KR20090081482A - Scattering Protection Device During Ejecting Injection Mold Product - Google Patents

Abstract

A scattering protection device during ejecting injection mold products is provided to damage to the surface of an injection-molded product and prevent injection-molded product from flying away to a part of the injection machine by using an anti- scattering film. A scattering protection device during ejecting injection mold products fixes a sprue(102) of extruding material with a gripper(200) and separates and discharges an injection-molded product from a movable mold with an ejector. When a gripper fixes the sprue in order to discharge the injection-molded product, an anti-scattering film(400) stopping the movement of the injection-molded product which is scattered by being separated from the movable mold. The anti-scattering film has a sprue insertion hole(410). On the moving mold side of the anti-scattering film, an impact-damper adheres.

Description

Scattering Protection Device During Ejecting Injection Mold Product}

The present invention relates to an apparatus for preventing scattering of an injection molded product, and more particularly, when an injection molded product is separated and discharged from a mold, an injection molded product is scattered to an unintentional place by an ejector and compressed air, thereby interrupting a work process or a product. This is to prevent badness.

Recently, as various electronic or mechanical devices are miniaturized and lightweight, the components used therein are also required to be miniaturized and lightweight, and these components are also produced in large quantities by an automated process such as injection.

An example of the production process of the parts manufactured by injection molding of these parts is as follows.

First, as shown in (a) of FIG. 1, the injection molded product 110 is molded by the fixed mold 20 connected to the nozzle 10 of the injection machine and the movable mold 30 coupled to the fixed mold 20. The resin body supplied from the nozzle 10 of the injection molding machine is first filled into the mold.

 Filled and solidified resin body, that is, injection molding 100, as shown in Figure 2, the sprue (Sprue, 102) receiving the resin body from the nozzle, and the resin body supplied from the sprue 102 is distributed The runner 104 is formed of a gate 106 which is connected to the injection molded product 110 and the runner 104 and is subsequently cut, and an injection molded product 110 supplied to the product. The injection molded article 110 is to be a part to be manufactured, and may be a housing such as a connector, and any other article is not limited by its type.

When the resin body in the mold is solidified and the movable mold 30 is separated from the stationary mold 20, the injection molded body 100 is attached to the movable mold 30 as shown in FIG. In order to separate the injection molded product 110 from the injection molding, the sprue 102 is fixed with a gripper (Gripper, 200), and then the injection molded product (by the ejector 300 installed in the movable mold 30 as shown in FIG. 1 (c)). The gate is cut by pressing 110 in a direction away from the movable mold 30, and the injection molded product 110 is separated from the movable mold 30 and discharged. The ejected injection molded product 110 is accumulated in the tray 60 placed under the mold.

The gripper 200 is provided with two arms (Arm, 210) for fixing the sprue, as shown in Figure 3, to fix the sprue fixing position and the sprue by a separate transfer device (not shown) To do this, it is to reciprocate between the operating range of the mold and the stand-by position which does not interfere. ,

In addition, in some cases, a compressed air injection hole 40 of the movable mold 30 and a compressed air injection hole 42 located on the upper side of the mold are further provided to the surfaces of the injection-molded product 110 and the molds 20 and 30. It can also remove foreign matter attached.

 As described above, the injection-molded article which is separated from the movable mold is scattered in an unpredictable direction according to the cutting force of the gate and the pressing force of the ejector, especially when compressed air is supplied, under the influence of the compressed air. It is almost impossible to control the scattering direction of.

As the final injection molded part 110 to be dropped on the tray 60 located below the molds 20 and 30 is scattered to an unintended position in the gripper 200 or the fixed mold 20 or the injection machine, such an injection molded part ( 110 not only makes the operation of the injection molding machine poor, but also causes a problem that the absorption occurs on the surface of the injection-molded product 110.

Conventional technology for solving such a problem is Korean Patent No. 190329 that applies a fine vibration to the mold, even in the case of producing various types of parts, the structure is complicated and time, such as the vibration width must be adjusted There are drawbacks that are expensive and costly.

In addition, if the compressed air is weak, there is a problem that the foreign matter is not removed well, the solution to this situation is urgent.

The present invention has been made to solve the above problems, and an object of the present invention is to prevent the injection molded article from scattering in an unintended direction when separated from the mold, and to prevent scratches on the surface of the injection molded article.

The extraction scattering prevention device of the injection molded article of the present invention,

An injection molding apparatus which fixes a sprue of an injection molding with a gripper and separates and ejects the injection molded product from the movable mold by an ejector.

When the gripper fixed the sprue to release and eject the injection molding,

Characterized in that the scattering prevention film for blocking the movement of the injection molded product is separated and discharged from the movable mold is located between the gripper and the movable mold.

The scattering prevention film is preferably provided with a sprue insertion groove.

In addition, the anti-scattering film penetrates in the thickness direction and has a through hole or made of a wire mesh, but the through-hole or the wire mesh may have a size such that an injection molded product cannot pass through the anti-scattering film.

It is also preferable that the scattering prevention film is attached to the gripper.

It is also preferable that an impact absorbing member is attached to the movable mold side surface of the scattering prevention film.

According to the configuration of the present invention as described above, not only can the injection molded article fly to other parts of the injection molding machine to prevent the hit by the scattering prevention film, but also can prevent the surface of the injection molded article from being damaged.

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

4 and 5 are a plan view from the front side and a plan view from above to explain the correlation when the gripper 200 fixes the sprue 102 to separate and eject the injection-molded product 110. ,

4 and 5, the anti-scattering film 400 is disposed between the gripper 200 and the movable mold 30 to prevent movement of the injection molded article 110 that is separated from the movable mold 30 and scattered. Technical ideas can be grasped.

The anti-scattering film blocks the gripper and the movable mold and can be used in any form that does not interfere with the sprue. A separate transfer mechanism is used so that the sprue can be positioned between the gripper and the movable mold when the gripper is fixed. It would be possible.

For example, although not shown, it may have a curtain shape cut in the longitudinal direction so as to be lifted and lowered from the upper side of the mold and cut off between the gripper and the movable mold, wherein the sprue is positioned between the cut surfaces cut in the longitudinal direction. It will be possible for the injection molded articles scattered from the movable mold to hit the shatterproof film and be collected in the tray under the mold.

Alternatively, as shown in FIG. 6, a sprue insertion groove 410 is provided in the anti-scattering film 400, and the anti-scattering film 400 moves between the gripper 200 and the movable mold so as not to interfere with the sprue 102. It will also be possible. At this time, the movement of the anti-scattering film will be able to use any known transport mechanism is a moron.

In addition, the anti-scattering film 400 is attached to the gripper 200 using the fixing member 220 as shown in FIG. 7, and the anti-scattering film 400 simultaneously moves when the gripper 200 moves to fix the sprue 102. By the configuration to be moved, it may be possible to implement in a form that does not use a separate scattering prevention film transfer mechanism.

In addition, the anti-scattering film 400 includes a plurality of through holes 420 penetrating in the thickness direction and having a size through which the injection molded product cannot pass, thereby preventing injection of compressed air from the injection machine to which compressed air is supplied. It is also desirable to remove foreign substances in the molded article and the mold. Of course, the anti-scattering film may be made of a wire mesh form.

The material of the anti-scattering film may be any material such as metal or synthetic resin, and it may be more preferable to apply a rubber or the like to the movable mold side of the anti-scattering film so that shock absorption can be achieved.

1 is a view showing a conventional injection molding process.

Figure 2 shows the structure of the injection molding.

3 is a view showing the shape of a gripper.

4 to 7 are views showing the configuration of the present invention.

** Explanation of symbols on the main parts of the drawing **

20: fixed mold 30: movable mold

100: injection molding 102: sprue 110: injection molded product

200: gripper 300: ejector 400: shatterproof film

Claims (5)

An injection molding apparatus which fixes a sprue of an injection molding with a gripper and separates and ejects the injection molded product from the movable mold by an ejector. When the gripper fixed the sprue to release and eject the injection molding, An apparatus for preventing scattering of an injection molded article, wherein a scattering prevention film that blocks the movement of the injection molded article that is separated and discharged from the movable mold is positioned between the gripper and the movable mold. 2. An apparatus for preventing scattering of injection molded articles according to claim 1, wherein the scattering prevention film has a sprue insertion groove. The method of claim 1, wherein the anti-scattering film is penetrated in the thickness direction and has a through hole or made of a wire mesh, wherein the through-hole or the wire mesh has a size that the injection molded article cannot pass through the anti-scattering film. Shatterproof device. 2. An apparatus for preventing scattering of injection molded articles according to claim 1, wherein a shock absorbing member is attached to the movable mold side of the scattering prevention film. The scattering prevention device for injection molded article according to any one of claims 1 to 4, wherein the scattering prevention film is attached to the gripper.

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