Welding Style: | Laser Welding | Usage: | Laser Welding |
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Key Selling Points: | XYZ Triaxial Mobile Platform | Applicable Industries: | Home, Electronics, Kitchen Utensils |
After-sales Service: | Field Installation; Site Commissioning And Training | Welding Thickness: | <5mm |
High Light: | ARC automatic argon welding machine,Carbon Steel automatic argon welding machine,ARC 2000w laser welder |
Multi Axis Combined Laser Welding Machine For Kettle Spout
Multi axis combined laser welding machine , with CE/CCC/ISO certificate
Description:
On demand customization Features: XYZ three-axis mobile platform, coupled with rotating shaft universal drive laser welding joint, combined with customized fixture, can realize splicing seam welding and lap penetration welding of products; With R-axis, circular arc welding and circumferential welding of products can be realized, and matching can be customized as required The accuracy of platform moving axis is ± 0.02mm. Laser type: optical fiber continuous laser Power: 1000w-3000w Application: suitable for stainless steel, cold rolled sheet, galvanized sheet and aluminum alloy Welding of gold, copper alloy and other metal parts.
Application Suitable for welding metal parts such as stainless steel, cold-rolled plate, galvanized plate, aluminum alloy and copper alloy.The product has passed the patent certification of China Intellectual Property Office, China CCC certification and export CE certification
The use of laser welding continues to grow in automated welding applications, due to advancements that have made the technology more accessible and affordable.
Laser welding uses a laser to join pieces of metal. Traditionally, high-powered lasers used carbon dioxide as the medium and had a wavelength of about 10 microns. A laser of this wavelength cannot be transmitted through a fiber optic cable, making it difficult to automate a laser welding process.
Technology advancements have moved the industry forward in this regard. The evolution of 1-micron wavelength lasers means that the laser can be transmitted through fiber optic cable, making lasers more easily automated for welding.
In addition, 1-micron wavelength lasers are typically powered by diodes. As manufacturers have become more adept at producing powerful diodes, fewer diodes are required to power these lasers. This continues to reduce the cost per power for laser welding systems.