JP3136419B2 - Molding equipment for hollow molding - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hollow molding metal used for hollow molding in which pressurized fluid is injected into a molten resin in a mold cavity and the volume of the mold cavity is increased during molding. Molding device.

[0002]

2. Description of the Related Art Heretofore, there has been known a hollow molding using both press-fitting a pressurized fluid into a molten resin in a mold cavity and expanding a mold cavity volume by moving a movable mold in a mold opening direction. (JP-A-50-71756, JP-A-3-9820, and U.S. Pat. No. 4,161,617). In this hollow molding, the movable mold is gradually moved in the course of molding to enlarge the hollow portion formed by the pressurized pressurized fluid, and to obtain a hollow molded product having a large hollow portion. .

[0003]

By the way, there has hitherto not been developed any mold apparatus for the above-mentioned hollow molding, and the movement of the movable mold in the course of the molding is carried out by using a usual mold opening / closing mechanism. ing.

However, a normal mold opening / closing mechanism is originally intended only to open and close the mold, and is not intended to gradually move the movable mold during molding. There is a problem that it is difficult to control the expansion speed and expansion length (amount) of the mold cavity volume due to the above.
If the movable mold cannot be moved gradually while supporting the press-fitting pressure of the pressurized fluid, in accordance with the expansion speed and expansion length (amount) of the hollow part that can maintain the pressure contact of the molten resin on the entire inner surface of the mold cavity, It causes deterioration of the molding state.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and a mold for hollow molding capable of easily controlling a speed and a length (amount) of expanding a cavity volume of a mold to a speed suitable for hollow molding. It is intended to be a device.

[0006]

The first aspect of the present invention is shown in FIG.
As shown in FIG. 1, a movable core 2 forming a mold cavity surface on the movable mold 1 side is provided so as to penetrate the movable mold 1 and be movable in the mold opening and closing direction. the tool 3 with the mold opening and closing mechanism (not shown) is connected, further, blow molding the movable core moving mechanism 4 for moving the movable core 2 to the mold closing direction is supported to the bracket 3 In the mold opening and closing direction
It has a slope 10 that is inclined with respect to the mold opening and closing direction.
A drive block 11 capable of moving back and forth in the orthogonal direction;
It has an inclined surface 9 to be engaged with the inclined surface 10 of the lock 11.
A driven block 8 for moving the moving core 2 in the mold opening and closing direction;
With the inclination directions of the inclined surfaces 10 and 9 reversed.
By providing the faces 10 and 9 slidably facing each other,
And the movable core moving mechanism 4 is configured.
There is provided a blow molding die apparatus that.

A second aspect of the present invention is as shown in FIG.
A movable core 2 forming a mold cavity surface on the movable mold 1 side;
Is installed so as to penetrate the movable mold 1 and move in the mold opening / closing direction.
The support 3 to which the movable mold 1 is attached
When a mold opening / closing mechanism (not shown) is connected,
Then, the movable core 2 is moved in the mold opening / closing direction.
A hollow core in which the movable core moving mechanism 4 is supported by the support 3
In the molding machine, it is guided and guided by screws
And a driving screw 2 for moving the movable core 2 in the mold opening / closing direction.
5 that the movable core moving mechanism 4 is configured.
An object of the present invention is to provide a mold apparatus for hollow molding.

A third aspect of the present invention is shown in FIGS.
As shown in the figure, the mold cavity surface on the movable mold 1 side is
The movable core 2 to be formed penetrates the movable mold 1 and the mold is opened and closed.
It is provided so that it can move in the direction, and the movable mold 1 is attached
A mold opening / closing mechanism (not shown) is attached to the support 3 thus mounted.
Connected, and the movable core 2 is further opened.
The movable core moving mechanism 4 for moving in the closing direction is supported by the support 3.
In blow molding die apparatus being lifting the mold cavity
It is possible to protrude into the tee 5 and retreat from this protruding position,
By retracting from the state of protruding into the mold cavity 5,
A movable core 15 for increasing the volume of the mold cavity 5 during molding
And the movable core moving mechanism is a movable core moving mechanism.
4. A hollow molding characterized by being provided separately from 4.
The present invention provides a mold apparatus.

[0009]

[0010]

1, a fixed mold 6 is fixed at a fixed position and has a sprue 16 to which an injection nozzle (not shown) having a built-in pressurized fluid nozzle is pressed.

The movable die 1 provided opposite to the fixed die 6 has a support 3 attached to the back surface thereof, and is moved together with the support 3 in the mold opening / closing direction (the left-right direction in FIG. 1). It has become something. Although not shown, a mold opening / closing mechanism similar to the conventional one is connected to the rear end of the support 3, and the support 3 and the movable mold 1 are integrally moved by the mold opening / closing mechanism. It is something to be done. Therefore, the mold opening for taking out the formed hollow mold and the clamping from the opened state are performed by the same mold opening / closing mechanism as in the past.

The movable die 1 is provided with a movable core 2 which penetrates through the movable die 1 so as to be slidable in the mold opening / closing direction and forms a mold cavity surface on the movable die 1 side. This movable core 2
Is to form the mold cavity 5 between the mold and the stationary mold 6 in a closed state.

On the back side of the movable core 2, a driven block mounting frame 7 movable in the mold opening and closing direction along the support 3 is mounted. A driven block 8 that can move in the mold opening and closing direction along the tool 3 is attached. Accordingly, the driven block 8 is movable together with the movable core 2 in the mold opening / closing direction. The driven block 8 has an inclined surface 9 inclined with respect to the mold opening / closing direction, and is attached with the inclined surface 9 facing rearward.

Behind the driven block 8, a drive block 11 having the same inclined surface 10 as the driven block 8 is used. The inclined surface 10 is provided so as to be slidable. This drive block 11
Along the rear end side of the support 3, the support 3 is held by a drive slide plate 12 that can advance and retreat in a direction perpendicular to the mold opening and closing direction. The drive slide plate 12 is moved forward and backward by a drive device 13 such as a hydraulic cylinder provided on the support 3.

The above-described driven block 8 and driving block 1
1, the drive slide plate 12 and the drive device 13 constitute the movable core moving mechanism 4. The movable core moving mechanism 4 will be further described.

The movable core moving mechanism 4 is for moving the movable core 2 in the mold opening / closing direction. The movable core 2 is moved in the mold opening direction (right direction in FIG. 1) by the driving device 13.
The drive block 11 is moved forward by the
The movable core 2 is moved in the mold opening direction by being pressed by the pressure of the pressurized fluid press-fitted into the mold cavity 5 by relaxing the pressure contact force between the inclined surface 10 and the inclined surface 9 of the driven block 8. Done in FIG. 2 shows a state in which the movable core 2 is moved in the mold opening direction, and the same reference numerals as those in FIG. 1 denote the same members.

The moving speed of the movable core 2 in the mold opening direction,
That is, since the volume expansion speed of the mold cavity 5 is determined by the advance speed of the drive block 11, the volume expansion speed of the mold cavity 5 can be easily controlled by controlling the advance speed of the drive block 11. In addition, the movable core 2
Is moved by the expanding force of the hollow portion 14 in the mold cavity 5, so that the pressure of the pressurized fluid in the hollow portion 14 is appropriately adjusted by adjusting the forward speed of the drive block 11. By maintaining this, the movable core 2 can be easily moved while maintaining the pressure contact of the molten resin on the entire inner surface of the mold cavity 5.

On the other hand, the pressurized fluid pressure in the mold cavity 5 is finally applied as a load to the driving device 13,
This load is reduced by the slopes 9 and 10 and does not affect the driving device 13 as a large load.
The burden is light. Therefore, it is not necessary to use a large-sized drive device 13, and it is easy to perform advance / retreat control of the drive block 11, that is, control of the volume expansion speed of the mold cavity 5.

The movement of the movable core 2 in the mold closing direction (left direction in FIG. 1) can be performed by moving the drive block 11 backward, contrary to the above. In addition, this movable core 2
Is generally performed after the molded hollow mold is taken out.

In the movable core moving mechanism 4 shown in FIG.
When the drive block 11 is moved forward, the movable core 2 is moved in the mold opening direction, and when the drive block 11 is moved backward, the movable core 2 is moved in the mold closing direction. However, by making the inclined directions of the inclined surfaces 9 and 10 of the driven block 8 and the drive block 11 opposite to the directions shown in the drawing, the movable core 2 moves in the mold closing direction when the drive block 11 is advanced. The movable core 2 may be moved in the mold opening direction when the movable block 2 is moved and the drive block 11 is moved backward.

The movable core moving mechanism 4 may be the one shown in FIG. That is, the driven block mounting frame 7 is mounted on the rear side of the movable core 2, and the piston rod of the fluid pressure cylinder 23 provided on the support 3 is mounted on the rear surface of the driven block mounting frame 7. The movement of the movable core 2 is performed by moving the piston of the fluid pressure cylinder 23. The moving speed of the movable core 2, that is, the volume expansion speed of the mold cavity 5 is determined by the retreat speed of the piston of the hydraulic cylinder 23, and the retreat speed of the piston is adjusted by adjusting the flow rate of the pressurized fluid flowing into the hydraulic cylinder 23. By controlling, the volume expansion speed of the mold cavity 5 can be easily controlled. Since the flow rate of the fluid can be precisely controlled, there is an advantage that the volume expansion rate of the mold cavity 5 can be arbitrarily and finely controlled. The pressurized fluid used in the fluid pressure cylinder 23 may be either hydraulic or pneumatic.

The movable core 15, which will be described later, is moved by a hydraulic cylinder 24 provided on the driven block mounting frame 7.

Further, the movable core moving mechanism 4 can be configured as shown in FIG. That is, a driving screw 25 is mounted on the rear surface of the driven block mounting frame 7, and the rear end of the driving screw 25 is screwed to a receiving base 28 rotatably provided on the support 3. Timing belt 26
When the receiving table 28 is rotated by the driving device 27 through the movable core 2, the driving screw 25 advances and retreats by being guided by the screw.
Is to be moved. In this case, since the pressurized fluid pressure in the mold cavity 5 is received by the screw mechanism, a large load can be received, and a large hollow mold can be formed.

It should be noted that a point having a fluid pressure cylinder 24 for moving the movable core 15 is the same as that of FIG.

Returning to the embodiment of FIG. 1, the description will be continued.

In this embodiment, a movable core 15 is provided so as to slidably penetrate the movable core 2. Although the movable core 15 is not essential, the present invention is particularly effective when the movable core 15 is provided.

The movable core 15 will be described. The movable core 15 can protrude into the mold cavity 5 and retreat from the protruding position by moving in the mold opening / closing direction. By retracting, the volume of the mold cavity 5 is increased during molding.

The rear end of the movable core 15 is
7 and the movable core support plate 17
Along a guide pin 18 protruding rearward from the movable core 2,
The movable core 15 and the movable core 15 can be moved in the mold opening and closing direction. The movable core support plate 17 is connected to a movable core operating pin 19 which is advanced and retracted in the mold opening and closing direction by a conventionally used ejecting pin advance / retreat mechanism (not shown). Therefore, the movable core 15 projects into the mold cavity 5 and retreats from the projecting position by the advance and retreat of the movable core operating pin 19.

The movable core operating pin 19 penetrates through the driven block mounting frame 7 and the driven block 8 through the hole 20, and these operations are performed on the drive block 11 and the drive slide plate 2. It penetrates through the long groove 21 in these working directions so as not to disturb.

As a method of using the movable core 15, for example, a pressurized fluid is injected from a sprue 16 while the movable core 15 is projected into the mold cavity 5, and the movable core 15 is projected. The formation of the hollow portion 14 by the pressurized fluid in the vicinity thereof is prevented beforehand, and then the movable core 15 is retracted, so that the solid portion supporting the hollow portion 14 Support part 22 (see FIG. 2)
Is formed.

The support portion 22 formed by the movable core 15 is a support wall if the movable core 15 is plate-shaped, and the movable core 15 is columnar, depending on the shape of the movable core 15 to be used. If so, it is formed as a support column. However, if the control of the volume expansion rate of the mold cavity 5 is inappropriate, the shape of the support portion 22 is likely to be deformed, and the intended reinforcing effect by the support portion 22 may be difficult to obtain. According to the present invention, unexpected deformation of the support portion 22 can be prevented.

The movable core 15 is not indispensable as described above. When the movable core 15 is not provided, the movable core operating pin 19 is used as a normal projecting pin to project the molded hollow molded product. Should be performed. The protrusion of the hollow mold when the movable core 15 is provided is:
This can be performed by moving the movable core 15 forward after releasing the mold.

[0033]

The present invention is as described above. Since the speed of expanding the volume of the mold cavity 5 during the molding of the hollow mold can be easily controlled, the hollow mold having a good molding condition can be easily controlled. You can get things.

[Brief description of the drawings]

FIG. 1 is a sectional view showing an embodiment of the present invention.

FIG. 2 is a cross-sectional view showing a state in which a mold cavity volume of the mold apparatus for hollow molding shown in FIG. 1 is enlarged.

FIG. 3 is a sectional view showing another example of a movable core moving mechanism.

FIG. 4 is a sectional view showing another example of the movable core moving mechanism.

[Explanation of symbols]

 Reference Signs List 1 movable mold 2 movable core 3 support 4 movable core moving mechanism 5 mold cavity 6 fixed mold 7 driven block mounting frame 8 driven block 9 inclined surface of driven block 10 inclined surface of driven block 11 drive block 12 drive slide plate 13 drive Apparatus 14 Hollow part 15 Movable core 16 Sprue 17 Movable core support plate 18 Guide pin 19 Movable core operating pin 20 Hole 21 Groove 22 Support part 23 Fluid pressure cylinder 24 Fluid pressure cylinder 25 Drive screw 26 Timing belt 27 Drive device 28 Cradle

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-4-212822 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) B29C 45/00-45/84

Claims (3)

(57) [Claims] A movable core forming a mold cavity surface on a movable mold side is provided so as to penetrate the movable mold and be movable in a mold opening and closing direction. A mechanism is connected, and the movable core moving mechanism for moving the movable core in the mold opening / closing direction is further inclined in the mold opening / closing direction in the hollow molding mold apparatus supported by the support . Has a slope, mold opening and closing
Drive block that can move back and forth in the direction orthogonal to the
The movable block has an inclined surface that engages with the inclined surface of the drive block.
A driven block that moves the
Swaps inclined surfaces by changing the inclination direction of the surfaces
Characterized in that a movable core moving mechanism is constituted by providing the movable core moving mechanism . 2. A movable mold side cavity surface may be formed.
Moving core penetrates movable mold and can move in mold opening and closing direction
Is provided on the support with the movable mold attached.
The mold opening and closing mechanism is connected, and
Supported by a movable core moving mechanism that moves the
In the mold apparatus for hollow molding supported by the tool , the movable core moves forward and backward by the
A movable core moving mechanism is constituted by a driving screw for moving in a direction, the mold device for hollow molding. 3. A movable mold side mold cavity surface may be formed.
Moving core penetrates movable mold and can move in mold opening and closing direction
Is provided on the support with the movable mold attached.
The mold opening and closing mechanism is connected, and
Supported by a movable core moving mechanism that moves the
In the mold apparatus for hollow molding supported by the mold , the protrusion into the mold cavity and the retreat from this protrusion position
It is possible to retract from the projecting state into the mold cavity.
A movable core that expands the volume of the mold cavity during molding
And the movable core moving mechanism is a movable core moving mechanism.
And a mold device for hollow molding.