JPH0149088B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (A) Field of Industrial Application The present invention relates to a mold clamping device for a molding machine.

(b) Prior art The mold is opened and closed by moving a movable mold at high speed using a mold opening/closing cylinder device, and a mold clamping force is applied by a separate mold clamping cylinder device. As a mold clamping device for a molding machine, there is one shown in French Patent No. 2174361. In the mold clamping device of this molding machine, a tie rod is fixed to a fixed platen, the movable platen is guided by the tie rod, and the mold clamping cylinder device provided on the movable platen applies mold clamping force. configured to work. The reaction force of the mold clamping cylinder device is supported by the tie rod via a radially elastically deformable sleeve provided on the outer periphery of the tie rod. The sleeve can be switched between a fixed state to the tie rod and a free state by hydraulic pressure.
This allows the fixing position of the mold clamping cylinder device to the tie rod to be changed, so that the stroke of the piston of the mold clamping cylinder device can be shortened.

(c) Problems to be solved by the invention However, the mold clamping device of the above-mentioned conventional molding machine has
There is a problem in that space is required in the axial direction of the tie rod for the arrangement of the mold clamping cylinder device and the sleeve, resulting in an increase in the size of the device. That is, a mold clamping cylinder device having a single-acting piston is disposed adjacent to the movable platen, and a sleeve for clamping the cylinder member is further disposed adjacent to the mold clamping cylinder device. Therefore, a space equal to the axial dimension of the mold clamping cylinder device and the axial dimension of the clamping device constituted by the sleeve is required on the side of the movable platen opposite to the side on which the fixed platen is disposed. The present invention aims to solve these problems.

(d) Means for Solving the Problems The present invention solves the above problems by arranging the mold clamping cylinder device and the sleeve so that their axial positions overlap with the movable platen. That is, the present invention includes a fixed platen 10, a tie rod 20 whose one end is fixed to the fixed platen, a movable platen 12 movable along the tie rod, a mold opening/closing cylinder device 18 capable of driving the movable platen, and a movable platen. The mold clamping cylinder device includes mold clamping cylinder devices 24 and 26 provided in the mold clamping cylinder device, and a radially elastically deformable sleeve 42 which is attached to the piston 26 of the mold clamping cylinder device so as to move together with the piston and is fitted to the outer periphery of the tie rod. The sleeve can be switched between a state connected to the tie rod and a state movable in the axial direction by switching the supply and discharge of hydraulic pressure that applies a force in the opposite direction to the elastic force in the radial direction. The cylinder member 24 of the mold clamping cylinder device is arranged inside the movable platen, the piston of the mold clamping cylinder device is configured as a double-acting type, and the sleeve is arranged in the hollow part of the piston of the mold clamping cylinder device, and a part of the sleeve in the axial direction is arranged so as to overlap with the axial position of the cylinder member. Note that the reference numerals in parentheses indicate corresponding members in the embodiments described later.

(e) Function The sleeve is constructed so that it can move in the axial direction relative to the tie rod when no hydraulic pressure is applied to the outer periphery, and is fixed to the tie rod when hydraulic pressure is applied to the outer periphery of the sleeve. After the movable platen is moved by the mold opening/closing cylinder device and the fixed mold and the movable mold are closed, hydraulic pressure is applied to the outer periphery of the sleeve to fix the sleeve to the tie rod. Next, hydraulic pressure is applied to the mold clamping oil chamber that generates force in the mold clamping direction of the mold clamping cylinder device, and mold clamping force is applied to the movable mold and the fixed mold. Perform injection molding in this state,
Next, when a large mold opening force is required, hydraulic pressure is applied to the mold clamp release oil chamber of the mold clamp cylinder device which generates a force in the opposite direction to the above, and the piston is moved in the mold clamp force release direction. Immediately after the movable mold is separated from the fixed mold, the hydraulic pressure applied to the outer periphery of the sleeve is removed, and the movable platen is moved at high speed in the mold opening direction by the mold opening/closing cylinder device. This completes one molding cycle.

(F) Embodiments Hereinafter, embodiments of the present invention will be described with reference to Nos. 1 and 2 of the attached drawings.
This will be explained based on the diagram.

A movable platen 12 movable in the vertical direction is arranged to face a fixed platen 10 arranged vertically. A fixed die 14 is attached to the fixed platen 10, and a movable die 16 is attached to the movable platen 12. The movable platen 12 is moved vertically by a mold opening/closing cylinder device 18 attached to the fixed platen 10, that is, the movable mold 16 is connected to the fixed mold 1.
It can be moved closer or further away from 4. A lower end portion of a vertically arranged tie rod 20 is fixed to the fixed platen 10. The upper end of the tie rod 20 passing through the movable platen 12 is connected by a support plate 22. A cylinder member 24 of a mold clamping cylinder device, a hollow double-acting piston 26, etc. are provided in the portion where the tie rod 20 penetrates the movable platen 12, and this portion is shown enlarged in FIG. The cylinder member 24 is fixed inside the movable platen 12. A hollow double-acting piston 26 is fitted into this cylinder member 24, and the opening side (upper side) is closed by a piston cover 28. As a result, a mold clamping oil chamber 30 and a mold clamp release oil chamber 32 are formed between the cylinder member 24 and the hollow double-acting piston 26. Bush holders 34 and 36 are attached to the upper and lower ends of the hollow double-acting piston 26, respectively, and bushes 38 and 40 supported by the bush holders 34 and 36, respectively, are attached to the outer periphery of the tie rod 20. The hollow double-acting piston 26 is supported so as to be movable in the axial direction relative to the tie rod 20. Bush holder 3 in the hollow part of the hollow double acting piston 26
4 and the bush holder 36 (i.e.
Sleeve 4 (over the entire length of the hollow double-acting piston)
2 is provided. The sleeve 42 has an inner diameter that fits the outer diameter of the tie rod 20, and a locking oil chamber 44 is formed between the outer circumference of the sleeve 42 and the inner diameter of the hollow double-acting piston 26. The sleeve 42 is elastically deformable in the radial direction, and in a natural state where no hydraulic pressure is applied to the locking oil chamber 44, it is fitted into the tie rod 20 in a relatively movable state, and the locking oil chamber 44 When hydraulic pressure is applied to the tie rod, the tie rod deforms to contract in the radial direction and comes into close contact with the outer periphery of the tie rod 20, and becomes fixed due to frictional force. That is,
The sleeve 42 remains fixed relative to the tie rod 20.

Next, the operation of this embodiment will be explained. 1st
Although the mold is shown in the open state, the mold opening/closing cylinder device 18 is operated from this state to lower the movable platen 12. The movable platen 12 descends, and the movable mold 16
When (or just before) contacts the fixed mold 14,
Hydraulic pressure is applied to the locking oil chamber 44. This causes the sleeve 42 to be pressed against the outer periphery of the tie rod 20 and fixed thereto. Next, hydraulic pressure is supplied to the mold clamping oil chamber 30.
The hydraulic pressure supplied to the mold clamping oil chamber 30 pushes the hollow double-acting piston 26 upward and the cylinder member 24
However, since the hollow double-acting piston 26 is fixed to the tie rod 20 via the bush holders 34 and 36 and the sleeve 42, the cylinder member 24
is pressed downward, and the reaction force is supported by the tie rod 20. Cylinder member 24
The downward force acting on is transmitted to the movable mold 16 via the movable platen 12. Therefore, the mold clamping force generated by the hydraulic pressure in the mold clamping oil chamber 30 acts between the movable mold 16 and the fixed mold 14. In this state, resin is injected into the fixed mold 14 and the movable mold 16, molded, and cooled. After cooling is completed, the hydraulic pressure in the mold clamping oil chamber 30 is discharged and the hydraulic pressure is supplied to the mold clamping release oil chamber 32, thereby applying an upward force to the cylinder member 24 and the movable platen 12 integrated therewith.
That is, a force in the direction of releasing the mold clamping force is applied. Thereby, even if a large force is required to separate the fixed mold 14 and the movable mold 16, mold opening can be easily started. Note that when a large force is not required to separate the fixed mold 14 and the movable mold 16, the mold clamp release oil chamber 3 is used.
The supply of hydraulic pressure to 2 may be omitted. Immediately after the fixed mold 14 and the movable mold 16 are separated by the hydraulic pressure applied to the mold release oil chamber 32, the hydraulic pressure that had been applied to the locking oil chamber 44 is discharged, and the tie rod of the sleeve 42 is released. The fixed state for 20 is released. When the mold opening/closing cylinder device 18 is operated in the upward direction in this state, the movable platen 12 is raised and the mold is opened. After taking out the molded product, the same molding cycle is repeated again from the state shown in FIG.

In the mold clamping device of this molding machine, the cylinder member 24
is arranged inside the movable platen 12, and the sleeve 4
2 is disposed inside the hollow double-acting piston 26, only a portion of the hollow double-acting piston 26 protrudes from the movable platen 12, and the required space above the movable platen 12 is reduced. In addition, since the hollow double-acting piston 26 is used for mold clamping, it is possible to generate a large force when separating the fixed mold 14 and the movable mold 16, and the mold opening/closing cylinder device accordingly 18 can be downsized.

In this embodiment, the present invention is applied to a vertical mold clamping device, but the present invention can be similarly applied to a horizontal mold clamping device. Further, the sleeve 42 of the above embodiment is of a type that is fixed to the tie rod 20 when hydraulic pressure is applied from the outer periphery, but this is of the reverse type, that is, it is fixed to the tie rod by elastic force. It can also be of a type that is released when hydraulic pressure is applied from the inner circumference.

(G) Effects of the Invention As explained above, according to the present invention, a mold clamping cylinder device is disposed within the movable platen, and a sleeve capable of fixing the piston of the mold clamping cylinder device to the tie rod is disposed in the hollow portion of the piston. Therefore, the space required for arranging the mold clamping cylinder device and the sleeve is reduced, and the mold clamping device can be downsized.

[Brief explanation of drawings]

FIG. 1 is a diagram showing a mold clamping device of a molding machine according to the present invention, and FIG. 2 is a partially enlarged view of FIG. 1. 10... Fixed plate, 12... Movable plate, 14... Fixed mold, 16... Movable mold, 18... Mold opening/closing cylinder device, 20... Tie rod, 22... Support plate, 24... Cylinder member , 26... hollow double acting piston, 28... piston cover, 30...
Oil chamber for mold clamping, 32... Oil chamber for mold clamp release, 34...
Butsu holder, 36...butsu holder,
38...butsuyu, 40...butsuyu, 42...
Sleeve, 44...Lock oil chamber.

Claims (1)

[Claims] 1. A fixed platen 10, a tie rod 20 whose one end is fixed to the fixed platen, a movable platen 12 movable along the tie rod, a mold opening/closing cylinder device 18 capable of driving the movable platen, and a movable platen 12. A mold clamping cylinder device 24, 26 provided on the plate, and a radially elastically deformable sleeve 42 which is attached to the piston 26 of the mold clamping cylinder device so as to move together therewith and which is fitted to the outer periphery of the tie rod. The sleeve can be switched between a state connected to the tie rod and a state movable in the axial direction by switching the supply and discharge of hydraulic pressure that applies a force in the opposite direction to the radial elastic force. In the mold clamping device of a molding machine, the cylinder member 24 of the mold clamping cylinder device is arranged inside a movable platen, the piston of the mold clamping cylinder device is configured as a double-acting type, and the sleeve is arranged in the mold clamping cylinder. 1. A mold clamping device for a molding machine, wherein the mold clamping device is disposed in a hollow portion of a piston of the device, and a portion of the sleeve in the axial direction overlaps with the axial position of the cylinder member.