Laser mold welding machine is specially designed for mold industry and used for repairing precision molds, such as mold manufacturing and molding industries of digital products, mobile phones, toys, automobiles, motorcycles, etc. Through mold repair, the original mold can be fully utilized again, which greatly saves production costs and improves work efficiency. This technology can also be applied to modify the design or size of the mold to shorten the product development cycle.
The working principle of this laser deposition welding system is to use laser high thermal energy and concentrated fixed-point welding technology to effectively handle all small parts of welding and repair work, making up for the shortcomings of traditional argon arc welding technology in repairing and welding fine surfaces. It avoids the two thresholds of thermal strain and post-processing, greatly saving the production cycle of the mold.
- Designed specifically for the mold industry, it adopts a unique structural design and is suitable for repairing various large, medium and small molds.
1. It uses a ceramic focusing cavity imported from the UK, which is corrosion-resistant and high-temperature resistant. The cavity life is (8-10) years, and the xenon lamp life is more than 8 million times.
2. It adopts the world's most advanced automatic shading system to eliminate the irritation of light to the eyes during work.
3. The laser head can rotate 360 degrees, the entire optical path can rotate 360 degrees, and it can be electrically lifted up and down, and pushed forward and backward, which is particularly suitable for repairing various large, medium and small molds.
4. The parameter adjustment is controlled by an intelligent remote control, which is simple and fast to operate.
5. The workbench can be electrically lifted.
6. The size of the light spot can be electrically adjusted
Model |
DHH-200 |
DHH-400 |
Laser Power |
200W |
400w |
Laser wavelength |
1064 |
pulse frequence |
1~50Hz |
pulse width |
0.1-20ms |
Positioning method |
Red light |
Focus spot diameter |
0.2-2mm |
Custom Fixture |
Special Welding Software |
It can weld points, lines, circles, squares, or any planar shape composed of arcs.
FAQ
Q: What safety measures should be taken when performing lithium battery pack laser welding?
A: Lithium battery pack laser welding should only be performed by trained personnel with appropriate safety equipment. The laser beam can be hazardous to the eyes and skin, so proper eye protection and protective clothing must be worn. Additionally, proper ventilation is necessary to remove any fumes or vapors generated during the welding process.
Q: Can lithium battery pack laser welding be automated?
A: Yes, lithium battery pack laser welding can be automated using robotic systems. Automated laser welding can improve the efficiency and accuracy of the welding process, leading to greater consistency and quality of the battery packs.
Q: What industries use lithium battery pack laser welding?
A: Lithium battery pack laser welding is used in a variety of industries that require high-performance lithium batteries, such as aerospace, automotive, and consumer electronics. It is also used in the production of medical devices, power tools, and renewable energy systems.
Q: What are the different types of laser welding techniques used in lithium battery pack assembly?
A: The two main types of laser welding techniques used in lithium battery pack assembly are pulsed laser welding and continuous wave laser welding. Pulsed laser welding involves using short, high-intensity pulses of laser energy to create a weld, while continuous wave laser welding uses a continuous stream of laser energy to create a weld.