Laser Welding Machine



Negative feedback opposes or subtracts from the input signals giving it many advantages in the design and stabilisation of control systems. For example, if the systems output changes for any reason, then negative feedback affects the input in such a way as to counteract the change.

Feedback reduces the overall gain of a system with the degree of reduction being related to the systems open-loop gain. Negative feedback also has effects of reducing distortion, noise, sensitivity to external changes as well as improving system bandwidth and input and output impedances.



BINZEL TH6D Laser Tracking Sensor

Germany BINZEL-TH6D Laser Weld Bead - Tracking System

Using an optical seam tracking sensor, TH6D is an innovative optical seam tracking sensor, specially designed for automated welding. It can accurately identify seams to achieve perfect weld paving and ensure welding quality. Integrated air flushing with protective glass and air cooling of the sensor, splash-proof housing optical filter prevents distortion of measurement results and resists malfunctions caused by electric fields.


It has a sturdy design and unique three-line laser technology and three stacked welding, which can accurately identify welds and stably record measurement data, improving the accuracy of the welding process. The advanced welding optical technology sensor uses an incident light filter, even in It can also operate effectively close to the welding process and is suitable for various automated welding applications.



1064nm Pulsed YAG Laser

  1. HWLW-050A Laser Welding Machine
  2. Max laser power : 50W
  3. Laser wavelength : 1064W
  4. Max pulse energy : 25J
  5. Single pulse width : 0.5ms~30ms
  6. Successive pulse width (1sec) : 100ms/s
  7. Welding depth : Max.2mm / SUS
  8. Pulse frequency : 1~100Hz
  9. Machine power consumption : 3.5KW
  10. Power supply : 3Ø 380V/50Hz
  11. Cooline type : Air/Water cooling
  12. Machine size : 630(W)×1030(D)×880(H)
  13. Fiber type : Mitsubishi GI/SI
  1. HWLW-150A Laser Welding Machine
  2. Max laser power : 150W
  3. Laser wavelength : 1064W
  4. Max pulse energy : 80J
  5. Single pulse width : 0.5ms~30ms
  6. Successive pulse width (1sec) : 100ms/s
  7. Welding depth : Max.2mm / SUS
  8. Pulse frequency : 1~100Hz
  9. Machine power consumption : 6KW
  10. Power supply : 3Ø 380V/50Hz
  11. Cooline type : Air/Water cooling
  12. Machine size : 630(W)×1030(D)×880(H)
  13. Fiber type : Mitsubishi GI/SI
  1. HWLW-300A Laser Welding Machine
  2. Max laser power : 300W
  3. Laser wavelength : 1064W
  4. Max pulse energy : 100J
  5. Single pulse width : 0.5ms~30ms
  6. Successive pulse width (1sec) : 200ms/s
  7. Welding depth : Max.3mm / SUS
  8. Pulse frequency : 1~300Hz
  9. Machine power consumption : 12KW
  10. Power supply : 3Ø 380V/50Hz
  11. Cooline type : Air/Water cooling
  12. Machine size : 610(W)×1200(D)×1000(H)
  13. Fiber type : Mitsubishi GI/SI
  1. HWLW-600A Laser Welding Machine
  2. Max laser power : 600W
  3. Laser wavelength : 1064W
  4. Max pulse energy : 100J
  5. Single pulse width : 0.5ms~30ms
  6. Successive pulse width (1sec) : 200ms/s
  7. Welding depth : Max.3mm / SUS
  8. Pulse frequency : 1~300Hz
  9. Machine power consumption : 24KW
  10. Power supply : 3Ø 380V/50Hz
  11. Cooline type : Air/Water cooling
  12. Machine size : 610(W)×1200(D)×1000(H)
  13. Fiber type : Mitsubishi GI/SI


1070nm QCW/CW Fiber Laser


  1. UW-S150Q-UI Pulse Fiber Laser
  2. Max laser power : 250W
  3. Laser wavelength : 1070nm ±10nm
  4. Laser operating mode : Continuos wave
  5. Positioning : Red light laser(Optional CCD)
  6. Optical output quantity : 1 path
  7. Fiber core diameter : 50um/100um/200um
  8. Fiber length : 5m/10m
  9. Machine power consumption : 1000W
  10. Power supply : AC220V±10% 50/60Hz
  11. Machine size : 560(W)×425(D)×183(H)
  12. Cooline type : Air cooling
  1. UW-S300Q-UI Pulse Fiber Laser
  2. Max laser power : 300W
  3. Laser wavelength : 1070nm ±10nm
  4. Laser operating mode : Continuos wave
  5. Positioning : Red light laser(Optional CCD)
  6. Optical output quantity : 1 path
  7. Fiber core diameter : 50um/100um/200um
  8. Fiber length : 5m/10m
  9. Machine power consumption : 2500W
  10. Power supply : AC220V±10% 50/60Hz
  11. Machine size : 560(W)×425(D)×183(H)
  12. Cooline type : Air cooling
  1. UW-S500S-SU/S500-SU Fiber Laser
  2. Max laser power : 500W
  3. Laser wavelength : 1070nm ±10nm
  4. Laser operating mode : Continuos wave
  5. Positioning : Red light laser(Optional CCD)
  6. Fiber type : QBH
  7. Fiber core diameter : 20um/50um
  8. Fiber length : 10m
  9. Machine power consumption : < 2.5KW
  10. Power supply : AC220V±10% 50/60Hz
  11. Cooline type : Water cooling
  12. Extermal chiller : 1P
  1. UW-S1000S-SU/S1000-SU Fiber Laser
  2. Max laser power : 1000W
  3. Laser wavelength : 1070nm ±10nm
  4. Laser operating mode : Continuos wave
  5. Positioning : Red light laser(Optional CCD)
  6. Fiber type : QBH
  7. Fiber core diameter : 20um/50um
  8. Fiber length : 10um
  9. Machine power consumption : < 4.8KW
  10. Power supply : AC380V±10% 50/60Hz
  11. Cooline type : Water cooling
  12. Extermal chiller : 1P
  1. UW-S2000-TU Fiber Laser
  2. Max laser power : 2000W
  3. Laser wavelength : 1070nm ±10nm
  4. Laser operating mode : Continuos wave
  5. Positioning : Red light laser(Optional CCD)
  6. Fiber type : QBH
  7. Fiber core diameter : 100um
  8. Fiber length : 20m
  9. Machine power consumption : < 10KW
  10. Power supply : AC380V±10% 50/60Hz
  11. Cooline type : Water cooling
  12. Extermal chiller : 2P
  1. UW-S3000-DU Fiber Laser
  2. Max laser power : 3000W
  3. Laser wavelength : 1070nm ±10nm
  4. Laser operating mode : Continuos wave
  5. Positioning : Red light laser(Optional CCD)
  6. Fiber type : QBH
  7. Fiber core diameter : 100um
  8. Fiber length : 20m
  9. Machine power consumption : < 15KW
  10. Power supply : AC380V±10% 50/60Hz
  11. Cooline type : Water cooling
  12. Extermal chiller : 3P
  1. Ultrasonic Welding
  2. U.W. Laser Welding Machine
  3. YAG LASER
ModelUW-S150Q-UIUW-S300Q-UIUW-S500-SU
UW-S500S-SUUW-S1000-SU
UW-S1000S-SUUW-S2000-TUUW-S3000-DU
-Continuous & Pulse QCWContinuous Wave (CW) / modulation
Max laser power1070 ±10nm Fiber Laser
ModesMMMMMM/SMMM/SMMMMM
Max average power150W300W500W1,000W2,000W3,000W
Max pulse energy15J30J------
Welding depth (SUS)--Max 2.5mmMax 2.0mmMax 3.0mmMax 3.0mmMax 4.5mmMax 5.5mm
Welding depth (Aluminum)--Max 1.5mmMax 1.5mmMax 2.0mmMax 2.0mmMax 3.5mmMax 4.0mm

1500W Handheld Laser Welding Machine

Handheld Laser Welding Machine

The key parts of a handheld laser welding machine include a laser light emitter and a focusing lens, which are used to generate and focus the laser beam. The energy density of the laser beam is high, causing the welding point to heat and melt instantly. Stable model, extremely low loss, high conversion rate, energy-saving, durable, lightweight to carry, suitable for use in indoor and outdoor venues.

Laser Source : Used handheld laser welding machines is usually a solid laser or a fiber laser. These lasers can provide high-energy and stable laser beams for accurate welding operations.


Fixed Input Power : single phase 220V-50/60Hz 18A

Output Power : 1500W

Output Light Wavelength : 1070 ±10 NM

Fiber Length : 5/10 M

Oscillation Frequency : 0~300 HZ

Swing width/Spot adjustment : 0~5 mm

Indicating light wavelength : 650 mm

Handheld Laser Welding Machines applications various applications in the field of automated welding. It can be used to weld metal materials, such as iron, stainless steel, aluminum alloys and titanium alloys. The laser welding method is very useful in fields such as precision instruments, automotive industry, aerospace, jewelry manufacturing, and medical equipment.