1. The KUKA robot does not supply power and has no response
2. KUKA robot 1-6 axis, any axis does not move, stuck
3. The KUKA robot crashes and the KUKA robot computer cannot be started and the computer does not respond
4. The KUKA robot control cabinet cannot communicate with the computer, and an error is reported
5. The KUKA robot servo motor brakes ineffectively and is stuck. Do not act
6. KUKA servo drive error, no response, no action
7. KUKA robot teach pendant cannot be used normally (white screen, black screen, splash screen, button board failure, joystick failure, etc.)
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How to quickly stop the operation of a KUKA robot in an emergency
During the operation of the robot, if there is an urgent accident, the operation of the machine can be forcibly interrupted by stopping the equipment by external vertical stopping.
1. External emergency stop
In case of emergency, how to quickly and accurately shut down the warehouse ...
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KUKA method for improving the accuracy of robot trajectories
1) In addition to aligning TCP (or using digital analogue), is there a way to improve the orbit accuracy?
2) There are cutting and other processes on site, which require high track accuracy, if the robot track presents the phenomenon formed by jitter such as sawtooth, how to deal with it?
3) ABB robot for ...
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KUKA robots are maintained at different times
1. Check and maintain the content for three months
(1) The cable of the control part
(2) Ventilation of the controller
(3) A cable connecting the mechanical body
(4) Whether the fixed condition of the connector is excellent
(5) Tighten the cover plate and various additional parts on the machine
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Cartesian coordinates are different from articulated robots
1. Working space and carrying capacity:
1. The standard length of a single root of Cartesian coordinate type is 6m, and it can reach 100m after assembly; Combined into a gantry robot, its working space can be a very three-dimensional space. A single root can carry 10-200 kg, and the special structure can reach 2400 kg.
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The KUKA robot signal waits for timeout encoding
When playing KUKA robots, it is often said that ABB has a waiting timeout instruction, why don't you KUKA have it? In fact, ABB only encapsulates the instruction, users use it directly, each language has its own characteristics, KUKA is open, as long as you understand the function of the logic yourself...
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KUKA robot equipment is ready for inspection before operation
Before the KUKA robot is put into operation for the first time, it is necessary to carry out a review to ensure that the equipment and equipment are in perfect condition, functional, safe and faulty. It is necessary to comply with the labor protection regulations of the country and region of the location, and it is also necessary to test all safety electrical ...
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KUKA industrial robots detect signal line failure repairs
First, the fault phenomenon
Speed abort signal, output "· SALARM_STOP "" 0 signal, which closes all active fates.
2. Cause analysis:
1. Wire failure (such as poor plugging);
2、 ...
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KUKA robot external axis motor marshalling steps
In order to improve the welding attainability, the arc welding workstation usually uses a variety of positioners, and the common formforms of positioners include L-shaped positioners, tipping positioners, headstock positioners, etc. In the meantime, the L-type positioner and the tilting positioner have two external shafts, and some special working conditions require ...
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The reason why the robot jitters during operation is the KUKA robot
Why does the robot flutter when it is running? Please do the following:
1. Is it that the load data you entered is incorrect?
If the load data is too high or too low, and the difference between the load and the practice load is too large, it will cause flutter!
2、 ...
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Installation of industrial robots – KUKA robots
In the field of industrial production, the device of industrial robots is very important, if the device presents a problem, it will not only affect the performance of robot equipment, but also lead to the reduction of the service life of industrial robots, and will have an impact on the safety of industrial production, and damage the economic benefits of enterprises.
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Description of the axes of the individual motion robot – the KUKA robot
1. Understand the ontological structure of the robot
The KUKA robot used in the workshop is composed of 6 axes, each axis is driven by 1 servo motor, and each axis of the robot is operated independently to control the servo motor to rotate forward and backward after powering on, and the single-axis operation is carried out in T1 mode.
Second, choose the shaft to sit ...
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KUKA system integration of robots
The KUKA robot used in the integration of the KUKA device robot system is a robot that is specially planned for the device. Compared with general industrial robots, it has the characteristics of high precision, good flexibility, small working range, and can be used in conjunction with other systems. Now it is widely used in various ...
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KUKA robot external axis motor grouping
In order to improve the welding reach, the arc welding workstation usually uses a variety of positioners, and the common forms of positioners include L-shaped positioners, tipping positioners, head and tailstock positioners, etc. Among them, the L-shaped positioner and the tipping positioner have two external shafts, and some special working conditions require ...
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KUKA Industrial Soldering Robot Circuit Board Repair Method
In the repair of circuit boards of industrial KUKA welding robots, it is necessary to be familiar with the damage characteristics of commonly used components and component detection methods
1. The resistor with small resistance value and the resistor with high power in the circuit board are easy to be damaged
Small resistance values in the circuit board ...
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KUKA teach pendant programming
(1) Teach: P6, P7, P8, P9, HOME
Refer to P4 and teach P6 with LIN command: P3, P2 and Pl respectively, and teach P7, P8 and pg with PTP command; Return to the HOME point with the PTP command as shown, the end of the machine ...
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KUKA robot power-on configuration instructions
The wiring and clarification of the corresponding interface are as follows:
1. X1 connector: power supply interface of control cabinet.
(1) KR C4 stand & KR C4 Midsize & KR C4 Extend: three-phase four-wire system, 380V AC AC;
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Classification of industrial robot control systems – KUKA robots
1. Program control system: apply a certain rule of control to each degree of freedom, and the robot can complete the required space orbit.
2. Adaptive control system: when the external conditions change, in order to ensure the required quality or in order to improve the control with the accumulation of experience...
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KUKA robot partial learning operation steps
Perform "bias learning" with loads. The difference from the first zero calibration is stored.
1. Place the robot in the pre-zero calibration position
2. In the main menu, select the zero calibration > EMD > with load correction > > deviation ...
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Kuka robot A1 axis gear refueling steps
1. Connect the oil pump to* the drain hose.
2. The amount of oil that continues to participate in the rules through the drain hose.
3. Clean the magnetic plug, inspect the seals, and replace the damaged magnetic plug.
4. Attach the magnetic plug and tighten ...
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Steps to replace the external fan of the KUKA robot
1. Unplug the fan from the control panel.
2. Loosen the 4 screws and remove the back plate.
3. Remove the set screws from the socket.
4. Fold the piercing sleeve and pull out the connecting wire.
5. Take the fan bracket with the fan...
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