JP2015150728A - injection molding machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an injection molding machine in which resin discharged from an injection nozzle can be prevented from scattering and adhering to surrounding components or the like in purge work.SOLUTION: An injection molding machine includes a slidable shutter device 6 which shields, when purge work is performed, a space between an injection nozzle 1 and a fixed die plate 5 to which a fixed die 4 is attached. The shutter device 6 includes a plane shutter 10 having a notch-like first opening 10a, a first scattering preventive cover 12 with which the resin discharged from the injection nozzle 1 collides, and a second scattering preventive cover 11 which is arranged between the first scattering preventive cover 12 and the shutter 10 and thus prevents the resin from scattering to the injection nozzle 1 side, when the resin colliding with the first scattering preventive cover 12 rebounds therefrom and scatters.

Description

  The present invention relates to an injection molding machine for producing a molded product by injecting a resin melted in a heating cylinder from an injection nozzle provided at the tip of the heating cylinder into a cavity of a mold, and in particular, remains in the heating cylinder. The present invention relates to an injection molding machine capable of preventing the discharged resin from scattering and adhering to the surroundings when performing a purge operation in which the resin is discharged from the injection nozzle to the outside.

  2. Description of the Related Art An injection molding machine that molds a molded product by injection molding is purged in order to discharge the resin remaining in the heating cylinder after the operation is completed or when the resin is replaced. When purging, a shielding plate is disposed between the fixed die plate to which the mold is attached and the injection nozzle attached to the heating cylinder, and the resin discharged from the injection nozzle is directed toward the shielding plate. By discharging the resin, it is possible to prevent the resin from adhering to the fixed plate or a mold mounted on the fixed plate. As related to such a technique, Patent Document 1 discloses, for example, when performing a purge operation in which the resin remaining in the heating cylinder is discharged from the injection nozzle to the outside at the end of the operation of the injection molding machine. An injection molding machine having a shielding plate for the purpose of preventing the discharged resin from scattering and adhering to the surroundings is disclosed.

Japanese Patent Laid-Open No. 3-189118

  However, since the resin scattering prevention structure provided in the injection molding machine of Patent Document 1 merely prevents the resin discharged from the injection nozzle by the shielding plate, the resin discharged from the injection nozzle has a momentum. When there is, there is a possibility that the resin collided with the shielding plate will be scattered around. Therefore, even if the resin collides with the shielding plate, a technique capable of preventing the resin from adhering to the surrounding parts is desired.

  The present invention has been made in view of the above problems, and the resin discharged from the injection nozzle is scattered when performing a purge operation for discharging the resin remaining in the heating cylinder from the injection nozzle to the outside of the apparatus. An object of the present invention is to provide an injection molding machine that can prevent adhesion to surrounding parts and the like.

The invention related to this injection molding machine
A movable die plate to which a movable mold is mounted; a fixed die plate to which a fixed mold is mounted; a heating cylinder that melts a resin; and an injection nozzle that is mounted to a tip of the heating cylinder. An injection molding machine for injecting molten resin from the injection nozzle attached to the tip of a cylinder into a mold cavity,
A slidable shutter that shields between the injection nozzle and the fixed die plate when the heating cylinder mounted with the injection nozzle is moved backward to separate the injection nozzle and the fixed die plate and perform a purge operation. Equipped with equipment,
The shutter device
A flat shutter in which a notch-shaped first opening is formed;
A first scattering prevention cover that is disposed closer to the fixed die plate than the shutter, and collides with resin discharged from the injection nozzle when performing a purge operation;
A notch-shaped second opening smaller than the first opening formed in the shutter is formed, and disposed between the first scattering prevention cover and the shutter, A second anti-scattering cover for preventing the scattered resin from scattering toward the injection nozzle when the resin collided with the first anti-scattering cover is scattered by the rebound;
With
The first and second scattering prevention covers are detachably attached to the shutter.

The invention related to this injection molding machine
A movable die plate to which a movable mold is mounted; a fixed die plate to which a fixed mold is mounted; a heating cylinder that melts a resin; and an injection nozzle that is mounted to a tip of the heating cylinder. An injection molding machine for injecting molten resin from the injection nozzle attached to the tip of a cylinder into a mold cavity,
A slidable shutter that shields between the injection nozzle and the fixed die plate when the heating cylinder mounted with the injection nozzle is moved backward to separate the injection nozzle and the fixed die plate and perform a purge operation. Equipped with equipment,
The shutter device
A flat shutter in which a notch-shaped first opening is formed;
The inclined surface is inclined downward from above, and the inclined surface is disposed closer to the fixed die plate than the shutter, and the resin discharged from the injection nozzle collides with the inclined surface when performing a purge operation. A first scattering prevention cover,
A notch-shaped second opening smaller than the first opening formed in the shutter is formed, and disposed between the first scattering prevention cover and the shutter, When the resin collided with the inclined surface of the first anti-scattering cover is scattered due to the rebound, the second anti-scattering cover for preventing the scattered resin from scattering toward the injection nozzle;
With
The first and second scattering prevention covers are detachably attached to the shutter.

Furthermore, the invention relating to this injection molding machine
The first opening of the first anti-scattering cover and the second opening of the second anti-scattering cover are formed to open downward.

Furthermore, the invention relating to this injection molding machine
The first scattering prevention cover and the second scattering prevention cover are screwed to the shutter.

  According to the present invention, since the inclined surface of the first scattering prevention cover is inclined in the direction away from the injection nozzle, the distance of the first scattering prevention cover from the injection nozzle can be increased. Therefore, even if the distance between the fixed die plate on which the fixed mold is mounted and the injection nozzle is narrow or the momentum of the resin discharged from the injection nozzle and colliding with the first scattering prevention cover is somewhat strong, the anti-collision It is possible to prevent the resin colliding with the first scattering prevention cover from being scattered due to the rebound of the injection nozzle or the like on the side.

  According to the present invention, the second scattering prevention cover provided between the first scattering prevention cover and the shutter has the second opening smaller than the first opening of the shutter. Thereby, it is possible to prevent the resin that has collided with the first scattering prevention cover from scattering and adhering to the injection nozzle side due to the rebound caused by the collision.

  According to the present invention, the first and second scattering prevention covers are fixed to the shutter with screws, and can be easily attached and detached. Therefore, according to the type of the resin, it is possible to easily replace the first and second anti-scattering covers provided with materials or coatings to which the resin is difficult to adhere. It is possible to easily remove the resin adhering to the scattering prevention cover.

It is a side view which shows the principal part of the injection molding machine of Example 1. It is a disassembled perspective view which shows the shutter apparatus of the injection molding machine of Example 1. FIG. It is a disassembled perspective view which shows the shutter apparatus of the injection molding machine of Example 2. FIG.

  Embodiments of the present invention will be described below with reference to FIGS. Of course, it is needless to say that the present invention can be easily applied to configurations other than those described in this embodiment without departing from the spirit of the invention.

  As shown in FIG. 1, the injection molding machine according to the first embodiment includes a heating cylinder 2 having an injection nozzle 1 attached to the tip. The heating cylinder 2 is provided with an inverted U-shaped purge cover 3 that covers the upper surface and the left and right side surfaces of the injection nozzle 1. The resin heated and melted in the heating cylinder 2 is injected from the injection nozzle 1 into the mold cavity formed when the fixed mold 4 and the movable mold are closed during normal operation of the injection molding machine. Then, the molded body is formed by solidifying the resin in the cavity.

  The fixed die plate 5 to which the fixed mold 4 is attached is provided with an air cylinder 7 for operating a shutter device 6 that can slide up and down.

  The shutter device 6 is applied when a purge operation is performed in which the resin remaining in the heating cylinder 2 is discharged from the injection nozzle 1 to the outside, for example, at the end of normal operation of the injection molding machine. Is. When the purge operation is performed, the resin contained in the heating cylinder 2 is discharged from the injection nozzle 1, so that the discharged resin is prevented from adhering to the fixed die plate 5 and its surrounding components. In addition, the shutter device 6 shields between the injection nozzle 1 and the fixed die plate 5.

  Therefore, in the normal operation state in which the molded body is molded by the injection molding machine, the tip end side of the injection nozzle 1 is brought into contact with the fixed die plate 5, but when performing the purge operation, as shown in FIG. The device 6 is lowered and placed between the injection nozzle 1 and the fixed die plate 5. When the shutter device 6 is arranged between the injection nozzle 1 and the fixed die plate 5, it is necessary to secure a space for arranging the shutter device 6 between them, which is shown in FIG. As shown, the heating cylinder 2 is retracted.

  Here, the structure of the shutter device 6 will be described with reference to FIGS. As shown in FIG. 2, in the shutter device 6, a shutter 10, a second scattering prevention cover 11, and a first scattering prevention cover 12 are arranged in order from the injection nozzle 1 side to the fixed die plate 5 side. As shown in FIG. 1, the shutter 10, the second scattering prevention cover 11, and the first scattering prevention cover 12 are integrally provided so as to overlap each other. Specifically, the first scattering prevention cover 12 and the second scattering prevention cover 11 are fixed to the shutter 10 integrally fixed to the air cylinder 7 by screws 13.

  The first scattering prevention cover 12 is provided with an inclined surface 12a inclined from the upper part to the fixed die plate 5 side, and side surfaces 12b are integrally formed at the left and right side ends of the inclined surface 12a so as to be bent. Yes. The inclined surface 12a of the first scattering prevention cover 12 is disposed so as to oppose the tip of the injection nozzle 1, so that when the purge operation is performed, the resin discharged from the tip of the injection nozzle 1 is applied to the inclined surface 12a. It is a collision.

  Further, the shutter 10 is formed with a notch-shaped first opening 10a that opens downward. The second scattering prevention cover 11 is formed with a notch-shaped second opening 11a that opens downward. And since the 2nd opening part 11a of the 2nd scattering prevention cover 11 is formed smaller than the 1st opening part 10a of the shutter 10, the 1st opening part 10a, When the resin that has passed through the second opening portion 11a and collided with the inclined surface 12a of the first anti-scattering cover 12 is scattered due to the rebound, the resin that has rebounded by the second anti-scattering cover 11 is an injection nozzle. Prevents scattering to the 1 side.

  As described above, in the injection molding machine according to the first embodiment, the heating cylinder 2 to which the injection nozzle 1 is attached is retracted, and the purge operation is performed with the injection nozzle 1 and the fixed die plate 5 slightly separated from each other. A slidable shutter device 6 that shields between the injection nozzle 1 and the fixed die plate 5 is provided. The shutter device 6 includes a flat shutter 10 in which a notch-shaped first opening 10a is formed, and an inclined surface 12a that is inclined downward from the upper portion, and the shutter 10 and the second. The first anti-scattering cover 12 is disposed closer to the fixed die plate 5 than the anti-scattering cover 11, and the resin discharged from the injection nozzle 1 collides with the inclined surface 12 a when performing the purge operation, and the shutter 10. A notch-shaped second opening 11a smaller than the first opening 10a formed in the first opening 10a is formed, and is disposed between the first scattering prevention cover 12 and the shutter 10 so that the first A second anti-scattering cover that prevents the scattered resin from splashing toward the injection nozzle 1 when the resin colliding with the inclined surface 12a of the anti-scattering cover 12 is splashed by the rebound. 11, comprises a first, second scatter preventing cover 12 and 11 are those provided detachably to the shutter 10.

  And since the inclined surface 12a of the 1st scattering prevention cover 12 inclines in the direction away from the injection nozzle 1, the distance of the inclined surface 12a of the 1st scattering prevention cover 12 with respect to the injection nozzle 1 can be kept away. It becomes possible. Therefore, the interval between the fixed die plate 5 on which the fixed mold 4 is mounted and the injection nozzle 1 is relatively narrow, or the discharge die 1 is discharged from the injection nozzle 1 and collides with the inclined surface 12a of the first scattering prevention cover 12. Even if the momentum of the resin is somewhat strong, it is possible to suppress the resin colliding with the inclined surface 12a of the first anti-scattering cover 12 from being rebounded and attached to the injection nozzle 1 or the like on the anti-collision side.

  Further, the second scattering prevention cover 11 provided between the first scattering prevention cover 12 and the shutter 10 has a second opening 11a smaller than the first opening 10a of the shutter 10. Yes. Thereby, it is possible to prevent the resin that has collided with the inclined surface 12a of the first scattering prevention cover 12 from scattering and adhering to the injection nozzle 1 side due to the rebound associated with the collision.

  Further, the first and second scattering prevention covers 12 and 11 are fixed to the shutter 10 with screws 13 and can be easily attached and detached. Therefore, according to the type of the resin, the first and second scattering prevention covers 12 and 11 to which the resin is difficult to adhere or the coating can be easily replaced. It is possible to easily remove the resin adhering to the second scattering prevention covers 12 and 11.

  FIG. 3 shows a shutter device according to the second embodiment. The first scattering prevention cover 22 according to the second embodiment is different in shape from the first scattering prevention cover 12 according to the first embodiment. Since the structures are the same in the first embodiment and the second embodiment, the same portions are denoted by the same reference numerals, and detailed description thereof will be omitted below.

  As shown in FIG. 3, in the first scattering prevention cover 22 of the second embodiment, when the purge operation is performed, a portion where the resin injected from the injection nozzle 1 collides is formed as a vertical surface 22a. . A horizontal surface 22 is integrally formed at the upper end of the vertical surface 22a so as to be bent, and side surfaces 12b are formed at the left and right side ends of the vertical surface 22a so as to be bent. Even in such a structure, when the purge operation is performed, even if the resin colliding with the vertical surface 22a of the first scattering prevention cover 22 bounces back to the injection nozzle side due to the collision, the second scattering is caused. The prevention cover 11 or the like can prevent the resin from scattering around.

  As mentioned above, although the present Example was explained in full detail, this invention is not limited to the said Example, A various deformation | transformation implementation is possible within the range of the summary of this invention. For example, in the first embodiment, the resin discharged from the injection nozzle 1 collides with the inclined surface 12a of the first scattering prevention cover 12 when performing the purge operation. As long as it inclines toward the fixed die plate 5, it may have a curved shape such as an arc shape instead of a flat plate shape.

DESCRIPTION OF SYMBOLS 1 Injection nozzle 2 Heating cylinder 3 Purge cover 4 Fixed mold 5 Fixed die plate 6 Shutter device 7 Air cylinder 10 Shutter 10a 1st opening part 11 2nd scattering prevention cover 11a 2nd opening part 12 1st scattering prevention Cover 12a Inclined surface 12b Side surface 13 Screw 22 First scattering prevention cover 22a Vertical surface

Claims (4)

A movable die plate to which a movable mold is mounted; a fixed die plate to which a fixed mold is mounted; a heating cylinder that melts a resin; and an injection nozzle that is mounted to a tip of the heating cylinder. An injection molding machine for injecting molten resin from the injection nozzle attached to the tip of a cylinder into a mold cavity,
A slidable shutter that shields between the injection nozzle and the fixed die plate when the heating cylinder mounted with the injection nozzle is moved backward to separate the injection nozzle and the fixed die plate and perform a purge operation. Equipped with equipment,
The shutter device
A flat shutter in which a notch-shaped first opening is formed;
A first scattering prevention cover that is disposed closer to the fixed die plate than the shutter, and collides with resin discharged from the injection nozzle when performing a purge operation;
A notch-shaped second opening smaller than the first opening formed in the shutter is formed, and disposed between the first scattering prevention cover and the shutter, A second anti-scattering cover for preventing the scattered resin from scattering toward the injection nozzle when the resin collided with the first anti-scattering cover is scattered by the rebound;
With
The injection molding machine according to claim 1, wherein the first and second scattering prevention covers are detachably attached to the shutter. A movable die plate to which a movable mold is mounted; a fixed die plate to which a fixed mold is mounted; a heating cylinder that melts a resin; and an injection nozzle that is mounted to a tip of the heating cylinder. An injection molding machine for injecting molten resin from the injection nozzle attached to the tip of a cylinder into a mold cavity,
A slidable shutter that shields between the injection nozzle and the fixed die plate when the heating cylinder mounted with the injection nozzle is moved backward to separate the injection nozzle and the fixed die plate and perform a purge operation. Equipped with equipment,
The shutter device
A flat shutter in which a notch-shaped first opening is formed;
The inclined surface is inclined downward from above, and the inclined surface is disposed closer to the fixed die plate than the shutter, and the resin discharged from the injection nozzle collides with the inclined surface when performing a purge operation. A first scattering prevention cover,
A notch-shaped second opening smaller than the first opening formed in the shutter is formed, and disposed between the first scattering prevention cover and the shutter, When the resin collided with the inclined surface of the first anti-scattering cover is scattered due to the rebound, the second anti-scattering cover for preventing the scattered resin from scattering toward the injection nozzle;
With
The injection molding machine according to claim 1, wherein the first and second scattering prevention covers are detachably attached to the shutter.   The first opening of the first scattering prevention cover and the second opening of the second scattering prevention cover are formed to open downward. Or the injection molding machine of 2.   The injection molding according to any one of claims 1 to 3, wherein the first scattering prevention cover and the second scattering prevention cover are screwed to the shutter. Machine.

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