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Robot maintenance content - KUKA robots
The maintenance content of the robot is mainly to replace the lubricating oil of the six shaft reducers and the lubricating oil of the J4 shaft gear shaft, the replacement of wearing parts, the inspection of the operation status of each module in the control cabinet, and the inspection of the wear status of each cable in the control cabinet.
If the grease is not replaced for a long time, the six axes of the robot will be formed.
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KUKA robot force error and control compensation
The production of high-end equipment shows the concave and convex of a country's comprehensive national strength. At present, China is vigorously developing a series of major projects such as high-speed rail technology, large aircraft projects, nuclear energy projects, aerospace projects, etc., and has made remarkable achievements. These items all have the same characteristic, which is the relative accuracy ...
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The external axis of the KUKA robot operates variables and commands
Switching the axes of the external kuka robot to the bit arrangement in an asynchronous form means switching the synchronous and asynchronous forms of the external axes
Program example: $ ASYNC_AXIS='b1000'
Indicates the outer axis 1, 2, 3 from right to left ...
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An introduction to the functions of all KUKA robot software packages
1.FORCE TORQUE CONTROL / SENSOR COMMUNICATION
Choosing from a variety of KUKA signal processing software can be a small extension of your robot.
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KUKA robot startup steps
Process 1: In the T1 form, the user program is pierced into cell.src according to the control requirements, the Cell.src program is selected, and the robot operation mode is switched to ExT_ AUTO.
Process 2, under the condition that there is no error in the robot system, PLC-. Powering up, it's going to announce to the robot Smove_ en ...
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Advantages of KUKA Robot's standard four-axis industrial handling robot
Advantage:
Reasonable mechanical structure and compact design
4 degrees of freedom AC servo motors
Absolute position encoders
All shafts are equipped with holding brakes
Specific loads and inertia are designed to optimize speed and motion characteristics
The arm of the ...
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Things to check before the KUKA robot is put into 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 intact and functional, that they can operate safely and that faults can be identified. It is necessary for us to comply with the labor protection regulations of the country and region to check, and it is also necessary to test all safety ...
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The use of logical functions in robot programs – KUKA robots
Inputs and outputs are used for logic programming, and digital and analog inputs and outputs can be used for communication with the peripherals of the robot control system.
When programming the KUKA robot, the ...
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The KUKA robot checks the library before starting
1. Whether there are people in the KUKA robot work area
If the operator needs to work in the robot operation area, please hold the KCP to enter the robot operation area, and the operation of the robot is only allowed to be operated by designated personnel. Per...
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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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Position, Posture and Posture Description – KUKA Robot
The boundary of robot operation refers to the movement of parts and things in space through a certain organization, which naturally requires the expression of the orientation and posture of parts, things and the organization itself. In order to delimit and use the mathematical quantities that express poses, we must delimit the coordinate system and give the rules of expression.
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KUKA robot fieldbus communication fault repair
Most of the fieldbus communication failures of KUKA robots are divided into the following five situations.
Fault 1: Unable to communicate through the diagnostic program interface.
Causes of failures: data cables, peripherals, fieldbus cards, etc.
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Technical parameters for cobot selection - KUKA robot
A lightweight cobot is an industrial robot with a flat, small touchscreen user interface that allows the user to control the robotic arm by instructing the movements on the screen. Perhaps, by holding the robotic arm easily, the desired path of movement is displayed. The interface fits most industrial sensors and ...
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KUKA robot application examples
Berthold Hermle AG is one of the world's leading manufacturers of milling machines and machining centers. When it comes to the automation of its machining centers, Hermle relies on the expertise of KUKA Roboter GmbH from Augsburg. In the new production system RS 4, the company ...
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KUKA robot servo motor maintenance encountered the cause of overheating failure
(1) The power supply voltage is too high;
(2) The power supply voltage is too low, the motor is running with rated load, and the current is too hot for the winding;
(3) When repairing and removing the winding, the thermal dismantling method is not appropriate, and the iron core is burned;
(4) The motor is overloaded or starts frequently;
(5) Lack of phase of the motor ...
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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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The control method of industrial robots - KUKA robots
At present, the most widely used robot on the market is industrial robots, which are also the most mature and complete robots. Industrial robots have a variety of control methods, what are the control methods of industrial robots?
1. Point Control (PTP)
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Introduction to the button indicator light of the control cabinet of industrial robots - KUKA robots
1. Schematic diagram of button indicator
2. Industrial robot QF1
This button is the power switch of the industrial robot control cabinet.
3. Power supply for industrial robots
The power indicator indicates the power of the industrial robot control cabinet.
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Programming tips for welding robots – KUKA robots
(1) Select a reasonable welding sequence to reduce the welding deformation and the length of the walking path of the welding torch to draw up the welding sequence.
(2) The spatial transition of the welding torch requires a short, smooth and safe moving track.
(3) Optimize the welding parameters, in order to ...
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What language is used to program industrial robots – KUKA
1. Hardware Depiction Speech (HDLs)
Hardware depiction language is generally used to describe electrical programming methods.
These words are appropriately familiar to some roboticists, as they are used to programming FPGAs. FPGAs allow you to develop electronic hardware without the need for hands-on work.
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