KR20160057697A - Manufacturing method of frp core - Google Patents

Abstract

Disclosed is a hot runner valve device. The hot runner valve device of the present invention comprises: a nozzle for receiving a supply of a molten resin from an injection molding cylinder, and forming an air outlet injected through a gate which forms a cavity entrance of a mold; and a resin pressure elevating pin equipped inside the nozzle for changing the elevation by the resin pressure. The hot runner valve device is capable of simplifying a structure of a driving source for driving a runner pin, thereby increasing the convenience in the treatment, the management, and the maintenance of a product.

Description

Technical Field [0001] The present invention relates to a hot runner valve device,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hot runner valve apparatus for injecting molten resin into a cavity of a mold, more particularly, It is possible to satisfactorily form molding conditions of a product using a small or precise part or a resin containing a magnesium fiber or a glass component having poor flowability and to improve the productivity and reduce the occurrence of defective parts To a hot runner valve device.

The present invention also provides a bushing for preventing leakage of resin that can stably maintain the molding environment by preventing the leakage of the resin generated at the joining portions between the constituent parts to be stably blocked even in the thermal expansion of the metal material due to the heating of the hot runner valve apparatus To a hot runner valve apparatus to which the present invention is applied.

Generally, an injection molding machine for molding a plastic product injects a resin material into a manifold from a mold cylinder in which a resin is melted. The injected resin is uniformly distributed along a resin flow path branched in the manifold, And is injected into a molding space, that is, a cavity, formed by the upper and lower cores, which are supplied by one or more nozzles, respectively, as a product molding frame.

Such an injection molding machine is configured to open and close a gate or an outlet by an elevating operation of a valve pin. When a relatively large number of molds are formed at a time according to the quantity of a molded product, a manifold type that supplies resin through the manifold is used , And a single type is used when producing a single product.

1 is a cross-sectional view schematically showing a hot runner valve apparatus for an injection molding machine for elevating and lowering a valve pin by using a high-pressure air as an operating pressure according to the prior art.

As shown in the figure, the valve apparatus of the injection molding machine for the multi-cavity mold of the prior art comprises a driving unit 100 and a valve unit 200, and high pressure air is used as a driving source for the elevating operation of the valve pin 210. That is, the driving unit 100 includes a plurality of air channels 110 and 120, which are channels for supplying and discharging high-pressure air from the outside, and a plurality of air channels 110 and 120, And the piston 140 in the cylinder 130 moves up and down by the inflowing high-pressure air. At this time, a valve pin 210 is connected to a lower end of the piston 130 to be interlocked. The valve pin 210 is structured to selectively open or close a gate or an outlet forming the tip of the nozzle 220 by moving up and down in conjunction with the piston 130.

Meanwhile, the valve device 200 includes a nozzle 220 in which a heater is wound to form a body to prevent solidification of the resin. Inside the nozzle 220, a valve pin 210 extends in a vertical direction So as to be raised and lowered. The resin channel 230 is formed around the valve pin 210 with a predetermined clearance between the outlet of the nozzle 220 and the resin channel 230 of the manifold 300, (Not shown).

When the operating pressure of the high pressure is selectively supplied through the air channels 110 and 120, the piston 140 is lifted or lowered, and at the same time, the valve pin 210 is interlocked So that the lifting operation is performed integrally. Accordingly, as the piston 140 is lifted and lowered, the outlet of the nozzle is opened or blocked. As a result, the resin supplied through the manifold 300 is supplied into or blocked from the mold through the outlet.

In brief, a valve gate (outlet) device for an injection molding machine, which operates the air pressure according to the prior art, supplies high-pressure air selectively into the cylinder 130 through the corresponding air channels 110 and 120 to lift the piston 140 And the valve pin 210 opens and closes the outlet (gate) of the nozzle in conjunction with the piston 140 at this time.

However, since the valve device according to the related art constructed as described above uses high-pressure air as an operating source for lifting and lowering the valve pin, it is necessary to employ a hermetic structure for preventing air leakage, (Compressors) are required, so that the structure becomes complicated due to the increase in volume, so that the installation space is limited, and maintenance and management are extremely poor.

In addition, when the present invention is applied to a multi-cavity mold having a plurality of nozzles, it is difficult to mass-produce a molded article having uniform quality due to the dispersion of dimensions of each nozzle.

In order to solve such a problem, the present applicant has proposed a utility model registration application No. 2002-09883 (registration number 0280604, registration decision), a utility model registration application No. 2002-09884 (registration number 0280605, Patent Registration No. 2002-09885 (Registration No. 0280606, Registration Keeping Decision), Utility Model Registration Application No. 2002-19175 (Registration No. 0290456, Registration Keeping Decision), Utility Model Registration Application No. 2003-0034932 (Registration No. 0341515), a utility model registration application No. 2003-0038360 (Registration No. 0344137 registration maintenance decision) has been registered to operate a valve pin in the vertical direction by a power source. The configuration of these valve devices is roughly divided into a nozzle and a driving means. The nozzle has a general valve structure in which resin is supplied to the inside of the nozzle and a resin flow path for injecting the resin into the mold through an outlet provided at the tip end is formed , The driving means uses a forward / reverse motor or a solenoid actuator for raising and lowering the valve pin by power supply.

As described above, the valve device of the present applicant has a structure in which a positive or negative motor or an actuator driven by a power supply is employed as a driving source, thereby making it possible to miniaturize the overall size of the valve device, In addition, the amount of movement of the valve pin can be controlled quickly and precisely.

However, in the valve devices of the present application filed by the present applicant, there is a disadvantage in that when a forward / reverse motor is used as a drive source, a reduction gear is provided and a cooling structure for cooling the motor is applied. .

On the other hand, in the case of the actuator using the solenoid principle, the structure can be relatively simplified, but there is a disadvantage in that the valve pin can not be smoothly driven at the time when the outlet moves from the opened or closed state to the relative position. This is not a solenoid actuator only. The valve pin in almost all hot runner devices is in the state that its end is inserted into the outlet when the outlet (gate) is shut off, and the other end is fitted in a bushing which supports linear movement. When the valve pin is lifted to open the outlet in this state, the stop resistance applied to the valve pin (the frictional resistance due to the supporting element such as the bushing supporting the valve pin and the frictional resistance when the outlet pin is fitted) It requires a considerable amount of power, that is, a large power. That is, most of the hot runner systems are driven by an output power higher than the rated output in order to overcome the frictional resistance acting at the time of moving to the relative position from the elevated or lowered state of the valve pin and to perform the lowering or raising operation In fact.

Accordingly, there is a problem that the manufacturing cost is increased due to a demand for a high output driving source (oil / air cylinder, station, motor, actuator), and since the volume is increased, a mold for molding a compact and precise molded article There is a problem that the degree of application is greatly restricted.

Particularly, there has been a problem in that when the product is molded by molding a compact and precise part, or by using a resin containing a glass fiber or magnesium component with poor fluidity, lifting and lowering of the valve pin is not smooth.

Japanese Patent Application Laid-Open No. 10-2010-0120794, page 5 to [0024], claims 1 and 2

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art as described above, and it is an object of the present invention to provide a resin composition which can improve the flowability of a resin to enable compact and precise part molding, The present invention provides a hot runner valve device capable of ensuring a smooth flow even in the case of a special resin.

According to a preferred embodiment of the present invention for achieving the above object, there is provided a hot runner valve device comprising: a nozzle provided with a blow-out port through which molten resin is supplied from an injection cylinder and is injected through a gate forming a cavity entrance of the mold; A hot runner valve device which is provided inside a nozzle and is lifted and lowered by a resin pressure. The hot runner valve device is provided to be lifted up and down from inside the nozzle. The lower end of the nozzle is passed through a blow- And a locking groove formed symmetrically on the outer surface of the one end of the body, and a locking groove formed at one end of the body, wherein the locking member is provided at one end of the body, A chamber plate portion in which one side is removed to form a chamber hole through which the resin is taken out, and a projection portion A resin pressure lift pin made up of an opening / closing tip for opening / closing a gate of the mold; A columnar member which is inserted into and fixed to the inside of the nozzle, and at the center thereof, a tubular body portion in which the resin pressure-raising pin is slidably fitted, and at least one of the upper and lower ends of the body portion, An elastic pressing body which is elastically fitted to the elastic displacement tube portion and has an elastic force in a direction to reduce the diameter, and an elastic pressing body which elastically presses the outer surface of the one end of the body portion in the longitudinal direction An elastic displacement bushing having an elevating rail hole for cutting an engaging groove of the resin pressure-raising pin located in the inside thereof, and a clip which is engaged with the engaging groove located at the inner side through the elevating rail hole, And a return spring having a lower end supported on an upper portion of the clip and an upper end engaged with an inner side of the nozzle to apply an elastic supporting force so that the resin pressure-moving pin lifted upward is lowered.

According to a preferred aspect of the present invention, the resin pressure-lifting pin has a space filled with resin taken out through the chamber hole to the periphery of the chamber plate portion.

In another preferred aspect of the present invention, the elastic pressing body is any one of an annular band spring or a coil spring which exerts an elastic force in a direction to contract the diameter.

According to another preferred embodiment of the present invention, a hot runner valve device is provided with a nozzle which receives a molten resin from an injection cylinder and forms an injection port for injecting the molten resin through a gate forming a cavity entrance of the mold, And a guide bushing fixedly installed at one side of the nozzle and having a valve-slidably fitted inside the valve pin at the center of the valve pin, And the guide bushing further comprises a diameter variable elastic pressing body which exerts an elastic force on the outer surface in a direction to contract the diameter.

The hot runner valve apparatus according to the present invention can keep the flowing flowability of the resin satisfactorily as the opening and closing of the gate is controlled by the resin pressure lifting pin through which the resin flows to the inner center, The molding conditions for the contained resin can be satisfactorily formed and the structure of the drive source for driving the runner pin can be simplified. As a result, not only the convenience of maintenance and handling management of the product can be improved, It is possible to greatly increase the degree of freedom in applying and designing the mold through volume reduction, thereby providing a very industrially useful effect.

In order to prevent leakage of the resin according to the present invention, the bushing having a resilient shrinkage displacement in the radial direction is used for forcibly shrinking the diameter of the bushing by the elastic force in fixing the movable component such as the elevating pin and the valve pin, Such as a lift pin and a valve pin, which are fitted in the inside of the housing, can be minimized, and resin leakage can be originally blocked.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to that, terms and words used in the present specification and claims should not be construed in a conventional and dictionary sense, and the inventor may properly define the concept of the term in order to best explain its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

1 is a cross-sectional view of a hot runner valve apparatus for an injection molding machine according to the prior art,
FIG. 2 is a cross-sectional view showing a state in which a gate is opened to supply resin in a hot runner valve apparatus according to the present invention,
3 is a cross-sectional view illustrating a state in which a gate is blocked in a hot runner valve apparatus according to the present invention,
FIG. 4 is an exploded cross-sectional view illustrating a structure of a resin pressure-lifting pin and an elastic displacement bushing in a hot runner valve apparatus according to the present invention;
5 is a perspective view illustrating a state in which the resin pressure-lifting pin and the elastic displacement bushing are assembled in the hot runner valve apparatus according to the present invention.
6 is an exploded perspective view for explaining the structure of the resin pressure-lifting pin and the elastic displacement bushing in the hot runner valve apparatus according to the present invention,
7 is a cross-sectional view schematically showing a configuration of a hot runner valve apparatus according to another embodiment of the present invention.

Hereinafter, a hot runner valve apparatus according to the present invention will be described with reference to the accompanying drawings.

First, it should be noted that the same components or parts among the drawings are denoted by the same reference numerals as possible. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

2 to 6 are views showing a hot runner valve apparatus according to one preferred embodiment of the present invention. FIG. 2 shows a state in which the resin pressure-lifting pin 20 is lifted by the resin pressure supplied from the injection cylinder In this state, as the blow out port (not shown) of the nozzle 10 is opened, the resin supplied into the nozzle 10 is moved to the gate of the mold m.

3, when the filling of the resin in the mold is completed, the resin supplied from the injection cylinder is blocked, so that the resin pressure-lifting pin 20 provided inside the nozzle 10 is elastically restored Closing tip portion 27 provided at the end of the resin pressure-lifting pin 20 passes through the outlet of the nozzle 10 and is guided to the gate of the mold m by the elastic supporting force in the downward direction, (g) to interrupt the supply of the resin.

4 to 6 are views for explaining the structure of the resin pressure-lifting pin 20 and the elastic displacement bushing 30. In the figure, the resin bushing 30 is provided with a tubular shape, A locking groove portion 35h having a groove symmetrically formed on an outer surface of one end of the body portion 21 and a locking groove portion 35h formed at an end portion of the body portion 21, A chamber hole 25h formed in a portion connecting the chamber plate portion 25 and the body portion 21 to form a passage through which the resin flows out and a chamber hole 25h formed in a portion of the chamber plate portion 25, There is shown a resin-made lift pin 20 made of an opening / closing tip portion 27 provided at an end portion and selectively connected to the gate g of the metal mold.

A body portion 31 provided with a slide hole 30h so as to allow the resin pressure-lifting pin 20 to be slidably inserted into the center of the body, An elastic displacement tube portion 36 which is formed at one or both of the upper and lower ends so as to have a reduced thickness and is elastically fitted to the elastic displacement tube portion 36 so that the diameter is contracted or reduced And the engaging groove 23 of the resin pressure-lifting pin 20, which is located inside the elastic body 35, is exposed in the longitudinal direction of the outer surface of the one end of the body portion 31, And a clip 39 that is engaged with the lifting and lowering rail hole 33 and the lifting and lowering rail hole 33 and the lifting and lowering rail hole 33 is engaged with the lifting and lowering hole 23, have.

A resin passage 10h is formed at the left side of the elastic displacement bushing 30 and is a passage through which resin is supplied from the injection cylinder to an inner center of the elastic displacement bushing 30. A return spring 40 and a resin pressure- There is shown a nozzle body 11 constituting a nozzle 10 providing a space in which the nozzle 30 is installed.

The configuration of the hot runner valve apparatus 1 of the present invention will be described with reference to the drawings.

First, the hot runner valve apparatus according to the present invention can be connected to a manifold 10, which is supplied with resin from an injection cylinder (not shown) and branches and supplies the resin, or can be directly connected to an injection cylinder, A nozzle 10 composed of a nozzle body 11 having a tubular shape and a nozzle tip 13 having a conical shape which is assembled to one end of the nozzle body 11 and is reduced in diameter while being advanced to the end, A resilient displacement bushing 30 fixedly installed inside the nozzle 10 and having a resiliently resiliently slidingly inserted resin pressure-sensitive lift pin 20 therein, And a return spring 40 that applies an elastic supporting force so as to be lowered at the time of ascending.

The nozzle 10 includes a nozzle body 11 having a hollow cylindrical shape and a heater (not shown) wound around the outer circumferential surface thereof and a heating element. The nozzle body 11 is provided at one end of the nozzle body 11 and moves downward And a nozzle tip 13 formed with a blowout opening (not shown) through which the resin is discharged with a reduced diameter.

The nozzle body 11 is formed with an inlet (not shown) connected to the manifold on the upper side with respect to the drawing and supplied with the resin, and the resin introduced on the opposite side is connected to the resin- (Not shown) having a reduced diameter to be taken out to the cavity of the rear mold m is formed.

The nozzle tip 13 may be formed integrally with the nozzle body 11 in such a manner that the nozzle tip 13 is formed in a substantially conical shape with a reduced diameter as it proceeds toward the cavity side of the mold m. The nozzle tip 13 and the nozzle body 11 are machined separately and then assembled by screw tightening. The construction of the nozzle tip 13 and the nozzle body 11 are well known in the art and will not be described in detail. The nozzle 20 having such a configuration is configured to supply the resin to a resin pressure lift pin 20 to be described later which is supplied with high-pressure resin from the injection cylinder and which can be elevated inside the nozzle 20. [

A portion of the nozzle 20 having such a structure in which a lift-up operation can be performed in a state in which a resin pressure lift pin 20 to be described later is inserted into the nozzle 20 may be performed by a known technique, and a detailed description thereof will be omitted.

The resin pressure lifting pin 20 is provided to move up and down within the nozzle 10 so that the end of the resin lifting pin 20 passes through the outlet opening and closes the gate g of the mold m.

The resin pressure lifting pin 20 includes a body portion 21 having a tube shape and a resin passage 20h through which the resin flows at the center of the body portion 21, And a clamping groove 23 in which a clip 39 to be described later is inserted and which is provided at one end of the body 21 and which is reduced in diameter while being downwardly moved, A chamber plate portion 25 having a plate shape having a hole 25h formed therein and an opening / closing tip portion 25b protruding from an end portion of the chamber plate portion 25 and being selectively inserted into the gate g of the mold, (27).

That is, in the resin pressure-lifting pin 20 of the present invention, the resin taken out through the chamber hole 25h is filled in the space c formed between the chamber plate portion 25 and the nozzle tip 13 As a result, as the pressure of the resin supplied from the injection cylinder acts on the space c, the resin pressure-raising pin 20 is moved upward. Since the portion of the nozzle tip 13 of the nozzle 10 is in a state of being thermally cooled (a state in which the contents molded in the cavity of the mold are taken out and then cooled), the resin remaining on the side of the blowout port remains in a solidified state, As the resin supplied from the injection cylinder can not be taken out through the outlet, the pressure of the space c filled with the resin becomes large, and the resin pressure-lifting pin 20 moves up.

When the high-temperature resin supply pressure in the molten state gradually increases in the state where the resin pressure-lifting pin 20 is lifted up, the resin in the solidified state is melted on the side of the outlet side, and consequently the resin flows into the cavity of the mold through the outlet It will be possible.

The elastic displacement bushing 30 is a columnar member which is inserted into and fixed to the inside of the nozzle 10 and is formed at the center thereof with a tubular body portion 31 in which the resin pressure- An elastic displacement tube portion 36 formed at one or both of the upper and lower ends of the body portion 31 and having a reduced thickness with respect to the body portion 31; And a resilient pressing member 35 for elastically pressing the elastic pressing member 35 in a direction to reduce the diameter of the elastic body 35. The resilient pressing member 35 cuts the outer surface of the one end of the body 31 in the longitudinal direction, A lifting rail hole 33 for exposing the engaging groove 23 of the lifting rail 20 and a clip 39 which is engaged with the lifting and lowering engaging groove 23 at one end thereof through the lifting rail hole 33, .

An annular band spring or a coil spring that exerts an elastic force in the direction of contracting the diameter may be used as the elastic pressing body 35. The elastic pressing body 35 may be formed by machining the elastic displacement bushing 30 and the resin pressure- The degree of shrinkage of the elastic displacement tube portion 36 and the elastic force of the elastic pressing body 35 in consideration of the thermal expansion due to the heating of the resin pressure lift pin 20.

The return spring 40 is an element for guiding the downward movement without a separate driving source in a state in which the resin pressure lifting pin 20 is moved upward.

That is, the resin pressure-lifting pin 20 is moved upward by the pressure of the resin supplied from the injection cylinder, and is moved to the home position when the supply of the resin from the injection cylinder is interrupted. According to the present invention, the lower end of the clip 39 is supported at its lower end, and the upper end thereof is hooked on one side of the nozzle 10, so that the resin pressure- ).

That is, the return spring 40 of the present invention includes a clip 39 connected to the resin pressure-lifting pin 20 in a state in which an upper end portion is fixed to one end of the nozzle body 11 constituting the nozzle 10 ), And that a coil spring is used.

Meanwhile, the return spring 40 in the present invention is preferably selected in consideration of the pressing force required when the resin pressure-raising pin 20 is lowered.

Meanwhile, FIG. 7 schematically shows an example in which the elastic displacement bushing 30, which is one of the main technical features of the present invention, is applied to a conventional valve pin type hot runner valve device.

Referring to FIG. 1, there is shown a nozzle 10 'having a nozzle 10' through which a molten resin is supplied from an injection cylinder and is injected through a gate forming a cavity entrance of the mold, and a nozzle 10 ' A valve pin vp for interrupting the gate at the time of descending and a guide bushing 50 which is fixed to one side of the nozzle 10 'and has a valve pin vp slidably inserted therein, In the known hot runner valve device, the guide bushing 50 is further provided with a diameter variable elastic pressing body 35 'which exerts an elastic force on the outer surface in a direction to contract the diameter.

In this case, the elastic pressing body 35 'may be an annular band spring or a coil spring which exerts an elastic force in a direction to contract the diameter, and preferably a band spring is applied.

The operation of the hot runner valve apparatus according to the preferred embodiment of the present invention will now be described.

As shown in FIG. 2, when molten resin of high temperature and high pressure is supplied from the injection cylinder to the resin flow path 20h of the resin pressure lift pin 20 located inside the nozzle 10 through the nozzle 10, The residual resin around the outlet of the nozzle tip 13 is in a solid state. When the high-temperature and high-pressure molten resin is supplied to the resin pressure-lifting pin 20 in this state, a part of the molten resin passes through the chamber hole 25h and is pressed into the space c, . Of course, the pressing force of the resin acting on the injection cylinder is several times to several tens times larger than that of the return spring 40.

Then, when the resin pressure-lifting pin 20 moves up to the maximum lifting position, the resin pressure in the space c and the temperature of the resin to be supplied cause the resin in the solidified state around the outlet to melt, The resin passes through the gate g of the mold m through the blow-out port.

Meanwhile, when the injection of the resin into the cavity of the mold is completed, the injection cylinder blocks the supply of resin. At the same time, as the resin pressure applied to the resin pressure-lifting pin 20 is released, The opening and closing tip portion 27 provided at the end portion of the resin pressure up and down pin 20 contacts the gate g of the mold m by the resilient restoring force, .

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but that various changes and modifications may be made therein without departing from the spirit and scope of the invention. It is obvious to those who have knowledge. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

1: Hot runner valve device 10: Nozzle
10h: resin flow path 11: nozzle body
13: Nozzle tip 20: Hydraulic pressure lift pin
21: body portion 23:
25: chamber plate portion 27: opening /
30: elastic displacement bushing 31:
33: lift rail hole 39: clip
40: return spring

Claims (4)

A nozzle 10 which receives a molten resin from an injection cylinder and forms an injection port for injecting the molten resin through a gate forming a cavity entrance of the mold and a resin pressure rising / In the hot runner valve device including the pin 20,
The nozzle body 10 includes a nozzle body 10 and a nozzle body 10. The nozzle body 10 includes a nozzle body 10, The body portion 21 has an engaging groove 23 formed at one end of its outer surface symmetrically with the groove and a groove 23 formed at one end of the body portion 21, A chamber plate portion 25 having a hole 25h formed therein and a resin pressure rising pin 20 protruding from an end portion of the chamber plate portion 25 and composed of an opening and closing tip portion 27 for opening and closing the gate g of the mold )and;
Shaped member which is inserted into and fixed to the inside of the nozzle 10 and which has a tubular body 31 in which the resin pressure-lifting pin 20 is slidably fitted, and a tubular body 31 The elastic displacement tube portion 36 has a reduced thickness with respect to the body portion 31. The elastic displacement tube portion 36 is elastically fitted to the elastic displacement tube portion 36, An elastic pressing body 35 that exerts an elastic force in the direction of reducing the length of the resin pressure-receiving part 20 and an outer surface of the one end of the body part 31 is cut in the longitudinal direction to expose the engagement groove 23 of the resin pressure- An elastic displacement bushing 30 having a lifting rail hole 33 for lifting and lowering the lifting rail hole 33 and a clip 39 for lifting and lowering the lifting rail hole 33 and the lifting rail hole 33 at the inner side of the lifting rail hole 33;
A return spring 40 having a lower end supported on the upper portion of the clip 39 and having an upper end engaged with one side of the nozzle 10 to cause the resin pressure lifting pin 20 lifted down to apply an elastic supporting force;
Wherein the valve body is formed of a metal plate.
The resin pressure-lifting pin according to claim 1, wherein the resin pressure-lifting pin (20) is formed with a space (c) filled with resin taken out through a chamber hole (25h) Device.
2. The hot runner valve device according to claim 1, wherein the elastic pressing body (35) is any one of an annular band spring or a coil spring which exerts an elastic force in a direction to contract the diameter.
A nozzle 10 'which is supplied with molten resin from an injection cylinder and has an outlet for injecting the molten resin through a gate forming a cavity entrance of the mold, and a nozzle 10' And a guide bushing 50 fixedly installed at one side of the nozzle 10 'and having a tubular guide slidably fitted in the valve pin vp at the center thereof. In the runner valve device,
Wherein the guide bushing (50) is further provided with a diameter variable elastic pressing body (35 ') which exerts an elastic force on the outer surface in a direction to contract the diameter.

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