JPH0514822Y2 - - Google Patents

Description

[Detailed Description of the Invention] (Industrial Application Field) The present invention relates to an injection molding machine for molding car parts such as bumpers. Specifically, the invention relates to the gate shape of an injection molding die in which the gate for injecting molten resin supplied from a sprue into a cavity is a film gate.

(Prior art) Conventionally, in the above injection mold, for example, the fifth
As shown in the figure and FIG. 6, a first runner section 25 is connected to the sprue 22, and a second runner section 27 is connected to the first runner section 25 substantially orthogonally.
and a gate portion 26 formed in the longitudinal direction at one end of the second runner portion 27 and connected to the cavity 23.
It is known to have a film gate 24 consisting of the following.

By the way, when molding a product using the injection mold 20, the molten resin injected into the hot runner 21 by an injection device (not shown) flows into the film gate 24 through the sprue 22, and enters the cavity from the gate part 26. The liquid is injected into the cavity 23, solidified in the cavity 23, and molded into a product.

(Problem to be Solved by the Invention) However, according to the injection mold 20, the injection speed of the molten resin differs depending on the part of the gate part 26, so that the flow, which is the trace of the flow of the resin, appears on the molded product. There are problems in that marks tend to appear and it is difficult to obtain high quality products.

That is, the molten resin that has flowed into the film gate 24 flows from the first runner section 25 to the second runner section 27 and from the gate section 26 to the cavity 23.
is injected into the However, since the first runner part 25 and the second runner part 27 are connected to each other in a substantially orthogonal manner, the flow rate of the resin into the second runner part 27 is low except for the connection part between the two runner parts 25 and 27 and the vicinity thereof. It's getting late. Therefore, the gate portion 2 of the molten resin
For example, as shown by the arrows in FIG. The speed becomes slower as the area increases. As a result, flow marks appear on the molded product.

The present invention was made to solve the above-mentioned conventional problems, and is an injection molding die that can mold products without flow marks by making the injection speed of molten resin at each part of the gate part almost constant. The purpose is to provide a gate shape of

(Means for Solving Problems) The present invention is a gate shape of an injection mold in which the gate for injecting molten resin supplied from a sprue into a cavity is a film gate, and its structural features are as follows: The above-mentioned film gate has a runner part connected to the sprue, a gate part connected to the cavity, and a wide abbreviation that connects the runner part and the gate part, and has the runner part side as the apex and the gate part side as the bottom. It consists of a resin flow path portion formed in a triangular shape, and portions near two sides of the resin flow path portion are formed deeper than other portions.

(Function) The function of the present invention will be explained using the injection mold shown in FIGS. 1 and 2. In the figure, 12 is a sprue, 13 is a cavity, 14 is a film gate, 15 is a first runner part, 1
6 is a second gate portion which is a gate portion; 17 is a second runner portion which is a flow path near the two sides of the resin flow path portion formed in a substantially triangular shape; and 18 is a flow path other than the vicinity of the two sides. This is the first gate section.

When the molten resin material is supplied to the sprue 12, it flows into the first runner section 15 of the film gate 14, and then into the second runner section 17.
Thereafter, it overflows from the second runner section 17, flows into the first gate section 18, and is injected from the second gate section 16 into the cavity 13.

By the way, the speed of the molten resin flowing from the first runner part 15 to the second runner part 17 becomes slower toward both ends of the second runner part 17, but from the second runner part 17 to the second gate part 16 The length of the flow path of the first gate part 18 until reaching the point is longer toward the apex side, which is the connection part with the first runner part 15,
Moreover, since the first gate part 18 is formed shallower than the second runner part 17, the second gate part 16
The velocity of flow into each part is almost the same. Therefore, the injection speed from the second gate portion 16 is approximately constant at each location.

(Example) An embodiment of the present invention will be explained based on FIGS. 1 to 4.

The injection mold 1 shown in FIGS. 3 and 4 consists of a fixed mold 2 and a movable mold 3, and by moving the movable mold 3 in the vertical direction, which is the direction of arrow A, the mold can be opened and closed. It is configured to obtain.

The fixed mold 2 is integrally provided with an introduction member 4 on which a hot runner 11 and a sprue 12 are formed, and on the hot runner 11 side of the introduction member 4,
An injection device (not shown) for injecting molten resin is connected to the sprue 12 side, and a film gate formed by the fixed first mold surface 2a and the slide core 5 is formed on the sprue 12 side during mold clamping as shown in FIG. 14 are connected.

The slide core 5 is provided in the movable mold 3 so that it can slide in the left-right direction in the direction of arrow B by means of a spring 6, an inclined cam 7, and an angular pin 8 when the movable mold 3 moves up and down. A gate groove 9 is formed on the upper surface of the slide core 5 in accordance with the shape of the film gate 14 shown in FIGS. 1 and 2.
is formed. The gate groove 9 includes a first runner groove 9a forming the first runner part 15, a second runner groove 9c forming the second runner part 17, a first gate groove 9d forming the first gate part 18, and a second runner groove 9a forming the first runner part 15. When the mold is clamped as shown in FIG. 3, the film gate 14 is formed with the first mold surface 2a of the fixed mold, and the second gate groove 9b forms the gate part 16. 2nd mold surface 2 of
b and the movable mold surface 3a. The depth of each groove is the first and second runner groove.
9a, 9c>first gate groove 9d>second gate groove 9
b.

In addition, at the edge of the second gate groove 9b, the molded product W and the gate groove 9 are formed when the mold is opened as shown in FIG.
cutter part 9e so as to separate the inner resin w.
is provided.

The molding of the product according to this example is carried out as follows. First, the movable mold 3 is raised and clamped as shown in FIG. 3, and molten resin as a raw material is injected into the hot runner 11 using an injection device (not shown). The molten resin flows into the film gate 14 through the sprue 12 and is injected into the cavity 13 from the second gate portion 16 of the film gate. After solidifying inside the cavity 13, the movable mold 3
The mold is opened as shown in FIG. The product W solidified in the cavity 13 descends together with the movable mold 3, but the slide core 5 is moved to the left by the spring 6, the inclined cam 7, and the angular pin 8, and the product W solidifies in the gate groove 9. The resin w is separated by the cutter portion 9e. Thereafter, the product W is removed from the mold surface 3a of the movable mold, and the resin w in the gate groove 9 is removed using an ejector pin (not shown).

The product is molded as described above, but when the mold is clamped, the second runner part 17 and the first gate part 18 of the film gate 14 have the first runner part 15 as the top and the second gate part 16 as the bottom. Since it is formed as a substantially triangular resin flow path section and the second runner section 17 is formed deeper than the first gate section 18, the injection speed of the molten resin at each part of the second gate section 16 is almost uniform. As a result, flow marks hardly appeared on the molded product W as in the conventional method, and a high-quality product could be obtained.

Note that the first gate groove 9d may be formed to have the same depth as the second gate groove 9b, and the gate groove 9 can absorb the molten resin from the second gate portion 16 formed by the second gate groove 9b. It is only necessary that the injection speed be formed to be approximately the same in each part of the second gate part 16.

(Effect of the invention) According to the invention, the runner part and the gate part are
Each part of the gate part is connected by a substantially triangular resin flow path part with the runner part as the apex and the gate part as the base, and the part near the two sides is formed deeper than the other part. The injection speed of the molten resin is almost uniform, and there are almost no flow marks that appear on the product as in the past.
Able to mold high quality products.

[Brief explanation of the drawing]

Figures 1 and 2 are conceptual explanatory diagrams of an injection mold. Figure 1 is a plan view, and Figure 2 is the same as in Figure 1.
It is a sectional view along a line. 3 and 4 are concrete explanatory diagrams of the injection mold, in which FIG. 3 is a sectional view in a closed state, and FIG. 4 is a sectional view in an open state. Figures 5 to 7 are conceptual illustrations of conventional injection molds, with Figure 5 being a perspective view and Figure 6 being a perspective view.
The figure is a sectional view taken along the - line in FIG. 5, and FIG. 7 is a plan view. 1... Injection mold, 2... Fixed mold, 2a...
Fixed mold first mold surface, 2b... fixed mold second mold surface,
3... Movable mold, 3a... Movable mold surface, 4... Introduction member, 5... Slide core, 9... Gate groove,
9a...First runner groove, 9b...Second gate groove, 9c...Second runner groove, 9d...First gate groove, 12...Sprue, 13...Cavity,
14... Film gate, 15... First runner part, 16... Second gate part, 17... Second runner part, 18... First gate part, W... Product.

Claims (1)

[Scope of utility model registration request] In an injection mold in which the gate for injecting molten resin supplied from a sprue into a cavity is a film gate, the film gate is connected to a runner part to which the film gate is connected to the sprue, a gate part to which the cavity is connected, and a runner part and the gate. and a resin flow path portion formed in a wide, approximately triangular shape with the runner portion side as the apex and the gate portion side as the base, and a portion near the two sides of the resin flow path portion. The gate shape of an injection mold is characterized by being formed deeper than other parts.