Description
When considering the investment in a laser welding machine, it’s essential to understand the factors that influence the cost. Prices can vary significantly based on the machine’s power output, with options typically ranging from 1kW to 3kW. A 1kW laser welding machine is generally more affordable, making it an ideal choice for small-scale operations or businesses just starting to explore laser technology. In contrast, a 2kW model offers a balance of power and cost-effectiveness, suitable for moderate production demands. For those requiring higher efficiency and precision in metal welding, a 3kW laser welding machine is a worthwhile investment, capable of handling thicker materials and delivering faster welding speeds.
Additionally, fiber laser welding machines are essential for their superior beam quality and operational efficiency. They provide higher absorption rates, making them ideal for a wide range of applications, including stainless steel (SS) welding machines. The technology used in fiber lasers is highly efficient, requiring less maintenance than traditional welding methods and offering reduced energy costs.
While the initial investment in a laser welding machine may seem high, the long-term benefits?such as reduced labor costs, enhanced weld quality, and increased production speed?can offer a substantial return on investment. Moreover, the versatility of these machines allows manufacturers to expand their capabilities, making them a critical asset in today?s competitive market.
In conclusion, when evaluating the cost of a metal welding machine, whether you’re considering a 1kW, 2kW, or 3kW fiber laser welding machine, it?s vital to weigh both the initial costs and the long-term benefits. Investing in the right equipment will elevate your production efficiency and product quality, ultimately driving your business forward.
Water Cooled Handheld laser welding
Specification | Units | |||
---|---|---|---|---|
Power | Watts | 1500 | 2000 | |
Wave length | nm | 1080 ? 10 | 1080 ? 10 | |
Mode of operation | Continuos Wave (CW) | Continuos Wave (CW) | ||
Output Power Tunability | % | 10 – 100 | 10 – 100 | |
Modulation Frequency | 0 – 5000 Hz | 0 – 5000 Hz | ||
Power supply | 230 ? 5% VAC, 3 ?, 50/60 Hz | 230 ? 5% VAC, 3 ?, 50/60 Hz | ||
Overall Size (L ? B ? H) (Approx) | mm | 1300 ? 685 ? 1200 | 1300 ? 685 ? 1200 | |
Weight (Approx) | kg | 150 | 150 | |
Maximum Power Consumption | kW | 5.5 | 5.5 | |
Position indication | Red Light | Red Light | ||
Welding Nozzle Wire Length | mtr | 10 mtr | 10 mtr | |
Operation Temperature | ?C | 10 to 50 | 10 to 50 | |
*Welding Thickness | mm | Mild Steel: 4 | Stainless Steel: 4 | Aluminum: 2 | Aluminum Alloy: 2 | Galvanized Iron: 2 |
Air Cooled Handheld laser welding
Specification | Units | 1 |
---|---|---|
Power | Watts | 2000 |
Wave length | nm | 1070 ? 10 |
Mode of operation | Continuos / modulation | |
Output Power Tunability | % | 10 – 100 |
Modulation Frequency | 0 – 5000 Hz | |
Power supply | 230 ? 5% VAC, 3 ?, 50/60 Hz | |
Overall Size (L ? B ? H) (Approx) | mm | 650 ? 300 ? 621 |
Weight (Approx) | kg | 70 |
Maximum Power Consumption | kW | 6.5 |
Position indication | Red Light | |
Welding Nozzle Wire Length | mtr | 10 |
Operation Temperature | ?C | 10 to 50 |
*Welding Thickness | mm | Mild Steel: 4 | Stainless Steel: 4 | Aluminum: 2 | Aluminum Alloy: 2 | Galvanized Iron: 2 |
*The table above indicastes a thickness with a maximum penetration capacity of 2000 Watts
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