4. TECHNICAL DATA
Type designation
Type designation
Rated voltage
Type designation
Rated voltage
Rated power input
Rated voltage
Rated power input
Speed, n
Rated power input
0
Speed, n
Max. collet diamater
0
Speed, n
Max. collet diamater
0
Drilling capacity
Max. collet diamater
-- in steel
Drilling capacity
-- in wood
-- in steel
Drilling capacity
-- in wood
-- in steel
Level of acoustic pressure L
-- in wood
Level of acoustic pressure L
Level of acoustic power L
Level of acoustic pressure L
Level of acoustic power L
Level of vibration
Level of acoustic power L
Level of vibration
Machine Net Weight: (Acc. to EPTA procedure 01/2003)
Level of vibration
Machine Net Weight: (Acc. to EPTA procedure 01/2003)
Machine Net Weight: (Acc. to EPTA procedure 01/2003)
NOTE:
NOTE:
the declared vibration total value has been measured in accordance with a standard test method
NOTE:
the declared vibration total value has been measured in accordance with a standard test method
and may be used for comparing one tool with another;
the declared vibration total value has been measured in accordance with a standard test method
and may be used for comparing one tool with another;
the declared vibration total value may also be used in a preliminary assessment of exposure.
A
and may be used for comparing one tool with another;
the declared vibration total value may also be used in a preliminary assessment of exposure.
the declared vibration total value may also be used in a preliminary assessment of exposure.
WARNING:
WARNING:
the vibration emission during actual use of the power tool can
WARNING:
the vibration emission during actual use of the power tool can
value depending on the ways in which the tool is used;
the vibration emission during actual use of the power tool can
value depending on the ways in which the tool is used;
Identify safety measures to protect the operator that are based on an estimation of exposure in the
value depending on the ways in which the tool is used;
Identify safety measures to protect the operator that are based on an estimation of exposure in the
actual conditions of use (taking account of all parts of the operating cycle such as the times when
Identify safety measures to protect the operator that are based on an estimation of exposure in the
actual conditions of use (taking account of all parts of the operating cycle such as the times when
the tool is switched
actual conditions of use (taking account of all parts of the operating cycle such as the times when
the tool is switched
on the actual use of the product the vibration values can
the tool is switched
on the actual use of the product the vibration values can
proper measures to protect yourself against vibration exposures! Take the whole work process
on the actual use of the product the vibration values can
proper measures to protect yourself against vibration exposures! Take the whole work process
including times the product is running under no load or switched
proper measures to protect yourself against vibration exposures! Take the whole work process
including times the product is running under no load or switched
measures include among others regular maintenance and care of the product and application
including times the product is running under no load or switched
measures include among others regular maintenance and care of the product and application
tools, keeping hands warm, periodical breaks and proper planning of work processes!
measures include among others regular maintenance and care of the product and application
tools, keeping hands warm, periodical breaks and proper planning of work processes!
tools, keeping hands warm, periodical breaks and proper planning of work processes!
5. BEFORE PUTTING THE EQUIPMENT INTO OPERATION
WARNING: The device should be disconnected from the mains before putting
WARNING: The device should be disconnected from the mains before putting
the product into operation
WARNING: The device should be disconnected from the mains before putting
the product into operation
the product into operation
To install the bit
When selecting a drill bit, use the right type for your job. For best performance, always use sharp drill bit.
When selecting a drill bit, use the right type for your job. For best performance, always use sharp drill bit.
1. To open the chuck jaws, hold its collar while turning the sleeve in the counterclockwise direction. Insert the drill bit deeply into the chuck, and
When selecting a drill bit, use the right type for your job. For best performance, always use sharp drill bit.
1. To open the chuck jaws, hold its collar while turning the sleeve in the counterclockwise direction. Insert the drill bit deeply into the chuck, and
then center the bit in the chuck jaws.
1. To open the chuck jaws, hold its collar while turning the sleeve in the counterclockwise direction. Insert the drill bit deeply into the chuck, and
then center the bit in the chuck jaws.
then center the bit in the chuck jaws.
(K
=3dB(A))
pA
pA
(K
=3dB(A))
(K
=3dB(A))
pA
pA
(K
=3dB(A))
wA
wA
(K
=3dB(A))
pA
pA
Drill into steel:K=1.5m/s
wA
wA
2
(K
=3dB(A))
Drill into steel:K=1.5m/s
wA
wA
2
Drill into steel:K=1.5m/s
2
and when it is running idle in addition to the trigger time). Depending
and when it is running idle in addition to the trigger time). Depending
and when it is running idle in addition to the trigger time). Depending
500HD2.5
500HD2.5
220-240V~ 50Hz
500HD2.5
220-240V~ 50Hz
500W
220-240V~ 50Hz
500W
0-2800min
-1,
500W
0-2800min
-1,
Ø10mm
0-2800min
-1,
Ø10mm
Ø10mm
10mm
22mm
10mm
22mm
10mm
96.0 dB(A)
22mm
96.0 dB(A)
107.0 dB(A)
96.0 dB(A)
107.0 dB(A)
a
= 7.370 m/s
107.0 dB(A)
h,D
a
= 7.370 m/s
h,D
a
= 7.370 m/s
1.28kg
h,D
1.28kg
1.28kg
from the declared total! Adopt
from the declared total! Adopt
from the declared total! Adopt
254
191
2
2
2
from the declared total
from the declared total
from the declared total
into consideration! Proper
into consideration! Proper
into consideration! Proper
FR
ES
PT
IT
EL
PL
UA
RO
EN