JPH085103B2 - Control method and device for injection molding machine - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an injection molding machine control method and apparatus suitable for use in driving and controlling a controlled actuator by a proportional electromagnetic pressure flow control type variable pump.

[0002]

2. Description of the Related Art Generally, in an injection process in an injection molding machine, a screw is advanced at a predetermined speed to inject and fill a measuring resin in a heating cylinder into a mold cavity, and after the filling, the resin is cured in the mold cavity. It consists of a pressure-holding process that applies a predetermined pressure to the resin for a predetermined time.When switching from the filling process to the pressure-holding process, the operating physical quantity during operation is monitored, and the operating physical quantity reaches the preset switching condition. The switching control was performed depending on the timing.

Conventionally, a screw forward position, a screw speed, and an injection pressure (internal pressure of a mold) have been used as such operation physical quantities. For example, in JP-A-61-188119, the screw speed is detected. At the same time, a control method is disclosed in which, when the screw reaches a preset switching range and reaches a preset deceleration value, the filling process is switched to the pressure holding process.

[0004]

However, the conventional control method of switching from the filling step to the pressure holding step has the following problems.

First, in the method of monitoring the screw advance position, the advance position depends not only on the resin filling amount in the mold cavity but also on the resin measurement error and the like, so that it is difficult to detect an accurate switching timing. There is. Also,
In the method of monitoring the screw speed, since the screw speed is obtained by differentiating the change in the screw position, there is a time delay or detection error in the detection of the switching timing, and in this case also there is a difficulty in detecting the accurate switching timing. . For example, in lens molding, filling is performed at an extremely low speed, but if the amount of position change for obtaining an effective speed is 0.1 mm and the moving time at this time is 1 second, the switching timing is delayed by 1 second. Furthermore, in the method of monitoring the injection pressure (mold internal pressure), these pressure values do not always match the amount of resin filled in the mold cavity, and as with the former two cases, accurate switching timing is required. It is difficult to detect.

The present invention solves the problems existing in the prior art as described above. In particular, it is possible to realize accurate switching control when switching from the filling process to the pressure-holding process and to simplify the structure. It is an object of the present invention to provide an injection molding machine control method and apparatus that can be implemented at an extremely low cost.

[0007]

A control method for an injection molding machine according to the present invention is connected to an internal actuator that varies a swash plate angle based on a deviation between a set value and a detected value related to a discharge pressure or a discharge amount. Proportional electromagnetic pressure flow control type variable pump that controls the control valve to change the discharge pressure or discharge amount (hereinafter,
By referred to as proportional pump) 2, injection Siri injection molding machine M
When controlling the drive of the connector 4 , it is proportional in the injection process.
When the magnitude of the swash plate angle Q in the pump 2 becomes equal to or smaller than a preset setting angle Qs, control is performed to switch from the filling process to the pressure holding process.

The injection molding machine controller 1 according to the present invention is an injection molding machine M including a proportional pump 2 and an injection cylinder 4 which is driven and controlled by the proportional pump 2, and particularly, in the proportional pump 2. a swash plate angle detection unit 5 for detecting the swash plate angle Q, detected by the swash plate angle detector 5
The swash plate angle Q is less than or equal to a preset setting angle Qs
When it becomes, control is performed to switch from the filling process to the pressure holding process.
It is characterized in that a control unit 6 is provided .

[0009]

According to the control method of the injection molding machine (or the control device 1) of the present invention, first, in the proportional pump 2, the internal value is calculated based on the deviation between the set value and the detected value related to the discharge pressure or the discharge amount. The control valve connected to the actuator is controlled. As a result, the swash plate angle is changed, and the discharge pressure or the discharge amount is changed according to the swash plate angle.

Since the speed of the screw 3 is controlled in the filling process, the flow rate is controlled by the proportional pump 2. Therefore, the flow rate of the pressure oil supplied to the injection cylinder 4, that is,
Since the discharge amount from the proportional pump 2 becomes relatively large, the swash plate angle Q also becomes large. On the other hand, near the end of the filling process, the amount of resin filled in the mold cavity is almost full, so the speed of the screw 3 sharply decreases, and the discharge amount from the proportional pump 2 also sharply decreases. The size of the swash plate angle Q also decreases.

The magnitude of the swash plate angle Q is detected by the swash plate angle detection unit 5, and the detection result is given to the control unit 6. On the other hand, the control unit 6 is preset with an optimum set angle Qs with respect to the swash plate angle for switching from the filling process to the pressure holding process. Therefore, the control unit 6 monitors the size of the swash plate angle Q detected by the swash plate angle detection unit 5 in the filling process (injection process) and sets the detected size of the swash plate angle Q. When the set angle becomes equal to or less than the set angle Qs, the switching control from the filling process to the pressure holding process is performed.

[0012]

Next, preferred embodiments according to the present invention will be described in detail with reference to the drawings.

First, the overall structure of an injection molding machine M including the control device 1 according to the present invention will be described with reference to FIG.

M is an injection molding machine, and in particular, indicates an injection device. Reference numeral 11 denotes an injection device main body, and a heating cylinder 12 is arranged in the front part. The heating cylinder 12 has an injection nozzle 12n at its tip and a hopper 13 at its rear, and the screw 3 is inserted therein. On the other hand, an injection cylinder 4 which constitutes a controlled actuator is arranged at the rear part of the injection device main body 11, and an oil motor 14 for measurement is provided at the rear end of the injection cylinder 4. The injection cylinder 4 has a cylinder portion 15
A single rod type piston portion 16 is built into the inside of the.
As a result, the front oil chamber is located in front of the piston body 16m.
Rear oil chambers are provided at the rear. Further, the tip of the piston portion 16 is coupled to the rear end of the screw 3,
The rotating shaft 14s of the oil motor 14 is the piston portion 1
Spline connection to the rear end of 6.

On the other hand, the front oil chamber and the rear oil chamber of the injection cylinder 4 are respectively connected to the A port and the B port of the four-port switching valve 21, and the R port of the switching valve 21 is connected to the oil tank 22 and the P port. Are respectively connected to the discharge ports of the proportional pump 2.

On the other hand, the proportional pump 2 has a pump body 23 built therein. The pump body 23 has a swash plate 24.
The discharge pressure and the discharge amount are made variable by the angle of 4, that is, the swash plate angle Q. In this case, the swash plate 24 includes one operation cylinder (internal actuator) 25, the other spring 26, and a bias cylinder (internal actuator).
While stopping at the position where the pressing force of 27 is balanced,
When the pressure oil is supplied to the operation cylinder 25, the pump body 23 is displaced in the direction in which the discharge amount decreases, that is, the direction in which the swash plate angle Q decreases. Further, while branching from the discharge line of the pump body 23 to connect the control valve 28,
The control valve 28 is connected to the operating cylinder 25 via a safety valve 29. Furthermore, 30 is an oil pressure sensor that detects the discharge pressure of the pump body 23, and 31 is a potentiometer that detects the swash plate angle Q.

On the other hand, reference numeral 32 is a pump control circuit, which comprises comparison operation units 33 and 34 and an amplifier 35. The hydraulic sensor 30 is connected to one input unit of the comparison calculation unit 33, and the potentiometer 31 is connected to one input unit of the comparison calculation unit 34. The output parts of the comparison calculation parts 33 and 34 are connected to the input part of the amplifier 35, and the output part of the amplifier 35 is connected to the control valve 28. Incidentally, 36 is a motor for driving the pump body 23, and 37 is a position sensor for detecting the position of the screw 3.

On the other hand, the proportional pump 2 has a flow rate setter 38.
..., the control unit 6 including the pressure setter 39 is connected. The control unit 6 outputs the flow rate command signal Sv corresponding to the set value of the flow rate setter 38 ... And the pressure command signal Sp corresponding to the set value of the pressure setter 39. The flow rate command signal Sv is the other in the comparison calculation unit 34. And the pressure command signal Sp are given to the other input section of the comparison calculation section 33.

The potentiometer 31 constitutes the swash plate angle detecting section 5, and the output of the potentiometer 31 is given to the control section 6 by another system. Therefore, the potentiometer 31 (swash plate angle detection unit 5) and the control unit 6 according to this system constitute the control device 1 according to the present invention. Note that FIG. 2 shows a control system including the control device 1 by a block circuit. In this way, the control device 1 can be configured by also using existing parts and devices.

Next, the control method of the injection molding machine according to the present invention including the function of the control device 1 will be described with reference to FIG.

First, in the filling process in the injection process, the four-port switching valve 21 is switched to the flow state, and the screw 3
Speed control for the (injection cylinder 4) is performed. That is, the flow rate command signal Sv is output from the control unit 6, and this flow rate command signal Sv is given to the comparison calculation unit 34. on the other hand,
A detection signal (detection value) proportional to the ejection amount is obtained from the potentiometer 31, and this detection signal is also given to the comparison calculation unit 34. Therefore, the comparison calculation unit 34 causes the flow rate command signal S
A deviation between v and the detection signal is obtained. This deviation is amplified by the amplifier 35 and then supplied to the control valve 28. As a result, the control valve 28 is switched to the symbol on the left side in FIG. Therefore, the swash plate 24 is displaced by the biasing force of the spring 26 in the direction in which the swash plate angle Q increases, that is, to the position 24 s shown by the phantom line in FIG. 3, and the oil in the operating cylinder 25 is returned to the oil tank 22. As described above, since the speed control (flow rate control) is performed in the filling process, the discharge amount from the proportional pump 2 increases and the swash plate angle Q also increases. As a result, the piston portion 16 moves to the left, the screw 3 moves forward, and feedback control for the screw speed is performed.

A detection signal proportional to the swash plate angle Q from the potentiometer 31 is also given to the controller 6.

On the other hand, near the end of the filling process, the amount of resin filled in the mold cavity is almost full, so that the forward speed of the screw 3 decreases rapidly and the discharge amount from the proportional pump 2 also increases rapidly. With the decrease, the swash plate 24 is displaced in the neutral direction, and the swash plate angle Q becomes smaller.

On the other hand, the control unit 6 has an optimum set angle Qs with respect to the swash plate angle for switching from the filling process to the pressure holding process.
Is preset. Therefore, the control unit 6 monitors the magnitude of the swash plate angle Q detected from the potentiometer 31, and the magnitude of the swash plate angle Q becomes smaller, so that the set angle Qs
(Refer to FIG. 3) When it becomes the following, switching control is performed from the filling process to the pressure holding process. As described above, according to this control method, it is possible to detect an accurate switching timing without causing a time delay or a detection error.

The pressure control is performed by shifting to the pressure holding step. At the time of pressure control, the flow rate command signal Sp is output from the control unit 6, and the pressure command signal Sp is compared with the comparison calculation unit 33.
Granted to. On the other hand, a detection signal (detection value) proportional to the discharge pressure is obtained from the hydraulic pressure sensor 30, and this detection signal is given to the comparison calculation unit 33. Therefore, the comparison calculation unit 33 obtains a deviation between the pressure command signal Sp and the detection signal. The deviation is amplified by the amplifier 35 and then supplied to the control valve 28 to control the swash plate 24.

Further, in the embodiment, the case of detecting the switching timing at the time of switching from the filling process to the pressure holding process has been shown, but in addition, various kinds of screw position, speed, pressure, etc. are based on the information of the swash plate angle Q. Detects or calculates the operating physical quantity,
Based on these, the process control of the entire injection molding machine can be performed. In this case, the configuration and control system can be simplified, and factors such as response delay that reduce accuracy can be eliminated.
It

Although the embodiments have been described in detail above, the present invention is not limited to such embodiments, and the detailed configurations and methods can be arbitrarily changed without departing from the gist of the present invention. .

[0028]

As described above, the control method of the injection molding machine according to the present invention is connected to the internal actuator for changing the swash plate angle based on the deviation between the set value and the detected value related to the discharge pressure or the discharge amount. When the injection cylinder of the injection molding machine is driven and controlled by the proportional pump that controls the control valve to change the discharge pressure or the discharge amount, the proportional pump is used during the injection process.
The size of the swash plate angle at the pump is the preset angle
When the temperature falls below the limit, the filling process is switched to the pressure-holding process.
Control, so switching from the filling process to the pressure- holding process
There is no time delay or detection error when
And can be switched with accurate switching timing.
It

Further, the control device for the injection molding machine according to the present invention is such that the swash plate angle detecting section for detecting the swash plate angle of the proportional pump and the size of the swash plate angle detected by the swash plate angle detecting section.
However, if the angle becomes less than the preset angle, the filling process starts.
Since the control section for controlling the switching to the pressure holding step is provided, the control method according to the present invention can be easily carried out, and in particular, the simplified configuration which can also be used as the existing parts and apparatus makes the cost extremely low. Can be implemented.

[Brief description of drawings]

FIG. 1 is a configuration diagram of an injection molding machine including a control device according to the present invention,

FIG. 2 is a block circuit diagram showing the control device extracted.

FIG. 3 is an explanatory view of the operation of the control method according to the present invention,

[Explanation of symbols]

 1 Control Device 2 Proportional Electromagnetic Pressure Flow Control Variable Pump 3 Screw 4 Injection Cylinder 5 Swash Plate Angle Detection Unit 6 Control Unit M Injection Molding Machine Q Swash Plate Angle Qs Set Angle

Claims (2)

[Claims] 1. A proportional electromagnetic which controls a control valve connected to an internal actuator for varying a swash plate angle to vary the discharge pressure or the discharge amount based on a deviation between a set value and a detected value relating to the discharge pressure or the discharge amount. When controlling the injection cylinder of an injection molding machine with a variable pressure flow control type variable pump (proportional pump) , the proportional pump can be used during the injection process.
The swash plate angle is less than the preset angle.
A method for controlling an injection molding machine, comprising performing control to switch from a filling process to a pressure holding process . 2. A proportional electromagnetic that controls a control valve connected to an internal actuator that varies the swash plate angle based on a deviation between a set value and a detected value relating to the discharge pressure or the discharge amount to vary the discharge pressure or the discharge amount. Pressure flow control type variable pump (proportional pump) and injection cylinder controlled by this proportional pump
In the injection molding machine comprising comprises a Sunda, the swash plate angle detector for detecting the swash plate angle of the proportional pump, the swash plate angle detection
The size of the swash plate angle detected by the
When the angle falls below a certain angle, switching from the filling process to the pressure holding process
An injection molding machine control device comprising a control unit for performing control .