1. KUKA robot motor coil repair, leakage, burning, overcurrent, overvoltage, heating, hot starting, alarm, tripping, and weak work;
2. The servo motor is weak in magnetism repair work, and the low-speed (no-load) can be alarmed at high speed (operation);
3. During the repair of the external shaft motor of the robot, the encoder glass disc is broken and worn;
4. The motor brake repair fails, the brake cannot be opened, the noise is loud, the jam is dead, and it cannot be rotated;
5. The servo motor bearing repair noise is too loud, the buzzing is too loud, the body is hot, and the noise is too large;
6. The rotor of the KUKA robot motor is repaired and disconnected, and the concentricity is bent externally, and the servo motor will be alerted for tripping repair as soon as it is energized;
7. The orientation of the KUKA robot motor is not accurate, the origin is out of order, the deviation is out of balance, and the output is unbalanced;
8. Servo motor operation flutter repair, servo motor demagnetization repair failure, burn out brake disc wear;
9. MU30/M2003 servo motor can be used for a period of time (for a while) to alarm for shutdown (power off) and restart, and can be used for a period of time (for a while) to alarm for repair.
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KUKA Industrial Robot Fault Diagnosis and Maintenance Method
Don't panic when there is a problem with the robot during the operation, if the problem is not caused by the controller, then the cause of the problem must be the damage to the machine parts. In order to deal with the problem as quickly as possible and in the simplest possible way, the problem should be analysed. And the need to find out which part is the lead ...
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Analysis of KUKA robot control systems
1. Underlying manipulators
As the center of the control system, the applicability of the underlying controller is crucial to the whole system. Its function directly affects the reliability of the control system, the speed of data processing and real-time data collection. The working environment of mobile robots is harsh, and there are many sources of disturbance. Thus...
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KUKA won the Red Dot Award for Design Concept 2021
Continuously digitizing construction sites: this is the goal behind the "KUKA NOX" concept study, which was developed by KUKA Corporate Research in collaboration with a Switzerland planning student. Mobile construction robots help to measure and draw on the construction site, making everything important.
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A brief introduction to the KUKA handling robot
In today's society, with the rapid development of e-commerce, people's demand for goods is growing, and the requirements for product quality are getting higher and higher. Among them, KUKA handling robots are particularly popular in the packaging industry.
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KUKA robot resolver-to-digital converter
KUKA robotic resolver-to-digital converters (RDCs) are used to collect motor orientation data. Eight resolvers can be connected on the RDC. In addition, the temperature of the motor is measured and analyzed. EDS is used to store non-volatile data in an RDC bin.
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Characteristics and applications of parallel robots - KUKA robots
First, the characteristics of parallel robots
1. No accumulated error, high accuracy;
2. The driving equipment can be placed on or close to the direction of the fixed channel, so that the moving part is light in weight, high in speed and has good dynamic response;
3. Compact structure, high stiffness and large bearing capacity;
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The structural composition of the KUKA welding robot
Choosing a robot for welding is not enough to have a robot, it must also be equipped with peripherals. The conventional arc welding robot switcher consists of 5 parts.
1. The robot body is generally a 6-axis shutdown driven by a servo motor.
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KUKA faulty robot start-up check steps
Step 1: View the environment
1. Recognize the ambient temperature: the ambient temperature of the KUKA control cabinet is required to be between 5°C-45°C, the operating environment temperature of the robot body is 10°C-55°C, and the operating temperature of some new models is 0°C-55°C (see the robot skills manual for details).
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How KUKA robots implement the KRL variable
KRL is KUKA's programming language, and when programming a robot, variables are memory of various calculated values presented during the operation of the robot program. Each variable belongs to a specific data type, and it is necessary to declare the data type before using it; Variables can be divided into local ...
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Causes and solutions to the zero-point failure of KUKA robots
1. Reasons for zero point failure:
Before analyzing the cause of zero-point failure, let's first clarify a problem.
For a long time, we have been calling this failure "zero point drop", which is an inaccurate depiction. The KUKA robot zero parameter does not "drop", it is recorded ...
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How the KUKA bot program works
1. By clicking on the "Program Operation Method" icon, you can view and select different methods.
2. The operation methods of the program are [Go], [Action], and [Single Process].
1. Go: refers to the uninterrupted connection of the program.
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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 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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Disadvantages and disadvantages of collaborative robots - KUKA robots
From the perspective of customers in the domestic market, due to the high sensitivity and low cost of collaborative robots, small and medium-sized enterprises are the main force in the use of collaborative robots. In addition, from a practical point of view, China's aging trend is becoming more and more significant, and the cost of domestic labor continues to rise. The manufacturing industry seeks to find more ...
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KUKA robot *** boot up details
The KUKA robot is turned on, the power cord of the battery is not connected, and the demand is plugged in, X305!
Check the wiring under the machine control cabinet
1. XS1 power interface
2. X7.1 additional shaft (7) motor connection ...
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How mobile robots are classified – KUKA robots
1. According to the mode of movement, it can be divided into: wheeled mobile robots, walking mobile robots (single-legged, double-legged and multi-legged), crawler mobile robots, creeping robots, peristaltic robots and swimming robots;
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KUKA's new articulated arm robot KR SCARA
The new articulated arm robot KR SCARA is a reliable complement to KUKA's industrial production, whose primary strength is the assembly of small parts, the transfer of materials or the inspection of small parts. In this respect, few other robots in load classes below 6 kg are able to compete with the KUKA SCARA robot.
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Classification of vision systems for mobile robots – KUKA robots
The vision system of mobile robot refers to the vision system of mobile robot, which includes two parts: obtaining pictures through sensors and processing drawings through computer processors. According to the number and characteristics of vision sensors, the mobile robot vision system of the main stream has monocular vision, binocular ...
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KUKA robot handling program programming
(1) Open the program
Open the newly created program file banyunl" and enter the program editor. There are 4 lines of program in the program editor, in between, INI: initialization, END: program completion, and the middle two lines return to the HOME point.
(2) Teaching: return to the HOME point
Use...
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Interference intervals for KUKA robot programming
Robots at the same station, in the process of operation, need to enter the same area, but there is no strict restriction on the order of entry, a robot (Master) has the right of priority, that is, the robot first enters the dry and area, and another robot (Slave) after the operation is completed...
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