JPS5916730A - Resin molding system for hoop insertion - Google Patents

Abstract

PURPOSE:To obtain good molding accuracy of insert of hoop member in a horizontal injection molding machine by a method in which hoop member is sent in a given amount by a step feeder while preventing their deflection by a feed guide. CONSTITUTION:Hoop member 1 is pulled into a molding machine 100 from a supply reel device 200, and when it comes near or beyond a chain line 1, a reel motor and the motor 423 of a supply side guide 400 are driven by the signal of a photoelectric switch SW1 and it is supplied, Whereas, when it comes near and beyond a chain line 2 in loosened state, the supply of it is stopped. Even the hoop member sent out in a given pitch each by a step feeder 600 are likewise wound up by the winding side guide and the winding side reel device. While the insert of the hoop member is put in the resin injected from the injection molding machine 100, the hoop member 1 is guided for their thickwise and widthwise directions by guides 132, 133 and 640, and the molding accuracy can be raised without causing deflection. Inserted resin molding can thus be attained by general purpose horizontal molding machines.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a continuous resin molding system using a hoop material as an insert, and particularly to one using a general-purpose horizontal injection molding machine. As the molding machine, a vertical injection molding machine is used which is suitable for continuously feeding the hoop material into the mold. In this case, the vertical injection molding machine is suitable for exclusive use for molding hoop materials, but it is difficult to convert it to ordinary resin molding, and it was not originally intended for such general purpose. .

However, recently, by using a general-purpose horizontal injection molding machine that is widely used, and making slight modifications to the molding machine itself, and combining it with a hoop material supply and discharge device,
There have been requests to construct a resin molding system for hoop materials.

In this case, instead of permanently modifying the horizontal injection molding machine to one for molding hoop materials, it is possible to perform general resin molding without irreversibly destroying the versatility of the molding machine. It is important to keep it in good condition.

This invention was made in view of the above-mentioned technical background, and its basic objectives are as follows: Another, more specific object of the invention is to provide an insert 4Gt plastic molding system for hoop material that can be constructed without any problems. When supplying hoop material and inserting it into a mold for molding, the hoop material with its width direction up and down may twist under its own weight, or may bend as the mold is opened and closed, which can cause various problems. Although it is easy to cause trouble, the purpose is to solve this problem and obtain highly reliable operation with a circular loop.

Embodiments of the present invention will be described in detail below based on the drawings.

The figure is a plan view showing the configuration of a resin molding system for hoop materials according to the present invention. This system includes a general-purpose horizontal injection molding machine 100, reel devices 200 and 500 on the supply side and winding side of the hoop material 1, and a hoop material 1.
guide devices 400 and 500 on the supply side and take-up side of
and a step feed device 600 for the hoop material 1 added to the molding machine 100.

In the molding machine 100, the bed 110 and the opening plate 120 in the soil.
and a movable plate 160 are arranged to face each other, and a fixed mold 121 and a movable mold 131 are attached to opposite surfaces of the two. The movable plate 130 moves horizontally as shown by arrow A to open and close the mold.

The step feed device 600 is attached to one side of the movable plate 130, and a pair of step feed devices 600 are attached to the other side of the movable plate 130, and a pair of devices are attached to the other side of the movable plate 130 to sandwich the hoop material 1 in the thickness direction while avoiding the bending part of the hoop material. A guide roller 132 and a guide plate 133 for guiding the hoop material 1 in the width direction are attached.

Supply side reel device 200Fi, base 210, and base 2
10 vertically installed in the center of the ffl IJ-rule, axis 2
20, a motor 230 that rotationally drives the reel shaft 220, and a supply reel 240 attached to the reel shaft 220. The supply reel 240 is wound with a hoop material 1 that has been subjected to press punching and bending (secondary processing).

The reel device 300 on the take-up side has a similar configuration, with a base 310
．． Reel shaft 32U, motor 630 and take-up reel 34
0. The hoop material 1 having a resin molded body formed by the molding machine 100 is wound onto the take-up reel 540 .

5- The guide device 400 on the supply side includes a pedestal 411 provided on a tripod stand 410, a capstan 421 and a pinch roller 422 provided on the pedestal 411, a motor 423 that rotationally drives the capstan 421, and a pedestal 411.
The deflection detector 430 includes a deflection detector 450 protruding from one side, and a pair of limited reflection type photoelectric switches SW1 and SW2 are disposed facing each other at a predetermined interval on a horizontal table 431. This is what I did. The upper surface of the pedestal 411 serves as a guide surface for the hoop material 1 in the width direction, and the upper surface of the horizontal base 431 serves as a support to prevent the lower surface of the hoop material 1 from sagging.

The hoop material 1 drawn out from the supply reel 240 in the direction of arrow B is passed between the capstan 421 and the pinch roller 422 of the guide device 400, and then passed through the deflection detector 4.
30 photoelectric switches EIW1 and SW2, is bent into an arc shape at this portion, is turned about 90 degrees, and is guided to the guide roller 132 of the molding machine 100.

Moreover, 6- The hoop material 1 is spread between the guide roller 152 and the step feed device M600, and is moved along the parting surface of the movable mold 131 of the molding machine 100.

The guide device 500 on the winding side has almost the same configuration as the guide device 400 described above, and includes a tripod stand 510° and a mount 511. A pair of guide rollers 520. Although a deflection detector 530 is provided, a capstan driven by a motor for transporting and driving the hoop material 1 is not provided on the winding side. The deflection detector 530 has a pair of limited reflection type photoelectric switches SW3 and EIW4 arranged on a horizontal table 531 to face each other at a predetermined interval.

The hoop material 1 sent out from the step feed device 600 is fed to the photoelectric switches SW3 and E of the deflection detector 560.
It is passed between the IW4, bent into an arc at this portion, turned around by about 90 degrees, and guided to the guide roller 520. Hoop material 1 passing through this guide roller 520
is transferred in the direction of arrow C and wound onto a take-up reel 640.

The step feed device 600 includes an air cylinder 610 for moving and driving the hoop material 1, and an air cylinder 6
The hoop material 1 is provided at the tip of the piston rod 10.
The movable chuck 620 holds and releases the hoop material 1, and prevents the hoop material 1 from wobbling in the thickness direction and width direction.
A fixed chuck part 640 that clamps the hoop material when the movable chuck 6 is released, and a fixed chuck part 640 that clamps the hoop material 1 to the mold 121°1.
31, and a position detector 660 for accurate positioning one pitch at a time. Note that the movable chuck 6
At the same time, one of the guide rollers provided on the piston rod is stepped, so as to avoid the bending protrusion and the molded resin part of the hoop material 1, and supporting the bending protrusion with the step to prevent the hoop material from drooping. is prevented.

Pilot holes (not shown) are formed in advance in the hoop material 1 at a constant pitch, and the step feed device 600
The position detector 630 has the pilot hole at a predetermined position fat.
For example, an optical fiber-type photoelectric switch is used to detect when the threshold has been reached. Step feed device 6
00 controls the sliding amount of the air cylinder 610 based on the detection signal of the position detector 630, so that the hoop material 1 is accurately transferred one pitch at a time.

Step feed device 600 operates in synchronization with molding machine 100. That is, when one molding operation is completed in the molding machine 100 and the movable plate 130 retreats to open the mold, the step feed device 600 operates to feed the hoop material 1.
Transfer only one pitch. When the positioning of the hoop material 1 is completed, the molding machine 1 starts operating again, and the movable plate 1
30 moves forward, the mold is clamped, and resin molding is performed.

The above operations are repeated.

The rotation and stopping of the motor 260 of the supply side reel device 200 and the motor 423 of the guide device 400 are controlled according to detection signals from the photoelectric switches SW1 and SW2 of the deflection detector 430.

To explain in detail, the limited reflection type photoelectric switch EIW1 emits a detection signal when the hoop material 1 is drawn into the molding machine 100 side and approaches the position indicated by the chain line (1) or higher. Then, the motors 250 and 425 are activated, and the hoop material 1 is fed in the direction of arrow B. When the hoop material 1 is transferred in the direction of arrow B, the slack of the hoop material 1 at the sag detector 430 increases, and the hoop material 1 approaches the photoelectric switch SWZ side. The photoelectric switch SW2 is
When the hoop material 1 approaches the position indicated by the chain line (2) or higher, a detection signal is emitted.

Then, the motors 250 and 423 are stopped, and the hoop material 1
feeding stops. The above operations are repeated, and as a result,
Hoop material 1 is controlled to be located between chain lines (1) and (2).

Similarly, the motor 330 of the take-up reel device 300 operates through the deflection detector 5300 and the photoelectric switches SW3 and SW'.
It is controlled by the detection signal of 4.

That is, the hoop material 1 is fed out by the step feed device 600, and when the hoop material 1 reaches the position indicated by the chain line (ri), the photoelectric switch SW4 detects this, and the motor 350 is started in response to the detection signal. , the hoop material 1 is pulled in the direction of the arrow 0 and wound onto the reel 340.Then, the hoop material 1-10- approaches the photoelectric switch SW3 side, and when it reaches the position indicated by the chain line (3), the hoop material 1-10- approaches the photoelectric switch SW3. detects this, and motor 330 is stopped in response to the detection signal.

In this way, the hoop material 1 is sequentially fed at a predetermined pitch, and while the injection molding machine 100 inserts the preformed insert portions into the hoop material one after another with the resin injected, the hoop material 1 is Devices 132, 133, 64
0,421,422,411°520.511 are guided in the thickness direction 9 width direction and will not twist.

The guide device 400 is provided with an end detector 440 of the hoop material 1 consisting of a proximity switch, and when the end of the hoop material 1 is detected by this, the system stops operating.

As described above in detail, the resin molding system for the hoop material according to the present invention has a closed mold in the horizontal direction.

A horizontal injection molding machine ioo that opens the mold, a step feed device 600 that feeds a predetermined amount of the hoop material 1 passed between a pair of molds 121 and 131 of this molding machine, and a step feed device 600 that feeds the hoop material 1 into the mold. Guide devices 132, 133, 6 are arranged near the mold on the feeding side and the feeding side from the mold to prevent the hoop material from wobbling in the thickness direction and width direction.
40. Therefore, even if the hoop material is fed with its width direction up and down, the hoop material will not be twisted and the insert molding accuracy will not deteriorate. It can also be easily used for general resin molding. Furthermore, as in the above embodiment, using the hoop material winding 9 unwinding L7 device,
If the hoop material between these and the mold is arranged so that it is long, the hoop material near the mold is likely to be twisted due to its own weight, deflection, etc. ,422,411,520,511
By guiding the hoop material in the thickness direction 9 width direction and by supporting the lower surface of the hoop material with a horizontal table 431° 531, twisting can be further prevented.

Furthermore, if the hoop material is guided in an arc shape without contact by the above-mentioned guide device, no unnecessary force is applied to the hoop material, so even if the hoop material is displaced when the mold is opened and closed in the molding machine. As a result, the hoop material naturally bends, and the hoop material is transported and positioned with high accuracy and smoothness.

[Brief explanation of the drawing]

The figure is a plan view showing an embodiment of the resin molding system for hoop material according to the present invention. 1... Hoop material 100... Horizontal injection molding machine 120... Fixed plate 130... Movable plate 162... Guide roller 200... Supply side reel device 600... Winding side reel device 400 ... Supply side guide device 500 ... Winding side guide device 430.530 ... Deflection detector 600 ... Step feed device -13-

Claims (4)

[Claims] (1) A horizontal injection molding machine that performs mold closing and opening operations in the horizontal direction, a step feed device that feeds a predetermined amount of hoop material passed between a pair of molding molds of this molding machine, and the hoop Resin molding of hoop material comprising guide devices placed near the molds on both the feeding side of the material into the mold and the feeding side from the mold to prevent wobbling of the hoop material in the thickness direction and width direction. Stem. (2) A plurality of guide devices that prevent the hoop material from wobbling in the thickness direction and width direction are provided at appropriate intervals along the hoop material on at least one of the feeding side to the mold and the feeding side from the mold. A resin-molded stem of a hoop material according to claim 1. (3) The resin of the hoop material according to claim 1 or 2, which is provided with a horizontal stand that supports the lower surface of the hoop material on at least one of the feeding side to the mold and the feeding side from the mold. Molded stem. (4) A step feed device and a guide device near the mold are attached to the movable mold side, and the hoop material is moved between the guide device and step feed device and a second guide device separated by an appropriate amount. Claim 2 or fc is a resin-molded stem of a hoop material according to claim 3, which is made to be flexible.