The FLC 5×10 is Laser Photonics’ multipurpose fiber laser cutting machine with a single or dual pallet shuttle table. It is equipped with a high-powered, energy efficient fiber laser and an advanced direct drive motion control platform. The FLC 5×10 has a compact design and the fastest cutting speed on the market to comparable systems. This laser cutting system offers ultra low power consumption allowing for the lowest operating costs among all laser types. The FLC 5×10 fully software-controlled geometry alignment eliminates the need for special installation requirements. The FLC 5×10 requires no optical system alignment, laser service or laser replacement parts making this system virtually maintenance free.
By using a high performance, energy-efficient fiber laser, this system will achieve a level of quality and detail that is unprecedented in the industry for laser cutting. It can cut aluminum, anodized aluminum, alloy metals, stainless steel, mild steel, copper, brass, non transparent plastics, plaques, create stencils, and more.
[tab name=’Features & Benefits’]Standard Features and Benefits of the FLC 5×10
- Control Terminal
- High Power Fiber Laser Unit (1 kW increment upgrade ready, up to 5 kW)
- 3-Axis System
- Laser Cutting Head
- Optical Cartridge (Non Contact)
- Diode Pointer
- Single shuttle system (Motorized)
- 2” Table Slats
- Control System Software
- Class 1 Laser Safety Shroud
- Fiber Cable
- System Manuals
- Laser Starter Kit
- Chip Removal Carts
- Side Air Blow
- Electronic Gas Pressure Regulator
- Auto Focus
- No Consumable Gases (Eliminates expensive annual gas costs)
- Easy Integration (Can quickly be integrated into any production processes)
- Fastest Cutting (Increases production speed and throughput)
- Quick Installation and Start Up (Reduces production downtime)
- Easily Upgradable Systems (Can grow and change directly with your applications)
- More Compact (Systems take up less valuable floor space)
- Less Maintenance (No lamps to replace or mirrors to change or align)
- Longer Diode Life (Reducing maintenance cost)
- Less Power Consumption (Reducing energy costs)
Applications and Materials suited to the FLC 5×10
Ideal applications are highly reflective metals and materials.
- Cutting
- High-speed sheet metal cutting
- Automotive frames cutting
- Coated & Plated Metals
- Anodized Aluminum
- Opaque Plastics
- Medical devices
- Laser sintering
- Silicon cutting
- Stainless Steel
- Blank cutting
- Aircraft Skins
- Plate cutting
- Alloy Metals
- Composites
- Aluminum
- Brass
- Mild Steel
- Titanium
- Graphite
- Copper
- And More
System Specifications | FLC 5×10 |
---|---|
Bed Size | 1676.2(66”)x3076.6(121.13”) |
Machine Table Height | 900 mm (35.43″) |
Max Load Weight | 2028.9lb |
Axis Stroke | 1524(60”)x3048(120”) |
Positioning Speed | 2 M/S |
Repeatability | 10 mkm |
Cutting Heads Available | 5″,7.5″, 10″ |
Z-Axis Specs (i.e. ball screw, 2”max etc.) | 2″ Z stroke, ball screw, 10 mm pitch |
Drive Feed Method | Linear Motor |
Worksheet Clamps | Manual |
Assist Gas system specs | 232 psi max, 0-232 psi |
Air Supply | 120 psi |
Gas Supply | Nitrogen, oxygen |
Power Supply(system, laser, chiller)** | 34KW |
Autofocus | Yes |
Outside Dimensions (Machine, laser chiller, etc) | 4775mm x 2904mm |
Laser | Multi Mode |
Wavelength | 1070-1080 |
Collimators available per cutting head | 60mm , 100mm |
**Power supply bases on 3Kw laser and does not include fume extraction or dual shuttle table.
**** Due to continuing product development, engineering data and dimensions are subject to change without notice.
High Power Laser Specifications
YLS-500 W – 2 kW | YLS-500 W – 4 kW | YLS-3 kW – 10 kW | |
---|---|---|---|
Description | Basic kW Ytterbium Fiber Laser System | kW Class Ytterbium Fiber Laser System | kW Class Ytterbium Fiber Laser System |
Available Operating Modes | CW | CW | CW |
Polarization | Random | Random | Random |
Available Output Power | 500 W – 2 kW | 500 W – 4 kW | 3Kw-10kW |
Emission Wavelength | 1070 – 1080 nm | 1070 – 1080 nm | 1070 – 1080 nm |
Feed Fiber Diameter | Available in 50 or 100 µm diameter | Available in 50 or 100 µm diameter | Available in 100, 200 or 300 µm diameter |
Wall-Plug Efficiency | > 30% | > 30% | > 30% |
Output Termination Options | QBH-Type (HLC-8). LCA, QD compatible | QBH-Type (HLC-8). LCA, QD compatible | QBH-Type (HLC-8). LCA, QD compatible |
Ancillary Options | Options Available: External Coupler, External 1×2, 1×4 or 1×6 beam switch or External 50:50 beam splitter | Options Available: Internal coupler, Internal 1×2 beam switch, Internal 50:50 beam splitter, External 1×4 or 1 x 6 switch | Options Available: Internal coupler, Internal 1×2 beam switch, Internal 50:50 beam splitter, External 1×4 or 1 x 6 switch |
Air Conditioner | Standard | Standard | Standard |
Interface | Standard: Digital I/O, Analog Control ?Additional Options: DeviceNet or Profibus | Standard: Digital I/O, Analog Control ?Additional Options: DeviceNet or Profibus | Standard: Digital I/O, Analog Control ?Additional Options: DeviceNet or Profibus |
Cabinet Style/Dimensions | 12U Standalone NEMA 12 Enclosure 558H x 790W x 815D mm | 25U Standalone NEMA 12 Enclosure 1106H x 856W x 806D mm | 31U Standalone NEMA 12 Enclosure (HXWXDmm) 1400x856x806 |
Upgradeable | Yes, Maximum 2 kW Upgrade | Yes, Maximum 4 kW Upgrade | Yes, Maximum 10 kW Upgrade |
Redundant Module | Not available | Available option <3 kW, Standard on 3 kW+ | Standard |