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| Centrifugal Separators
clarify contaminated liquids and oils using centrifugal
force, which separates various solids mixed together
in suspension within water-based liquids as well
as within insoluble oils. Ultimately clean liquids
are supplied to various industrial processes such
as metal and non-metal forming, grinding, lapping
and honing. In automatic and semi-automatic cleaning
models, the collected solids drop in properly dehydrated
form for easier disposal. |
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APPLICATIONS |
| Our
centrifugal separators can be used to recover
coolants used in Tumbling, De-burning, Milling,
Turning , Grinding, General machining, Wire
drawing, Rod mill processing, Bearing finishing,
Ceramics, Silicon slicing, Metal & Stone
cutting and polishing. |
| To recover
wash & waste water from parts washing,
Phosphate baths, Rinse water, Abrasive brush
cleaning, Paint booth curtains, Wallpaper
& linoleum rolls. |
| Dielectric
fluids used in EDM machining and Etching. |
| Automotive,
Ceramic and Glass processing |
| Circuit board
plating |
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| PROCESSING CYCLE: |
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1)
2)
3)
4) |
Process liquid continuously
flows up through the feed tube.
The impeller accelerates and distributes the liquid
into the spinning bowl.
Liquid flows up the pool surface of the bowl as
the solids separate and compact at the perimeter
of the bowl.
The clarified liquid passes around the efficiency
ring and discharges through the bowl hub discharge
ports and discharges ports and discharge through
the bowl hub discharge ports and into the frame
collection chamber. |
| 5) |
The clarified liquid flows down the
drain tubes and into the lower frame drain pan where
it exits the discharge fitting at the rear of the
centrifugal separator. |
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| AUTOMATIC CLEANING CYCLE: |
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| 6) |
Once the bowl fills to maximum capacity
with waste solids, the automatic cleaning cycle
is activated to remove the solids. This cycle is
controlled by an adjustable process timer. |
7)
8) |
When the cleaning cycle is activated,
the separator shuts off the feed and brakes to a
complete stop.
After the free liquid drains, the sludge chute cover
is pneumatically opened. |
| 9) |
A second pneumatic cylinder engages
the plow mechanism¡¯s clutch socket into the plow
shaft. The sprocket then turns counter rotating
plow blades alternatively, clockwise and counter
clockwise. |
| 10) |
The plowing action discharges the
compacted solids from the tapered section of the
separator bowl. The sludge drops through a chute
into a waste receptacle below the machine. |
| 11) |
Upon completion of the cleaning
cycle, the sludge chute cover closes, the pneumatic
cylinder retracts, the process timer resets and
the machine resumes its process cycle. A normal
cleaning cycle takes less than 5 minutes. |
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SPECIFICATIONS |
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MODELS
|
Process
Capacity (§¤/ Per Minute) |
Sludge
Volumn (§¤ ) |
R.
P. M of Bowl 50Hz |
Motor
(KW) |
Required
Space (mm©÷) |
Inlet
Height (mm) |
Outlet
Height (mm) |
Weight
(KG) |
|
AUTOMATIC SYSTEM |
SF
50A |
50 |
7 |
2,000 |
1.5 |
550
x 1,280 |
906 |
1,118 |
400 |
| SF
100A |
100 |
15 |
1,800 |
2.2 |
520
x 1,200 |
985 |
1,244 |
600 |
| SF 200A |
200 |
25 |
1,860 |
5.5 |
620 x 1,300 |
1,004 |
1,324 |
800 |
SEMI
AUTOMATIC
SYSTEM |
SF
50S |
50 |
7 |
2,000 |
1.5 |
520
x 650 |
906 |
1,118 |
250 |
| SF
100S |
100 |
15 |
1,800 |
2.2 |
520
x 1,200 |
985 |
1,244 |
350 |
| SF 200S
|
200 |
25 |
1,860 |
5.5 |
620
x 1,300 |
1,004 |
1,324 |
550 |
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CAPABILITIES (Unit ¥ì for the size of the
fine grain / specific gravity 1.4S) |
|
Flow
Rate (§¤/ Per Minute)
|
MODEL
SF 20N
|
MODEL
SF 50A OR S |
MODEL
SF 100A OR S |
MODEL
SF 200A OR S |
|
5 |
2 |
2 |
1 |
1 |
10 |
3 |
3 |
1 |
1 |
20 |
5 |
5 |
2 |
1 |
30 |
10 |
7 |
3 |
1 |
50 |
- |
10 |
5 |
3 |
75
|
- |
15 |
7 |
4 |
100 |
- |
- |
10 |
5 |
150 |
- |
- |
30 |
7 |
200 |
- |
- |
- |
10 |
|
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SEMI-AUTOMATIC
CENTRIFUGAL SEPARATOR |
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