KUKA industrial robots change the maximum speed

Create Date: 2024-8-30 12:03:23|Source: KUKA

1. Do a load test and use it correctly in the program.

                               KUKA industrial robots change the maximum speed

2. Replace all LIN and CIRC commands with SLIN and SCIRC

3. Delete the PTP movement instructions that are repeated at the point, and try to have as few transition points as possible

4. I can use the imminent place to be imminent as much as possible

5. Remove unnecessary wait instructions, such as wait after gripper_close and other subfunctions

6. Reduce the unpreventable wait time instruction from 0.5 to 0.2

7. Replace the unpreventable wait signal command with an if sentence

8. Remove the INI line of the subfunction and add continue

9. Change all PULSE and OUT commands to synchronous output, SYN OUT, SYN PULSE or trigger

10. Organize the OUT instruction at the beginning of the loop into a subfunction initialization, and call it synchronously, wrap the unwanted clip grip if sentence for each fulfillment, and put the $holding_toque read sentence and PTP HOME outside the loop

11. Change the DEF_ACC_CP in the R1\System\config.dat file BASISTECH GLOBALS from 2.3 to 5 (function to be verified)

12. Prevent the occurrence of sentences that trigger the pre-advance termination in high-end programming instructions, such as including: $out[1]=true; PULSE[1] ; wait for $in[1]; wait sec 0;$T 1,$T 2
More on that
Understand the hangar card robot from the analysis of load, accuracy and range Understand the hangar card robot from the analysis of load, accuracy and range

Carrying talents: Speak with strength The range of mass within which the robot can stand in any direction within its operating range. The load of the robot depends not only on the mass of the load, but also on the speed and direction of the robot. Bearer capacity refers to the load-bearing capacity when running at high speed. Bearing ability is not ...

The KUKA robot adjusts the bias operation procedure The KUKA robot adjusts the bias operation procedure

If the initial adjustment is lost (e.g. after a motor replacement or a bump), the initial adjustment is reverted. Since the learned error persists after the adjustment is lost, the KUKA robot calculates the initial adjustment. Before checking an axis, it is necessary to complete the ...

KUKA robots are maintained at different times 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 ...

Frequently Asked Questions for Industrial Welding – KUKA Robots Frequently Asked Questions for Industrial Welding – KUKA Robots

What is Robotic Welding? Robotic welding is the process of using machines to perform industrial welding tasks. The idea of using welding robots in the robotics industry began in the 1980s, when welding robots found their place on the production line. Nowadays, the role of robotics in welding ...

Introduction to the button indicator light of the control cabinet of industrial robots - KUKA robots 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.

Key components of industrial robots - KUKA robots Key components of industrial robots - KUKA robots

1. High-precision reducer Fine reducer, in the field of mechanical transmission is the central equipment between the power source and the executive organization, usually it puts the power of high-speed operation such as electric motor and internal combustion engine through the pinion on the input shaft and meshes the large gear on the output shaft, so as to reduce the ...

Robot welding speed – KUKA robots Robot welding speed – KUKA robots

1. Robot welding can improve the output power The six-axis welding robot has a short response time and fast action. The welding speed is 50-160cm/min, which is much higher than that of manual welding (40-60cm/min). The bot does not abort during operation. As long as external hydroelectric conditions are ensured, ...

KUKA robot units are inspected before they are put into operation KUKA robot units are inspected before they are put into operation

Before the first operation of an industrial robot, it is necessary to carry out a review to ensure that the equipment and equipment are flawless and functional, can operate safely and identify faults. It is necessary for us to abide by the labor protection regulations of the country and region where we are located to check, and it is also necessary to test all safety ...

The problem of the KUKA robot body and the control cabinet not being matched was solved The problem of the KUKA robot body and the control cabinet not being matched was solved

First, the problem phenomenon 1. After the robot is powered on, the A5 axis can only move at a scale of -60-+60 degrees, but the teaching pendant is -120-+120 degrees; 2. From the 'Assist' of the Teach Pendant > 'About' a > 'Robot' to view the robot type, and the robot itself.

The Kuka robot sets up a network connection The Kuka robot sets up a network connection

1. Fulfill X-Start to enter the boot application, in the boot application, click Settings, and the network connection dialog box appears. 2. If you choose not to use the IP address, please click not to use the IP address of the robot drive, if ...

Advantages of the KUKA robot KMR iiwa Advantages of the KUKA robot KMR iiwa

Able to combine: Design your individual total solution. The modular system KMR iiwa offers numerous combinations of robotic skills, mobile channels and industrial components. Sensitive: LBR iiwa light machine ...

Explanation of the BAS program of the KUKA robot Explanation of the BAS program of the KUKA robot

There is a program called BAS.SRC under the R1System in the KUKA robot program directory, which is mainly used to set the number of parameters related to the robot motion, such as coordinate system, velocity, acceleration, etc. One. Online forms Let's take a look at how to use the commonly used online form.

Introduction to the logic functions of the KUKA robot program Introduction to the logic functions of the KUKA robot program

Introduction to logic programming, the input and output terminals are used in logic programming, and in order to communicate with the peripheral devices of the robot control system, digital and analog input and output terminals can be used. TO THE KUKA MACHINE ...

Zero-point failure analysis of KUKA robots Zero-point failure analysis 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 fault "zero point drop", which is an inaccurate depiction. The zero point parameter of the KUKA robot will not be "lost", it is remembered ...

Gear oil filling for the A1 axis of the KUKA robot Gear oil filling for the A1 axis of the KUKA robot

1. Connect the oil pump to the discharge hose. 2. Increasing the required amount of oil through the discharge hose. 3. Clean the magnetic plug, check the seal, and replace the damaged magnetic plug. 4. Install the magnetic and tighten it; M ...

KUKA robot fieldbus communication fault repair 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.

Things to check before the KUKA robot is put into operation 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 ...

Preventive maintenance program for KUKA robots Preventive maintenance program for KUKA robots

back-up controller memory; Supervise the robot at regular intervals to view the robot, wires and cables; Look at the brakes; See how compact the robot is; listen to sounds, vibrations, and noise; Depending on the specific ...

Coordinate conversion criteria for KUKA robots 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 power-on configuration instructions 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; ...

CATEGORIES BYPASS
Customer Service Center

Online Consultation:QQ


ContactContact

Contact: Manager Huang

Contact QQ: 3271883383

Contact number: 13522565663


Scan the code to add WeChat (please save the picture first on the mobile phone)

working hoursworking hours

Weekdays: 9:00-17:00

Holidays: Only emergencies are handled

Contact us

Contact us

Contact number QQ consultation
QQ consultation

3271883383

Company address
Back to top