JPS60127112A - Air venting device of molding die - Google Patents

Abstract

PURPOSE:To completely discharge air and gas from a molding die and moreover prevent an air venting gap from being clogged by molding material by a method wherein an automatic valve is energized downwards by spring force, which is weaker than the force developed by the pressure of the resin applied onto the pressure receiving surface of the valve but stronger than the force developed by the pressure of the air applied onto the pressure receiving surface of the valve. CONSTITUTION:The force of a spring 9 is set to have a strength, which is so stronger than the pressure of the air applied onto a pressure receiving surface 4 that an automatic valve 3 can open an air vent passage 2 against said air pressure and is so weaker than the pressure of the resin applied onto the pressure receiving surface 4 that the pressure of resin closes the automatic valve 3. When resin reaches the inlet part 2a of the air vent passage 2 after the air and gas are discharged, the resin starts to enter a gap formed between the outer periphery of the automatic valve 3 and the inner periphery of the air vent passage 2 and at the same time the pressure of resin is applied onto the pressure receiving surface 4. At this time, the automatic valve 3 is closed by being pushed upwards by the resin before the resin reaches the gap formed between a shoulder part 7 and a valve seat 8, because of the inflowing resistance is large. Consequently, the air vent passage can be sufficiently wide so that the air and gas in the resin inflowing part is surely discharged. In addition, no leakage of material and outflowing of flash through the air vent passage occur because the automatic valve is automatically closed by the pressure of resin.

Description

Detailed Description of the Invention (Technical Field) The present invention relates to a technique for removing air from a mold suitable for plastic molding in general, and particularly for low-pressure injection molding of polyester, epoxy resin, etc.

(Background Art) In the past, a gap was provided between the knockout pin and the hole into which the knockout pin was pushed, and the air in the runner and the +1'7 tee escaped from this gap. However, with this method, in the case of thermosetting resin, particles enter the air bleed gap and harden without being released from the mold, clogging the air bleed gap. Therefore, even if a vacuum degassing method was used in combination, no great effect could be achieved.

(Object of the invention) The present invention has been made in view of the drawbacks of the conventional examples described above, and its purpose is to completely remove air and gas from the entire mold by creating a sufficient gap for air release. To provide an air bleed device for a molding die which can be discharged to the air without clogging the air bleed gap with molding material.

(Disclosure of the Invention) The air bleed device for the molding die of the present invention has an air bleed passage formed on the upper surface of the terminal end of the resin inflow portion such as a runner or a runner.
2), and an automatic valve (3) that moves downward two times is disposed at the inlet (2a) of the air bleed passage (2) to prevent the air bleed passage (2) from being blocked when the automatic valve (3) rises. Automatic valve (3) Air bleed when descending [it'5f21 is opened 17
, a pressure-receiving surface (4) is formed on the lower surface of the automatic valve (3) that can receive pressure upward, and a spring force acting on the pressure-receiving surface (4) is weaker than resin pressure but stronger than air pressure. Automatic valve (
3) downward (q force), the gap between the air vent passage and the automatic gap is enlarged to ensure air evacuation, and the automatic gap is closed by resin pressure to prevent resin leakage and paris outflow. This is something that can be completely prevented.

Hereinafter, embodiments of the present invention will be described in detail with reference to accompanying drawings. (5)
is the second mold, (6) is the lower mold, and (1) is the second mold (
5) This is a resin inflow part such as a runner or a metal sepite formed between (6), and the resin material flows in from the left side of the same as above, and the gold resin material is placed above the right end. ! ,
(51 (61) Forms an air vent path (2) for discharging air and debris outside. (3) is an air vent path (2).
(2) It is an automatic valve that opens and closes, and is an air vent passage (2).
) is arranged so as to be movable up and down at the inlet part (2a) of the valve, receives resin pressure or air pressure on the lower surface, and connects the tapered shoulder (7) to the air vent passage (2) and the tapered valve seat on the inner surface. (8) can close the air vent passage (2), and the spring (9) biases the automatic valve (3) in the opening direction (downward), and the spring force of the spring (9) is the pressure received. The surface (4) K is stronger than the applied air pressure and can open the air bleed passage (2) against the air pressure, and is weaker than the resin pressure applied to the pressure receiving surface (4) so that the automatic valve (3) is activated by the resin pressure. It is a strength that is closed. Furthermore, the outer periphery of the automatic valve (3) and the inlet part (2) of the air vent passage (2)
a) The size of the gap d between the inner diameter and the inner diameter is set to such an extent that it is difficult for the resin to flow in, so that when the pressure receiving surface (4) l''i automatic valve (3) closes, it is flush with the inner surface of the resin inflow part i1. It is as it should be.

However, as shown in Fig. 11, the air vent passage (2) is normally open, so when resin flows in from the left side of the unit, it is pushed by the air and gas d: the air vent passage (2). 2) and is discharged to the outside of the mold f51 +61. At this time, the air and gas may be forcibly pulled out by vacuum deaerating the air vent passage (2). Air and gas are discharged and the resin flows to the entrance part (2a) of the air vent passage (2). When the pressure reaches , the resin begins to flow into the gap between the outer periphery of the automatic valve (3) and the inner periphery of the air vent passage (2), and at the same time, resin pressure is applied to the pressure receiving surface (4).
Due to the large inflow resistance, the resin is applied to the shoulder (7) and valve seat (8).
Before reaching the gap between the two, the automatic valve (3) is pushed twice and closed. Therefore, resin oil leakage and leakage are unlikely to occur.

In addition, when demolding the molded product (1110 of the air bleed passage (2)
(2+)) If air is blown in the opposite direction, the mold can be easily demolded.

(Effects of the Invention) Since the ``non-emission'' is constructed as described above, the ``5'' removal path is made sufficiently wide to ensure that the air and 15'' in the resin inflow section are discharged, and the molded product becomes even. The quality of appearance, 〉nizawa, etc. will be improved. Furthermore, since gas and air are quickly discharged, resin injection time is shortened and bosses, edges,
It has the advantage of being able to completely fill sealed local areas such as thick-walled areas.

Furthermore, since the automatic valve is automatically closed by the pressure of the resin, there is an advantage that there is no leakage of material from the air vent passage or outflow of particles.

[Brief explanation of drawings]

Fig. 1 is a cross-sectional view of the valve of White 11 showing an embodiment of the present invention when the valve is open, and Fig. 2 is a cross-sectional view of the valve when the valve is closed. (1) Resin Inflow section, (2)... air vent path, (
2a)...Inlet part, (3)...Automatic valve, (4)...
・Pressure receiving surface. Agent Patent Attorney Ishi 1) Choshichi

Claims (1)

[Claims] An air bleed passage is formed on the upper surface of the terminal end of the resin inlet such as +11 Lasiner or Shisejiti, and an automatic valve that moves up and down is placed at the entrance of the air bleed passage to close the air bleed passage when the automatic valve rises. is closed and the air bleed passage is opened when the automatic valve descends, and a pressure-receiving surface that can receive upward pressure is formed on the lower surface of the automatic valve. An air bleed device for a molding die, characterized in that an automatic valve is biased downward by a spring force stronger than pressure.