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2.
Guide
3.
Parallel guide
4.
Central opening
5.
Screw
Figure 15
1.
Nail
2.
Central opening
3.
Parallel guide
Figure 17
1.
Fixing nut (A)
2.
Adjustment nut
3.
Fixing nut (B)
4.
Bearing guide
Figure 18
1.
Workpiece
2.
Milling cutter
3.
Bearing guide
EQUIPMENT
FLAT KEYS -
FREES -
COLLET -
GUIDE SLEEVE -
STRAIGHT RUNNER -
COPY GUIDE -
INSTRUCTION MANUAL
1. Adjusting the cutting depth
Loosen the clamping knob. Adjust the position of the base to obtain the
desired depth of cut. Tighten the clamping knob. (Fig.
2. Switching on/off
To switch on the device, slide the switch to the "I" position.
To switch off, move the button to the "O" position. (Fig. 2).
3. Installation and removal of cutters
To fit the cutter, place it in the slot, then use two spanners to tighten the
clamping nuts. Unscrew them to remove the cutter (Fig 3).
4. Milling
• Place the tool on the workpiece so that the cutter is not in contact
with its surface. When full speed is reached, move the tool in the
desired direction. Ensure that the tool base plate is in contact with
the workpiece surface at all times during milling. Maintain a constant
feed rate. (Fig 4).
NOTE: A feed rate that is too fast will negatively affect the quality of
machining, and may damage the cutter and the machine motor. A feed
rate that is too slow will cause the cutter to heat up severely, which will
also negatively affect the quality of machining. It is a good idea to test
the appropriate feed rate on an auxiliary workpiece before use.
• If you use guides, make sure they are installed on the right side
relative to the feed direction. (Fig 5).
NOTE: Overloading the machine will overload the drive. The maximum
milling depth is 3 millimetres. Greater depths can be achieved by
repeated milling.
5. guide sleeve
• Once the cutter has been passed through the guide sleeve, milling
from the template is possible (Fig. 6).
• Remove the base plate by loosening the screws. Place the guide
sleeve in the base, then fix the base plate firmly by tightening the
screws
• Mount the template on the workpiece. Insert the cutter into the
template. Guide the tool along the template
6. parallel guide (optional)
• The parallel guide is useful when working on the border or edge of
a workpiece (Fig. 9).
• Use the screw and wing nut to fix the parallel guide to the guide (Fig.
10).
• Use the clamping screw to mount the guide on the milling machine.
To adjust the position of the parallel guide, loosen the wing nut.
Once you have determined the correct position, tighten the nut (Fig
11).
• If the distance from the edge of the workpiece is too large to use a
parallel guide, attach an auxiliary piece to the workpiece (e.g. a
2 PCS.
2 PCS.
3 PCS.
1 PC.
1 PC.
1 PC.
straight board). Then guide the router along the auxiliary piece (Fig.
12).
7. Circle milling.
• When a parallel guide is fitted, circular milling is possible. Circle radii
understood as the distance between the cutter and the centre of the
circle:
• Minimum radius: 70 mm Maximum radius: 221 mm
• To cut a circle with a radius of 70 mm to 121 mm, fit a guide as
shown in Fig. 13.
• To cut a circle with a radius of 121 mm to 221 mm, mount the guide
as shown in Fig. 14.
• Milling around a circle with a radius of 172 mm to 186 mm is not
possible.
• Place the centre hole of the guide over the centre point of the
workpiece. Fix the guide to the workpiece with a nail less than 6mm
nailed through the centre hole. Mill in a clockwise direction (Fig 15).
8. bearing guide
• A bearing guide can be used for comfortable handling of the unit
when working with furniture, e.g. desks, beds, chairs, etc. This
enables precise movement of the unit to ensure high processing
quality (Fig. 16).
• Use the fixing nut (A) to fix the guide to the base plate. Loosen the
nut (B) to adjust the distance between the guide and the cutter.
Tighten the nut (B) firmly once the correct position has been
established (Fig 17).
• When operating the machine, press the guide securely against the
edge of the workpiece (Fig. 18).
NOTE: Before adjusting a device or function, ensure that the device is
switched off and disconnected from the power source.
Below is a legend for each of the figures at the beginning of the manual.
RATING DATA
Edge milling machine 59G718
Parameter
Supply voltage
Supply frequency
Rated power
Idle speed range
Collet diameter
Protection class
Mass
Year of production
59G718 indicates both the type and the designation of the
NOISE AND VIBRATION DATA
Sound pressure level
Sound power level
Vibration acceleration
values
Information on noise and vibration
The noise emission level of the equipment is described by: the emitted
sound pressure level Lp
and the sound power level Lw
A
denotes measurement uncertainty). The vibrations emitted by the
equipment are described by the vibration acceleration value a
K is the measurement uncertainty).
The sound pressure level Lp
vibration acceleration value a
measured in accordance with EN 62841-1. The specified vibration level
a
can be used for comparison of equipment and for preliminary
h
assessment of vibration exposure.
The vibration level quoted is only representative of the basic use of the
unit. If the unit is used for other applications or with other work tools,
the vibration level may change. Higher vibration levels will be
influenced by insufficient or too infrequent maintenance of the unit. The
reasons given above may result in increased vibration exposure during
the entire working period.
In order to accurately estimate vibration exposure, it is necessary
to take into account periods when the device is switched off or
when it is switched on but not used for work. Once all factors have
Value
230 V AC
50 Hz
510 W
30000 min-1
Ø 6.35 mm
II
1.64 kg
2023
machine
Lp
= 89 dB(A) K= 3 dB(A)
A
Lw
= 100 dB(A) K= 3 dB(A)
A
2
a
= 2.21 m/s
K= 1.5 m/s
h
, the sound power level Lw
A
specified in these instructions have been
h
2
(where K
A
(where
h
and the
A
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