User Manual
7
Technical data
Description WORX High Frequency Multi-function Tool
Type WU675 (6-designation of machinery, representative of
oscillation tool)
Voltage 12V
Oscillations speed 5000-20000/min
Oscillations angle 3.2°
Machine weight 1.0kg
Noise information
A weighted sound pressure L
pA
: 75dB(A)
A weighted sound power L
wA
: 86dB(A)
K
pA
& K
wA
3.0dB(A)
Wear ear protection when sound pressure is over 80dB(A)
Vibration information
Warning: The vibration emission value during actual use of the
power tool can differ from the declared value depending on the ways
in which the tool is used dependant on the following examples and
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other variations on how the tool is used:
How the tool is used and the materials being cut or drilled.
The tool being in good condition and well maintained
The use the correct accessory for the tool and ensuring it is sharp and
in good condition.
The tightness of the grip on the handles and if any anti vibration
accessories are used.
And the tool is being used as intended by its design and these
instructions.
This tool may cause hand-arm vibration syndrome if its use is not
adequately managed.
Warning: To be accurate, an estimation of exposure level in
the actual conditions of use should also take account of all parts of
the operating cycle such as the times when the tool is switched off
and when it is running idle but not actually doing the job. This may
significantly reduce the exposure level over the total working period.
Helping to minimize your vibration exposure risk.
ALWAYS use sharp chisels, drills and blades.
Maintain this tool in accordance with these instructions and keep well
lubricated (where appropriate).
If the tool is to be used regularly then invest in anti vibration
accessories.
Avoid using tools in temperatures of 10
0
C or less.
Plan your work schedule to spread any high vibration tool use across a
number of days.
Vibration total values (triax vector sum) determined according to
EN 60745:
Typical weighted vibration
Vibration emission value a
h
= 3.14m/s²
Uncertainty K = 1.5m/s²