- Model NO.: GS-2513/GS-3015/GS-4020/GS-6015/GS-6020
- Cooling System: Air Cooling
- Applicable Material: Metal
- Laser Classification: Fiber
- Model No: GS-2513/GS-3015/GS-4020/GS-6015/GS-6020
- Automation: Automatic
- Certification: SGS, Ce, ISO 9001:2008, FDA
- Laser Power: 300W/500W/700W(Optional)
- Overall Power Consumption: <9kw
- Trademark: GLORYSTAR
- Specification: CE SGS FDA ISO
- HS Code: 8456100090
- Application: Environmental Equipment, Petroleum Machinery Manufacturing, Agriculture Machinery, Aerospace Industry, Automotive Industry, Metal Product Industry
- Technical Class: Pulse Laser
- Structure Type: Gantry Type
- Laser Technology: Laser Control Fault Cutting
- Condition: New
- Type for Cutting Machine: Laser Cutting Machine
- Type: Metal Laser Cutting Machine
- Working Area: 2500*1300mm/3000*1500mm/4000*2000mm/6000*1500mm
- Transmission Mode: Gantry Driver
- Transport Package: Seaworthy Plywood Case
- Origin: Dongguan, Guangdong
GLORYSTAR LASER sheet metal laser cutting systems adopts the most sophisticated Germany IPG laser and double driver, combining Gantry CNC machine designed by our company and high strength welding body, after high temperature annealing and precision machining by large CNC milling machine. It has good rigidity and stability with precision ball screws, linear guide drive run. It is mainly for cutting sheet metal below 10mm in high speed and high precision. Fiber laser has a series of advantages, such as high beam quality, high brightness, high conversion rates, maintenance-free, stable and reliable operation of low cost and small size, etc. Air-assisted cutting is the most advanced level of laser cutting, which is particularly suitable for stainless steel, alloy steel, copper, titanium and other metal materials' precision cutting. It is widely used in metal products, hardware, precision machinery, auto parts, glasses, jewelry, nameplate, electronics, toys, advertising and other industries.
Kitchenware, Saw Blade, Mechanical Parts, Electrical Equipment Components, Electric Cabinet, Textile Machinery, Billboard, Automobile, Cooking Utensil, Hardware, Crafts, Spectacle Frame, Earrings And Rings, Advertising Words And Letters, Adornment, Subway Parts, Household Appliances, Electrical Appliance, Precision Components
Tools, Gifts and Crafts, Ultra-fine Contours, Filigree Structural Components, Gearing Components
Reamer, Mobile Phone Housing, Aviation
Stainless steel, carbon steel, mild steel, alloy steel, copper, brass, aluminum sheet, titanium sheet and pipe, especially good at processing various high hard and brittle alloy materials.
How do I determine which cutting method to use?
In order to determine the best cutting method for your process, conduct a careful examination of your production needs. All cutting methods have their advantages and disadvantages. Typical criteria used for most process evaluations should include the following:
1. Material To Be Processed
2. Range of Material Thickness
3. Accuracy Required
4. Material Finish Required
5. Production Rate Desired
6. Cost of Technology
7. Operating Costs
8. Operator Skill Requirements
What are the advantages of using a laser cutting machine?
There are many reasons to choose a laser cutting machine. There is almost no limit to the cutting path of a laser- The point can move in any direction. This means that very complex designs can easily be performed without expensive tooling costs or long lead times. Small diameter holes that cannot be made with other machining processes can easily and quickly be performed with a laser. The process is non-contact and non-force, allowing very fragile parts to be cut with little or no support, and the part keeps its original shape from start to finish. Lasers can cut at very high speeds. Lasers do not have parts that will dull and need to be replaced, or that can break easily. Lasers allow you to cut a wide range of materials, and produce a high quality cut without requiring secondary processes. Laser cutting is a very cost effective process with low operating and maintenance costs and maximum flexibility.
How does a laser compare to EDM/wire cutting?
In general, however, EDM is really only suited for metal cutting. Laser cutting machines, on the other hand, can be used for a wide variety of applications and materials. EDMs can cut really thick, hard metals, including steels with hardness above RC 38. If that is your main application, then this process may be suitable for you. Otherwise, you will find the machine is very slow and fairly limited in its capabilities. There are also parts to replace, such as when a wire breaks, which can slow down production and increase costs. This problem will not be encountered with a laser cutting machine.
|Laser Type||Fiber Laser Generator|
|Working Area (L*W)||3000*1500mm||4000*2000mm||6000*1500mm|
|Laser Wavelength||1060 nm|
|Rated Output Power||500W / 1000W / 2000WOptional|
|X axis Travel Distance||3050mm||4550mm||6050mm|
|Y axis Travel Distance||1525mm||1525mm||1525mm|
|Z axis Travel Distance||120mm|
|Axial Positioning Accuracy||≤±0.03mm/m|
|Repeat Positioning Accuracy||≤±0.03mm/m|
|Power Phase||3 phase|
|General Power Protecting Level||IP54|
|Maximum Cutting Speed||60m/min|
|Minimum Line Width||0.15mm|
|Maximum Cutting Thickness||10mm|