JPH079478A - Method and device for producing hollow resin product - Google Patents

Abstract

PURPOSE:To provide method and device for independently managing an amount of resin charged into each cavity in a method for producing hollow resin products by a gas injection molding method using a multi-cavity mold. CONSTITUTION:A production device 10 for hollow resin products has a plurality of cavities 20 in a mold 12. A melt resin is charged into the cavities 20 from a sprue 18 through a runner 22. The cavities 20 are each provided with a sensor 26. The sensor 26 detects that a predetermined amount of resin is charged into the cavity 20 and actuates an opening/closing means 28 to stop the charge of the resin into the cavity 20. The stop action is conducted for every cavity. After that, gas is supplied to the resin in the cavity 20 from a gas pressure generator 34 through a gas injection control valve 32. The resin is supplied throughout the cavity 20 by the gas injection. After cooling, the mold 12 is opened, and hollow resin products are removed.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for producing a hollow resin product, in which a multi-cavity mold is used and the resin injection amount and injection gas amount corresponding to each cavity are independently controlled. . The present invention also relates to a manufacturing apparatus for use in the above manufacturing method.

[0002]

2. Description of the Related Art As one of the methods for producing hollow resin products, there is the so-called "gas injection molding method".
The outline of the method for producing a hollow resin product using a multi-cavity mold is as follows.

FIG. 3 shows a multi-cavity mold 40.
The molten resin injected from the spool 42 is divided in the runner 44 and incompletely filled in the respective cavities 46, 46. Part of the cavities 46, 46 is the thick portion 4
It has 8,48. The resin is mainly used for this thick part 48,4
8 is filled. Then, gas is injected into the resin through the gas injection ports 50, 50. The amount of gas injected is slightly larger than the volume of the cavities 46, 46 not filled with resin.
At this time, the gas is mainly filled in the thick portions 48, 48. By injecting the gas, the resin spreads in the cavity and is pressed toward the inner wall of the cavity. After cooling
The mold 40 is opened and the molded product is taken out.

When the amount of resin is large and the amount of injected gas is small, sink marks 52 are formed as shown in FIG. When the amount of resin is small and the amount of injected gas is large, a thin portion 54 is generated as shown in FIG. 5, and rigidity is impaired. In order to prevent such a phenomenon, the amount of resin is usually adjusted.

[0005]

However, in the multi-cavity mold, the above problems cannot be completely prevented only by adjusting the amount of resin. That is, each cavity is not always filled with the same amount of resin.
The problem in the multi-cavity mold (two-cavity mold) will be described with reference to FIG. The figure shows one cavity 5
6 shows a case where the amount of resin filled in 6 is larger than a predetermined amount and the amount of resin filled in the other cavity 58 is smaller than a predetermined amount. The hollow resin product 57 molded from one cavity 56 has a sink mark, and the hollow resin product 59 molded from the other cavity 58 has a thin portion. Therefore, this problem cannot be solved only by adjusting the amount of resin injected from the spool 60.

Therefore, in order to solve the above problem, it is necessary to manage the resin amount for each cavity.

[0007]

The present invention is a method for manufacturing a hollow resin product using a multi-cavity mold, in which each cavity is filled with resin and the hollow resin article is placed in each cavity. Each sensor detects that a predetermined amount of resin has been filled in each cavity, receives the signal from each sensor and stops the resin filling into the cavity corresponding to that sensor, and the filled resin The above problem was solved by a method comprising injecting a gas into the. The gas injection may be started before the filling of the resin into the cavity is stopped.

Further, the present invention is an apparatus for producing a hollow resin product by using a multi-cavity mold, the apparatus comprising:
A mold for forming a number of cavities and a runner communicating with the cavity from a resin injection port, a sensor arranged in each cavity, an opening / closing means provided on the runner, and interlocked with a signal of the sensor, The above problem is solved by a hollow resin product manufacturing apparatus having a means for injecting a gas into the resin filled in the cavity.

[0009]

According to the present invention, the filling of the resin into the cavities in the multi-cavity mold is independently controlled. The sensor detects that the cavity is filled with a predetermined amount of resin. The "predetermined amount of resin" means a resin which is slightly smaller than 80% of the volume of the cavity, for example, 70% of resin. The sensor sends a signal to the opening / closing means to stop the injection of the resin into the cavity. Gas is injected into the resin in the cavity after the resin reaches a predetermined amount or before the resin reaches the predetermined amount. The amount of gas is slightly higher than the cavity volume not filled with resin.

When the gas is injected, the filled resin spreads over the entire cavity and is pressed against the inner wall of the cavity by the gas to produce a hollow resin product having a predetermined shape.

[0011]

1 and 2 show an apparatus 10 for manufacturing a hollow resin product.
Is shown. The mold 12 includes an upper mold 14 and a lower mold 16. FIG. 1 does not include the upper mold 14. The lower mold 16 is provided with a spool 18 for injecting resin.
The mold 12 is formed with two cavities 20, 20 and a two-pronged runner 22 for supplying resin to the respective cavities 20, 20. There are 3 cavities.
It may be more than one.

The cavity 20 has a thick portion 24 for manufacturing a hollow resin product. The lower mold 16 corresponding to the thick portion 24 is provided with sensors 26, 26 at predetermined positions. The predetermined position is a position corresponding to the tip of the resin incompletely filled in the cavity. The sensors 26, 26 are provided in the respective cavities 20, 20. The sensors 26, 26 detect that a predetermined amount of resin is filled in the cavities 20, 20 through the spool 18 and the runner 22.

On the downstream side of the branch point of the runner 22, opening / closing means 28, 28 are provided, respectively. Opening / closing means 2
Reference numerals 8 and 28 are interlocked with the respective sensors 26 and 26, and stop the supply of resin in response to a signal that the cavity 20 is filled with a predetermined amount of resin. From the detection by the sensor 26 to the stop of the resin supply by the opening / closing means 28, some resin is filled in the cavity. The supply of the resin is stopped independently depending on the degree of filling the cavities 20, 20.

Opening / closing means 28, 28 and cavities 20, 2
Gas injection control valve 32 between the gates 30 and 30 of 0,
32 is provided. The gas injection control valves 32, 32 are
The supply of gas from the gas pressure generator 34 is controlled. The gas injection control valves 32, 32 are provided for the respective sensors 2
6, 26 and the opening / closing means 28, 28, and supplies gas to the resin after the opening / closing means 28, 28 stops the supply of the resin by the sensors 26, 26 or before stopping the supply of the resin. Gas injection is also in each cavity 2
Independently at 0,20. When the gas is injected, the resin spreads into the cavities 20, 20 and a cavity-shaped resin molded product is obtained.

The sensor 26, the opening / closing means 28 and the gas injection control valve 32 are controlled by a control device (not shown). There are various types of sensors that can be used in the present invention, and they are well known, so description thereof will be omitted.

[0016]

According to the first and second aspects of the present invention, the filling of the resin into each cavity of the multi-cavity mold can be independently controlled. Therefore, even when a multi-cavity mold is used, it is possible to prevent the generation of defective products and reduce the manufacturing cost.

The invention of claim 3 is an apparatus for carrying out the invention of claim 1, and the effects of the invention are as follows.
It is similar to the case of.

[Brief description of drawings]

FIG. 1 is a schematic view of an apparatus for producing a hollow resin product according to the present invention.

FIG. 2 is a sectional view taken along line 2-2 of FIG.

FIG. 3 is a plan view of a conventional multi-cavity mold.

FIG. 4 is a cross-sectional view of a hollow resin product having a large amount of resin and a small amount of injected gas.

FIG. 5 is a cross-sectional view of a hollow resin product when the amount of resin is small and the amount of injected gas is large.

FIG. 6 is an explanatory diagram for molding a hollow resin product using a multi-cavity mold.

[Explanation of symbols]

 10 Manufacturing Equipment 12 Mold 14 Upper Mold 16 Lower Mold 20 Cavity 22 Runner 24 Thick Part 26 Sensor 28 Opening / Closing Means

Claims (2)

[Claims] 1. A method for manufacturing a hollow resin product using a multi-cavity mold, wherein each cavity is filled with resin, and each sensor is arranged in each cavity so that each cavity is filled with the resin. It detects that a predetermined amount of resin has been filled in, and stops the resin filling into the cavity corresponding to each sensor upon receiving a signal from each sensor, and injects gas into the filled resin. , A method for producing a hollow resin product. 2. A method for manufacturing a hollow resin product by using a multi-cavity mold, wherein each cavity is filled with resin, and each sensor is arranged in each cavity so that each cavity is filled with the resin. Detecting that a prescribed amount of resin has been filled in, receiving a signal from each sensor and injecting gas into the cavity corresponding to that sensor, receiving a signal from each sensor and corresponding to that sensor A method for producing a hollow resin product, which comprises stopping the filling of the resin into the cavity. [Claim 3] An apparatus for manufacturing a hollow resin product using a multi-cavity mold, the apparatus comprising: a mold forming a large number of cavities and a runner leading from the resin injection port to the cavities. A sensor disposed in each cavity, an opening / closing means provided in the runner and interlocking with a signal of the sensor, and a means for injecting a gas into the resin filled in the cavity, Equipment for manufacturing resin products.