 also rises. Since the take-out block 25 is a part forming one side of the injection product P, preferably the lower side of the outer side surface, the ascending operation of the take-out block 25 substantially takes the outer end of the injection product P It will be raised.

A connection block 24 is provided below the take-out block 25 corresponding to the inside of the take-out block pin 21. Since the connecting block 24 is also fixed to the take-out block 25 by bolts, the connecting block 24 is constructed so as to rise like the take-out block 25. The connecting block 24, (Not shown). Therefore, the connecting block 24 is moved up and down in cooperation with the inclined lower pin 26.

A lower core 23 is provided on the lower disk 22 inside the above-described blowout block 25. [ The upper surface of the lower core 23 is able to form a part of the bottom surface of the molded article P and is fixed to the lower original plate 22. [ The upper end of the inclined dicing pin 26 forms a part of the inner bottom surface of the injection molded product P, 2 and 3 that a groove 26a capable of forming an undercut portion Pu of the injection molded product P is formed on the outer side wall of the slant molding pin 26. [

Next, the operation of the take-out apparatus having such a configuration will be described. 2 shows a state in which the upper mold 10 and the lower mold 20 are closed. In this state, the upper surface portion of the cavity for forming the injection product P is formed by the upper mold 10, The bottom portion of the cavity is formed by the take-out block 25, the lower core 23 and the tilting pin 26 as viewed from the outside to the inside, and this state can be confirmed in the enlarged view of FIG.

When the molten resin is injected in the state shown in FIG. 2 and molding of the injection product P is completed, the upper mold 10 rises and becomes an open state in which the injection molding P can be ejected. Respectively. When the upper mold 10 is raised, the injection apparatus also raises the lower plate 28 of the lower mold 20 as well as the upward movement.

When the lower plate 28 is lifted up, the take-out block 25 also ascends through the take-out block pin 21. When the take-out block 25 is raised, the tilting pin 26 also ascends through the connecting block 24. That is, except for the lower core 23, the take-out block 25 and the warp mill pin 26 are raised from those of the bottom surface of the injection molded product P that are formed. Then, the injection material P is substantially ejected by the rising take-out block 25 and the slanting mill pin 26 as described above.

That is, since the take-out block 25 lifts the outermost portion of the injection product P and the inclined dipper pin 26 is provided in an inclined state, the undercut portion Pu , The uppermost part of the injection product P is pushed upward. Therefore, since the injection object P is pushed upward from the innermost and outermost sides, it can be seen that the ejector P is ready to be ejected as shown in the enlarged view of Fig. As shown in the enlarged view, since the warp mill pin 26 is supported on the lower core 23 in an inclined state, the warp knife pin 26 is lifted and the further outer portion (the outermost end So as to lift the injection product P.

Since the inclined dicing pin 26 is supported so as to be raised by the connecting block 24 in the lower mold 20, the length of the inclined dicing pin 26 is formed to be sufficiently shorter than that of the prior art Lt; / RTI > Therefore, it can be seen that warpage or damage due to the load generated at the time of ejection can be prevented as much as possible, and when the length of the oblique dipping pin 26 is half, the supporting load can be increased by about 4 times .

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the present invention as defined by the appended claims. It can be said that it should be.

10 ..... upper mold
20 ..... lower mold
21 ..... Take-out block pin
22 ..... Lower disc
23 ..... lower core
24 ..... connection block
24a ..... connection
25 ..... Block to take out
26 ..... slope spinner
26a ..... grooved groove
27 ..... Space Block
28 ..... bottom plate

Claims (1)

An upper mold moving upward and downward by an injection device; and a lower mold coupled with the upper mold to form a cavity for product molding;
A take-out block (25) coupled to form the outer end of the bottom surface of the molded product (P) on the lower disc (22) of the lower mold and lifting the outermost side of the molded product at the time of ejection;
A lower core (23) provided on the lower circular plate (22) inside the take-out block (25) and forming a part of the bottom side inner surface of the molded product (P);
A groove 26a which can form an undercut portion Pu of the injection product P is formed on the outer side wall of the lower core 23, (26);
A lower plate 28 which rises in accordance with a rise of the injection apparatus and is connected to the take-out block 25 through a take-out block pin 21; And
And a connecting block 24 connected to the take-out block 25 so as to ascend and descend and connected to the slanting pin 26 through a connecting portion 24a to interlock the slanting pin 26 with the take- Wherein the injection device is provided with an injection device.

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