English
MOUNTING AND OPERATION
Action
How to attach sanding belt
How to remove sanding belt
How to adjust sanding position
Attaching and removing the dust bag*
How to hold and move machine
Switch operation
Adjusting the belt speed
How to work on corner
Selecting accessories
*1 Dust removal
When an excessive amount of dust is deposited in the
dust bag, dust-collecting effi ciency will sharply drop.
Remove dust from the bag when it is deposited up to
about 2/3 the bag capacity, where by dust collecting
effi ciency (as well as working effi ciency) will be ensured.
Remove dust from the bag as follows:
(1) Loosen the support bar and remove the dust bag.
(Fig. 4)
(2) The bag inlet can be opened by unzipping the slide
fastener.
How to select proper sanding belt
Choose sanding belt of proper grain size and grain type for
your specifi c purpose, by referring to Table 1 and 2 below.
Table 1
Derived fi nish
Coarse fi nish
Medium fi nish
Semi fi ne fi nish
Fine fi nish
Table 2
Grain type
AA
WA
CAUTION
○ For grain sizes, refer to Table 1
○ Sanding belt grain should be coarser than sandpaper
used for manual work.
○ Use sanding belt of same grain size until uniform
surface is obtained. Changing grain sizes may result in
poor fi nish.
MAINTENANCE AND INSPECTION
1. Inspecting the sanding belt
Since continued use of a worn-out sanding belt will
degrade effi ciency, replace the sanding belt as soon as
excessive abrasion is noted.
2. Inspecting the mounting screws
Regularly inspect all mounting screws and ensure that
they are properly tightened. Should any of the screws be
loose, retighten them immediately. Failure to do so could
result in serious hazard.
Figure
Page
1
91
2
91
3
91
4
92
1
5
92
6
92
7
92
8
92
–
93
Proper grain size
30 – 40
40 – 100
80 – 240
180 – 400
Surface to be worked on
Steel, Wood
Wood, Bamboo
3. Maintenance of the motor
The motor unit winding is the very "heart" of the power
tool.
Exercise due care to ensure the winding does not
become damaged and/or wet with oil or water.
4. Inspecting the carbon brushes
For your continued safety and electrical shock protection,
carbon brush inspection and replacement on this tool
should ONLY be performed by a HiKOKI AUTHORIZED
SERVICE CENTER.
5. Replacing supply cord
If the supply cord of Tool is damaged, the Tool must be
returned to HiKOKI Authorized Service Center for the
cord to be replaced.
CAUTION
In the operation and maintenance of power tools, the
safety regulations and standards prescribed in each
country must be observed.
GUARANTEE
We guarantee HiKOKI Power Tools in accordance with
statutory/country specifi c regulation. This guarantee does
not cover defects or damage due to misuse, abuse, or
normal wear and tear. In case of complaint, please send
the Power Tool, undismantled, with the GUARANTEE
CERTIFICATE found at the end of this Handling instruction,
to a HiKOKI Authorized Service Center.
IMPORTANT
Correct connection of the plug
The wires of the main lead are coloured in accordance
with the following code:
Blue: — Neutral
Brown: — Live
As the colours of the wires in the main lead of this tool may
not correspond with the coloured markings identifying the
terminals in your plug proceed as follows:
The wire coloured blue must be connected to the terminal
marked with the letter N or coloured black. The wire
coloured brown must be connected to the terminal marked
with the letter L or coloured red. Neither core must be
connected to the earth terminal.
NOTE
This requirement is provided according to BRITISH
STANDARD 2769: 1984.
Therefore, the letter code and colour code may not be
applicable to other markets except The United Kingdom.
Information concerning airborne noise and vibration
The measured values were determined according to
EN60745 and declared in accordance with ISO 4871.
Measured A-weighted sound power level: 101 dB (A)
Measured A-weighted sound pressure level: 90 dB (A)
Uncertainty K: 3 dB (A).
Wear hearing protection.
Vibration total values (triax vector sum) determined
according to EN60745.
Sanding steel plate:
Vibration emission value
Uncertainty K = 1.5 m/s
4
a
h = 2.2 m/s
2
2