JPH0467923A - Method and mold for injection molding - Google Patents

Abstract

PURPOSE:To enable a gate to be opened and closed for certain even if a hot runner block is deformed due to heat by providing only a part of a sprue and a hot runner, providing a gate bush between a fixed mold and a hot runner block, further providing the remainder of the hot runner on the gate push, and arranging the hot runner block relatively movably to the gate bush and a valve switch device. CONSTITUTION:On the face of a cylinder 12a coming in contact with a hot runner block 10, an adiabatic material 22 in the shape of ring is laid. This reduces heat conduction from the hot runner block 10 to a valve switch device 12. Further, a seal material 24 is placed on the mating face of the hot runner block 10 and the gate bush 14, sealing a first hot runner 10b and a resin passage 14a. The open molds are closed, followed by mold clamping and the fixed mold 4 is stuck fast to the movable mold 8.

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Field of Industrial Application The present invention relates to an injection molding method using an injection mold equipped with a plurality of gates and the injection mold.

(b) Conventional technology In order to manufacture large-sized molded products or to set the joining position of the flow of molten resin in the molded product, that is, the weld line, to a desired position, it is necessary to There is a molding method that supplies molten resin from multiple gates. In a conventional injection mold with multiple gates, a sprue, a hot runner, and a gate are installed in the hot runner block that forms the resin passage, and the valve opening/closing device that opens and closes the gate is installed in the fixed part of the injection mold. It is installed,
The valve body of this hot runner block was designed to be movable through the hole in the hot runner block to reach the gate (see Japanese Patent Laid-Open No. 169827/1983). The valve body slides inside the hole in the hot runner block to open and close the gate.

(c) Problems to be Solved by the Invention - The hot runner block is heated in order to maintain the melting temperature of the resin. However, when the conventional hot runner block described above thermally expands, the valve opening/closing device is attached to the fixed part of the injection mold, so there is a risk of damage between the hot runner block's valve body through hole and the valve body. There is a problem in that positional deviation occurs and the valve body may not be able to smoothly open and close the gate.

The present invention aims to solve the above problems.

(d) Means for Solving the Problems The present invention provides a hot runner block with only a sprue and a part of the hot runner as a resin passage, and a gate bush having a gate between the fixed mold and the hot runner block. The above problem is solved by providing the hot runner block with the remaining portion of the hot runner and arranging the hot runner block so as to be movable relative to the gate bush and the valve opening/closing device. That is, in the injection molding method according to the present invention, the resin passage of the gate bush (14) provided movably relative to the hot runner block (10) via the resin passage (10a) provided in the hot runner block (10). Supplying molten resin to (14a),
A valve opening/closing device that is provided to penetrate the hot runner block (10) and open/close the gate (G) of the gate bush (14), and is movable relative to the hot runner block (10) in a plane perpendicular to the opening/closing axis. (12) by the gate (
G) is opened and closed to inject molten resin into the cavity (C).

Note that the plurality of gates (61 to G5) can be sequentially opened and closed in a predetermined order and timing.

Moreover, the injection molding mold of the present invention for carrying out the above method is an injection molding mold equipped with a plurality of gates (G) for supplying molten resin to a cavity (C) for molding one molded product. A hot runner block (10), a gate bush (14), and a valve opening/closing device (12) are provided on the fixed type (4) side.
The hot runner block (
10) from the sprue (10a>) to the gate bush (14
) The hot runners leading to the gate (G) include a first hot runner (10b) on the hot runner block (10) side and a second hot runner (14a) on the gate bush (14) side.
and 14b), the first hot runner (10b) has one opening communicating with the sprue (10a) and the other opening opening toward one end of the hot runner block (10); One opening of the hot runners (14a and 14b) communicates with the opening of the first hot runner (10b), and the other opening communicates with the gate (G) provided in the gate bush (14).
), and a valve opening/closing device (12) for opening and closing the gate (G) passes through the hot runner block (1o), and its valve body (12c) is connected to the gate bush (14).
The valve opening/closing device (12) is fitted with the hot runner block (10) at the valve body (G).
12c) is set to be relatively movable in a plane perpendicular to the axis of the axis.

The fixed type (4) is fixed to the fixed type mounting plate [2], and the valve opening/closing device (12) has a valve body (12c),
A piston (12b) and a piston (1
2b), and the cylinder (12a) may be fixed to a fixed mounting plate (2). Note that the symbols in parentheses indicate corresponding members in the embodiments described later.

(E) Operation The gate is closed by moving the valve body of the valve opening/closing device provided at the gate in the closing direction.

By operating the valve opening/closing device at a predetermined timing to open the gates, the flow of molten resin from each gate can be adjusted. The valve opening/closing device is fitted into the hot runner block with a predetermined radial clearance.
In addition, since the hot runner block is formed separately from the gate bushing, even if the hot runner block is deformed by heat, the valve opening/closing device and the gate bushing will not restrict the hot runner block, allowing the gate to open and close reliably. can do.

(f) Embodiment FIG. 1 shows an injection mold equipped with a plurality of gates, which is an embodiment of the present invention. This mold consists of a fixed mold 4 and a movable mold 8. The fixed mold 4 is a ring member 16 which will be described later.
The movable mold 8 is fixed to the fixed mold mounting plate 2 via the movable mold mounting plate 6. A cylindrical portion of a hot runner block 10 is fitted into the fixed mounting plate 2. The hot runner block 10 includes a sprue 10a as a resin passage into which molten resin can be injected from an injection device (not shown), and a first hot runner 1 connected thereto.
0b is provided. The first hot runner 10b is formed from a portion disposed parallel to the mold parting surface and an opening that is perpendicular to the portion and opens to the bottom surface in the figure. Holes 10c are provided at left and right positions in the figure of the hot runner block 10, and a valve opening/closing device 12, which will be described later, is fitted into these holes with a radial gap H.

As mentioned above, a ring member 16 is provided between the fixed mold mounting plate 2 and the fixed mold 4, and the hot runner block 0 and the valve opening/closing device 12 are arranged in the cylindrical hole of the ring member 16. It has become.

A gate bush 14 is provided on the lower surface of the hot runner block 10 in the figure, at a position facing the opening of the first hot runner 10b. The gate bush 14 has a stepped cylindrical shape, and has a predetermined radial gap in the hole of the fixed mold 4. It is placed. The gate bush 14 is provided with a resin passage 14a that communicates a resin chamber 14b provided therein with the first hot runner 10b. The resin chamber 14b and the resin passage 14a form a second hot runner. A gate G is formed at the bottom of the gate pusher unit 4 in the figure.

The gate G opens into a cavity C formed between the fixed mold 4 and the movable mold 8. hot runner block 10
and the gate bush 14 are only pressed against each other on a plane parallel to the mold parting plane, and are movable relative to each other on this plane. A ring-shaped moving member 18 is provided between the get push 14 and the fixed mold 4. Thereby, the gate bush 14 is designed to reduce heat conduction to the fixed mold 4. A valve opening/closing device 12 is fixed to a fixed mounting plate 2. The valve opening/closing device 12 includes a piston 12b that can drive a valve body 12C1, and a cylinder 12a that accommodates the piston 12b. Valve body 12c
can close the gate G in the illustrated position. Further, when the valve body 12c is retracted upward in the figure, the gate G is opened so that the resin chamber 14b communicates with the cavity C. A spacer 20 is provided between the lower surface of the hot runner block 10 in the figure and the upper surface of the fixed mold 4.

FIG. 2 shows details of the valve opening/closing device 12. Note that the shape of the resin chamber 14b of the gate bush 14 is shown in a simplified manner in FIG. 1, so the details are slightly different between FIG. 1 and FIG. 2. Advance pneumatic pressure can be supplied from the pneumatic passage A to the upper end of the cylinder 12a in the figure, and backward pneumatic pressure can be supplied from the pneumatic passage B to the lower end of the cylinder 12a in the figure. Note that a ring-shaped heat insulating member 22 is provided on the surface of the cylinder 12a that comes into contact with the hot runner block 10. As a result, the valve opening/closing device 12
is designed to reduce heat conduction from the hot runner block 10. Further, a first hot runner f is provided on the mating surface of the hot runner block 10 and the gate bush 12.
A sealing member 24 is provided to seal ob and the resin passage 14a.

Next, the operation of this embodiment will be explained. The mold is closed and clamped from the mold open state, and the fixed mold 4 and the movable mold 8 are brought into close contact with each other as shown in FIG. At the same time as the mold clamping, each valve opening/closing device 12 is supplied with forward air pressure from the pneumatic passage A as shown in FIG. 2, and each piston 12b and the valve element 12c integrated therewith are located at the position shown. As a result, each valve body 12c blocks the gate G and the cavity C.

In this state, molten resin is injected into the sprue 10a from an injection device (not shown). The injected shoulder strap resin passes through the first hot runner lob, the resin passage 14a, and the resin chamber 14b (second hot runner), and reaches the gate G. but,
Since the gate G is closed by the valve body 12c, molten resin is not injected into the cavity C. Subsequently, reverse air pressure is supplied from the pneumatic passages B of both valve opening/closing devices 12, and both gates G in the first section are opened, through which the molten resin is injected into the cavity C. When a predetermined time has elapsed, both gates G are closed. When the valve opening/closing devices 12 on both sides are operated at the timing described above, the position of the weld line becomes the center of the cavity C. In addition, the position of the weld line can be changed by shifting the timing of opening and closing of the valve opening/closing device 12 located at the left and right positions in the figure.

Although the number of valve opening/closing devices 12 shown in FIG. 1 is two, it is also possible to use a larger number. FIG. 3 shows an arrangement in which five valve opening/closing devices 12 are provided. Further, an example of the operation steps in this case is shown in FIG. The operation of this embodiment will be explained. Mold closing, mold clamping, closing of each valve opening/closing device 12, and supply of molten resin to the resin chamber 14b are as follows:
This is done in the same way as in the embodiments already described. Next, as shown in FIGS. 3 and 4, the central first gate G1 is opened in step 1, and the molten resin is injected into the cavity C through it. When a predetermined time has elapsed, the first game hG1 is closed. At the same time, in step 2, the first
The second and third gates G2 and G3 on both sides of the gate G1 are opened, and injection is similarly performed for a predetermined time, and the second and third gates G2 and G3! 4th strand in step 3 at the same time as the 1st strand.
Then, opening of the five gates G4 and G5, injection for a predetermined time, and closing of these are performed in sequence. This allows, for example, gate G
The joining position of the molten resin flowing in from the gate 02 side and the molten resin flowing in from the gate 02 side can be controlled as desired. In other words, the longer the closing of the valve body 12c for gate 1-Gl is delayed, the more the position of the weld line shifts to the gate G.
It will move to the 2/G3 side. Other gates G
By adjusting the timing of opening and closing of 4 and G5, each position of the weld line can be set as desired. Further, the order of opening and closing the gates can be changed to a desired order different from the above order. In addition, the melt front of the resin injected from gate G1 opens gates G2 and G3 after passing through gates G2 and G3, and similarly gates G2 and G3 are opened.
・After the melt front of the resin injected from G3 passes through gates G4 and G5, gates G4 and G5 are opened (thereby, a molded product without weld lines is obtained. The timing of opening and closing of each gate is set by a timer It can be set by the method used, the method of detecting the position of the injection plunger or screw of the injection device, etc. After molding is completed, the mold is opened and the molded product 26 is taken out.

During this molding operation, the hot runner block 10 and the gate bushing 14 are heated by a heater (not shown) in order to prevent the temperature of the molten resin in the resin passages such as the sprue 10a from decreasing.
expands in the left and right directions in FIG. 1 (also expands in the direction perpendicular to the paper plane in the figure). The valve opening/closing device 12 is a fixed mounting plate 2
Although it cannot be moved relative to this, a radial gap H is provided between it and the hole 10c of the hot runner block 1o, so that thermal deformation of the hot runner block 10 is restrained. Never. By doing this, even if the hot runner block 10 is thermally deformed,
The valve body 12c of the valve opening/closing device 12 can smoothly open and close the gate G (or the gates 61 to G5). Due to thermal deformation of the hot runner block 10, the first hot runner 10b
Although the relative position of the resin passage 14a of the gate bush 14 also deviates, communication between the resin passages can be ensured by establishing the dimensional relationship that takes into account this positional deviation in advance.

Note that hydraulic pressure may be used instead of air pressure as the operating pressure of the piston 12b.

(g) As described in detail, according to the present invention, the gate can be smoothly opened and closed even if the hot runner block is thermally deformed. Furthermore, since the hot runner block, which is a large member, can be made into a simple shape, the cost of the apparatus can be reduced.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing an injection mold equipped with a plurality of gates according to the present invention, FIG. 2 is an enlarged diagram of a valve opening/closing device, and FIG.
The figure shows a molded article molded by the mold of the present invention, and FIG. 4 is a diagram illustrating an example of the injection process of the present invention. 2... Fixed mounting plate, 4... Fixed type, 8... Movable type, 10... Hot runner block, 10a... Sprue, 10b... First hot runner, 12... Valve opening/closing device, 12a...Cylinder, 12b...Piston, 12c...Valve body, 14...Gate bush, 1
4a...Resin passage (second hot runner), 14b...
・Resin chamber (second hot runner), 26... Molded product, C
...Cavity, G-Gl-G2, G3, G4, G5
...Gate, H/Gap.

Claims (1)

[Claims] 1. Resin passage provided in the hot runner block (10)
10a), the molten resin is supplied to the resin passage (14a) of the gate bush (14) which is movable relative to the hot runner block (10), and passes through the hot runner block (10) to form the gate. The gate (G) of the bush (14) is opened and closed by a valve opening/closing device (12) which is provided to be openable and closable and movable relative to the hot runner block (10) in a plane perpendicular to the opening/closing axis. An injection molding method in which molten resin is injected into the cavity (C). 2. The injection molding method according to claim 1, wherein the plurality of gates (G1 to G5) are sequentially opened and closed in a predetermined order and timing. 3. In an injection mold equipped with a plurality of gates (G) for supplying molten resin to a cavity (C) for molding one molded product, a hot runner block (10) and a gate are placed on the fixed mold (4) side. A bush (14) and a valve opening/closing device (12) are provided, and the hot runner block (10) is provided with a gate bush (1
The hot runner block (
10) from the sprue (10a) to the gate bush (14
) The hot runners leading to the gate (G) include a first hot runner (10b) on the hot runner block (10) side and a second hot runner (14a) on the gate bush (14) side.
and 14b), the first hot runner (10b) has one opening communicating with the sprue (10a) and the other opening opening toward one end of the hot runner block (10); One opening of the hot runners (14a and 14b) communicates with the opening of the first hot runner (10b), and the other opening communicates with the gate (14a and 14b) provided in the gate bush (14).
A valve opening/closing device (12) that opens and closes the gate (G) passes through the hot runner block (10), and its valve body (12c) is connected to the gate bush (14
) extends to the gate (G) of the valve opening/closing device (12).
An injection molding mold having a plurality of gates, characterized in that the fitting with the hot runner block (10) is set to allow relative movement in a plane orthogonal to the axis of the valve body (12c). 4. The fixed type (4) is fixed to the fixed type mounting plate (2), and the valve opening/closing device (12) includes a valve body (12c), a piston (12b) that can drive this, and a piston (12b).
It consists of a cylinder (12a) accommodating a cylinder (1
Claim 3, wherein 2a) is fixed to the fixed mounting plate (2).
Injection mold with multiple gates as described.