With the development of microcomputer control technology, microcontrollers have become more and more popular because of their unique features and superior performance/price ratio, especially in household electrical and industrial process control and intelligent instruments. A typical example is the application of the automatic shear sequence control system. The following is the introduction of the automatic shearing machine control system designed with the single-chip 8031. The system has been put into production, the operation is stable and reliable, the control accuracy is high, and the maintenance is easy to use. This system is developed in accordance with the requirements of the enterprise. It is an economical and practical CNC system. It saves the main structure of the original machine tool, and adds functional carriers such as automatic feeding, unloading, shearing, and numerical control.
1 The design system requires the structural composition and working principle of the automatic shear system. The system can cut large pieces of board as required, and it can be transported by the feeder trolley to the packing line or each used material point. When it is not in operation, the limit switches ST2, ST3 and ST4 of the pressure block and the shearing blade are both disconnected, and both the limit switch ST1 and the photoelectric proximity switch ST7 are also disconnected. The shearing knife, the briquetting block, and the material selection mechanism are respectively driven by the AC motor, and the material transportation vehicle is driven by the DC control motor. The working process is as follows:
(1) Read the status of the limit switch ST6 and judge whether the trolley is unloaded. If it is unloaded, it can start working.
(2) Start the feeding trolley and put it into place. At this time, the limit switch ST5 is closed.
(3) When the SSRe is energized, the feeding mechanism E is started to move the sheet material to the right.
(4) When the sheet hits the stroke switch ST1, the feeding is stopped, and at the same time, the SSRb power-on starts the depressing mechanism, the pressing block B is pressed down, and the block upper limit switch ST2 is reset and closed.
(5) When the compact is in place and the material is pressed, the compact lower limit switch ST3 is closed.
(6) When the SSRe is energized, the shearing knife mechanism is started to control the shears of the shear. The ST4 is reset and closed until the sheet is cut. When the sheet falls past the photoelectric proximity switch ST7, ST6 outputs a pulse and increments the 8031 ​​counter.
(7) It is judged whether the number of sheets on the trolley is enough, and if not, the steps (3) to (7) after the start of the feeding mechanism are continuously repeated. Once the number is sufficient, the control motor is energized, the control motor of the transport trolley is rotating forward, the trolley is at the right, and the cut sheet is sent to the packaging line or the respective material points. After the sheet is unloaded, the cart is re-inverted, returned to the shears, and the next vehicle is loaded with shears. The length L of the sheet can be freely adjusted according to the need. The number of sheets for each vehicle (bundle) can be given by the machine keyboard or can be set by dialing the keyboard. The counts of sheets fixed to the packing line or sent to the respective material points can be arbitrarily changed and completed by the software system.
The system is mainly composed of a single chip 8031, a 2716 readable and writable memory, 7 switches (ST1~ST7) input, 3 solid state relay control interfaces, and a motor bidirectional control interface; in addition, there is a counter for shearing. The cut sheet is counted. 74LS273-1# is the address latch, 8031 ​​internal timer/counter 0 is used as the material counter; 74LS273-2# is the I/O expansion interface, its address is 7FFFH. Here, 1D to 6D are used as digital input bits, and they are connected to ST1 to ST6 respectively. The two bits of P1.0 and P1.1 are used as bidirectional motors (reversible DC motor M1) to control the forward or backward movement of the trolley. The P1.2 to P1.4 and P3 ports of the P1 port are used to control the AC drive motors of the shears, briquettes, and feed mechanisms, respectively, to complete operations such as shearing, pressing, and automatic feeding. In order to improve the system's anti-jamming capability, the design of the hardware system is simple and it adopts full floating technology, that is, each input terminal of the switch has an optoelectronic isolator, and the control output adopts an opto-isolated solid state relay.
2. Switch input interface circuit Switch input interface circuit using optical isolator. When the control switch ST1 is turned off, no current flows through the light emitting diode, so the phototransistor is turned off and the output is high (“1â€); once the ST1 is closed, the light emitting diode is turned on, causing the phototransistor to turn on and the output is low ( "0").
2.1 Output Control Circuit The output control circuit uses a solid state relay (SSR). Its interface circuit, the input is TTL level, and the output is AC load. When the P1.4 terminal outputs a high level "1", the solid state relay SSR is turned on and the AC motor is powered on. Conversely, if the P1.4 terminal outputs a low level ("0"), the SSR is cut off and the AC motor is also turned off. Followed by power outages. The other two are exactly the same. In order to achieve the purpose of photoelectric isolation, four DC solid state relays QS1 to QS4 form a reversible DC motor control circuit (ie, a bidirectional servo motor control circuit).
It is worth noting that: the system does not necessarily have to use optical isolation technology or solid state relays, it can also design a simple circuit. The full-floating technology is used here, mainly for the reader to have a more comprehensive understanding of the full-floating SCM control system.
3 software design Automatic shearing machine production process control software uses a modular structure, sequence control system program design can be based on the flowchart, you can also write a program table for each step, or draw a logical function diagram. The control program is divided into two parts, one part is the main program, which is used to initialize the system, ie set the interrupt control word and counting constants; the other part is the interrupt service program, which controls the production process of the shearing machine system.
4 Conclusion This system is a sequential control system designed with 8031 ​​microcontroller, hardware circuit, interface is simple, software development and debugging are more convenient, in the input, output side using optical isolation and other measures, the anti-interference effect is very good. After the practical application of automatic transformation of several different types of shearing machine tools, this system fully embodies the characteristics of high integration, high processing precision, good economy, easy operation, high level of automation, and the reliability of the equipment. Both maintenance and flexibility are excellent, basically meeting the needs of modern and large-scale production of electromechanical equipment factories.
1 The design system requires the structural composition and working principle of the automatic shear system. The system can cut large pieces of board as required, and it can be transported by the feeder trolley to the packing line or each used material point. When it is not in operation, the limit switches ST2, ST3 and ST4 of the pressure block and the shearing blade are both disconnected, and both the limit switch ST1 and the photoelectric proximity switch ST7 are also disconnected. The shearing knife, the briquetting block, and the material selection mechanism are respectively driven by the AC motor, and the material transportation vehicle is driven by the DC control motor. The working process is as follows:
(1) Read the status of the limit switch ST6 and judge whether the trolley is unloaded. If it is unloaded, it can start working.
(2) Start the feeding trolley and put it into place. At this time, the limit switch ST5 is closed.
(3) When the SSRe is energized, the feeding mechanism E is started to move the sheet material to the right.
(4) When the sheet hits the stroke switch ST1, the feeding is stopped, and at the same time, the SSRb power-on starts the depressing mechanism, the pressing block B is pressed down, and the block upper limit switch ST2 is reset and closed.
(5) When the compact is in place and the material is pressed, the compact lower limit switch ST3 is closed.
(6) When the SSRe is energized, the shearing knife mechanism is started to control the shears of the shear. The ST4 is reset and closed until the sheet is cut. When the sheet falls past the photoelectric proximity switch ST7, ST6 outputs a pulse and increments the 8031 ​​counter.
(7) It is judged whether the number of sheets on the trolley is enough, and if not, the steps (3) to (7) after the start of the feeding mechanism are continuously repeated. Once the number is sufficient, the control motor is energized, the control motor of the transport trolley is rotating forward, the trolley is at the right, and the cut sheet is sent to the packaging line or the respective material points. After the sheet is unloaded, the cart is re-inverted, returned to the shears, and the next vehicle is loaded with shears. The length L of the sheet can be freely adjusted according to the need. The number of sheets for each vehicle (bundle) can be given by the machine keyboard or can be set by dialing the keyboard. The counts of sheets fixed to the packing line or sent to the respective material points can be arbitrarily changed and completed by the software system.
The system is mainly composed of a single chip 8031, a 2716 readable and writable memory, 7 switches (ST1~ST7) input, 3 solid state relay control interfaces, and a motor bidirectional control interface; in addition, there is a counter for shearing. The cut sheet is counted. 74LS273-1# is the address latch, 8031 ​​internal timer/counter 0 is used as the material counter; 74LS273-2# is the I/O expansion interface, its address is 7FFFH. Here, 1D to 6D are used as digital input bits, and they are connected to ST1 to ST6 respectively. The two bits of P1.0 and P1.1 are used as bidirectional motors (reversible DC motor M1) to control the forward or backward movement of the trolley. The P1.2 to P1.4 and P3 ports of the P1 port are used to control the AC drive motors of the shears, briquettes, and feed mechanisms, respectively, to complete operations such as shearing, pressing, and automatic feeding. In order to improve the system's anti-jamming capability, the design of the hardware system is simple and it adopts full floating technology, that is, each input terminal of the switch has an optoelectronic isolator, and the control output adopts an opto-isolated solid state relay.
2. Switch input interface circuit Switch input interface circuit using optical isolator. When the control switch ST1 is turned off, no current flows through the light emitting diode, so the phototransistor is turned off and the output is high (“1â€); once the ST1 is closed, the light emitting diode is turned on, causing the phototransistor to turn on and the output is low ( "0").
2.1 Output Control Circuit The output control circuit uses a solid state relay (SSR). Its interface circuit, the input is TTL level, and the output is AC load. When the P1.4 terminal outputs a high level "1", the solid state relay SSR is turned on and the AC motor is powered on. Conversely, if the P1.4 terminal outputs a low level ("0"), the SSR is cut off and the AC motor is also turned off. Followed by power outages. The other two are exactly the same. In order to achieve the purpose of photoelectric isolation, four DC solid state relays QS1 to QS4 form a reversible DC motor control circuit (ie, a bidirectional servo motor control circuit).
It is worth noting that: the system does not necessarily have to use optical isolation technology or solid state relays, it can also design a simple circuit. The full-floating technology is used here, mainly for the reader to have a more comprehensive understanding of the full-floating SCM control system.
3 software design Automatic shearing machine production process control software uses a modular structure, sequence control system program design can be based on the flowchart, you can also write a program table for each step, or draw a logical function diagram. The control program is divided into two parts, one part is the main program, which is used to initialize the system, ie set the interrupt control word and counting constants; the other part is the interrupt service program, which controls the production process of the shearing machine system.
4 Conclusion This system is a sequential control system designed with 8031 ​​microcontroller, hardware circuit, interface is simple, software development and debugging are more convenient, in the input, output side using optical isolation and other measures, the anti-interference effect is very good. After the practical application of automatic transformation of several different types of shearing machine tools, this system fully embodies the characteristics of high integration, high processing precision, good economy, easy operation, high level of automation, and the reliability of the equipment. Both maintenance and flexibility are excellent, basically meeting the needs of modern and large-scale production of electromechanical equipment factories.
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