KR20100008869A - Hot runner system and injection molding method using the same - Google Patents

Abstract

PURPOSE: A hot runner system and injection molding method using the same is provided to prevent the addition of a cost due to a cutting post-process of a gate by cutting it during an injection molding. CONSTITUTION: A hot runner system consists of a nozzle(20) and a valve pin(30). The valve pin is installed within the nozzle. A groove(32) is formed on the circumference of the valve pin, and forms a gate. The gate makes resin flow into a cavity of a mold depending on the operation of the valve pin. The cutting unit is formed in the groove. The cutting part cuts the resin filled in the gate.

Description

Hot Runner System and Injection Molding Method using the same

The present invention relates to a hot runner system capable of easily forming a disc gate and a side gate to complete a molded article, and an injection molding method using the same.

In general, a hot runner system includes a mold in which a plurality of flat plate plates are stacked, a manifold formed in any one of the mold plates, a nozzle installed vertically in the mold and communicating with the manifold; And a valve pin installed inside the nozzle for supplying resin to the mold cavity, and a cylinder for operating the valve pin.

On the other hand, in the hot runner system as described above, the molded article may be injection molded by forming various types of gates. In the hot runner system, the gate is cut after completion of the molded article in order to injection molded the molded article by forming a disc gate or a side gate. There is a hassle to go through the process after.

Specifically, in the hot runner system, in order to injection molding a molded part by forming a disc gate or a side gate, an exclusive injection machine which cuts the gate by operating an ejector in the mold after completion of the molded part, or using a hydraulic apparatus or Difficulties have to be made in the construction of complex molds for cutting gates by operating a millpin or sprue bush.

In addition, in the hot runner system, in order to inject a molded article by forming a disc gate or a side gate, a cold runner must be formed between the nozzle and the gate, and the molten resin flows through the cold runner to the gate.

Therefore, in the hot runner system as described above, the cost is increased by the addition of a post process for cutting the gate, and there is a problem in that the mold structure is complicated and the investment cost due to the provision of dedicated equipment is increased.

In addition, the method of injection molding a molded article by forming a cold runner between the nozzle and the gate has a severe problem of loss of resin because the cold runner must be discarded after completion of the molded article.

The present invention is to solve such a problem, it is an object of the present invention to provide a hot runner system that can easily cut the disk gate or side gate, and can reduce the loss of the resin.

Hot runner system according to an embodiment of the present invention includes a nozzle and a valve pin installed in the nozzle,

The groove around the valve pin is provided with a groove for forming a gate to flow the resin into the cavity of the mold in accordance with the operation of the valve pin,

The groove is provided with a cutting portion for cutting the resin filled in the gate.

The gate is a disk gate, the groove is characterized in that the annular formed around the valve pin.

The gate is a side gate, characterized in that a plurality of grooves are formed around the valve pin.

The valve pin has a first position for blocking between the nozzle and the cavity and a second position for partially exposing to the outside of the nozzle to form the gate between the nozzle and the cavity by the groove. It features.

The groove is disposed inside the nozzle when the valve pin is located in the first position, and partially exposed to the outside of the nozzle when the valve pin is located in the second position to form the gate. do.

The cutting portion is a surface formed in front of the groove exposed to the outside of the nozzle when the valve pin is located in the first position,

The cutting unit may cut the resin filled in the gate when the valve pin moves from the first position to the second position.

The cutting portion is characterized in that the inclined surface inclined in the inward direction of the nozzle to increase the cutting force for cutting the gate.

The inside of the valve pin is characterized in that the heater for preventing the heat loss generated when the valve pin is in contact with the mold.

The end of the valve pin is equipped with a heater block equipped with a heater,

The heater is characterized in that installed through the valve pin and the heater block.

In addition, the injection molding method using a hot runner system according to an embodiment of the present invention is supplied to the nozzle to the valve pin is installed, the valve pin is advanced to form a gate between the nozzle and the cavity of the mold The resin is flowed into the cavity, the valve pin is reversed to cut the resin filled in the gate by the groove formed around the valve pin, and the resin is supplied to the cavity.

The gate is characterized in that the disk gate or side gate.

The groove is a surface formed in front of the groove that is exposed to the outside of the nozzle when the valve pin is located in the first position,

The cutting unit may cut the resin filled in the gate when the valve pin moves from the first position to the second position.

Hot runner system according to an embodiment of the present invention can cut the gate in the process of injection molding the molded article by the groove of the valve pin, it is possible to prevent the additional cost due to the post-process for cutting the gate, It is possible to manufacture a mold of a simple structure has the effect of reducing the investment cost.

In addition, the hot runner system according to the embodiment of the present invention forms the disc gate or the side gate by the groove of the valve pin, so that it is not necessary to form a cold runner, it is possible to reduce the loss of the resin.

First, the hot runner system according to an embodiment of the present invention is to implement a disk gate that forms a gate around an inner 360 degree of the cylindrical molded article, and may also be implemented for side gates. Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

Referring to FIG. 1, a hot runner system according to an embodiment of the present invention is installed in a mold in which a plurality of flat plate plates are stacked. The mold as described above may be composed of a clamping plate (1), a space plate (2), a holding plate (3), a cavity plate (4) from the upper side, and after a separate processing process, the laminated coupling in a separate state do. The cavity 5 for injection molding a molded article is formed between the holding plate 3 and the cavity plate 4.

The hot runner system includes a manifold 10 for supplying molten resin, a nozzle 20 having a valve pin 30 installed therein for supplying molten resin to the mold cavity 5, and a nozzle ( A cylinder 40 for actuating the valve pin 30 of 20.

The manifold 10 serves as a passage for moving the supplied molten resin to various positions, and may be installed inside the space plate 2 among the plurality of flat plates. A nozzle locator 15 is installed above the central portion of the manifold 10 to allow molten resin to flow into the manifold 10. The manifold 10 is introduced through the nozzle locator 15. The channel 11 through which the resin to be moved is formed. In addition, the manifold 10 is provided with a heater (not shown) for maintaining the resin introduced into the container at a constant temperature.

The channel 11 of the manifold 10 is connected to a nozzle 20 for discharging the resin into the cavity 5 of the mold. The nozzle 20 is installed vertically in a mold in which a plurality of flat plates are stacked. A nozzle body 21 having a channel 22 communicating with a channel 11 of a manifold 10 is formed, and the nozzle It includes a valve pin 30 installed in the body 21. In addition, a heater (not shown) may be installed on the outer surface of the nozzle 20 to maintain a constant temperature of the resin, and a temperature sensor (not shown) for detecting the temperature of the resin is installed inside the nozzle 20. Can be installed.

The cylinder 40 for operating the valve pin 30 is installed above the nozzle 20. Such a cylinder 40 may be driven by pneumatic or hydraulic pressure, and may be driven by other means known in the art.

The valve pin 30 is installed through the channel 22 of the nozzle. The valve pin 30 is connected to the first position and the nozzle 20 to block the channel 22 of the nozzle and the cavity 5 according to the driving of the cylinder 40. And a second position where the gate 7 (see FIG. 7B) is formed between the cavity 22 and the channel 22 of the nozzle by the groove 32 to be described later.

A groove 32 is formed around the valve pin 30 as shown in FIG. 2. The groove 32 is located inside the nozzle 20 or partially exposed to the outside of the nozzle 20 according to the position of the valve pin 30 operated by the driving of the cylinder 40.

The groove 32 is a part of the groove 32 is exposed to the outside of the nozzle 20 when the valve pin 30 is advanced from the first position to the second position by the driving of the cylinder 40, the channel of the nozzle ( A gate 7 is formed between the cavity 22 and the cavity 5, and when the valve pin 30, which has advanced to the second position after completion of the molded article, moves backward to the first position, the gate 7, that is, the gate ( It cuts the resin filled in 7).

In the hot runner system of the present invention, such a groove 32 is formed as an annular groove 32 'around the valve pin 30 when forming the disc gate (see FIG. 3). In the hot runner system of the present invention, a plurality of grooves 32 " are formed around the valve pin 30 when forming the side gates (see Fig. 4).

The groove 32 is provided with a cut portion 33 formed in a horizontal plane to cut the gate 7 formed between the channel 22 of the nozzle and the cavity 5, that is, the resin filled in the gate, as described above. The cut part 33 is a surface formed in front of the groove 32 which is exposed to the outside of the nozzle 20 when the valve pin 30 is advanced.

In addition, the cut portion 33 of the groove 32 has an inclined surface 34 'inclined at an angle inwardly of the nozzle 20 in order to increase the cutting force for cutting the gate 7 as shown in FIG. 5A. As shown in FIG. 5B, a rounded surface 34 ″ rounded inwardly of the nozzle 20 may be formed.

In addition, when a part of the valve pin 30 is exposed to the outside of the nozzle 20, the valve pin 30 is in contact with the mold to generate heat loss. Heaters are mounted to prevent solidification. When injection molding a large molded article in the hot runner system of the present invention, as shown in FIG. 2, the heater 36 is mounted in a heater mounting groove formed in the valve pin 30. In addition, in the case of injection molding a small and medium-sized molded article in the hot runner system of the present invention, as shown in FIG. 6, a heater block 37 equipped with a heater 36 ′ is mounted at an end portion of the valve pin 30. 36 ′ may be installed in the heater mounting groove formed in the valve pin 30 and the heater block 37.

Looking at the injection molding method using a hot runner system according to an embodiment of the present invention with reference to the drawings as follows.

First, in the hot runner system according to the present invention, in order to form a disc gate or side gate to injection-molded a molded product, the resin melted into the manifold 10 through the nozzle locator 15 as shown in FIGS. 1 and 7A. The resin supplied to the manifold 10 is supplied to the nozzle 20 through the channel 22 of the nozzle in communication with the channel 11 of the manifold.

In the process of supplying the resin into the nozzle 20 as described above, the valve pin 30 is positioned at a first position that blocks the channel 22 of the nozzle and the cavity 5.

Thereafter, when the valve pin 30 is advanced to the second position by the driving of the cylinder 40 as shown in FIGS. 1 and 7B, the groove 32 formed on the outer surface of the valve pin 30 has a predetermined portion. A portion of the nozzle 20 is exposed to the outside to form a disc gate or side gate between the channel 22 and the cavity 5 of the nozzle. As such, when the gate 7 is formed between the channel 22 of the nozzle and the cavity 5, the resin is supplied to the cavity 5. In addition, in the above process, when the valve pin 30 protrudes out of the nozzle 20, heat loss may be prevented from occurring by the heater 36 mounted on the valve pin 30.

Next, when the molten resin is filled into the cavity 5 as shown in FIGS. 1 and 7C, the supply of the resin is stopped and the valve pin 30 is returned to the first position by driving the cylinder 40. Reverse As described above, the groove 32 formed on the outer surface of the valve pin 30 in the process of backing the valve pin 30 back to the first position has a gate 7 formed between the channel 22 of the nozzle and the cavity 5. In other words, the resin filled in the disc gage or the side gate is cut, and the gap between the channel 22 of the nozzle and the cavity 5 is cut off.

Then, when the molded article is taken out from the cavity 5, the injection molding method using the hot runner system according to the embodiment of the present invention is completed.

That is, in the hot runner system according to the embodiment of the present invention, the gate 7 may be cut by the groove 32 formed in the valve pin 30 in the process of injection molding the molded article. After that, it is possible to prevent the use of a dedicated injection molding machine or a mold having a complicated structure. Accordingly, it is possible to prevent the additional cost due to the post-process for cutting the gate 7 and to manufacture a mold having a simple structure, thereby reducing the investment cost.

In addition, in the hot runner system according to an embodiment of the present invention, unlike the conventional method of forming a cold runner between the nozzle 20 and the gate 7 so as to implement a disc gate and a side gate, it is not necessary to form a cold runner. The loss of resin can be reduced.

1 is a cross-sectional view showing a hot runner system according to an embodiment of the present invention.

2 is an enlarged cross-sectional view of a portion of FIG. 1.

3 is a perspective view illustrating the valve pin shown in FIG. 2.

4 is a perspective view showing another embodiment of the valve pin shown in FIG.

Figure 5a is a cross-sectional view showing another embodiment of the cut portion of the groove formed in the valve pin in the embodiment of the present invention.

Figure 5b is a cross-sectional view showing another embodiment of the cut portion of the groove formed in the valve pin in the embodiment of the present invention.

6 is a cross-sectional view showing another embodiment of the heater mounting structure of the valve pin in the embodiment of the present invention.

7A and 7C are diagrams for explaining the operation of the hot runner system according to the embodiment of the present invention.

<Description of Signs of Major Parts of Drawings>

5: cavity 7: gate

10: manifold 20: nozzle

22: channel 30 of the nozzle 30: valve pin

32: groove 33: cutout

34 ': Slope 34 ": Round

36, 36 ': heater 40: cylinder

Claims (12)

In the hot runner system comprising a nozzle and a valve pin installed inside the nozzle, The groove around the valve pin is provided with a groove for forming a gate to flow the resin into the cavity of the mold in accordance with the operation of the valve pin, Hot runner system, characterized in that the cut portion for cutting the resin filled in the gate. The method of claim 1, The gate is a disk gate, And the groove is annularly formed around the valve pin. The method of claim 1, The gate is a side gate, The groove is a hot runner system, characterized in that a plurality is formed around the valve pin. The method according to any one of claims 1 to 3, The valve pin has a first position for blocking between the nozzle and the cavity and a second position for partially exposing to the outside of the nozzle to form the gate between the nozzle and the cavity by the groove. Featured hot runner system. The method of claim 4, wherein The groove is disposed inside the nozzle when the valve pin is located in the first position, and partially exposed to the outside of the nozzle when the valve pin is located in the second position to form the gate. Hot runner system. The method of claim 5, The cutting portion is a surface formed in front of the groove exposed to the outside of the nozzle when the valve pin is located in the first position, And the cutout cuts the resin filled in the gate when the valve pin moves from the first position back to the second position. The method of claim 6, And the inclined surface inclined inwardly of the nozzle to increase the cutting force for cutting the gate. The method of claim 4, wherein The inside of the valve pin is a hot runner system, characterized in that the heater for preventing the heat loss generated when the valve pin is in contact with the mold. The method of claim 4, wherein The end of the valve pin is equipped with a heater block equipped with a heater, The heater is a hot runner system, characterized in that installed through the valve pin and the heater block. Supply resin to the nozzle where the valve pin is installed, Advancing the valve pin to form a gate between the nozzle and the cavity of the mold to flow resin into the cavity, Injection molding method using a hot runner system to reverse the valve pin to cut the resin filled in the gate by the groove formed around the valve pin and cut off the supply of the resin to the cavity. The method of claim 10, Injection gate method using a hot runner system, characterized in that the gate is a disk gate or a side gate. The method of claim 11, The groove is a surface formed in front of the groove that is exposed to the outside of the nozzle when the valve pin is located in the first position, And the cutting part cuts the resin filled in the gate when the valve pin moves from the first position to the second position.

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