9
EN
TOOLS
M1.1.UCC.NLFREN - 12032018
14. Always turn the heater off after using as leaving it on can cause the
fluid to evaporate and damage the internal components.
15. Upon completion of the cleaning cycle, turn the heater button off
and isolate the machine from the electrical supply.
16. Take care when adding or removing items from the cleaning tank as
the fluid is likely to be hot and displaced fluid can damage the inter
-
nal components. Any displaced fluid must be dried up immediately.
17. In the event of failure/emergency, disconnect the mains supply by
removing the plug from the mains socket.
Operation
1. Fill stainless steel tank with liquid; Plug the cleaner into grounded
outlet; After powering on, the temperature displays the actual solu-
tion temperature.
2. Timer setting: Press the timer control ”UP“ button for setting 1-99
min working time, Press the timer control “DOWN” button for reduc-
ing the time per minute. The cleaning stops when the timer counts
down to 00:00. If the unit needs to be stopped before the timer runs
up, press “ON/OFF” button.
LED display
timer
LED display
heating temp
Temperature
control
Timer control
Heating ON/
OFF
Ultrasonic
ON/OFF
LED display
heating temperature
Temperature control
Heating ON/OFF
Ultrasonic ON/OFF
Timer control
LED display timer
2.1 Technical specifications
Model
UCC006
UCC010
UCC020
UCC030
Tank capacity [l]
6
10
20
30
Ultrasonic power [W]
180
240
480
600
Heating power [W]
300
300
800
800
Total power [W]
480
540
1280
1400
Inner chamber dimensions
(l x w x h) (mm)
270 x 146 x 110
280 x 230 x 120
470 x 226 x 100
470 x 270 x 120
Frequency [kHz]
40
Temperature setting [°C]
20 ~ 80
Timer [min.]
1 ~ 99
Overall dimensions
(l x w x h) [mm]
325 x 180 x 315
330 x 270 x 310
550 x 330 x 310
530 x 525 x 380
Net weight
6,98
10
16
18,2 kg
3 Ultrasonic cleaning principle
Ultrasonic cleaning is based on the cavitation effect caused by high frequency
ultrasonic wave vibration signal in the fluid.
Microscopic bubbles are formed, and they implode violently causing the
cavitation which create an intense scrubbing action on the surface of the
item being cleaned. The bubbles are small enough to penetrate microscopic
crevices, cleaning hem thoroughly and consistently.
Ultrasonic cleaning is extremely effective at removing dirt and grime which
would normally require tedious manual cleaning by hand. It has been used to
clean a wide variety of instruments and mechanical parts such as carburettors,
returning them to almost “like new” condition without damaging delicate parts.
ULTRASONIC CLEANING PRINCIPLE
Ultrasonic cleaning is based on the cavitation effect caused by high
frequency ultrasonic wave vibration signal in the fluid.
Microscopic bubbles are formed, and they implode violently causing
the cavitation which create an intense scrubbing action on the surface
of the item being cleaned. The bubbles
are small enough to penetrate microscopic
crevices, cleaning hem thoroughly and
consistently.
Ultrasonic cleaning is extremely effective
at removing dirt and grime which would
normally require tedious manual cleaning
by hand. It has been used to clean a wide
variety of instruments and mechanical
parts such as carburetors, returning them
to almost “like new” condition without
damaging delicate parts.
PREPARATION
1. Carefully unpack the cleaner and remove all traces of packing mate-
rials. Visually inspect the cleaner for any parts that may have become
loose or damaged during transit.
Content :
a: Main unit
b: Stainless steel lid
c. Mesh basket
d: Power cord
e: Outlet filter (6L and above models)
f: Instruction manual
Ultrasonic cleaning principle
Transducer
Generator
Tank
Solution
Detergent
Tiny vibrations
Cavitation
Debris come off
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