What are the main models of Yaskawa robots?

1. High-voltage inverter will develop in the direction of high power, miniaturization and lightweight. 2. The high-voltage inverter will develop in the direction of direct device high voltage and multiple superposition (device series and unit series). 3. New power semiconductors with higher voltage and higher current ...

What is the difference between the origin setting of Yaskawa robot, the location of the second origin, and the location of the origin of the job? Origin Setting: Lets you set the origin and initial position of each axis. The robot → the origin position → point display, and select the axis and robot you want to set 1. Write origin data → point ...

Yaskawa H1000 inverter parameter model setting steps: Yaskawa H1000 hoisting using debugging steps (with PG ) No. Name Optimal value A 1-02 Control Mode Selection 3: With PG Vector Control A 1-03 Initialization 2220: 2 Wire Initialization A ...

(1) Overcurrent, display character: OC. The reason for tripping is the short circuit of UVW at the output end, the load is too large, the acceleration/deceleration time is set incorrectly or the torque is unreasonable, resulting in overcurrent or overheating of the main circuit module. Check whether there is a short circuit in the motor junction box, whether the motor winding is to the ground, phase to phase ...

1. Fault phenomenon: The fault phenomenon is the alarm CPF06 after power-on, which cannot be reset. Second, the maintenance method: The explanation for the CPF06 fault reported by Yaskawa V1000 inverter is: EEPROM data is abnormal. Generally, it is possible to restart the inverter or perform initialization ( A1-03=2220 ) ...

1. Before starting the machine, make sure that there is no one and no debris within the action range of the body, and check whether the control box is connected correctly with the body and other equipment 2. Check that the power supply matches the power supply required by the robot 3. Check the individual emergency stop and pause buttons to make sure they are functioning effectively 4. Ontology ...

1. The motor runs faster in one direction than in the other; (1) Cause of failure: The phase of the brushless motor is wrong. Solution: Detect or detect the correct phase. (2) Cause of failure: When not used for testing, the test/deviation switch hits the test position ...

Yaskawa Electric, one of the world's largest manufacturers of industrial robots, announced a 150% year-on-year increase in net profit for the six months ended Sept. 30. The Japan company announced that the company reported a profit for the quarter due to the demand for its industrial robots in China, Japan and United States.

Superior performance "I hope to run the machine at a faster speed and with higher precision" ----∑-V. series servo, the performance of which is the best in the industry. It has the highest amplifier responsiveness in the industry, which greatly shortens the setting time It is only 1/12 of our conventional products ...

In the case of the growing demand for industrial production, the relatively high cost of manual welding, the small number of welders, and the difficulty of recruiting welders, Yaskawa welding robot provides a perfect solution for welding, and the emergence of industrial robots is undoubtedly a good choice, which has many advantages. Appear...

1. Power failure: If the servo drive has no power supply or the power supply is unstable, it will cause the motor to not work properly. The solution is to check the power supply line, confirm that the power supply line is normal and stable, and if the power supply needs to be replaced, select the appropriate power supply. 2. Control signal malfunction ...

Servo motor refers to the engine that controls the operation of mechanical components in the servo system, and is a kind of auxiliary motor indirect transmission device. The main function is to use it in a closed ring, transmit the signal to the system at any time, and at the same time correct its own operation with the signal given by the system. Servo motor ...

Fault analysis: the power line is out of phase Fault cause: Yaskawa servo motor factory is the default AC three-phase 200V power input, when connected to the single-phase 220V power supply, it will cause the servo driver to alarm A.F10 when the power is turned on. Troubleshooting: Set the servo parameter Pn00B to n.▢1▢ ...

1 Introduction Over the years, Yaskawa has accumulated very rich experience in the petroleum industry, such as G7/P7/F7/G5/P5/G5HHP/VS and other different series of inverters have been widely used in OEMs, the main fields are centrifugal separators, pumps, fans, transportation equipment ...

01. The robot switch often jumps or can't close? Cause: 1. Aging of switches; 2. The switch selection is wrong; 3. The pump is stuck or the motor is short-circuited; 4. The line is aging, short circuit, the line is too small or the phase is missing. Solution: Convert the control ...

Yaskawa H1000 series is available in the following models H1000 Series Heavy Load 1. CIMR-HB4A006FAA/FAC/FBC 1·5KW H1000 replaces G7 series 2、CIMR-HB4A0075 30KW 3、CIMR-HB4A0045AAA 4、CIMR-HB4A0005FAA/FA ...

(1) Check and remove the dust and debris on the motor; (2) Check whether the voltage, frequency and power supply voltage and frequency on the nameplate of the motor are consistent with the actual situation, and whether the connection method is correct. (3) Use the insulation resistance meter to measure the phase and phase and phase of the motor winding.

1. Conditions for the static characteristics of the arc of Yaskawa welding robots In the welding production process, once the electrode material, gas medium and arc length are maintained, as long as the arc of the Yaskawa welding robot can burn stably, the welding current and arc voltage will show corresponding changes.

There are three types of general speed measurement methods: M method, T method, and M/T method. 1. M Method: (1) M method: open a time window, count the number of encoder pulses in this time window, the faster the speed, of course, the more pulses are counted for the time window. (2) Angular velocity ...

1. Failure of mechanical system (1) The common fault phenomena and causes of mechanical systems are as follows 1. Due to poor lubrication or lubrication system failure, the rotating parts of the parts are seriously heated and worn or the shaft is held, resulting in the destruction of the parts of the rolling or sliding parts. 2 ...