KR940007330Y1 - Hydraulic circuit of injection molding machine - Google Patents

Abstract

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Description

Hydraulic Circuit of Injection Molding Machine

1 is a hydraulic circuit diagram according to the present invention.

* Explanation of symbols for main parts of the drawings

1: Hydraulic motor 2, 4, 6, 7: Solenoid valve

3, 5: lodge valve 8: relief valve

9: delivery pump 10: motor

L ₁ : limit switch

The present invention relates to the hydraulic circuit of the injection molding machine of the injection molding machine, and more particularly, to the hydraulic circuit of the injection molding machine to increase the load of the resin pressure when molding the injection-molded injection parts of the injection device.

In general, in order to mold an injection product having a large amount of injection, it was possible to use only a larger capacity injection device, and therefore, additional equipments were required to be provided. There is a problem with the restriction of the injection apparatus.

In addition, due to the increase of the injection speed, the resin pressure is remarkably inferior, and thus it is not possible to obtain an injection product of a desired form, and it has a disadvantage that many defective products are generated accordingly.

Therefore, the purpose of the present invention is to allow the product to be weighed in the neutral state according to the operation state of the double solenoid, to increase the injection amount when one side solenoid is operated, and to perform the injection operation when the other solenoid is operated. It is to provide a hydraulic circuit of the injection molding machine to increase the injection amount efficiently when molding them.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the hydraulic circuit of the present invention has a hydraulic circuit for driving an injection apparatus, and the pump is discharged by the pump 10 and the pump pump operating the pump 10 to supply hydraulic pressure by driving the motor 10. The hydraulic motor of the hydraulic motor (1) and the hydraulic switch of the limit switch (L ₁ ) and the hydraulic motor (1) for detecting the weighing completion position at the time of advance of the screw (A) rotated by the hydraulic motor (1) First to fourth hydraulic solenoid valves 7 for controlling the hydraulic pressure passing through the barrel and a plurality of hydraulic cylinders C and D installed inside the barrel B to control the hydraulic pressure of each hydraulic line; It is installed between the third solenoid valve (2) (4) (6) and the cylinders in the barrels (B) and the second and third solenoid valves (4) (6) to alternately control the hydraulic flow of two lines. Connected to the return port of the logic valve (3) (5) and the third solenoid valve (6). To set is configured hayeoseo cross the relief valve 8 to maintain the hydraulic pressure to the set value in accordance with the pressure connection.

Reference numeral E denotes a mold.

Referring to the operation relationship of the hydraulic circuit of the present invention configured as described above, first, when the motor 10 is driven by the operation switch of the control panel, not shown in the drawing, each of the hydraulic lines by the delivery pump 9 to the driving force of the motor 10 Hydraulic pressure is sent through

At this time, when the current is sent to the solenoid of the fourth solenoid valve 7 and the fourth solenoid valve 7 is excited, the hydraulic pressure of the delivery pump 9 is transmitted to the hydraulic motor 1 so that the hydraulic motor 1 operates. .

The operation of the hydraulic motor 1 causes the screw A in the barrel B to rotate and to move forward to the mold E side.

At this time, when the screw (A) starts to rotate, the molten resin accumulates at the tip of the barrel (B) to generate a resin pressure, and the position of the screw (A) advanced by this resin pressure is set at one side of the barrel (B). The position is detected by the limit switch L ₁ to stop the forward operation by turning off the second solenoid valve 4 at the weighing completion position.

Thereafter, the molten resin is introduced into the mold E through a nozzle and simultaneously injected to obtain a desired product.

Even when the next screw (A) reaches the position of the limit switch (L ₁ ), that is, the weighing completion position, the hydraulic motor (1) continues to operate, at this time, the third solenoid valve (6) by the control unit not shown When the a-side solenoid is excited, the logic valve 5 is normally open, and the hydraulic cylinders C and D maintain their forward positions so that the screw A does not retreat anymore and continues to rotate.

Therefore, the molten resin continues to enter the mold through the screw (A) tip and the injection amount increases.

This operation is operated for a time set by the timer of the control unit not shown, and at the same time as the set time elapses, the a side solenoid of the third solenoid valve 6 is turned off.

When the a side solenoid is turned off and the current of the fourth solenoid valve 7 is turned off, the screw A stops rotating and the injection apparatus performs the injection operation.

In the control relationship between the injection using the third solenoid valve 6 and the injection increase and the measurement process, the measurement is performed in a neutral state. Let's do it.

Therefore, since the resin is melted and drawn into the mold at the weighing completion position of the limit switch L ₁ , it is suitable for obtaining an injection amount and a large injection product according to the detection position.

On the other hand, the first and second solenoid valves (2) and (4) operate when advancing and retracting a plurality of hydraulic cylinders (C) (D) installed in the barrel (B), which is not shown in the drawings. Controlled by

As described above, the present invention provides a detection function for detecting a weighing position on one side of the barrel, and the double solenoid valve is controlled according to the operation of the limit switch of the detection function to sequentially perform the metering, injection increase and injection operation. It is a very useful design that can be controlled to reduce the defect rate as well as to control the injection molding.

Claims (1)

In constructing a hydraulic circuit for driving an injection apparatus, a pump (9) for sending hydraulic pressure by driving the motor (10) and a hydraulic motor (1) driven with hydraulic pressure transmitted by the pump operation thereof and the hydraulic motor Limit switch (L ₁ ) for detecting the measurement completion position when the screw (A) rotated by ( ₁ ) and the fourth solenoid valve (7) for controlling the hydraulic pressure passing through the hydraulic passage of the hydraulic motor (1) and First to third solenoid valves (2) (4) and (6) installed in a hydraulic path operating a plurality of hydraulic cylinders (C) (D) installed inside the barrel (B) to control the hydraulic pressure of each hydraulic line; Logic valves (3) (5) and the third solenoid valves installed between the second and third solenoid valves (4) (6) and the cylinders in the barrel (B) to alternately control the hydraulic flow of two lines. When connected to the conveying port of (6), maintain the hydraulic force at the set value according to the set pressure of the hydraulic furnace. The hydraulic circuit of the injection molding machine, characterized in that the key is configured by interconnecting the relief valve (8).