KR100421131B1 - Mold for injection molding - Google Patents

Abstract

The present invention relates to an injection molding die, and in particular to improve the opening and closing structure of the cooling flow path provided in the mold to facilitate the removal of the molded article.

Injection mold according to the present invention, the injection molding having a plurality of molds detachably coupled with the mutual coalescing to form a molding space therein, and a cooling passage formed through the inside of the mold for cooling the mold A mold for use, comprising: an opening / closing valve provided in the middle of the cooling flow passage to open and close the cooling flow passage so that the cooling flow passage is opened when the plurality of molds are merged and the cooling flow passage is closed when the plurality of molds are separated; It is installed to be able to move forward and backward in the mold, characterized in that it comprises an operating rod for opening and closing the on-off valve while advancing in accordance with the coalescing and separating operation of the plurality of mold.

Description

Injection Molding Mold {MOLD FOR INJECTION MOLDING}

The present invention relates to an injection molding mold, and more particularly, to an injection molding mold having an improved structure of a cooling passage provided in the mold.

In general, the injection molding die is formed with a molding space corresponding to the outer shape of the product, and is formed by combining a plurality of molds that can be separated from each other so that the molded product manufactured in the molding space can be taken out.

Some of these molds are usually provided with a core installed to penetrate the center of the mold so as to form a hollow part of the molding, and a plurality of ejector pins around the core to push the molded product when the mold is separated so that the molding comes out of the mold. There is one installed. In addition, the core is provided with a cooling passage that penetrates the center of the core to cool the core during the molding process so that the cooling air supplied from the outside flows at all times.

However, the conventional mold of such a configuration is that the compressed air for cooling always flows through the cooling channel of the core irrespective of the coalescing and separating operation of the mold, so that air is ejected from the cooling channel when the mold is separated to remove the molding. There was a problem that the molded product is separated to the surrounding by the ejection pressure of.

The present invention is to solve such a problem, an object of the present invention is to provide a mold for injection molding that can prevent the separation of the molding by the ejection of air by blocking the cooling flow path when the mold is separated.

1 is a cross-sectional view showing the configuration of an injection molding mold according to the present invention.

2 is a cross-sectional view of an injection molding mold according to the present invention, showing a state in which the first mold and the second mold are separated.

Figure 3 is a cross-sectional view of the injection molding mold according to the present invention, showing the separation operation of the molding.

Explanation of symbols on the main parts of the drawings

10: first mold, 11: forming member,

13: spring receiving part, 20: second mold,

30: first support plate, 31, 71, 83: cooling flow path,

40: second support plate, 50: ejector plate,

51: ejector pin, 60: spacer block,

70: core, 80: sprue bush,

91: valve groove, 92: opening and closing member,

100: working rod, 110: restoring spring.

In order to achieve this object, the present invention, injection molding having a plurality of molds detachably coupled to each other to form a molding space therein, and a cooling passage formed through the inside of the mold for cooling the mold A molding die, comprising: an opening / closing valve provided in the middle of the cooling flow passage and opening and closing the cooling flow passage so that the cooling flow passage is opened when the plurality of molds are coalesced and the cooling flow passage is closed when the plurality of molds are separated; ; It is installed in the mold so as to be retracted, and provides an injection molding mold comprising a working rod for opening and closing the opening and closing valve while advancing in accordance with the coalescing and separating operation of the plurality of molds.

The on-off valve may include a valve groove formed in the middle of the cooling passage, and an opening / closing member coupled to the operating rod to open and close the cooling passage while advancing into the valve groove.

In addition, the operating rod is characterized in that the restoring spring is installed elastically supporting the operating rod so that one end of the operating rod protrudes to the outside of the mold when the plurality of molds are separated.

Hereinafter, with reference to the accompanying drawings a preferred embodiment according to the present invention will be described in detail.

As shown in FIG. 1, the injection molding die according to the present invention has a molding space for forming the molded article 1 therein and is formed of a plate-shaped first mold 10 and a second mold, which can be separated from each other. And a first support plate 30 and a second support plate 40 installed to support them outwardly of the first mold 10 and the second mold 20. In addition, a spacer block 60 is installed between the first mold 10 and the first support plate 30 to form a space 62 for receiving the ejector plate 50.

In addition, on one surface of the first mold 10 in contact with the second mold 20, a molding member 11 having a molding space for forming the pulley shaped molding 1 is mounted, and the molding members 11 are both sides. The fixing screw 12 is fastened to the first mold 10. In addition, at the center of the first mold 10 and the forming member 11, a core 70 for forming a hollow portion of the molded product penetrates through them, and the molding 1 is later separated from the mold outside the core 70. A plurality of ejector pins 51 are installed for the purpose. At this time, the ejector pin 51 is installed to penetrate the first mold 10 and the forming member 11 to the molding space, one end of the space between the first mold 10 and the first support plate 30 ( It is fixed to the ejector plate (50) installed to be retractable in (62). That is, the plurality of ejector pins 51 interlock with the operation of the ejector plate 50. In addition, a sprue bush 80 having a runner 81 and a gate 82 formed to guide the molten resin into the molding space is installed at the center of the second mold 20.

In addition, the mold according to the present invention is to cool the core 70 when the molding (1) is formed is provided with cooling passages (31, 71, 83). The cooling passage has a first flow passage 31 formed long from the outer end of the first support plate 30 to the center portion, a second flow passage 71 formed at the center of the core 70 so as to be connected to the first flow passage 31, And a third flow path 83 formed in the sprue bush 80 so as to be associated with the second flow path 71. Here, reference numeral 72 denotes a connecting pipe connecting the first passage 31 and the second passage 71. This configuration allows the cooling air supplied to the first flow passage 31 through the connection pipe 32 extending from the outside to be discharged to the outside through the second flow passage 71 and the third flow passage 83. ) Cooling is achieved.

In addition, the mold according to the present invention is characterized in that the flow path opening and closing means for blocking the supply of cooling air by closing the first flow path 31 when the mold is separated after the manufacture of the molding. The flow opening and closing means includes an on / off valve 90 provided in the middle of the first flow path 31 of the first support plate 30, and the first mold 10 and the spacer block 60 to operate the on / off valve 90. It includes an operating rod 100 connected to the on-off valve 90 through.

In more detail, the on-off valve 90 has a valve groove 91 formed with a diameter larger than the inner diameter of the first passage 31 in a direction crossing the direction in which the first passage 31 is formed, and the valve groove 91. It is composed of a piston-shaped opening and closing member 92 installed to move forward and backward, one end of the valve groove 91 is closed through the cover 93. This configuration allows the opening and closing member 92 having a diameter larger than that of the first passage 31 to block or open the first passage 31 while advancing and retreating the inside of the valve groove 91. The actuating rod 100 is for advancing the opening / closing member 92, one end of which is connected to the opening and closing member 92, and the other end penetrates through the spacer block 60 and the first mold 10 to form the second mold 20. It is installed to contact the surface of the.

In addition, in the middle of the operating rod 100, the restoring spring 110 for elastically supporting the operating rod 100 is installed so that the operating rod 100 has a restoring force to advance toward the second mold 20. To this end, a supporting jaw 101 formed larger than the outer diameter of the operating rod 100 is formed in the middle of the operating rod 100 so that the restoration spring 110 fitted to the outer surface thereof is supported, and the first mold 10 A spring accommodating part 13 is provided to accommodate the support jaw 101 and the restoration spring 110 in a retractable manner. The restoration spring 110 has one end supported by the support jaw 101 and the other end supported by the spacer block 60.

These configurations are such that when the first mold 10 and the second mold 20 are separated, the operating rod 100 is advanced toward the second mold 20 so that the opening / closing member 92 inside the valve groove 91 is operated. It moves along the 100 to block the first passage 31. When the first mold 10 and the second mold 20 are combined, the operating rod 100 is pushed against the second mold 20 and moved in the opposite direction to push the opening / closing member 92 in the opposite direction to the first flow path. 31) to open.

The following describes the production of the molding through the injection molding mold and the separation operation of the mold according to the present invention of this configuration.

When the mold is coalesced, a molding space of the molding 1 is formed through the outer surface of the core 70, the inner surface of the molding member 11, and one surface of the sprue bush 80. In this state, when the molten resin supplied through the runner 81 and the gate 82 of the sprue bush 80 is filled in the molding space, the molding 1 is manufactured while the molten resin solidifies. And when the mold is coalesced, the operating rod 100 and the opening / closing member 92 are moved in the B direction so that the first flow path 31 is opened, and thus the cooling flow paths 31, 71, and 83 are formed in the process of forming the molding 1. ) Flows for cooling. That is, the core 70 is cooled.

When removing the manufactured molding 1 to the outside, first, as shown in FIG. 2, the second mold 20 is separated from the first mold 10, wherein the sprue bush 80 connected to the molding 1 is formed. The gate 82 portion of is separated. In this case, as the first mold 10 and the second mold 20 are spaced apart, the operating rod 100 is advanced toward the second mold 20 by the elasticity of the restoring spring 110, and thus, the operating rod 100. The opening and closing member 92 interlocking with each other moves in the A direction to block the first flow passage 31. That is, the supply of cooling air is cut off.

Next, as shown in FIG. 3, when the ejector plate 50 is advanced toward the second mold 20, the plurality of ejector pins 51 push the molding 1 so that the molding 1 is moved out of the mold. Come out. As described above, the mold 1 according to the present invention is prevented from leaving the molding 1 due to the ejection pressure of the cooling air because the molding 1 exits in a state in which the supply of the cooling air is blocked.

As described in detail above, the injection molding mold according to the present invention is a cooling channel is opened when the mold is coalesced through the channel opening and closing means, the cooling channel is blocked when the mold is separated, the molding according to the ejection of the cooling air It is possible to prevent the departure of the through which there is an effect that can be easily removed from the mold.

Claims (4)

In the mold for injection molding having a plurality of molds detachably coupled to each other to form a molding space therein, and a cooling passage formed through the inside of the mold for cooling the mold, An opening / closing valve provided in the middle of the cooling passage, the opening and closing valve opening and closing the cooling passage so that the cooling passage is opened when the plurality of molds are coalesced and the cooling passage is closed when the plurality of molds are separated; The mold for injection molding, characterized in that it is installed in the mold so as to be retractable, the operating rod for opening and closing the opening and closing valve while advancing in accordance with the coalescing and separating operation of the plurality of molds. delete The method of claim 1, The opening and closing valve is an injection molding mold comprising a valve groove formed in the middle of the cooling passage, and the opening and closing member for opening and closing the cooling passage while advancing into the valve groove coupled to the operating rod. The method according to claim 1 or 3, The actuating rod is a mold for injection molding, characterized in that the restoring spring for elastically supporting the actuating rod is installed so that one end of the actuating rod protrudes out of one mold when the plurality of molds are separated.