Powerful cutting performance: Improved motor design to make tough cutting easier
More power than before: Upgrade to 2200w by implementing improved design motor
Less fatigue: Compression spring design saves energy during long operation hours
Easy to carry: Reduced tool weight by 1-2kg with the optimized base design
Long lifetime: Improved gearing system increases longevity Achieved >100 hours lifespan with 1st set carbon brushes
Precise cutting: Optimized guard designs reduce tools vibration and optimized base design leads to improved cutting precision
Description
The Bosch GCO 220 is a metal cut off grinder with a powerful motor of 2200 Watt. It has a cutting disc bore of 1 inch and a cutting disc diameter of 355 mm that cuts steel effortlessly. This portable metal cut off grinder grinds metals at a no-load speed of 3800 rpm. It has an improved gearing system which increases the lifespan of the product. The design and the metal base footplate provide stability and comfort while working for long hours. Overall, Bosch GCO220 - 355 mm Metal Cut off Grinder is one of the best meal grinder machines available in the market for professional use.
TECHNICAL DATA
Additional data
Cutting disc diameter
355 mm
Cutting disc bore
25.4 mm
No-load speed
3,800 rpm
Rated input power
2,200 W
Cutting capacity at rectangle 0º
100 x 196 mm
Cutting capacity at square 0º
119 x 119 mm
Cutting capacity at L-profile 0º
130 x 130 mm
Cutting capacity at rectangle 45º mitre
107 x 115 mm
Cutting capacity at square 45º mitre
110 x 110 mm
Cutting capacity at L-profile 45º mitre
115 x 115 mm
Tool dimensions (width x length x height)
256 x 520 x 400 mm
Weight
15 kg
Total vibration values (Cutting metal)
Vibration emission value ah
2.5 m/s²
Uncertainty K
1.5 m/s²
Noise/vibration information
Sound pressure level
100.5 dB(A)
Sound power level
113 dB(A)
Uncertainty K
3 dB
Cutting metal
Vibration emission value ah
2.5 m/s²
Uncertainty K
1.5 m/s²
The A-rated noise level of the power tool is typically as follows: Sound pressure level dB(A); Sound power level dB(A). Uncertainty K= dB.