Analysis of Some Common Faults in Economical CNC Lathes
The simple numerical control lathe is also called the economical numerical control lathe, because its price economy automation degree is high, therefore has been generally accepted and widely used in the machining industry. Simple CNC lathes are developed on the basis of ordinary lathes, but their degree of automation has been greatly improved. The automatic control system is mainly composed of a single-chip microcomputer. Through the control program, the vertical and horizontal feed devices and tool change devices of the machine tool are controlled to automatically complete the processing of the parts. Therefore, the simple CNC lathe is a more complex machine-electric integration equipment, so in the event of failure, it must be comprehensively analyzed from the mechanical structure and electrical control of the machine tool.
Combined with his own experience in actual maintenance work, he made several analysis of his common failures
1. After the start of the program, the stepper motor does not rotate. This phenomenon is usually caused by the phase failure of the stepper motor or its control system. It may be the failure of the stepper motor itself or the failure of its drive circuit. First check whether the connecting plug of the stepping motor is in good contact. If the connecting plug is in good contact, then replace the one-phase motor with no fault. If the motor is running normally after the replacement, the original stepping motor is faulty. If the motor is replaced, Still can not work normally, then explain its control part is not normal, can check the high-power triode on the driver board extremely protection element releases the diode, under normal circumstances, the chance that these two components are damaged is relatively large.
2. During the operation of the machining program, the worktable suddenly stops running, and the stepper motor does not rotate. This phenomenon is generally caused by a mechanical failure, but it may also be due to a failure of the control system. At this time, the workbench can be returned to its original position and the machining program can be restarted. If the workbench is always stopped when it reaches a certain position, it should be caused by a damaged, deformed or blocked foreign object in a certain part of the transmission system. . First, power off the control system, and then turn the screw by hand. If the sensor feels excessive resistance at a certain point or even does not move at all, this position is proved to be faulty. Check whether the gap between the screw nut and the screw or the slide plate is too tight, whether there is foreign matter in the ball guide groove of the ball screw, whether the screw is bent or not, whether the flexible gear in the stepping motor speed reducer is loose or there is no foreign matter. Stuck and so on. If there is no abnormality in the manual car, the control system is faulty, and the inspection should be performed according to the steps of 1.
3. When the stepper motor runs normally at low speeds, the stepper motor loses its steps at high speed. This phenomenon may be caused by a decrease in the drive power supply voltage and a decrease in the output torque of the stepper motor. Therefore, it is important to check the drive power section. When the high-voltage first transistor is damaged, the high-voltage power supply cannot be turned on, so that the output torque of the stepping motor decreases at a high speed, resulting in lost steps. It may also be caused by a mechanical failure. Therefore, in the case of checking the unsuccessfulness of the above components, it is also necessary to inspect parts such as a screw, a nut, a slide plate, and a stepping motor speed reducer. When a component is bent, deformed, or there is a foreign matter stuck, the running resistance will increase. When running at low speed, the phenomenon is not obvious, but when running at high speed, it can not completely overcome the running resistance and cause step loss.
4. The end of the program operation, the tool returns less than zero, this phenomenon is generally caused by the control system failure. The tool requires low-speed operation during feed or during processing. At this time, the stepper motor runs at a low speed and is powered by a low-voltage power supply. When the program returns to zero, it is required to quickly retract. At this time, the stepper motor is required to run at a high speed and high-voltage drive power is used. Increase the output torque to ensure normal zero return. There is a switch transistor that controls the output of the high voltage drive power supply. When the switch transistor is damaged, the high voltage power supply will not turn on when the switch transistor is damaged. The output torque of the stepping motor is not enough, causing a zero return loss and the tool will not return to the original point. This fault can be eliminated by replacing the switching transistor.
5. The end of the program operation, the offside of the tool when it returns to the origin, this phenomenon is generally caused by the mechanical drive system running resistance is too large. In cutting feed, the tool carrier runs at a low speed, drives with a low voltage, and the stepper motor has a small operating torque, which is not enough to overcome the resistance and cause lost motion. When the zero-stepping motor is high-voltage driven, the operation speed is high, the torque is large, and there is no strenuous resistance, and the stepping motor operates normally without losing steps. This will cause the above phenomenon when it is lost and the return is normal. At this time, check whether there are any foreign matters on the transmission gear between the stepping motor reducer or the drive gear between the stepper motor and the lead screw, or whether the slide bar is too tight and the running resistance is increased.
6. It is all normal when the empty knife passes, but the dimensional error when processing the workpiece is very large. This phenomenon may be caused by the loose connection of the screw or the nut and the lathe. There is no knife resistance during the empty run, the slide is running normally, the resistance of the knife increases when machining the workpiece, the connection of the screw or the nut and the lathe is loose, causing the size of the workpiece to drift. Robust connection, failure can be eliminated. Another possibility is caused by the electric knife holder. If the tool post cannot be automatically locked after tool change, the tool will deviate from the machining point when eating the knife, which can also cause the above phenomenon. At this time, check the tool holder locking device and the tool holder control box.
7. There is a large error in the local size of the workpiece. This phenomenon is mainly caused by the gap between the screw nut and the screw. Since the screw nut and the screw run for a long period of time, the gap in the section is increased. At the start of the program, the measured screw clearance is compensated to the program, but when the wear section cannot be compensated, the local size of the workpiece is exceeded. . The solution is to repair or replace the screw.
8. The electric tool rest rotates when changing the tool, and it cannot be positioned. This is because when the program wants a certain number of tools, the electric tool rest rotates forward to select the tool. When it rotates to the number tool, there is no response signal, and the tool holder rotates. Not only cannot be positioned. At this time, the Hall element on the electric knife holder should be inspected. When the Hall element is damaged, there is no detection signal output when the desired tool is in place. This causes the above phenomenon. In this case, replace the Hall element of the number knife. .
9. During the execution of the program, the computer returns to the monitoring state and all work cannot be performed. This phenomenon is generally caused by the failure of the monitoring program, and may also be caused by strong magnetic interference. For strong magnetic interference, grounding or shielding can be used. If the program is not executed or the program is started, it will not return to the monitoring state immediately after the instruction is executed. Generally, the monitoring program or the computer hardware may malfunction. The suspect chip may be replaced, such as an off-chip program memory chip, a programmable interface chip or the microcontroller itself. Sometimes the off-chip data memory failure may also cause this phenomenon. If it cannot be solved, you can find the manufacturer to re-debug.
10. The processing program is often lost. In severe cases, the control system cannot work properly. If the control system loses power, the machining program is lost. After the machine is powered on and the machining program is newly input, the machine tool can be processed normally. The battery voltage may be reduced or broken. On, the processing program in the data memory is lost after the power failure of the machine. In this case, replace the backup battery. If the processing program is lost partially or completely during processing, it is most likely caused by a data memory failure. In this case, the off-chip data memory or the microcontroller itself can be replaced. In short, a simple CNC lathe is composed of mechanical and electrical components. After a fault occurs, it must be analyzed from both mechanical and electrical aspects to determine whether it is a mechanical fault or an electrical fault. Further analysis is needed to find the fault point and accurately handle the fault quickly. , improve machine tool maintenance efficiency.
Combined with his own experience in actual maintenance work, he made several analysis of his common failures
1. After the start of the program, the stepper motor does not rotate. This phenomenon is usually caused by the phase failure of the stepper motor or its control system. It may be the failure of the stepper motor itself or the failure of its drive circuit. First check whether the connecting plug of the stepping motor is in good contact. If the connecting plug is in good contact, then replace the one-phase motor with no fault. If the motor is running normally after the replacement, the original stepping motor is faulty. If the motor is replaced, Still can not work normally, then explain its control part is not normal, can check the high-power triode on the driver board extremely protection element releases the diode, under normal circumstances, the chance that these two components are damaged is relatively large.
2. During the operation of the machining program, the worktable suddenly stops running, and the stepper motor does not rotate. This phenomenon is generally caused by a mechanical failure, but it may also be due to a failure of the control system. At this time, the workbench can be returned to its original position and the machining program can be restarted. If the workbench is always stopped when it reaches a certain position, it should be caused by a damaged, deformed or blocked foreign object in a certain part of the transmission system. . First, power off the control system, and then turn the screw by hand. If the sensor feels excessive resistance at a certain point or even does not move at all, this position is proved to be faulty. Check whether the gap between the screw nut and the screw or the slide plate is too tight, whether there is foreign matter in the ball guide groove of the ball screw, whether the screw is bent or not, whether the flexible gear in the stepping motor speed reducer is loose or there is no foreign matter. Stuck and so on. If there is no abnormality in the manual car, the control system is faulty, and the inspection should be performed according to the steps of 1.
3. When the stepper motor runs normally at low speeds, the stepper motor loses its steps at high speed. This phenomenon may be caused by a decrease in the drive power supply voltage and a decrease in the output torque of the stepper motor. Therefore, it is important to check the drive power section. When the high-voltage first transistor is damaged, the high-voltage power supply cannot be turned on, so that the output torque of the stepping motor decreases at a high speed, resulting in lost steps. It may also be caused by a mechanical failure. Therefore, in the case of checking the unsuccessfulness of the above components, it is also necessary to inspect parts such as a screw, a nut, a slide plate, and a stepping motor speed reducer. When a component is bent, deformed, or there is a foreign matter stuck, the running resistance will increase. When running at low speed, the phenomenon is not obvious, but when running at high speed, it can not completely overcome the running resistance and cause step loss.
4. The end of the program operation, the tool returns less than zero, this phenomenon is generally caused by the control system failure. The tool requires low-speed operation during feed or during processing. At this time, the stepper motor runs at a low speed and is powered by a low-voltage power supply. When the program returns to zero, it is required to quickly retract. At this time, the stepper motor is required to run at a high speed and high-voltage drive power is used. Increase the output torque to ensure normal zero return. There is a switch transistor that controls the output of the high voltage drive power supply. When the switch transistor is damaged, the high voltage power supply will not turn on when the switch transistor is damaged. The output torque of the stepping motor is not enough, causing a zero return loss and the tool will not return to the original point. This fault can be eliminated by replacing the switching transistor.
5. The end of the program operation, the offside of the tool when it returns to the origin, this phenomenon is generally caused by the mechanical drive system running resistance is too large. In cutting feed, the tool carrier runs at a low speed, drives with a low voltage, and the stepper motor has a small operating torque, which is not enough to overcome the resistance and cause lost motion. When the zero-stepping motor is high-voltage driven, the operation speed is high, the torque is large, and there is no strenuous resistance, and the stepping motor operates normally without losing steps. This will cause the above phenomenon when it is lost and the return is normal. At this time, check whether there are any foreign matters on the transmission gear between the stepping motor reducer or the drive gear between the stepper motor and the lead screw, or whether the slide bar is too tight and the running resistance is increased.
6. It is all normal when the empty knife passes, but the dimensional error when processing the workpiece is very large. This phenomenon may be caused by the loose connection of the screw or the nut and the lathe. There is no knife resistance during the empty run, the slide is running normally, the resistance of the knife increases when machining the workpiece, the connection of the screw or the nut and the lathe is loose, causing the size of the workpiece to drift. Robust connection, failure can be eliminated. Another possibility is caused by the electric knife holder. If the tool post cannot be automatically locked after tool change, the tool will deviate from the machining point when eating the knife, which can also cause the above phenomenon. At this time, check the tool holder locking device and the tool holder control box.
7. There is a large error in the local size of the workpiece. This phenomenon is mainly caused by the gap between the screw nut and the screw. Since the screw nut and the screw run for a long period of time, the gap in the section is increased. At the start of the program, the measured screw clearance is compensated to the program, but when the wear section cannot be compensated, the local size of the workpiece is exceeded. . The solution is to repair or replace the screw.
8. The electric tool rest rotates when changing the tool, and it cannot be positioned. This is because when the program wants a certain number of tools, the electric tool rest rotates forward to select the tool. When it rotates to the number tool, there is no response signal, and the tool holder rotates. Not only cannot be positioned. At this time, the Hall element on the electric knife holder should be inspected. When the Hall element is damaged, there is no detection signal output when the desired tool is in place. This causes the above phenomenon. In this case, replace the Hall element of the number knife. .
9. During the execution of the program, the computer returns to the monitoring state and all work cannot be performed. This phenomenon is generally caused by the failure of the monitoring program, and may also be caused by strong magnetic interference. For strong magnetic interference, grounding or shielding can be used. If the program is not executed or the program is started, it will not return to the monitoring state immediately after the instruction is executed. Generally, the monitoring program or the computer hardware may malfunction. The suspect chip may be replaced, such as an off-chip program memory chip, a programmable interface chip or the microcontroller itself. Sometimes the off-chip data memory failure may also cause this phenomenon. If it cannot be solved, you can find the manufacturer to re-debug.
10. The processing program is often lost. In severe cases, the control system cannot work properly. If the control system loses power, the machining program is lost. After the machine is powered on and the machining program is newly input, the machine tool can be processed normally. The battery voltage may be reduced or broken. On, the processing program in the data memory is lost after the power failure of the machine. In this case, replace the backup battery. If the processing program is lost partially or completely during processing, it is most likely caused by a data memory failure. In this case, the off-chip data memory or the microcontroller itself can be replaced. In short, a simple CNC lathe is composed of mechanical and electrical components. After a fault occurs, it must be analyzed from both mechanical and electrical aspects to determine whether it is a mechanical fault or an electrical fault. Further analysis is needed to find the fault point and accurately handle the fault quickly. , improve machine tool maintenance efficiency.
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