KR101261580B1 - Mold for insert molding - Google Patents

Abstract

According to the present invention, in the structure of an insert molding die in which an insert part is inserted and integrally formed between an upper core and a lower core, the insert molding die has a support member to which an insert part having a tubular shape is inserted and fixed. It is configured to include, wherein the support member is the shaft portion that is fitted into the insert part; and one side is coupled so that the shaft portion can slide by a predetermined length and the other side mounting portion coupled to the lower core; And an elastic member mounted between the shaft portion and the mounting portion, wherein the elastic member is elastically compressed according to the size of the insert part inserted into the shaft portion and in close contact with the upper core.
The support member of the present invention as described above has the effect of preventing the defect of the injection molded product (vehicle battery cover) by supporting the variable in accordance with the change of the insert part dimensions. Since the support member of the present invention is decomposable by the fixing pin, there is an effect that the parts can be replaced more easily in a situation in which a problem occurs, such as when the axle portion is worn or the elastic member is broken. In addition, there is an effect that can be easily replaced and assembled using a ring-shaped wave washer continuously bent as an elastic member.

Description

Insert molding mold {Mold for insert molding}

The present invention relates to a structure of a mold for insert molding, and more particularly, to a support member capable of finely adjusting the position of an insert part inserted into a mold and integrated with a plastic resin (after being produced through a forging as a metal material in advance). It relates to the structure of a mold for insert molding provided.

Insert molding is a molding method of integrating heterogeneous materials in an injection mold, and is mainly used in the production of products in which metal and plastic are integrated. Insert injection molding is a method in which the insert part and the plastic resin are integrally formed by inserting the insert part in the open state of the injection mold and injecting the molten high temperature plastic resin in the closed state of the injection mold.

Insert molding can produce a more sophisticated and robust product than the combined product after the production of the individual parts, and can improve the efficiency of the fish process. In particular, insert injection molding has been widely used in the manufacture of a cover for a vehicle battery that requires a conductive combination of a plastic resin insulating material constituting an outer surface and a metal material constituting an anode terminal.

1A is a cross-sectional view of the injection mold. Referring to the drawings, the upper fixing plate is a member that functions to mount the mold to the injection molding machine, the nozzle of the injection molding machine and a locating ring mounted to center the sprue bushing of the mold are combined.

The sprue bushing is mounted between the upper fixing plate and the upper plate to be in close contact with the nozzle of the injection molding machine, and the molten plastic resin is pressed into the cavity in the mold (the space in which the resin is filled between the upper core and the lower core). Guide.

The upper plate is a member attached to the fixing side of the injection molding machine together with the upper fixing plate, and the upper core patterned on one side of the product is coupled. The lower plate is a member coupled to the movable side of the injection molding machine (sliding part when the mold is opened), which slides along the guide pin and is coupled to the lower core patterned on the other side of the product. Therefore, when the mold is closed, the plastic resin is injected between the upper core and the lower core, and the resin is filled according to the shape of the cavity. Then, the plastic resin is cured in a short time according to the temperature drop, and the injection molding is applied to the eject pin when the mold is opened. It has a structure discharged out of the mold.

That is, in the insert molding method, the insert part is inserted when the mold is opened, and the support part is supported on the lower core (or upper core) to hold the insert part while the mold slides and to fix the insert part during injection (in plastic resin injection). The member is mounted.

For example, during insert molding of a vehicle battery, injection is performed while the anode terminals, which are made of metal, are inserted into a mold so that the anode terminals protrude above the battery cover. As shown in FIG. 1B, the anode terminal has a cylindrical shape that is opened in the longitudinal direction, and a rotation preventing portion and a leakage preventing portion are formed on an outer circumferential surface thereof. The anti-rotation part is a portion formed with a plurality of gear teeth along a circumference to prevent the rotation of the positive electrode terminal, and the leakage preventing part is inserted into the battery cover to seal harmful substances embedded in the battery. It has a ring shape protruding from the circumference and is formed in plural along the longitudinal direction.

On the other hand, the insert part used as the positive electrode terminal mounted on the battery cover as described above is produced by processing a metal material forging (鍛造). However, due to the quality deviation in production, the dimensions of the anode terminal (especially longitudinal length) are not uniform.

Therefore, there is a problem in that the insert part may be damaged or deformed during the insert injection process according to the above dimensional deviation. That is, as shown in Figure 1c, the conventional support member structure is a constant length, depending on the size of the positive electrode terminal, damage may occur in the portion (top surface of the rotation preventing portion) resin is introduced or protruded into the gap with the upper core. There was a problem that could be.

Therefore, there was a need to improve this and the present invention has been invented to solve the above problems. The support member of the present invention is a structure of a battery cover mold for a vehicle battery which can prevent the occurrence of defects of the battery cover, which is the final injection product, by compensating for the gap caused by the change of the dimension regardless of the change of the insert part by the change of the length of the support member. The main purpose is to provide.

The present invention for achieving the above object, in the structure of the insert molding die that is integrally molded by inserting the insert part between the upper core and the lower core, the insert molding die has a tubular (pipe) shape An insert part is inserted into the support member; is configured to include, wherein the support member is inserted into the insert portion of the shaft portion; and one side is coupled so that the shaft portion can slide by a predetermined length and the other side is coupled to the lower core Mounting portion; And an elastic member mounted between the shaft portion and the mounting portion, wherein the elastic member is elastically compressed according to the size of the insert part inserted into the shaft portion and in close contact with the upper core.

The shaft portion has an insertion hole formed in the inner side in the longitudinal direction, one end is formed with a locking step, the mounting step is formed on the upper step step portion fitted to the locking step at the end is spaced apart from the upper step is formed a lower step step portion The through hole penetrates the inside along the longitudinal direction, and when the upper step portion is mounted on the locking jaw, a fixing pin that enters the insertion hole through the through hole is coupled to the mounting portion.

The first male thread is formed at the end of the mounting portion and screwed to the lower core. Is formed.

In addition, the elastic member is a wave washer (wave washer) is coupled between the upper step portion and the lower step portion, it is preferable that two or more wave washers are stacked and mounted.

The support member of the present invention as described above has the effect of preventing the defect of the injection molded product (vehicle battery cover) by supporting the variable in accordance with the change of the insert part dimensions.

Since the support member of the present invention is decomposable by the fixing pin, there is an effect that the parts can be replaced more easily in a situation in which a problem occurs, such as when the axle portion is worn or the elastic member is broken.

In addition, there is an effect that can be easily replaced and assembled using a ring washer (wave washer) continuously curved as an elastic member.

Figure 1a is a cross-sectional view showing the inside of the insert injection molding mold,
1B is a view showing a state of a vehicle battery, a vehicle battery cover, and a positive terminal;
Figure 1c is a view showing the appearance of defective products according to the dimensions of the positive electrode terminal when the positive terminal is fitted to the conventional support member,
2 is an exploded perspective view of a support member according to a preferred embodiment of the present invention;
3 is a plan view showing a perspective view and an assembled state of the support member according to a preferred embodiment of the present invention;
Figure 4 is a cross-sectional view showing the behavior of the elastic member of the support member according to the size of the positive electrode terminal when the positive terminal is fitted to the support member according to an embodiment of the present invention.

In the insert mold of the present invention, a support member is inserted into a cavity in which a plastic resin is filled between the upper core and the lower core, and the support member supports the insert part to be injection molded together with the plastic resin by using an elastic force.

That is, the support member of the present invention is characterized in that it is elastically deformed according to the dimensions of the insert part, unlike the conventional structure that is simply inserted into and supported by the insert part having a tubular shape as the anode terminal. For the elastic deformation as described above, the present invention is composed of the shaft portion 10, the mounting portion 30 and the elastic member 20 and binds the shaft portion 10, the mounting portion 30 and the elastic member 20. It includes a fixing pin (40).

Hereinafter, the structure of an insert molding die according to a preferred embodiment of the present invention with reference to the drawings in more detail.

As shown in Figure 2, the shaft portion 10 is a circular rod shape having a step so that the insert part which is the positive terminal of the vehicle battery cover can be fixed in close contact with the upper core (the side of the insert part is coupled) Toward the opposite side), the diameter is expanded.

In addition, the shaft portion 10 has a predetermined space formed in the lower portion so that the mounting portion 30 can enter in the lateral direction (as shown in FIG. 3), but the entry portion 30 does not escape downward. Hanging jaw 11 is formed so that it can be mounted without. In addition, the insertion portion 12 is formed in the shaft portion 10 in a predetermined length from the lower side in the longitudinal direction to prevent the mounting portion 30 is separated.

The mounting portion 30 has an upper step portion 31 mounted on the locking step 11 and a lower step portion 32 disposed to be spaced apart from the upper step portion 31. An elastic member 20 is elastically deformed according to the pressure applied between the upper step portion 31 and the lower step portion 32.

At the lower end of the mounting portion 30, a first male thread 33 is formed to be detachable by screwing from a lower core (core mounted on the movable side template). In addition, the mounting portion 30 is formed with a through hole 34 along the longitudinal direction so that the fixing pin 40 can be fitted.

On the other hand, the elastic member 20 is implemented as a ring-shaped wave washer curved in a wave shape (waveform) so as to be pressed by the engaging jaw (11) portion of the shaft portion 10 as shown, but two or more It is preferable to fit together in this way.

The fixing pin 40 is one end is passed through the through hole 34 of the mounting portion 30 to the insertion hole 12 of the shaft portion 10 to the outer peripheral surface of the other end to be fixed to the mounting portion 30 The second male thread 41 is formed. The second male thread 41 is engaged with the female thread formed on the inner circumferential surface of the through hole 34, and a driver groove is formed on the lower surface of the second male thread 41 so as to be screwed together.

The support member configured as described above is coupled to and mounted on the lower core as shown in FIG. 3, and operates as shown in FIG. 4.

Fig. 4 shows that when the mold is opened (when the movable molds are moved), the insert part as described above is inserted by a robot or a linking device to the support member coupled to the lower core, and then for injection molding (resin into the cavity). The mold is closed when the mold is closed (as shown in FIG. 1A when the movable molds are in close contact with the fixed molds).

The support member according to the present invention is mounted to such a degree that a predetermined pressure acts on the elastic member 20 when an insert part having a normal dimension is inserted. That is, as shown in the drawing, when the insert part of the normal dimension is inserted, the elastic member 20 is pressurized to a predetermined pressure as the contact portion of the insert part (the upper surface of the anti-rotation part of the play terminal) contacts the upper core. Elastic compression, wherein the elastic member 20 is smaller or larger elastically compressed, as indicated by the arrow, depending on the dimensions of the insert part (particularly the longitudinal dimension).

Therefore, there is an effect that does not generate an impact on the upper core irrespective of the size of the insert part and can prevent the defective rate of the final injection molded product integrally formed with the insert part in the mold.

In addition, the structure of the insert molding die according to the present invention has been described with reference to a vehicle battery cover in which two anode terminals are integrally molded in the cavity of the mold, but may have two or more terminals according to the design and use of the battery cover. Of course, a plurality of support members can be mounted in the mold to be able to. And, it will be apparent to those skilled in the art that the supporting members may be mounted on the upper core instead of the lower core on the movable side, depending on the design of the mold.

As described above, the embodiments disclosed in the present specification and drawings are only illustrative of specific examples in order to facilitate understanding of the present invention, and are not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

10: shaft portion
11: hanging jaw
12: insertion hole
20: elastic member
30: mounting part
40: fixed pin

Claims (5)

In the insert molding die in which the insert part is inserted between the upper core and the lower core to be integrally formed,
The insert molding die is configured to include; a support member to which the insert part having a pipe shape is inserted and fixed;
The support member is a shaft portion that is fitted into the insert part; and one side is coupled so that the shaft portion can slide by a predetermined length and the other side mounting portion coupled to the lower core; And an elastic member mounted between the shaft portion and the mounting portion, wherein the elastic member is elastically compressed according to the size of the insert part inserted into the shaft portion and in close contact with the upper core.
The shaft portion has an insertion hole formed in the inner side in the longitudinal direction, one end is formed with a locking step, the mounting step is formed on the upper step step portion fitted to the locking step at the end is spaced apart from the upper step is formed a lower step step portion The through hole penetrates the inside along the longitudinal direction,
Insert molding die, characterized in that the fixing pin is coupled to the mounting portion passing through the through-hole to the insertion hole when the upper step is mounted on the locking step.
delete According to claim 1, wherein the first male thread is formed at the end of the mounting portion is screwed to the lower core, the female thread is formed at the end of the through hole in the inner side of the first male thread and the female thread at the end of the fixing pin Insert molding die, characterized in that the second male thread is formed to be engaged.
The insert molding die of claim 3, wherein the elastic member is a wave washer and is coupled between an upper step part and a lower step part.
The mold for insert molding according to claim 4, wherein two or more wave washers are stacked and mounted.

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