Load Test Method:
1. Install the Load data determination load test software, change the teach pendant language to English, and only recognize English, German and Japanese during the load test, not Chinese.
2. Place the appropriate orientation of the robot, hit the 2.3 axis to plus or minus 90 degrees, and start the next step after 4.5.60 degrees.
3. Click Startup, select Service, and select Loaddatadermination.
4. After clicking on the option, the following page appears, which means 1 select the corresponding robot model, 2 save the current position, 3 enter the estimated weight of the load, 4 preheat the start.
5. Hit the robot to T2 or internal active mode, start, and then click Start to actively enter the load test program, as shown in the figure below.
6. Always click Yes, the robot will take the initiative to operate the program, and the speed of the robot will take the initiative to change. The 5 axis is at plus or minus 60 degrees, and the 6 axis swings within plus or minus 90 degrees. There will be a prompt message at each end, as shown in the figure below.
7. When it's over, click to activate stuff backup, and tap YES to load the stuff data.
8. Enter the load data of the thing, and check whether the load data is assigned to the east and west number at that time (you can also manually enter the data at this time) for saving. The load test has ended.
|
More on that
|
The role of RDC in the KUKA robotic arm
(1) Provide voltage and have the function of power distribution
(2) The decombiner (SIL2) technology is used to collect the orientation information of the eight motors for orientation feedback
(3) Obtain the real-time temperature of the motor (PTC)
(4) ...
|
|
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 ...
|
|
KUKA LBR iiwa works hand in hand with workers
Dürr AG has developed the KUKA robot cell for human-robot collaboration with KUKA's sensitive LBR iiwa lightweight robot for automated bonding in the final assembly of the passenger car industry. This work unit not only contributes to the advancement of bonding roof antenna bases inside the car ...
|
|
Troubleshooting KUKA robots
How can I troubleshoot KUKA robots simply?
KUKA robots work on the same principle of reciprocating work, and a good robot requires the combination of hardware and software to achieve the desired working results. For example, self-learning memory programming, etc., obstacle automatic detection bypass function, ...
|
|
KUKA robots are processed in the form of motion axes
The boundary of robot operation is to move parts and things in space through a certain organization, and the needs naturally represent the position and posture of the parts, things, and the organization itself. In order to delimit and apply the mathematical quantities that represent potentials, it is necessary to delimit the coordinate system and give the rules of representation.
...
|
|
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...
|
|
Classification of KUKA industrial robot construction
Industrial robots are composed of three fundamental parts: the main body, the drive system and the control system. The main body is the machine base and executive tissue, including arms, wrists and hands, and some robots also have walking tissues. Most industrial robots have 3-6 degrees of freedom of movement, during which the wrist usually has 1-3 ...
|
|
The KUKA robot performs the arc welding command operation
In Arc StartV, the A directive is a condition for arc welding, i.e., after the tp program directly specifies the welding current and voltage or the delivery speed of the metal wire, the end welding is started.
According to the setting of the equipment variety, imitation input and output ...
|
|
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.
|
|
Coordinate conversion criteria for KUKA robots
Those who have used KUKA robots should know that to indicate the orientation of a robot's Cartesian coordinate system, FRAME/POS/E3POS/E6POS data will be used, where:
-X/Y/Z: indicates the rectilinear coordinates of the Cartesian coordinate system;
-A/B/C: indicates Cartesian coordinates ...
|
|
KUKA robot oil seal position replacement
In the foreign capital to speed up the layout of China's parallel robot shopping mall, the domestic market is not to be outdone, with the advantage of cost performance and the development of new use areas, domestic parallel robots or will take the lead in opening the game with foreign capital.
Now, most of the world's domestic parallel robots ...
|
|
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;
...
|
|
KUKA robot start-up check
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 working environment temperature of the robot body is 10°C-55°C, and the working temperature of some new models is 0°C-55°C (see the robot skills manual for details).
|
|
The role of KUKA robot dresspack
1. The robot pipeline includes cable harnesses, robot SMB lines, robot communication lines and robot connection lines as communication, power supply cables and optical fibers. The product has excellent properties such as high heat resistance, oil resistance, bending resistance, impact resistance, and insulation.
...
|
|
The KUKA robot signal waits for timeout programming
|
|
Calibration of industrial robots and positioners – KUKA robots
Manipulator positioners are generally divided into compound positioners, single-axis positioners, double-axis positioners and three-axis positioners according to the number of components of the drive motor. Before and during the welding operation of the robotic arm, the positioner loads and locates the welded workpiece by clamping the stuff.
|
|
KUKA robot Win10 installation wv compatible method
One. Outline:
With win10 system, after installing WoV4.0.X or WoV5.0.x, WoV will stop working when the bus configuration is turned over:
When I was ready to connect to the bus online, I found that there was no network card adapter to choose from:
And there is an error message in the information window:
...
|
|
Industrial Degrees of Freedom Parallel Robot Applications
Parallel organization is mostly used in occasions that require high stiffness, high precision, high speed, and no large space, and the specific uses include:
1. Sorting, transferring, packing and packing in food, pharmaceutical, electronic and chemical industries.
2. Imitate movement; For example, pilots practice simulators in three-dimensional space; Engineering...
|
|
Precautions for commissioning and maintenance of palletizing robots – KUKA
The palletizing robot is a device that actively stacks the bags, cartons or other packaging materials conveyed by the conveyor according to the working method required by the customer's process, and conveys the stacked materials. Here are a few things to keep in mind when it is being debugged and repaired:
...
|
|
KUKA robot servo welding*** standard program teaching function
Step 1: Teach function
Convert the operation method to "T1" and move the robot to its origin position.
Select the program "Cor_T1". Then open the folder (menu "Program" --> "FOLD" --> "AllFOLDs opn"), otherwise the corresponding entry will not be displayed ...
|
|