JP2005313516A - Mold device for injection molding - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a mold device for injection molding excellent in moldability without enlarging the device while solving the following problems: since a device for driving a gate cutter which is composed of a hydraulic cylinder etc., is arranged in a complex mold, the mold device is enlarged, and a mold manufacturing cost is increased, and since the mold and a main body part are operated separately, a molding cycle is elongated to deteriorate productivity. <P>SOLUTION: In the injection molding mold device comprising a fixed retainer plate group and a movable retainer plate group, an ejector pin for ejecting a molding and a gate cut pin operated with the ejector pin are arranged in the movable retainer plate group. The gate cut pin is arranged to straddle a cavity for molding a molding and a gate channel for molding a gate. A runner ejector pin which is operated behind the operation of the ejector pin and the gate cut pin is arranged in the movable retainer plate group. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a mold apparatus including a fixed-side template group and a movable-side template group.

As an example, “a product-shaped cavity is formed between a fixed mold member and a movable mold member that are openable and closable with each other, and a runner that communicates with the cavity via a side gate is formed. A gate cutting mechanism for cutting the resin in the runner and the resin in the cavity with the side gate, and a protruding mechanism for protruding and releasing the solidified resin in the cavity and the runner, and the gate cutting mechanism, Using a mold apparatus with a gate cutting mechanism having a gate cutter movable to the mold member and advanced to a side gate, and a cutter driving source for driving the gate cutter independently of opening and closing of the mold member After filling the cavity into the cavity from the runner through the side gate, the gate cutter In a mold apparatus that cuts the thin portion by cutting the resin leaving a thin portion and then protruding the resin solidified in the cavity and the resin solidified in the runner with a time difference by the protrusion mechanism, respectively. The gate cutting method is known.
That is, a gate cutting mechanism (hydraulic cylinder) is provided in the mold, and before the mold is opened after the injection, the hydraulic cylinder is operated to thin the gate and cut the thinned portion.

Japanese Patent No. 3035655.

  However, because the gate cutter drive device composed of a hydraulic cylinder etc. is placed inside the complicated mold, the mold device becomes larger, the manufacturing cost of the mold increases, Since the mold and the main body are operated separately, the molding cycle per time is long, and therefore the productivity is also poor.

  The present invention is a mold apparatus including a fixed-side template group and a movable-side template group, wherein a molded-product ejector pin that projects a molded product is disposed on the movable-side template group, and the molded product ejector pin A gate cut pin that operates together with the gate cut pin is disposed across the cavity in which the molded product is molded and the gate groove in which the gate is molded, and is further molded into the movable side template group. The gist is that a product ejector pin and a runner ejector pin that operates with a delay from the operation of the gate cut pin are arranged.

  The present invention is a mold apparatus including a fixed-side template group and a movable-side template group, wherein a molded-product ejector pin that projects a molded product is disposed on the movable-side template group, and the molded product ejector pin A gate cut pin that operates together with the gate cut pin is disposed across the cavity in which the molded product is molded and the gate groove in which the gate is molded, and is further molded into the movable side template group. Since the product ejector pin and the runner ejector pin that operates with a delay from the operation of the gate cut pin are arranged, it is possible to provide an injection mold device that is excellent in moldability without enlarging the mold device it can.

One example will be described with reference to FIGS. A cavity block 2 is fitted in the fixed-side template group 1, and a cavity 3 is formed on the lower surface of the cavity block 2 to form the upper part of the molded product. Further, a fixed-side runner groove 4 through which resin flows into the cavity 3 or the like is formed on the lower surface of the fixed-side template group 1.
On the other hand, a movable side template group 5 is disposed at a position facing the fixed side template group 1 so as to be openable and closable with respect to the fixed side template group 1. The movable side template group 5 is fitted with a cavity block 6 that is firmly closed with the cavity block 2 but can be expanded. A cavity 7 is formed on the upper surface of the cavity block 6 to form the lower part of the molded product. A movable side runner groove 8 communicating with the fixed side runner groove 4 is formed on the upper surface of the cavity block 6, and the movable side runner groove 8 communicates with the cavity 7 via a gate groove 9. However, the gate groove 9 is also formed on the upper surface of the cavity 6. That is, the resin to be molded flows into the cavity 3 and the cavity 7 through the fixed-side runner groove 4 and the movable-side runner groove 8 and the gate groove 9 formed on the upper surface of the cavity 7. .

  A plurality of through holes are formed in the cavity block 6, and sliding pins having different operations are arranged in the through holes. This will be described in detail below. First, a molded product ejector pin 10 for projecting a molded product molded by the cavity 7 (and the cavity 3) from the cavity 7 is disposed at the position of the cavity 7. Although three are arranged in this example, various selections can be made depending on the size of the molded product and the releasability of the resin used. A blade 11 is disposed at the boundary between the gate groove 9 and the cavity 7, and the blade 11 is formed on the top of the gate cut pin 12. The blade 11 cuts the molded product and the gate. The detailed operation will be described later. Furthermore, a runner ejector pin 13 that projects the runner from the runner groove 8 is arranged in the movable runner groove 8.

  The lower end portions of the molded product ejector pin 10 and the gate cut pin 12 are fixed to the ejector plate 14 arranged in the movable mold plate group 5 by a holding plate 15. On the other hand, the lower end portion of the runner ejector pin 13 is loosely inserted into the groove portion 16 formed in the holding plate 15 so as to operate with a delay from the operation of the molded product ejector pin 10 and the gate cut pin 12. It has become. In addition, the code | symbol 17 is the collar part formed under the runner ejector pin 13, Comprising: This collar part 17 is freely inserted in the said groove part 16 so that a vertical movement is possible. Reference numeral 18 denotes a movable side template, and the movable side template 18 is fixed to a molding machine (not shown).

Next, the operation will be described. From the state shown in FIG. 1, the molten resin flows into the cavities 3 and 7 through the runner grooves 4 and 8 and the gate 9. After the inflowing resin is cured, when the movable side template group 5 is operated, the movable side template group 5 is separated from the fixed side template group 1, and the upper part of the molded product A, the runner B, and the gate Although C is exposed, these are fixed (attached) to the runner grooves and cavities of the movable-side template group 5 (see FIG. 3). When the movable mold group 5 is further operated, the molded product A is projected from the cavity 7 by the ejector plate 14 and the molded product ejector pin 10 and the gate cut pin 12 fixed to the ejector plate 14. The At this time, the runner B does not move because the runner B is fixed to the movable runner groove 8, whereby the molded product A and the gate C try to be separated relatively, but at the top of the gate cut pin 12. Since the sharp blade portion 11 is formed, the above-described separation action is easy and clean (see FIG. 4). Moreover, since the top part of the gate cut pin 12 also straddles the molded product A, it also acts as a molded product ejector pin, thereby cutting the gate C without curving the molded product. Yes.
Next, when the movable-side template group 5 is further operated, the runner ejector pins 13 are operated in a state delayed from the molded product ejector pins 10 and the gate cut pins 13, whereby the runner B is moved to the movable-side runner groove 8. (See FIG. 6).

The principal part sectional drawing which shows one example of this invention. The principal part enlarged view of FIG. FIG. FIG. The principal part enlarged view of FIG. FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Fixed side template group 2 Cavity block 3 Cavity 4 Fixed side runner groove 5 Movable side plate group 6 Cavity block 7 Cavity 8 Movable side runner groove 9 Gate groove 10 Molded product ejector pin 11 Blade part 12 Gate cut pin 13 Runner Ejector Pin 14 Ejector Plate 15 Presser Plate 16 Groove 17 Gutter 18 Movable Side Plate

Claims (2)

A mold apparatus comprising a fixed-side mold group and a movable-side mold group, wherein a molded product ejector pin for projecting a molded product is disposed on the movable-side mold group, and the gate operates together with the molded product ejector pin A cut pin is disposed, and the gate cut pin is disposed across the cavity in which the molded product is molded and the gate groove in which the gate is molded, and the molded product ejector pin and the movable side template group A mold apparatus for injection molding, characterized in that a runner ejector pin that operates in delay with the operation of the gate cut pin is arranged. 2. An injection mold apparatus according to claim 1, wherein a blade portion is provided at a boundary portion between the gate groove and the cavity, and the blade portion is provided at a top portion of the gate cut pin.

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