KR20200027651A - Injection molding system and gate valve controller controlling the same - Google Patents

Abstract

An injection molding system for stably controlling the opening and closing of a gate valve regardless of the injection speed and a gate valve control device for controlling the same are provided. The injection molding system includes an injection machine including a hopper for supplying resin, an injection cylinder for heating and melting the resin introduced from the hopper, and a screw disposed in the injection cylinder and for injecting the molten resin through a nozzle; An injection mold including a pair of blocks installed to face each other and having a cavity formed at an interface, and a plurality of gate valves injecting molten resin supplied from the injection machine into the cavity; It includes; and a displacement sensor for measuring the displacement value of the screw, and a control device including a control unit for controlling opening and closing of each gate valve based on the displacement value.

Description

Injection molding system and gate valve controller controlling the same}

The present invention relates to an injection molding system and a gate valve control device for controlling the same, and more particularly, to an injection molding system for stably controlling the opening and closing of the gate valve regardless of the injection speed and a gate valve control device for controlling the same. .

Injection molding is a method of forming a thermoplastic resin or a thermosetting resin, and is a method of obtaining a molded product by injecting it into a mold by an extrusion plunger or a screw and then solidifying or curing the molding material by heating and melting it in an injection cylinder. It is suitable for mass production of complex shaped products, and is widely used throughout the industry.

Such an injection molding equipment is composed of an injection molding machine for melting a molding material and a mold for molding a product using the molten material. In general, the melted material or resin in the injection machine is injected into the mold through a single nozzle or flow path, and the flow path is further divided into a plurality of flow paths and flows into a cavity of the mold through a gate formed in each flow path. A gate valve is formed in each gate to control opening and closing of the gate.

In order to form a single product as described above, molten resin flows into a cavity from a plurality of gates, and it is necessary to individually control opening and closing for each gate valve because the amount of molten resin flows from gate to gate. Conventional control systems take a method of controlling opening and closing of each gate valve based on time. For example, the gate valve GV1 opens at time t1, and the gate valve GV2 opens at time t2. However, by the conventional time, the valve control method has a very serious problem in product molding. That is, since the valve control method by time is not linked to the change in the injection speed, if the injection speed changes due to material changes, process improvement, etc., the amount of molten resin flowing through the gate valve changes. That is, it causes a change in the injection conditions and causes quality defects.

The problem to be solved by the present invention is to provide an injection molding system capable of providing the same quality even with a change in injection speed.

Another problem to be solved by the present invention is to provide a gate valve control device for controlling such an injection molding system.

The problems to be solved by the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

The injection molding system according to an embodiment of the present invention for achieving the above object is an injection molding system that melts and extrudes a resin into a predetermined product, and includes a hopper for supplying the resin and resin introduced from the hopper. An injection machine including an injection cylinder for heating and melting, and a screw disposed in the injection cylinder and injecting molten resin through a nozzle; An injection mold including a pair of blocks installed to face each other and having a cavity formed at an interface, and a plurality of gate valves for ejecting molten resin supplied from the injection machine into the cavity; It includes; and a displacement sensor for measuring the displacement value of the screw, and a control device including a control unit for controlling opening and closing of each gate valve based on the displacement value.

The control unit can control the gate valve independently of the change even if the injection speed of the injection machine is changed.

The displacement sensor is a sensor for measuring the linear movement position of the screw, the moving part installed in the injection cylinder that controls the linear movement of the screw or the screw, and connected to the moving part by a wire and coupled to a peripheral fixture It includes a fixed part, the wire may be arranged parallel to the axis of the screw.

A gate valve control apparatus according to an embodiment of the present invention for achieving the above other problems, a hopper for supplying resin, an injection cylinder for heating and melting resin introduced from the hopper, and disposed in the injection cylinder An injection machine including a screw for injecting molten resin through a nozzle; And a pair of blocks installed to face each other and having a cavity formed at an interface, and an injection mold including a plurality of gate valves that eject molten resin supplied from the injection machine into the cavity. As a valve control device, a displacement sensor for measuring the displacement value of the screw and a control unit for controlling opening and closing of each gate valve based on the displacement value.

The control unit can control the gate valve independently of the change even if the injection speed of the injection machine is changed.

The displacement sensor is a sensor for measuring the linear movement position of the screw, the moving part installed in the injection cylinder that controls the linear movement of the screw or the screw, and connected to the moving part by a wire and coupled to a peripheral fixture It includes a fixed part, the wire may be arranged parallel to the axis of the screw.

Specific details of other embodiments are included in the specific contents and drawings.

As described above, according to the injection molding system according to the present invention and the gate valve control device for controlling the same, the opening and closing of each gate valve is controlled based on the displacement or stroke of the screw of the injection molding machine, thereby improving material changes or processes. For example, even if the injection breaking speed is changed, the amount of molten resin flowing through the gate valve can be controlled constantly.

In addition, the gate valve control device of the present invention is a portable device capable of independent function and control. Therefore, it is possible to implement the valve control method by displacement by easily installing the gate valve control device of the present invention in the existing system without making a large design change to the conventional injection molding system operating by the valve control method by time.

1 is a view schematically showing the configuration of an injection molding system according to an embodiment of the present invention.
FIG. 2 is a view exemplarily showing the gate valve of FIG. 1.
3 exemplarily shows injection molding of a vehicle bump using the injection molding system of FIG. 1.
4 shows the injection speed applied to the injection molding of FIG. 3.
Figure 5 shows the gate operation according to the displacement of the screw in the injection molding of Figure 3.

Advantages and features of the present invention, and methods for achieving them will be clarified with reference to embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms, and only the present embodiments allow the disclosure of the present invention to be complete, and common knowledge in the technical field to which the present invention pertains. It is provided to fully inform the holder of the scope of the invention, and the invention is only defined by the scope of the claims. The same reference numerals refer to the same components throughout the specification.

1 is a view schematically showing the configuration of an injection molding system according to an embodiment of the present invention, Figure 2 is a view showing the gate valve of Figure 1 by way of example.

The injection molding system of the present invention is an apparatus system for molding a resin into a predetermined product by melt-extruding the resin as a whole, the injection molding machine 200 for melting and extruding the resin, and the molten resin supplied from the injection molding machine 200 into the internal cavity 130 It may include a control device for controlling the opening and closing of the injection mold 100 and the gate valve 140 of the injection mold 100.

The injection machine 200 may include a hopper 210, an injection cylinder 230, a screw 220, an injection cylinder 240 and a rotating motor 222.

Here, the hopper 210 is, for example, a device for supplying plastic raw materials or resin in the form of chips, and the resin contained in the hopper 210 is an injection cylinder (as the screw 220 rotates by the rotation motor 222) 230) Move to the interior space. The resin in the form of a solid chip introduced into the injection cylinder 230 is melted to a high temperature gel, gel, or liquid state. When the screw 220 disposed in the injection cylinder 230 is advanced in the direction of the nozzle 232 by the operation of the injection cylinder 240, the molten resin extruded from the nozzle 232 is an injection mold connected to the nozzle 232 ( 100) It is filled inside. The injection cylinder 240 controls the linear movement of the screw 220, and may be, for example, a hydraulic cylinder.

The injection mold 100 is installed so as to face each other and a pair of blocks 110 and 120 having a cavity 130 formed at an interface, a flow path 160 serving as a movement path for molten resin supplied from the injection molding machine 200, and , It may include a gate valve 140 for controlling the flow of the molten resin in the flow path 160. One or more gates 150 are provided in the cavity 130, and one or more flow paths 160 connected to the nozzles 232 of the injection machine 200 are branched in the middle to be connected to each gate 150. In addition, a gate valve 140 is installed for each gate 150 to control the molten resin being injected into the cavity 130. The gate valve 140 may include a valve pin 141 installed in the flow path 160 to control the opening and closing of the gate 150 through translational motion, and a pin driver 142 to drive the valve pin 141. .

The control device may include a displacement sensor 310 that measures the displacement value of the screw 220 and a control unit 300 that controls opening and closing of each gate valve 140 of the injection mold 100 based on the displacement value. have.

Here, the displacement sensor 310 is a linear displacement sensor that measures the linear movement position or displacement value of the screw 220, and may be, for example, an encoder or the like. In this embodiment, the displacement sensor 310 may be composed of a moving part, a fixed part, and a wire connecting them, and the moving part is connected to a screw 220 or an injection cylinder 240 that controls linear motion of the screw 220. Is installed, the fixed part can be fixed to be coupled to the surrounding fixture. Further, by arranging the wire parallel to the axis of the screw 220, the displacement value of the direct side of the screw 220 can be accurately measured through the displacement sensor 310.

Since the control unit 300 controls opening and closing of each gate valve 140 based on the displacement value or stroke of the screw 220, even if the injection speed is changed for reasons such as material change or process improvement, the control unit 300 is independent of the change. The gate valve 140 can be controlled. That is, even if the injection speed is changed, the control unit 300 may control the amount of molten resin flowing through the gate valve 140 to be constant. Here, the injection speed (injection speed) may be represented by a value equivalent to the number of grams injected into the cavity 130 per unit time in injection molding or equivalent thereto.

The control device of this embodiment is a portable device capable of independent function and control. Therefore, it can be easily installed in a conventional injection molding system operated by a valve control method by time and easily changed to a valve control method by displacement.

FIG. 3 exemplarily shows injection molding of a bump for a vehicle using the injection molding system of FIG. 1, FIG. 4 shows an injection speed applied to the injection molding of FIG. 3, and FIG. 5 shows a screw of the injection molding of FIG. It shows the gate operation according to the displacement.

Referring to FIG. 3, in this experiment example, 8 gates 1 to 8 are provided in an injection mold or a cavity to mold a vehicle bump 10, and the flow path 160 connected to the nozzle of the injection machine is branched into eight It is configured to be connected to each gate 1 to 8. As shown in Figure 4, the injection speed was changed to V1, V2, V3, V4 depending on the time or the position of the screw. As shown in FIG. 5, when the screw has reached the position L1, the control unit 300 opens the gates 3 and 7, and then when the screw has reached the position L2, the control unit 300 opens the gates 1 and 4 , When the screw has reached position L3, the control unit 300 has opened the gates 1, 5, 6 and 8.

Looking through the above experimental examples, the present invention controls the opening and closing of each gate valve based on the position or displacement value of the screw, so even if there is a change in the injection speed within one stroke, the melted resin is not affected. The injection amount can be kept constant.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, those skilled in the art to which the present invention pertains may be implemented in other specific forms without changing the technical spirit or essential features of the present invention. You will understand. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive.

10: car bump
100: injection mold
110, 120: block
130: cavity
140: gate valve
141: valve pin
142: pin drive
150: gate
160: Euro
200: injection machine
210: Hopper
220: screw
222: rotary motor
230: injection cylinder
232: nozzle
240: injection cylinder
300: control unit
310: displacement sensor

Claims (6)

An injection molding system that melts and extrudes resin into a desired product,
An injection machine including a hopper for supplying resin, an injection cylinder for heating and melting the resin introduced from the hopper, and a screw disposed in the injection cylinder and for injecting molten resin through a nozzle;
An injection mold including a pair of blocks installed to face each other and having a cavity formed at an interface, and a plurality of gate valves for ejecting molten resin supplied from the injection machine into the cavity; And
The injection molding system comprising a; a displacement sensor for measuring the displacement value of the screw, and a control device including a control unit for controlling opening and closing of each gate valve based on the displacement value. According to claim 1,
The control unit controls the gate valve independently of the change even if the injection speed of the injection machine is changed. According to claim 1,
The displacement sensor is a sensor for measuring the linear movement position of the screw, the moving part installed in the injection cylinder for controlling the linear movement of the screw or the screw, and connected to the moving part by a wire and coupled to a peripheral fixture Injection molding system comprising a fixed part, the wire is arranged parallel to the axis of the screw. An injection machine including a hopper for supplying resin, an injection cylinder for heating and melting the resin introduced from the hopper, and a screw disposed in the injection cylinder and for injecting molten resin through a nozzle; And a pair of blocks installed to face each other and having a cavity formed at an interface, and an injection mold including a plurality of gate valves that eject molten resin supplied from the injection machine into the cavity. As a valve control device,
And a displacement sensor measuring the displacement value of the screw and a control unit controlling opening and closing of each gate valve based on the displacement value. According to claim 4,
The control unit controls the gate valve independently of the change even if the injection speed of the injection machine is changed. According to claim 4,
The displacement sensor is a sensor for measuring the linear movement position of the screw, the moving part installed in the injection cylinder for controlling the linear movement of the screw or the screw, and connected to the moving part by a wire and coupled to a peripheral fixture A gate valve control device comprising a fixed part, wherein the wire is disposed parallel to the axis of the screw.

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