KR20000013074U - Motor interlock controller without upper control system - Google Patents

Abstract

The present invention relates to a motor interlock controller, which includes an unwinder roll (1), a pass roll (2), (4), a winder roll (5) and a plurality of motor actuators having a vector inverter. (11-14) In the control system driven by each, one of the plurality of motor drivers (11-14) is used as the master motor driver (11), and the other is slave motor drivers (12-14). 14), the slave motor drivers 12 to 14 are connected to the master motor driver 11 with the communication cable 15, and the load cell 6 installed on the tension meter 3 is connected to the tension meter 7. In addition, a tension meter (7) is connected to the vector inverters of the master motor driver (11) and the slave motor driver (12 to 14), respectively, in a PLC (Programmable Logic Controller) or DDC (Direct Digital Control) system. Equipped with a communication board for communication between systems without a higher level control system such as In that it is an advantage in that the master actuator to control the plurality of motors to interlock through the multiple communication with the slave actuator.

Description

Motor interlock controller without upper control system

The present invention relates to a motor linkage controller, and in particular, when a plurality of motors are interlocked in a continuous process such as a steel mill and a paper mill, the high speed (communication cycle within several mSec) is separated from each other through mutual communication between the motor drivers. The present invention relates to a motor linkage controller without a higher level control system for interlocking multiple motors without a system.

The conventional motor interlock controller receives reference values from a higher level control system such as a programmable logic controller (PLC) or a direct digital control (DDC) system to cooperatively control a plurality of motors.

The present invention is different from the conventional motor linkage controller described above, and one master driver is equipped with a communication board for communication between systems without a higher level control system such as a programmable logic controller (PLC) or a direct digital control (DDC) system. It is an object of the present invention to provide a motor linkage controller without a higher level control system that controls a plurality of motors through interworking with multiple slave drivers.

1 is a block diagram of a motor interlock controller without the high-end control system of the present invention

2 is a data flow diagram between a master motor driver and a slave motor driver according to the present invention.

<Explanation of symbols for main parts of drawing>

1: Unwinder roll 2, 4: Pass Roll

3: tension meter roll 5: winder roll

6: load cell 7: tension meter

8, 9: Snubber Roll 11: Master Motor Driver

12-14: Slave Motor Driver

The motor interlock controller without the high-end control system of the present invention for achieving the above object is a vector of unwinder roll (1), pass roll (2), (4), winder roll (5). In a control system driven by a plurality of motor drivers 11 to 14 each having an inverter, one of the plurality of motor drivers 11 to 14 is a master motor driver 11, and the other is a slave. (Slave) The load cell 6 provided as the motor drivers 12-14 by connecting the slave motor drivers 12-14 with the communication cable 15 to the master motor driver 11, and being installed in the tension meta roll 3 It is characterized in that it is configured by connecting the tension meter (7) to the vector inverters in the master motor driver 11 and the slave motor driver (12 to 14) in addition to the tension meter (7).

Reference numerals 8 and 9 are Snubber rolls.

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

The present invention is equipped with a separate communication board for communication between systems, and to share the memory between each other using a dual port RAM (dual port RAM) in the communication board. Assuming that there are 4 motor drivers that are interlocked and controlled, one of the 4 control boards becomes a master and the other 3 drivers become slaves. It is configured to pass the reference value.

The present invention will be described as an example of the process of unwinding the thin iron plate of the steel process. 1 is a scaled-down model designed to unwind and roll a thin steel plate in a steel process employing a motor linkage controller without a high-level control system of the present invention. 1 is a device for testing the performance and function of the tension control algorithm for a rolling driver, a tension meter based on the winder (winder) winding the iron plate and the unwinder (Unwinder) to release the iron plate as a basic device It is a device that can control the tension of the iron plate by controlling the four motor actuators based on the tension measured from the.

In the system of FIG. 1, four motor drivers respectively drive an unwinder roll 1, a pass roll 2, 4, and a winder roll 5. The motor driver used here is a vector control inverter for driving an AC motor. The sensor is composed of a PLG measuring the speed of each motor and a load cell 6 measuring the tension.

In the communication configuration, the inverter of the master motor driver 11 driving the unwinder roll 1 is the master, and the remaining three inverter motor drivers 12-14 are the slaves. Configure. The master sends commands to the other slaves, receives feedback information, and processes the operation. In addition, the computer is used to configure the Man-Machine Interface (MMI). MMI sets the operation command of the system from the user by RS-232C communication and performs the function of displaying the operation status of the system by graph and numerical value.

For digital current control, speed control and tension control, TMS320C31 DSP chip was used for each control board of inverter. In addition, a separate communication board is installed for communication between systems, and one of the four control boards becomes a master, and the other three motors share memory with each other using dual port RAM in the communication board. After all calculations regarding tension control are performed in the master by being a slave, the command value is transmitted to the rest of the motor by communication.

As shown in FIG. 2, the master motor driver 11 transmits a run command and a reference value (Tref-torque reference value, Wref-speed) to each slave motor driver 12-14. Lower the reference value). Each slave motor driver 12 to 14 transmits the status, speed Wfbk, and torque Tfbk values to the master motor driver 11.

After initializing various parameters of the control system through communication port initialization through MMI, and operating the system, the rotation speed, torque and tension value of the winder roll (5) and unwinder roll (1) generated in the system are graphed together with the reference values. To show. In communication initialization screen of MMI, designate communication port and communication speed and press connection button to initialize communication. Communication performs data transmission based on serial communication using RS232C and RS422.

As such, the present invention is equipped with a separate communication board for communication between systems to control several motor drivers by interworking through communication between one master motor driver and several slave motor drivers.

The present invention, which works as described above, is equipped with a communication board for communication between systems without a higher level control system such as a programmable logic controller (PLC) or a direct digital control (DDC) system, so that one master driver is connected to several slave drivers. There is an advantage that can be controlled by interlocking a plurality of motors through communication with.

Claims (1)

Control to drive the unwinder roll 1, the pass rolls 2 and 4, and the winder roll 5 to each of the plurality of motor drivers 11 to 14 having a vector inverter. In the system, one of the plurality of motor drivers 11 to 14 is used as a master motor driver 11, and the other is a slave motor driver 12 to 14, and the master motor driver 11 is used. The slave motor drivers 12 to 14 with the communication cable 15, connect the load cell 6 installed on the tension meter 3 to the tension meter 7, and connect the tension meter 7 to the tension meter. A motor interlock controller without an upper control system, characterized in that it is connected to a vector inverter in each of a master motor driver (11) and a slave motor driver (12 to 14).