CNC Laser Cutting Machine (SJQ-A)
Bolichang provides single working table fiber laser machine for you.
●Transmission mode: Original high accuracy ball screw, linear ball guide rail and Mitsubishi AC servo motor.
●Positioning accuracy: ± 0.03mm
●Repetition accuracy: ± 0.01mm
●Speed: 60m/min
●Cutting size: 1.5M*3M etc. (according to customer’ s requirement)
●Fume purification system is optional
Bolichang provides single working table fiber laser machine for you.
●Transmission mode: Original high accuracy ball screw, linear ball guide rail and Mitsubishi AC servo motor.
●Positioning accuracy: ± 0.03mm
●Repetition accuracy: ± 0.01mm
●Speed: 60m/min
●Cutting size: 1.5M*3M etc. (according to customer’ s requirement)
●Fume purification system is optional
Technical characteristics of fiber lasers
●sheet metal production efficiency unmatched.
● Low running costs and maintenance costs.
● processing sheet, have a high degree of flexibility; also can be processed non-ferrous metals.
●can easily close to the workpiece, safe, and machine appearance.
●small footprint.
●sheet metal production efficiency unmatched.
● Low running costs and maintenance costs.
● processing sheet, have a high degree of flexibility; also can be processed non-ferrous metals.
●can easily close to the workpiece, safe, and machine appearance.
●small footprint.
Fiber lasers compared with conventional lasers:
The user if used in the production of fiber laser will be considerable cost savings, the specific number depends on the user' s current conservation technology, materials, production,
electrical and labor costs. Savings in the following areas:
a. Higher electro-optical conversion efficiency:
The efficiency of existing conventional lasers and fiber laser technology can not be compared.
b. Cooling: As the fiber laser, high efficiency, thus cooling requirements for low power consumption to less. Low-power fiber laser can only air-cooled, water-cooled high-power
fiber lasers, laser technology and other even more than the same simple, lower cost. Cooling also depends on the particularity of the production environment.
c. Consumables / spare parts: the fiber laser using a more efficient design (more efficient heat management) and end with a single pump source of carrier-grade, thus saving you
the spare parts (such as lights and semiconductor array) , Labor and downtime. Many lights used in YAG and semiconductor array of approximately 2,000 hours
and the life of 20,000 hours, equivalent to only ROFIN single node MTBF 100,000 hours of work a fraction of the time, which means that the life of the laser Inside, you do not
replace the module. If you use solid-state fiber optic switch fiber laser, then, it will save more, so do not be like a traditional optical devices like
laser adjustments or maintenance, such as resonant mirrors, crystal, liquid, filter.
d. Maintenance: fiber laser requires no maintenance or only a small amount of maintenance, depending on the output power and other factors, and traditional lasers are not.
No adjustment of optical devices, there is no warm up time and consumables / spare parts. So you save a lot of maintenance costs.
e. The cost of capital: a fiber laser can simultaneously cutting, welding, drilling and other operations, so you do not have a separate purchase for different operating different
laser systems, thus reducing your investment costs.
The user if used in the production of fiber laser will be considerable cost savings, the specific number depends on the user' s current conservation technology, materials, production,
electrical and labor costs. Savings in the following areas:
a. Higher electro-optical conversion efficiency:
The efficiency of existing conventional lasers and fiber laser technology can not be compared.
b. Cooling: As the fiber laser, high efficiency, thus cooling requirements for low power consumption to less. Low-power fiber laser can only air-cooled, water-cooled high-power
fiber lasers, laser technology and other even more than the same simple, lower cost. Cooling also depends on the particularity of the production environment.
c. Consumables / spare parts: the fiber laser using a more efficient design (more efficient heat management) and end with a single pump source of carrier-grade, thus saving you
the spare parts (such as lights and semiconductor array) , Labor and downtime. Many lights used in YAG and semiconductor array of approximately 2,000 hours
and the life of 20,000 hours, equivalent to only ROFIN single node MTBF 100,000 hours of work a fraction of the time, which means that the life of the laser Inside, you do not
replace the module. If you use solid-state fiber optic switch fiber laser, then, it will save more, so do not be like a traditional optical devices like
laser adjustments or maintenance, such as resonant mirrors, crystal, liquid, filter.
d. Maintenance: fiber laser requires no maintenance or only a small amount of maintenance, depending on the output power and other factors, and traditional lasers are not.
No adjustment of optical devices, there is no warm up time and consumables / spare parts. So you save a lot of maintenance costs.
e. The cost of capital: a fiber laser can simultaneously cutting, welding, drilling and other operations, so you do not have a separate purchase for different operating different
laser systems, thus reducing your investment costs.