KR20050123274A - Apparatus for opening and closing a pouring nozzle using injection molder - Google Patents

Abstract

The present invention relates to an injection molding machine, and more particularly, to an injection nozzle opening and closing apparatus of an injection molding machine to control and block the injection amount of the molten resin more precisely and stably.

The configuration is characterized in that the injection nozzle is supplied to the manifold, the injection nozzle is supplied to the molten resin through the supply passage formed in the manifold, the nozzle pin is provided therein to open and close the injection nozzle, the operation to move the nozzle pin up and down In the injection nozzle opening and closing device of the injection molding machine provided with; The operation unit is provided in the manifold so that the horizontal movable groove formed horizontally in the manifold, a horizontal movable head provided in the horizontal movable groove and having an inclined surface downward, and horizontally moving the horizontal movable head. An operation cylinder, a vertical movement groove formed in communication with the horizontal movement groove above the nozzle pin, a vertical movement head mounted on an upper end of the nozzle pin exposed to the vertical movement groove so as to contact the inclined surface; It is composed of a spring mounted in the vertical movement groove to the lower portion of the vertical movement head.

Description

Apparatus for opening and closing a pouring nozzle using injection molder

The present invention relates to an injection molding machine, and more particularly, to an injection nozzle opening and closing apparatus of an injection molding machine to control and block the injection amount of the molten resin more precisely and stably.

In general, the injection molding machine refers to a device for molding a large amount of plastic products by injecting a molten resin melted synthetic resin into the mold.

An example of such a conventional injection molding machine is illustrated in FIG. 9 and the configuration thereof is as follows.

As shown in FIG. 9, a conventional injection molding machine is equipped with an injection nozzle 200 to which molten resin is supplied through a supply path 101 formed in a manifold 100, and mounted to the manifold 100. The nozzle pin 300 is provided therein so as to open and close the nozzle 200, and an operation part 400 for moving the nozzle pin 300 up and down is provided.

In addition, the operation unit 400 includes a cylinder 401 provided as an upper portion of the manifold 100 and a piston 402 integrally coupled with the upper end of the nozzle pin 300 into the cylinder 401. As the hydraulic pressure is formed inside the cylinder 401, the piston 402 is moved up and down to open and close the injection nozzle 200 while the nozzle pin 300 is moved up and down.

However, as described above, the piston is integrally connected with the nozzle pin and is connected to each other vertically, so that the pressure applied to the piston by the weight of the piston and the nozzle pin when the piston is raised and lowered inside the cylinder is generated. As a result, there is a problem that a difference occurs in the shandong of the nozzle pin.

And, there is a problem in that the injection and control of the injection amount of the molten resin can not be precisely made due to the difference in the shandong copper of the nozzle pin.

Accordingly, the present invention has been made to solve the conventional problems as described above,

The purpose is to control and block the injection amount of the molten resin to be more precise and stable.

In addition, another object of the present invention is to minimize the friction force generated when converting the horizontal force to the vertical force to make the operation more smoothly.

In addition, another object of the present invention is to allow the horizontal movement of the horizontal movement head and the vertical movement of the vertical movement head to be guided more precisely.

In order to achieve the above object, the present invention is the injection nozzle is supplied to the molten resin through the supply path formed in the manifold is mounted to the manifold, the nozzle pin is provided therein to open and close the injection nozzle, In the injection nozzle opening and closing device of the injection molding machine provided with an operating unit for moving the nozzle pin up and down; The operation unit is provided in the manifold so that the horizontal movable groove formed horizontally in the manifold, a horizontal movable head provided in the horizontal movable groove and having an inclined surface downward, and horizontally moving the horizontal movable head. An operation cylinder, a vertical movement groove formed in communication with the horizontal movement groove above the nozzle pin, a vertical movement head mounted on an upper end of the nozzle pin exposed to the vertical movement groove so as to contact the inclined surface; A lower portion of the vertical movement head is characterized in that it is composed of a spring mounted in the vertical movement groove.

In addition, the corresponding inclined surface is formed on one side of the upper portion of the vertical moving head to be in close contact with the inclined surface.

In addition, the sliding groove is formed along the inclined surface, characterized in that the sliding ball is rotatably mounted on the upper surface of the vertical moving head so that the sliding groove is inserted into the sliding groove.

In addition, an installation groove is formed on the inclined surface, and a plurality of rollers are rotatably mounted to the installation groove so as to rotate in contact with the corresponding inclined surface.

In addition, the inclined grooves are inclined at the same angle as the inclined surface on both sides of the horizontal moving head, characterized in that the inclined jaw is formed on both sides of the vertical moving head to be slidably inserted into the inclined groove.

In addition, the guide jaw is formed perpendicular to the inner surface of the vertical movable groove, characterized in that the guide groove is formed on the outer circumferential surface of the vertical moving head so that the guide jaw is inserted.

In addition, a plurality of grooves are formed vertically around the outer circumferential surface of the vertical moving head, characterized in that the groove is provided with a plurality of rotating balls to rotate in contact with the inner circumferential surface of the vertical moving groove.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic longitudinal sectional view showing a first embodiment of the present invention.

As shown in FIG. 1, the injection nozzle opening and closing apparatus of the injection molding machine is provided with a manifold 10 having a supply path 11 to supply molten resin, and an injection nozzle 20 at a lower surface of the manifold 10. ) Is mounted, and the nozzle pin 30 is provided inside the injection nozzle 20, and an operating part 40 for moving the nozzle pin 30 up and down is provided.

The injection nozzle 20 has a nozzle body 21 having a vertical hole 22 in communication with the supply passage 11 of the manifold 10 and a nozzle tip inserted into the vertical hole 22. 23, a gate bush 24 fastened to the inside of the vertical hole 22 while surrounding the lower portion of the nozzle tip 23, and a heating wire 25 provided on an outer circumferential surface of the nozzle body 21. do.

The injection nozzle 20 serves to discharge the molten resin introduced through the supply passage 11 to the cavity of the mold.

In addition, the nozzle pin 30 is moved up and down by the operation unit 40 to control the injection amount of the molten resin and at the same time the end thereof is narrowed and inserted into the gate bush 24 of the injection nozzle 20 It blocks the injection of molten resin.

In addition, the operation part 40 includes a horizontal moving groove 41 formed in the manifold 10, a horizontal moving head 42 provided inside the horizontal moving groove 41, and the horizontal moving head ( An operation cylinder 43 for activating 42, a vertical movement groove 44 formed at an upper portion of the nozzle pin 30 so as to communicate with the horizontal movement groove 41, and into the vertical movement groove 44; It consists of a vertical movable head 45 mounted on the top of the nozzle pin 30 and a spring 46 provided inside the vertical movable groove 44 in contact with the lower surface of the vertical movable head 45. do.

The operation unit 40 serves to move the nozzle pin 30 up and down precisely by converting the horizontal force generated horizontally on one side of the manifold 10 by the operation cylinder 43 to the vertical force.

The horizontal moving groove 41 is formed in the manifold 10 to the upper side of the nozzle pin 30 serves as a space to move the horizontal moving head 42 is placed, the horizontal moving head 42 is One side of the horizontal movement groove 41 is coupled to the rod 432 connected to the piston 431 of the operation cylinder 43 installed in the manifold 10, the horizontal movement in accordance with the operation of the operation cylinder 43 It moves horizontally along the groove 41.

The inclined surface 421 formed on the lower surface of the horizontal moving head 42 converts the horizontal force of the horizontal moving head 42 into a vertical force, and the vertical moving head 45 according to the horizontal moving of the horizontal moving head 42. The vertical moving head 45 is moved up and down along the vertical moving groove 44 in contact with one side of the top surface.

In addition, the corresponding inclined surface 451 formed on the upper surface of the vertical moving head 45 is in contact with the inclined surface 421 of the horizontal moving head 42 so as to convert the operating force more precisely.

The spring 46 presses the lower portion of the vertical movable head 45 upward so that the vertical movable head 45 is in close contact with the horizontal movable head 42, thereby allowing the vertical movable head 45 to be horizontal. In accordance with the left and right movement of the moving head 42 to be properly moved up and down.

Therefore, the injection nozzle 20 opening and closing device of the injection molding machine converts the horizontal force generated by the operating unit 40 into a vertical force while the nozzle pin 30 and the operating unit 40 are separated from the nozzle pin ( 30) the shanghai-dong is configured to be more precise.

2A and 2B are longitudinal sectional views showing an operating state of the present invention.

As shown in FIG. 2A, the molten resin is supplied through the supply passage 11 of the manifold 10 with the gate bush 24 of the injection nozzle 20 inserted into the cavity C of the mold M. Injected into the injection nozzle 20 while being discharged into the cavity (C) of the mold (M).

At this time, the operation cylinder 43 installed on one side of the manifold 10 is operated so that the horizontal movable head 42 mounted on the rod 432 is moved along the horizontal movable groove 41, and thus the horizontal The vertical moving head 45 is lowered by pushing horizontally while the inclined surface 421 of the moving head 42 is in contact with the corresponding inclined surface 451 of the vertical moving head 45.

Then, the nozzle pin 30 mounted on the vertical moving head 45 is lowered as the vertical moving head 45 descends, and thus the injection nozzle is provided along the supply path 11 of the manifold 10. The injection amount of the molten resin moved into the interior of 20 is precisely adjusted.

At this time, the spring 46 provided to the inside of the vertical movement groove 44 in which the vertical movement head 45 is placed to press the lower surface of the vertical movement head 45 upwards so that the vertical movement head 45 is The vertical movement head 42 is in close contact with each other, and thus the vertical movement of the vertical movement head 45 is performed by the horizontal movement interval of the horizontal movement head 42.

As shown in FIG. 2B, when the operation cylinder 43 continues to move and the horizontal moving head 42 continues to move, the vertical moving head 45 moves vertically according to the horizontal movement of the horizontal moving head 42. As the nozzle pin 30 is completely lowered.

And, as the end of the nozzle pin 30 is inserted into the end of the gate bush 24, the injection nozzle 20 is closed to block the injection of the molten resin.

3 is an enlarged cross-sectional view showing main parts of a second embodiment of the present invention.

As shown in Figure 3, the injection nozzle opening and closing device of the injection molding machine is formed with a sliding groove 422 in the center along the inclined surface 421 of the horizontal moving head 42, is inserted into the sliding groove 422 The sliding ball 452 is rotatably mounted to one side of the upper surface of the vertical moving head 45 to rotate.

The sliding ball 452 is rotated while being inserted into the sliding groove 422 according to the horizontal movement of the horizontal moving head 42 between the inclined surface 421 and the vertical moving head 45 of the horizontal moving head 42. This reduces friction, thereby converting the horizontal movement force of the horizontal movement head 42 into the vertical movement force of the vertical movement head 45 more appropriately.

In addition, the sliding groove 422 is formed along the inclined surface 421 so that the outer circumferential surface of the sliding ball 452 is in line contact, thereby guiding the movement of the sliding ball 452.

Therefore, the sliding ball 452 and the sliding groove 422 minimizes the loss due to friction so that the horizontal movement force of the horizontal movement head 42 is more appropriately converted to the vertical movement force of the vertical movement head 45. Therefore, the precision of the vertical movement of the vertical movable head 45 is further improved.

4 is an enlarged cross-sectional view showing main parts of a third embodiment of the present invention.

As shown in FIG. 4, the injection nozzle opening and closing device of the injection molding machine is provided in the installation groove 423 formed on the inclined surface 421 of the horizontal moving head 42 to abut the corresponding inclined surface 451 of the vertical moving head 45. A plurality of rollers 424 are rotatably mounted.

The installation groove 423 formed in the inclined surface 421 of the horizontal moving head 42 is formed inside the inclined surface 421 so that the cylindrical roller 424 is properly installed.

In addition, the roller 424 may be disposed on both sides of the installation groove 423 in a state in which a part of its outer circumferential surface is exposed to the outside of the installation groove 423 so as to contact the corresponding inclined surface 451 of the vertical moving head 45. Both ends are rotatably mounted.

The plurality of rollers 424 are rotated along the corresponding inclined surface 451 when the horizontal moving head 42 is moved horizontally while the plurality of rollers 424 abut the corresponding inclined surface 451, thereby inclining the surface 421 of the horizontal moving head 42. ) And the corresponding inclined surface 451 sliding in contact with the friction is significantly reduced.

Therefore, the roller 424 minimizes the loss due to friction so that the horizontal moving force of the horizontal moving head 42 is more properly converted to the vertical moving force of the vertical moving head 45.

5 is an enlarged cross-sectional view showing main parts of a fourth embodiment of the present invention, and FIG. 6 is a cross-sectional view taken along line A-A according to FIG. 5.

5 and 6, the injection nozzle opening and closing device of the injection molding machine is formed with an inclined groove 425 having the same angle as the inclined surface 421 on both sides of the horizontal moving head 42, the inclined groove ( An inclined jaw 453 at the same angle as the inclined surface 421 is formed on both upper sides of the vertical moving head 45 so as to be inserted into the 425.

When the horizontal movable head 42 is moved horizontally, the inclined jaw 453 of the vertical movable head 45 inserted into the inclined groove 425 is moved along the inclined groove 425 and the vertical movable head 45 is moved. ) Is moved vertically.

Therefore, the inclined grooves 425 and the inclined jaw 453 allow the vertical movement of the vertical movement head 45 to be more precise and stable according to the horizontal movement of the horizontal movement head 42.

7 is an enlarged cross-sectional view showing main parts of a fifth embodiment of the present invention, and FIG. 8 is a cross-sectional view taken along line B-B according to FIG. 7.

As shown in Figure 7 and 8, the injection nozzle opening and closing device of the injection molding machine is formed with a guide jaw 441 perpendicular to the inner surface of the vertical movement groove 44, the vertical so that the guide jaw 441 is inserted Guide grooves 454 are formed on the outer circumferential surface of the moving head 45, and a plurality of grooves 455 are vertically formed around the outer circumferential surface of the vertical moving head 45, and on the inner circumferential surface of the vertical moving groove 44. A plurality of rotating balls 456 are provided in the groove 455 so as to contact and rotate.

The guide jaw 441 and the guide groove 454 may be rotated or oscillated while the vertical movable head 45 is vertically moved inside the vertical movable groove 44 according to the horizontal movement of the horizontal movable head 42. By preventing the vertical movement head 45 is to move up and down more precisely and stably.

In addition, the rotating ball 456 is rotatably provided in the groove 455 to be rotated in the point contact with the inner surface of the vertical movement groove 44 in accordance with the vertical movement of the vertical movement head 45, the vertical It serves to reduce the friction between the moving head 45 and the vertical movement groove (44).

Therefore, the rotating ball 456 minimizes the frictional loss of the vertical moving head 45 is moved up and down along the vertical moving groove 44 to achieve a more precise operation.

As described above, the present invention has an effect of more precisely and stably controlling the injection amount of the molten resin, and more precisely injecting the molten resin into the mold.

In addition, the present invention has the effect that the friction is generated when the horizontal force is converted to the vertical force is minimized, the operation is made more smoothly, the operation precision is improved more.

In addition, the present invention has the effect that the horizontal movement of the horizontal movement head and the vertical movement of the vertical movement head is guided more precisely, and the operational stability is further improved.

1 is a schematic longitudinal sectional view showing a first embodiment of the present invention;

2a and 2b is a longitudinal sectional view showing an operating state of the present invention,

3 is an enlarged cross-sectional view showing main parts of a second embodiment of the present invention;

4 is an enlarged cross-sectional view showing main parts of a third embodiment of the present invention;

5 is an enlarged cross-sectional view showing main parts of a fourth embodiment of the present invention;

6 is a cross-sectional view taken along line A-A according to FIG. 5;

7 is an enlarged cross-sectional view showing main parts of a fifth embodiment of the present invention;

8 is a cross-sectional view taken along line B-B according to FIG. 7;

Figure 9 is a schematic longitudinal cross-sectional view showing an example of the prior art.

* Explanation of symbols for the main parts of the drawings

10: manifold 20: injection nozzle 30: nozzle pin

40: operating part

   41: horizontal moving groove

   42: horizontal moving head

      421: slope 422: sliding groove 423: installation groove

      424: roller 425: inclined groove

   43: working cylinder

   44: vertical movement groove

      441: Guide Jaw

   45: vertical moving head

      451: corresponding slope 452: sliding ball 453: inclined jaw

      454: guide groove 456: groove 457: rotating ball

   46: spring

Claims (7)

An injection nozzle supplied with molten resin through a supply path formed in the manifold is mounted to the manifold, a nozzle pin is provided therein to open and close the injection nozzle, and an operation part for moving the nozzle pin up and down is provided. In the injection nozzle opening and closing apparatus of the injection molding machine; The operation unit is provided in the manifold so that the horizontal movable groove formed horizontally in the manifold, a horizontal movable head provided in the horizontal movable groove and having an inclined surface downward, and horizontally moving the horizontal movable head. An operation cylinder, a vertical movement groove formed in communication with the horizontal movement groove above the nozzle pin, a vertical movement head mounted on an upper end of the nozzle pin exposed to the vertical movement groove so as to contact the inclined surface; Injection nozzle opening and closing device of the injection molding machine, characterized in that consisting of a spring mounted in the vertical movement groove to the lower portion of the vertical movement head. The method of claim 1; Injection nozzle opening and closing device of the injection molding machine, characterized in that the corresponding inclined surface is formed on one side of the upper portion of the vertical moving head to be in close contact with the inclined surface. The method of claim 1; Sliding groove is formed along the inclined surface, the injection nozzle opening and closing device of the injection molding machine, characterized in that the sliding ball is rotatably mounted on the upper surface of the vertical moving head so that the sliding groove is inserted into the sliding groove. The method of claim 2; Installation grooves are formed in the inclined surface, injection nozzle opening and closing device of the injection molding machine, characterized in that a plurality of rollers are rotatably mounted in the installation groove so as to rotate in contact with the corresponding inclined surface. The method of claim 2; Injection of the injection molding machine, characterized in that the inclined grooves inclined at the same angle as the inclined surface on both sides of the horizontal moving head, the inclined jaw is formed on both sides of the vertical moving head to be slidably inserted into the inclined groove. Nozzle switch. The method according to any one of claims 1 to 5; The guide jaw is formed perpendicular to the inner surface of the vertical movable groove, the injection nozzle opening and closing device of the injection molding machine, characterized in that the guide groove is formed on the outer peripheral surface of the vertical movable head so that the guide jaw is inserted. The method of claim 6; Injection groove opening and closing device of the injection molding machine, characterized in that a plurality of grooves are formed vertically around the outer circumferential surface of the vertical moving head, the groove is provided with a plurality of rotating balls to rotate in contact with the inner peripheral surface of the vertical moving groove.