KR101410017B1 - Valve Pin Guide Apparatus Equipped with Hot Runner System - Google Patents

Abstract

The present invention relates to a hot runner system with a valve pin guide device.
The present invention relates to a hot runner system provided with a valve pin guide device, wherein an upper end of the valve pin is engaged, and an up-and-down sliding movement is performed in an installation hole formed in the upper- Cylinder plate; A valve pin cover having a plurality of pins formed on the cylinder plate and having a pin fixing member so that an upper end of the valve pin can be inserted and fixed; And a cylinder assembly connected to the cylinder plate and configured to perform a sliding motion of the cylinder plate.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hot runner system having a valve pin guide device,

The present invention relates to a hot runner system with a valve pin guide device. More specifically, the cylinder plate for guiding the valve pin and the guide cylinder assembly constitute the interference between the respective cylinders for actuating the valve pin configured in the nozzle when the pitch between the nozzle and the nozzle provided in the hot runner system is close to The present invention relates to a hot runner system provided with a valve pin guide device capable of shortening the process time of injection molding as a plurality of valve pins can be driven simultaneously and maintenance of the valve pin is simplified will be.

Generally, in the injection molding, the hot runner system is an open system of injection molding, in which a valve system for opening and closing a gate of a mold while advancing and retreating a valve pin, And a system in which the gate is temporarily solidified and taken out.

1 is a schematic view of a hot runner system according to the prior art.

As shown in the drawing, the hot runner system according to the prior art includes a manifold 130 including a manifold flow path 132, which is a resin flow path through which the resin is supplied and moved, a manifold 130 connected to the manifold flow path 132, A nozzle 120 installed on the reinforcing plate 104 to discharge the resin supplied to the gate 112 of the cavity plate 102 and a nozzle 120 installed on the manifold 130 to discharge the resin supplied to the gate 112 of the cavity plate 102. [ A valve pin 160 inserted in the inner diameter of the folding line 132 and the inner diameter of the nozzle 120 to selectively open and close the nozzle 120 while lifting the center of the folding line 132, And a cylinder 170 in which a pair of air lines for providing a pressure for raising and lowering the valve pin 160 are formed.

Particularly, in the case of the valve system, the upper end must be mounted on the piston 130 for operation of the valve pin 160, and the lower end thereof is passed through the inner diameter of the manifold flow path 132 of the manifold 130, The valve pin 160 must be formed in a shape of a long long axis because the supply and interruption of the resin should be determined by the rising and falling of the valve pin 160.

When the extreme small size product is injected or the distance between the gates 112 is short and the valve system is difficult to apply, the open system is mainly applied. When the diameter of the gate 112 is reduced, The gate 112 is clogged by the resin that is cooled, so that continuous injection can not be performed.

The hot runner system according to the related art has a problem that when the product has a narrow width or when the molded product has many ribs and the gap is narrow so that it is difficult to form the gate 112 directly on the product surface, There is a problem that smooth injection molding can not be performed due to interference between the valve pin 160 of the valve system and the cylinder 170 that drives the valve pin 160, there was.

Further, in order to repair or replace the valve pin 160, it is necessary to remove the cover, the piston, and the valve pin of the cylinder 170 as well as the support pad and the guide bush. There is a problem that it takes a lot of time.

In order to solve the above problems, the present invention provides a cylinder plate for guiding a valve pin and a guide cylinder assembly for constituting a guide cylinder assembly so that when the pitch between the nozzle and the nozzle formed in the hot runner system is close, So that interference between the respective cylinders is prevented.

It is another object of the present invention to provide a valve pin guide device capable of shortening the time required for injection molding by simultaneously driving a plurality of valve pins, and simplifying the maintenance of the valve pin.

According to an aspect of the present invention, there is provided a hot runner system including a valve pin guide device, wherein an upper end of the valve pin is coupled to a mounting hole formed in the upper fixing plate, A cylinder plate on which upward and downward sliding movements are performed; A valve pin cover having a plurality of pins formed on the cylinder plate and having a pin fixing member so that an upper end of the valve pin can be inserted and fixed; And a cylinder assembly connected to the cylinder plate and configured to perform a sliding motion of the cylinder plate.

According to the present invention, the cylinder plate is provided with a guide pin for preventing the cylinder plate from tilting to the left or to the right so as to perform stable sliding motion on the upper fixing plate. Runner system.

According to the present invention, the guide pin is inserted into a pin mounting hole formed in a cylinder plate, and a guide bush is formed on an outer circumferential surface of the guide pin to allow smooth sliding movement of the cylinder plate. A hot runner system is provided.

In the present invention, the cylinder plate is provided with a plurality of cover insertion grooves for mounting a valve pin cover for fixing the valve pin, and a cylinder assembly for sliding movement of the cylinder plate, And a connecting hole is formed on both sides of the valve pin guide device.

In the present invention, the cylinder assembly may include a cylinder block installed in the upper fixing plate, communicating with the internal space, and having an air line connected to the solenoid valve; A cylinder housing installed in an inner space of the cylinder block and having first and second outflow holes and second outflow holes for communicating with the air line so that compressed air can be introduced into or out of the cylinder housing; A piston provided inside the cylinder housing and supporting the sliding movement of the cylinder plate while moving up and down through compressed air introduced through the first inlet and outlet holes and the second inlet and outlet holes; A coupling shaft having an upper side coupled to the cylinder plate and a lower side engaged with the upper portion of the piston to operate the cylinder plate according to the operation of the piston; And a cylinder cover that closes the opened one side of the cylinder housing to allow air to flow in and out through the air line only.

According to another aspect of the present invention, there is provided a valve pin guide device having an upper portion of the cylinder cover on which a lower end protruding from the piston is seated to form a predetermined space between the piston and the cylinder cover Provides a hot runner system.

According to an embodiment of the present invention, a sealing member may be formed on the outer circumferential surface of the piston to closely contact the inner circumferential surface of the cylinder cover, and a connecting portion may be formed on the piston so that the connecting shaft may be connected to the piston to securely fix the piston. Wherein the valve pin guide device is provided with a valve pin guide device.

Also, in the present invention, a plurality of O-rings for preventing watertightness are formed in the cylinder assembly. The present invention provides a hot runner system having a valve pin guide device.

According to the present invention, when the pitch between the nozzle and the nozzle arranged in the hot runner system is close to that of the cylinder plate for guiding the valve pin and the guide cylinder assembly, It is possible to prevent the occurrence of interference between the two.

Further, according to the present invention, since a plurality of valve fins can be driven simultaneously, not only the process time of injection molding can be shortened, but also the maintenance of the valve pin is simple.

1 is a schematic illustration of a hot runner system according to the prior art,
FIG. 2 illustrates a hot runner system having a valve pin guide apparatus according to a preferred embodiment of the present invention; FIG.
3 and 4 are views showing a cylinder plate of a valve pin guide apparatus according to a preferred embodiment of the present invention,
5 is a view illustrating a cylinder assembly of a valve pin guide apparatus according to a preferred embodiment of the present invention.
6 and 7 are views showing an operation state of the valve pin guide apparatus according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. 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.

FIG. 2 is a view showing a hot runner system equipped with a valve pin guide apparatus according to a preferred embodiment of the present invention, and FIGS. 3 and 4 are views showing a cylinder plate of a valve pin guide apparatus according to a preferred embodiment of the present invention. FIG. 5 is a view showing a cylinder assembly of a valve pin guide apparatus according to a preferred embodiment of the present invention, and FIGS. 6 and 7 are views showing operation states of a valve pin guide apparatus according to a preferred embodiment of the present invention.

The hot runner system provided with the valve pin guide device of the present invention includes a valve pin cover 210 to which the upper end of the valve pin 160 is fixed and a mounting hole 202 formed in the upper fixing plate 204, A guide pin 230 for supporting the cylinder pin 220 to be stably lifted and lowered to the upper fixing plate 204 and a cylinder pin 220 for supporting the cylinder pin 220, And a cylinder assembly 240 installed on the other side of the cylinder plate 220 to operate the valve pin 160 so that the cylinder plate 220 is moved up and down.

The cylinder plate 220 is installed on the upper fixing plate 204 constituting the hot runner system and the valve pin cover 210 and the cylinder assembly 240 are mounted so that the valve pin 160 is moved up and down. A groove 222 and a cylinder connecting hole 224 are formed.

A plurality of cover insertion grooves 222 are formed at predetermined intervals so as to be formed by the number of valve pin covers 210 mounted on the cylinder plate 220. The cylinder connection holes 224 are formed on both sides of the cylinder plate 220 So that the upper and lower fixing plates 204 are accurately moved in the upward and downward directions according to the driving of the cylinder assembly 240.

A pin mounting hole 226 is formed at one side of the cylinder connecting hole 224 to provide a guide pin 230 for supporting the upward / downward sliding movement of the cylinder plate 220.

As shown in FIG. 4, the cylinder plate 220 may include a plurality of valve plates 160 and may be configured to operate the valve pin 160 of the hot runner system. However, the present invention is not limited thereto.

In addition, a plurality of valve pin covers 210 installed in the cylinder plate 220 are inserted and fixed in the cover insertion grooves 222 formed in the cylinder plate 220 and are fastened to the cylinder plate 220 through fixing bolts or the like. A fastening hole 214 is formed.

The valve pin cover 210 is provided with a pin fixing member 212 so that the upper end of the valve pin 160 can be inserted and fixed to the center of the valve pin cover 210, 210, respectively.

The guide pin 230 supports the upward and downward sliding movement of the cylinder plate 220 and prevents the cylinder plate 220 from tilting left and right in the installation hole 202 of the upper fixing plate 204, When the cylinder plate 220 is moved upward and downward by the pin fixing hole 226 formed in the cylinder plate 220 and the lower portion is fixed to the upper fixing plate 204, It is configured to be able to exercise along the inner circumference.

The guide pin 230 is disposed on one side of the connection shaft 350 formed in the cylinder assembly 240 to prevent the cylinder plate 220 from tilting to either side of the cylinder assembly 240 during operation of the cylinder assembly 240 A guide bush 232 is preferably formed to enable smooth sliding movement.

The cylinder assembly 240 is formed on one side of the manifold 130 and is fixed to the upper fixing plate 204 through a fixing bolt and is connected to the cylinder plate 220 to supply a solenoid valve The cylinder cover 320 and the cylinder cover 330. The cylinder block 310 is connected to the valve pin 160 through the cylinder block 330 and the piston 340, And a connection shaft 350.

The cylinder block 310 is configured such that the cylinder assembly 240 can be stably installed on the upper fixing plate 204 of the mold and the space between the cylinder block 240 and the cylinder block 240 312 are formed.

In the cylinder block 310, an air line 360 is formed to allow the compressed air to flow into the space 312 or out of the space 312. The air line 360 is connected to the solenoid valve.

The cylinder block 310 is formed with a shaft through hole 314 through which a connecting shaft 350 connected to the piston 340 is inserted and inserted into the cylinder connecting hole 224 of the cylinder plate 220.

The cylinder housing 320 is installed in the space 312 of the cylinder block 310 and is a component supporting the lifting and lowering operation of the piston 340. The cylinder housing 310 has an upper portion which is inserted into the through hole 314 of the cylinder block 310, And a shaft insertion hole 326 into which the connection shaft 350 is inserted is formed on the inner periphery.

The upper and lower ends of the cylinder housing 320 are connected to the air line 360 formed in the cylinder block 310 so that compressed air flows into or out of the cylinder housing 320 through the air line 360. A first flow-in hole 322 and a second flow-in hole 324 are formed.

The first and second inflow holes 322 and the second inflow and outflow holes 324 are positioned above and below the piston 340 with respect to the piston 340 so that the piston 340 flows through the inflowing compressed air, So that it can move up and down.

That is, the compressed air is introduced through the first inlet / outlet hole 322, the piston 340 moves downward, the compressed air existing below the piston 340 flows out through the second inlet / outlet hole 324, On the other hand, when the compressed air flows in through the second inflow / outflow hole 324, the piston 340 moves upward, and the compressed air existing in the upper portion of the piston 340 through the first inflow / outflow hole 322 flows into the first And flows out through the inflow / outflow hole 322.

The cylinder cover 330 is configured to close the opened one side of the cylinder housing 320 so that air can flow only through the air line 360. The end of the cylinder housing 320 is closely contacted And the cylinder block 310 is fastened to the outer side of the coupling groove 332 through the fixing bolt to seal the inside of the cylinder housing 320 completely.

The cylinder cover 330 is formed with a seating portion 334 on which the lower end of the piston 340 protruding is seated and is provided between the lower portion of the piston 340 and the upper portion of the cylinder cover 330, . This space is a space in which the air flowing out or flowing as the piston 340 moves.

The piston 340 is provided inside the cylinder cover 330 and moves upward and downward through the compressed air supplied from the air line 360. The piston 340 includes a connecting shaft 350 which engages with the cylinder plate 220, And the sliding movement of the cylinder plate 220 is performed through the upward and downward movement.

The piston 340 closely contacts the inner circumferential surface of the cylinder cover 330 on the outer circumferential surface to form a sealing member 342 to prevent the compressed air flowing out from the piston 340 from communicating with the upper side and the lower side of the piston 340, And the connection portion 346 is configured to be connected to the connection shaft 350.

The connecting portion 346 may be provided with a fastening portion 344 for fastening the fastening bolt formed at the lower end of the connecting shaft 350 to provide a firm fixing force between the piston 340 and the connecting shaft 350 .

The connection shaft 350 is formed with a coupling groove 352 having a threaded inner periphery so that an upper end of the coupling shaft 350 is inserted into the cylinder connection hole 224 of the cylinder plate 220 and can be coupled with the cylinder plate 220 through a fixing bolt do.

The connection shaft 350 is formed to be inserted into the outer circumference of the connection shaft 350 so as to be in close contact with the shaft insertion hole 326 of the cylinder housing 320. A screw portion of the fixing bolt .

It is preferable that a plurality of O-rings 302 for preventing watertightness are formed in the cylinder assembly 240 of the present invention. Particularly, the cylinder block 310 and the upper fixing plate 204, the shaft through hole 314, The space between the cylinder cover 330 and the connection shaft 350 and between the space portion 312 of the cylinder block 310 and the outer periphery of the cylinder cover 330, So that various foreign substances are prevented from infiltrating from the apparatus.

The valve pin guide apparatus of the present invention includes the cylinder plate 220 guiding the valve pin 160 and the guide cylinder assembly 240 so that the gap between the nozzle 120 formed in the hot runner system and the nozzle 120 It is possible to prevent interference between the respective cylinders for actuating the valve pin 160 constituting the nozzle 120 and to prevent the interference between the cylinders for actuating the valve pin 160 constituting the injection It is possible to shorten the molding process time and to simplify the maintenance of the valve pin 160. [

The foregoing description is merely illustrative of the technical idea of the present invention and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas falling within the scope of the same shall be construed as falling within the scope of the present invention.

210: Valve pin cover 212: Pin fixing rods
220: cylinder plate 230: guide pin
232: guide bushing 240: cylinder assembly
310: cylinder block 320: cylinder housing
330: cylinder cover 340: piston
350: connection axis 360: air line

Claims (8)

A hot runner system having a valve pin guide device,
A plurality of cover insertion grooves formed on one side of the valve plate so as to mount the valve pin cover for fixing the valve pin, and a valve plate provided on the mounting plate formed on the upper plate for moving up and down the valve pin, ;
A valve pin cover having a plurality of pins formed on the cylinder plate and having a pin fixing member so that an upper end of the valve pin can be inserted and fixed;
And a cylinder assembly connected to the other end of the cylinder plate to perform a sliding movement of the cylinder plate,
Wherein a cylinder connecting hole through which a connecting shaft of a cylinder assembly for allowing the cylinder plate to slide is formed is formed on both sides of the cylinder connecting hole.
The method according to claim 1,
Wherein the cylinder plate is provided with a guide pin for preventing the cylinder plate from tilting to the left or right so as to allow stable sliding movement on the upper fixing plate.
3. The method of claim 2,
Wherein the guide pin is inserted into a pin mounting hole formed in a cylinder plate and a guide bush is formed on an outer circumferential surface of the guide pin to enable smooth sliding movement of the cylinder plate.
delete The method according to claim 1,
The cylinder assembly
A cylinder block installed in the upper fixing plate, communicating with an internal space portion and having an air line connected to the solenoid valve;
A cylinder housing installed in an inner space of the cylinder block and having first and second outflow holes and second outflow holes for communicating with the air line to allow the compressed air to flow in or out;
A piston provided inside the cylinder housing and supporting a sliding movement of the cylinder plate while moving up and down through compressed air introduced through the first inlet and outlet holes and the second inlet and outlet holes;
A coupling shaft having an upper side coupled to the cylinder plate and a lower side engaged with the upper portion of the piston to operate the cylinder plate according to the operation of the piston; And
A cylinder cover for closing the opened one side of the cylinder housing to allow air to flow in and out through the air line;
Wherein the valve pin guide device comprises:
6. The method of claim 5,
Wherein a seating portion on which a lower end protruding from the piston is seated is formed on an upper portion of the cylinder cover so that a predetermined space is formed between the piston and the cylinder cover.
6. The method of claim 5,
Wherein a sealing member is formed on an outer circumferential surface of the piston so as to closely contact the inner circumferential surface of the cylinder cover and a connecting portion formed on an upper side of the piston so that the connecting shaft is connected and fixedly secured. A hot runner system with a device.
6. The method of claim 5,
Wherein the cylinder assembly has a plurality of O-rings for preventing watertightness.

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