Submersible Resin Pumps

Transcription

Submersible Resin Pumps
PU / PN / PSF / PLS / TM / OM
Printed on recycled paper with soy ink Evidence of our commitment to the environment
Amenities from Technology
for People and the Earth
Enriched Lineup: 0.15-3.7kW
Suitable for a Wide Variety of Applications
SELECTION TABLE
Category
Series
Discharge
Bore
mm
Impeller
Model
Motor Output kW
0.15
0.25
0.4
0.75
1.5
2.2
3.7
Standard
PU
Sewage
40 -- 80
Vortex
Automatic
Auto-alternation
Standard
Wastewater
PN
40 -- 80
Vortex
Automatic
Auto-alternation
Standard
Wastewater
-High Head-
PSF
40 -- 65
Closed
Automatic
Auto-alternation
Wastewater
-Horizontal-
PLS
50
Vortex
Seawater
TM
40 -- 80
Vortex
Wastewater
-Economic-
OM
32
Vortex
Standard
Standard
Automatic
Standard
Automatic
TYPE OF IMPELLER
Vortex
Submersible Sewage Pumps
Vortex
The vortex impeller is adopted in every series except for the PSF-series. Rotation of the impeller
produces a whirling, centrifugal action between the impeller and the pump casing, and it moves
the fluid through the pump. Being coupled with a wide pump casing, wastewater containing
solid matters can be pumped out without obstruction.
Submersible Wastewater Pumps
--- Horizontal --Vortex
Closed
The closed impeller is adopted in the PSF-series. The impeller is also referred to as shrouded
impeller,as it has circular shrouds at both sides of the impeller vanes. Although the pump has a
limited solids passage capability, it can be used for higher pumping head applications.
Vortex
Submersible Seawater Pumps
Vortex
MODEL NUMBER DESIGNATION
40 PU A 2 .15 S
Discharge bore in millimeters
--- High Head --Closed
1
--- Economic --Vortex
Name of the series
Operation sub code
None : None automatic operation
A : Automatic operation
W : Auto-alternation operation
Phase
None : Three-phase
S : Single-phase
Rated motor output in kilowatts
Number of poles of the motor
2
Practical Design Providing
Excellent Corrosion Resistance and Durability
1. Anti-wicking Cable Entry
2. Motor Protector
Cable
Every cabtyre cable has an anti-wicking
block at the cable entry section on the pump.
This mechanism is such that a part of each
conductor is stripped back and the part is
sealed by molded rubber or epoxy potting
which has flowed in between each strand of
the conductor. This unique feature prevents
wicking along the strand of the conductor itself.
Gland
Anti-wicking
Block
A built-in thermal motor protection device reacts
to the excessive heat caused by overcurrent
or run-dry conditions. It not only cuts off the
motor circuit automatically but also resets by
itself. When the motor cools down to a safe
operating temperature, the motor restarts.
The TOK guide rail fitting system connects the
pump to and from the piping easily just by lowering
and hoisting the pump, allowing easy maintenance
and inspection without the need to enter the sump.
Guide Support
(with Bolt & Nuts)
Made of high-quality resin, the TOK is designed
for lightweight, small to middle sized pumps.
Rubber bellows attached to the guide hook are
inverted to the duckfoot bend when the pump
starts operating, and it seals by the pumping
pressure. This eliminates leakage at the seal
even if a lightweight pump is used in combination
with the TOK.
Lifting Chain
(with Shackles)
Guide Hook
Guide Pipe
(not supplied)
Screwed Flange
Duckfoot Bend
The TOK is available in all motor output ranges of
the PU, PN, and PSF series.
3. Bearings
High-grade bearings for high-temperature
operation are used. Also, as deep-groove,
double-shielded C3 ball bearings are used,
and as the bearings are permanently
lubricated by grease, there is no need for
injection of lubricating oil.
1
Miniature Thermal Protector
5
4
8
6. Oil Lifter (Patented)
* Not Available for PLS-series
9
The float type automatic
model has an integral control
circuit and two float switches
that operate at a low voltage.
It operates automatically in
response to the change in
water levels.
This model can be identified
by the suffix "A" and is available in all motor output ranges
of the PU, PN, PSF, and TM
series.
Upper Seal Faces
Oil Lifter
Mechanical Seal
Guide Vane
Oil
The cylindrical float type
automatic model is available
only for the OM-series.
Adoption of the unique float
switch has made even the
automatic model very compact
and enables it to be installed
in a limited space. Automatic
operation is possible with a
simple power panel.
How the Auto-alternation Model Works
Primary Operation
1
“A” Unit
Shaft
9. Rubber Foot
A rubber foot is fitted on each stand
of the pumps from 1.5 to 3.7kW and
the PLS-series pumps. This prevents
scratching of floor surface.
The auto-alternation model is
used along with an automatic
model. The combinational use
of these two pumps enables
each pump to operate alternately without control panel.
The auto-alternation model
has three floats and can be
identified by the suffix “W”.
Refer to model selection for
availability and model numbers of the PU, PN, and PSF
series.
Secondary Operation
“W” Unit
5
3
4
1
Unusual
Increase of
Inflow
4
3
1
5
2
5
1
3
5
3
1
2
When water level falls to Float #2, the float is activated,
and the “W” unit stops. The alternating circuitry
deactivates the “W” unit for the next level rise.
2
The next time the water level rises, Float #1 on the
“A” unit is activated but the unit does not start until
Float #4 is activated.
Unusual
Increase of
Inflow
5
4
3
1
2
If inflow exceeds the capacity of “A” unit and the
water level rises to Float #5, “W” unit starts.
2
5
4
3
1
2
The “W” unit is discharging water (Water level falls).
“W” Unit
5
3
4
1
3
4
“A” Unit
2
If inflow exceeds the capacity of “W” unit and the
water level rises to Float #4, “A” unit starts.
4
1
2
Water level rises and turns the Float #2 up. The Float
#2 is activated but the pump does not start. When
water level ris es to Fl oat # 3 an d the fl oat is
activated, the “W” unit starts.
Auto-alternation Model
* Not Available for OM-series
Unfastening the bolts between the oil casing
and the upper pump casing allows the body
to be separated into the pump section and
the motor section with the impeller left in
position. This facilitates easier inspections
of the main portions.The pump section can
be disassembled/reassembled using a
cross slot screwdriver (excluding 0.15kW).
Automatic Model
* Not Available for OM-series
The Oil Lifter was developed as a
lubricating device for the mechanical
seal. Utilizing the centrifugal force of
the shaft seal, the Oil Lifter forcibly
supplies lubricating oil to the mechanical seal and continues to supply
the oil to the upper seal faces even
if lubricant falls below the rated
volume. This amazingly simple device
is not only reliably lubricates and
cools down, but also retains the stable
shaft seal effect and extends the
inspection term.
7. Air Release Valve
8. Back Pull-out Design
Liquid paraffin is used in every VANCS
series pump. It is a highly-refined pure
oil generally used in the industries of
cosmetic, pharmaceutical, and food
processing equipment, etc. The use
of this oil widens the applications of
the pumps to decorative waterfalls,
fishponds, and aquaculture, etc.
6
7
In order to prevent “air lock”, an
air release valve is built in the
pump casing. The valve is similar
to a ball check valve. When air
goes through the valve, the ball
stays at the bottom, but when the
pumped water starts to flow, it
closes the outlet by its buoyancy.
AUTOMATIC & AUTO-ALTERNATION MODEL
4. Lubricating Oil
3
A mechanical seal with two seal faces
containing silicon carbide (SiC) is equipped
with the oil chamber. The advantages of
the seal are two-fold, it eliminates spring
failure caused by corrosion, abrasion or
fouling which prevents the seal faces from
closing properly, and prevents loss of cooling
to the lower seal faces during run-dry
conditions which causes the lower seal
faces to fail.
Circle Thermal Protector
2
5. Dual Inside Mechanical Seal
3
TOK GUIDE RAIL FITTING SYSTEM
2
The “A” unit is discharging water (Water level falls).
3
5
4
3
1
2
When water level falls and Float #1 is activated, the
“A” unit stops. At the same time, “W” unit becomes
ready for operation for the next level rise.
4
The PU-series is a vortex pump designed for handling raw sewage, wastewater,
Industrial and commercial sump pump applications. The solid handling design
provides practically unchokable operation in sewage pumping. Since the pump is
made of special resin and stainless steel, it is corrosion-resistant and lightweight.
Performance Curves
Standard, Automatic and Auto-alternation models have the identical performance.
S.S. 3000min-1
50
27
25
PU
40
PU
2.
PU
5
40
2.2
PU
22
.2
4(
S)
15
0
10
50
40
5(
S)
2.
15
0.2
0.4
0.6
0.8
3
0
1.0
2.
2.2
PU
(S
)
PU
PU
5 40
2.
15
80
Applications
(S
)
Insulation
0 to 40℃
Vortex
Double Mechanical Seal (with Oil Lifter)
Double-shielded Ball Bearing
Glass-fiber Reinforced Resin
Silicon Carbide
Dry-type Submersible
Induction Motor, 2-pole
Single-phase (suffix "S")
Three-phase
Starting Method
Protection Device
(Built-in)
Lubricant
80
Class E
Phase
Motor
50
Frame
Materials Shaft
Cable
Discharge Connection
Capacitor Run (single-phase only)
Direct on Line
(40PU2.15S, 40PU2.25S & 50PU2.4S only)
Liquid Paraffin (ISO VG32)
304 Stainless Steel
420 Stainless Steel (0.15kW only)
304 Stainless Steel
PVC
Screwed Flange
• Transferring wastewater between the tanks at
small-scale treatment facility
TOK Application Table
Model
TOK4-P
TOK2-65
TOK2-65T
Applicable Motor Output
0.15 to 0.75kW
1.5kW
2.2 to 3.7kW
Accessories
• Duckfoot Bend
• Guide Hook
• Guide Support with Bolts & Nuts
• Lifting Chain with Shackles (4m for TOK4-P, 5m for TOK2-65 / 65T)
5
40PU2.15S
40PUA2.15S
40PUW2.15S
0.15
Single
Capacitor Run
35
6.1
6.7
0.15
Three
D.O.L.
35
5.6
6.3
0.25
Single
Capacitor Run
35
7.1
7.8
0.25
Three
D.O.L.
35
6.1
6.8
0.4
Single
Capacitor Run
35
7.1
7.8
0.4
Three
D.O.L.
35
7.0
7.7
0.75
Single
Capacitor Run
35
8.9
9.5
0.75
Three
D.O.L.
35
8.3
9.0
1.5
Three
D.O.L.
46
16.0
16.9
50PU2.4S
50PU2.75S
Three-phase
Model
40PU2.25
50PU2.4
50PU2.75
80PU21.5
80PU22.2
80PU23.7
3 × 1.25
10.1
3 × 1.25
10.1
3 × 1.25
10.1
3 × 1.25
10.1
3 × 1.25
10.1
3 × 1.25
10.1
3 × 2.0
10.9
3 × 1.25
10.1
200-240V
380-600V
Cores × Outer Dia. Cores × Outer Dia.
mm2
mm
mm2
mm
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 2.0
11.8
4 × 1.25
11.1
4 × 3.5
13.9
4 × 2.0
11.8
Material
2.2
Three
D.O.L.
46
22.0
23.0
3.7
Three
D.O.L.
46
27.0
28.0
5
40PUA2.25S
40PU2.25S
40PU2.25
40
40PUA2.25
50PUA2.4S
50PU2.4S
50PUA2.4
50PU2.4
50PUA2.75S
50PU2.75S
50PUA2.75
50PU2.75
80PUA21.5
80PU21.5
80PU22.2
80
80PUA22.2
80PU23.7
80
m
40PUA2.15
40PU2.15
80
Length
Auto &
Auto-alternation
40
50
200-240V
Dry Weight kg
kW
50
100-120V
Solids
Passage
Auto-alternation
50
mm
mm2
mm
mm2
Starting
Method
Phase
Automatic
40
Single-phase
Motor
Output
Model
Standard
40
Cabtyre Cables
40PU2.25S
Capacity (m /min)
mm
50
40PU2.15
Guide Rail Fitting
Discharge
Bore
• Pumping rainwater and springwater at a place where
foreign objects are likely to run into the water
40PU2.15S
1.0
Model Selection
• Draining sewage from factory, residence, hotel,
restaurant, etc.
Model
0.8
80PUA23.7
• Weights excluding cable
40PUW2.15
40PUW2.25S
40PUW2.25
50PUW2.4S
50PUW2.4
50PUW2.75
80PUW21.5
80PUW22.2
80PUW23.7
Standard
mm
PVC
Dimensions
Length
Material
m
d
A
B
H
W1
W2
40PU2.15S
40
225
154
377
340
105
40
225
154
377
340
105
40
236
162
360
325
110
40
236
162
349
310
110
50
236
162
360
325
110
50
236
162
360
325
110
50
236
162
380
345
110
50
236
162
374
335
110
80
295
196
475
430
150
80
311
212
583
520
155
80
311
212
618
555
155
40PU2.15
40PU2.25S
40PU2.25
6
PVC
Unit: mm
Model
50PU2.4S
50PU2.4
50PU2.75S
50PU2.75
80PU21.5
80PU22.2
80PU23.7
A
B
Type, Pole
40
Sewage, Wastewater, and
Water carrying Solid Matters
0.6
3
C.W.L.
d
W1
H
mm
0.4
L.W.L.
W2
Discharge Bore
Pumping Type of Fluid
Fluid
Fluid Temperature
Impeller
Structure Shaft Seal
Bearing
Pump
Impeller
Materials Casing
Shaft seal
.5
4(
S)
Capacity (m /min)
Major Components & Specifications
21
5(
S)
0.2
0
PU
)
(S
75
2.
PU
50
.7
50
10
80
PU
21
.5
23
.2
22
PU
80
80
Hz
20
.7
23
PU
80
PU
15
0
Hz
80
60
25
)
(S
75
2.
PU
50
Total Head (m)
20
S.S. 3600min-1
27
Total Head (m)
Submersible Sewage Pumps
C.W.L.: Continuous Running Water Level
L.W.L.: Lowest Running Water Level
6
The PN-series is a semi-vortex pump, which is constructed of a vortex impeller and
low-height volute casing. The semi-vortex pump design with moderate solids
passage provides efficient performance for versatile applications. Since the pump
is made of special resin and stainless steel, it is corrosion-resistant and lightweight.
Performance Curves
S.S. 3000min-1
50
30
Hz
80
PN
.7
10
2.
5
PN
)
(S
25
0.2
15
PN
0
20
40
5
0.4
0.6
0.8
3
0
1.0
0
0.2
Capacity (m /min)
mm
Type, Pole
Insulation
50
80
0 to 40℃
Vortex
Silicon Carbide
Class E
Three-phase
Phase
Motor
40
Wastewater and
Water carrying Small Solid Matters
Starting Method
Protection Device
(Built-in)
Lubricant
Frame
Materials Shaft
Cable
Direct on Line
(40PN2.25S & 50PN2.4S only)
304 Stainless Steel
304 Stainless Steel
PVC
Screwed Flange
• Circulating water in waterscape garden
(e.g. waterfall, fountain, koi pond, etc.)
Model
TOK4-P
TOK2-65
TOK2-65T
0.25 to 0.75kW
1.5kW
2.2 to 3.7kW
Accessories
• Duckfoot Bend
• Guide Hook
7
Standard
40
40PN2.25S
50PN2.4S
50PN2.75S
Three-phase
Model
50PN2.4
50PN2.75
50PN21.5
80PN22.2
80PN23.7
mm
mm2
mm
mm2
3 × 1.25
10.1
3 × 1.25
10.1
3 × 1.25
10.1
3 × 1.25
10.1
3 × 2.0
10.9
3 × 1.25
10.1
200-240V
380-600V
mm
mm2
mm
mm2
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 2.0
11.8
4 × 1.25
11.1
4 × 3.5
13.9
4 × 2.0
11.8
m
5
Length
PVC
Material
m
80PNA22.2
80PNA23.7
Capacity (m /min)
1.0
Auto-alternation
40PNW2.25S
40PNW2.25
50PNW2.4S
50PNW2.4
50PNW2.75
50PNW21.5
80PNW22.2
80PNW23.7
Starting
Method
Phase
kW
Solids
Passage
Dry Weight kg
Auto &
Auto-alternation
Standard
mm
0.25
Single
Capacitor Run
10
7.1
7.8
0.25
Three
D.O.L.
10
6.1
6.8
0.4
Single
Capacitor Run
10
7.1
7.8
0.4
Three
D.O.L.
10
7.0
7.7
0.75
Single
Capacitor Run
10
8.9
9.4
0.75
Three
D.O.L.
10
8.3
9.0
1.5
Three
D.O.L.
20
15.9
16.8
2.2
Three
D.O.L.
20
22.0
23.0
3.7
Three
D.O.L.
20
27.0
28.0
Dimensions
Model
40PN2.25S
40PN2.25
50PN2.4
PVC
50PNA21.5
80PN23.7
50PN2.4S
6
50PNA2.75
80PN22.2
80
Material
50PNA2.75S
50PN21.5
50
Length
50PNA2.4
50PN2.75
50
200-240V
50PNA2.4S
50PN2.75S
80
100-120V
40PNA2.25
50PN2.4
50
Single-phase
40PNA2.25S
50PN2.4S
50
Cabtyre Cables
Automatic
40PN2.25
40
Motor
Output
Model
mm
50
40PN2.25
Guide Rail Fitting
Discharge
Bore
• Pumping rainwater and springwater from basement
40PN2.25S
0.8
3
Model Selection
• Draining wastewater from residence, hotel,
restaurant, etc.
Model
0.6
50PN2.75S
50PN2.75
50PN21.5
80PN22.2
80PN23.7
A
Unit: mm
d
A
B
H
W1
W2
40
236
162
360
325
110
40
236
162
349
310
110
50
236
162
360
325
110
50
236
162
360
325
110
50
236
162
380
345
110
50
236
162
374
335
110
50
295
196
435
390
110
80
311
212
559
500
130
80
311
212
594
535
130
B
Discharge Bore
Fluid
Fluid Temperature
Impeller
Bearing
Pump
Impeller
Materials Casing
Shaft seal
0.4
C.W.L.
d
W1
H
Applications
Hz
80
PN
23
.7
.2
22
PN
80
10
60
50
80
PN
22
50
.2
PN
21
.
5
50
PN
50
2.
75
PN
(S
2.
)
4(
S
)
40
PN
2.
25
(S
)
15
0
23
Total Head (m)
20
25
.5
)
21
S
5(
PN
7
)
50
2.
S
4(
PN
2.
50
Total Head (m)
25
S.S. 3600min-1
30
L.W.L.
W2
8
--- High Head --The PSF-series incorporates a multi-vane, closed impeller and has the
highest head characteristics in the VANCS-series. It is suitable for pumping
screened liquids or liquids with no suspended solid. Since the pump is made
of special resin and stainless steel, it is corrosion-resistant and lightweight.
Performance Curves
S.S. 3000min-1
50
35
30
1.5
7
2.2
5
0.4
0.2
3
0
0.8
0.6
PS
0
Applications
Insulation
65
0 to 40℃
Closed
Silicon Carbide
Class E
Three-phase
Phase
Motor
50
Starting Method
Direct on Line
Protection Device
(Built-in)
(single-phase only)
Lubricant
Frame
Materials Shaft
Cable
304 Stainless Steel
304 Stainless Steel
PVC
Screwed Flange
• Supplying treated water for defoaming at small-scale
wastewater treatment facility
Model
TOK4-P
TOK2-65
TOK2-65T
0.25 to 0.75kW
1.5kW
2.2 to 3.7kW
Accessories
• Duckfoot Bend
• Guide Hook
9
100-120V
200-240V
40PSF2.25S 3 × 1.25
10.1
3 × 1.25
10.1
3 × 1.25
10.1
3 × 1.25
10.1
Three-phase
Model
40PSF2.25
50PSF2.75
50PSF21.5
65PSF22.2
65PSF23.7
200-240V
380-600V
mm2
mm
mm2
mm
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 2.0
11.8
4 × 1.25
11.1
4 × 3.5
13.9
4 × 2.0
11.8
Length
Material
Dry Weight kg
Auto &
Auto-alternation
Auto-alternation
kW
40
40PSF2.25S
40PSFA2.25S
40PSFW2.25S
0.25
Single
Capacitor Run
8
7.3
7.9
0.25
Three
D.O.L.
8
6.2
6.9
0.4
Single
Capacitor Run
8
7.3
7.9
0.4
Three
D.O.L.
8
7.1
7.8
0.75
Three
D.O.L.
8
8.4
9.1
1.5
Three
D.O.L.
13
16.0
16.9
2.2
Three
D.O.L.
13
22.0
23.0
3.7
Three
D.O.L.
13
27.0
28.0
40
40
65
mm
mm2
mm
mm2
Solids
Passage
Automatic
65
Single-phase
Starting
Method
Phase
Standard
50
Cabtyre Cables
Motor
Output
Model
mm
50
40PSF2.4
Guide Rail Fitting
Discharge
Bore
40
40PSF2.4S
Capacity (m /min)
Model Selection
• Draining treated water at small-scale wastewater
treatment facility
Model
0.8
0.6
3
40PSF2.25
40PSFA2.25
40PSF2.4S
40PSFA2.4S
40PSF2.4
40PSFA2.4
50PSF2.75
50PSFA2.75
50PSF21.5
50PSFA21.5
65PSF22.2
65PSFA22.2
65PSF23.7
65PSFA23.7
40PSFW2.25
40PSFW2.4S
40PSFW2.4
50PSFW2.75
50PSFW21.5
65PSFW22.2
65PSFW23.7
Standard
mm
m
5
Length
PVC
Material
m
Dimensions
Model
40PSF2.25S
40PSF2.25
40PSF2.4S
40PSF2.4
6
PVC
50PSF2.75
50PSF21.5
65PSF22.2
65PSF23.7
Unit: mm
d
A
B
H
W1
W2
40
236
162
360
325
110
40
236
162
349
310
110
40
236
162
360
325
110
40
236
162
360
325
110
50
236
162
374
335
110
50
295
196
435
390
110
65
311
212
559
500
130
65
311
212
594
535
130
A
C.W.L.
d
H
Type, Pole
40
Wastewater and
Water carrying Few Solid Matters
0.4
B
mm
1.5
W1
Discharge Bore
Fluid
Fluid Temperature
Impeller
Bearing
Pump
Impeller
Materials Casing
Shaft seal
2.2
F2
0.2
Capacity (m /min)
F2
.
SF2
40P
0
PS
50
15
SF
0
65
20
10
40P
5
Hz
.75
F2
PS
50
)
2.4(S
40PSF
(S)
25
Total Head (m)
F2
3.
.75
F2
PS
50
)
2.4(S
)
40PSF
5(S
2.2
Total Head (m)
F2
25
.7
F2
Hz
3
F2
PS
PS
PS
15
10
65
50
20
PS
60
30
65
65
25
S.S. 3600min-1
35
L.W.L.
W2
Submer sible Wa s t ew a t er Pump s
10
--- Horizontal --The PLS-series is a horizontal semi-vortex pump designed for handling
water carrying small solid matters. The horizontal design makes it possible
to operate at a low water level or in a shallow sump. Since the pump is made of
special resin and stainless steel, it is corrosion-resistant and lightweight.
Performance Curves
S.S. 3000min-1
50
12
Hz
0
Discharge Bore
mm
Fluid
Fluid Temperature
Impeller
Bearing
Pump
Impeller
Materials Casing
Shaft seal
Type, Pole
Insulation
Phase
Starting Method
Motor
Protection Device
(Built-in)
Lubricant
Frame
Materials Shaft
50
Wastewater and
0 to 40℃
Vortex
Silicon Carbide
• Pumping rainwater and springwater at a place where
foreign objects are likely to run into the water
• Transferring wastewater between the tanks at
small-scale treatment facility
Circle Thermal Protector (0.75kW only)
304 Stainless Steel
420 Stainless Steel (0.15kW only)
304 Stainless Steel
100-120V
200-240V
mm2
mm
mm2
mm
10.1
3 × 1.25
10.1
3 × 1.25
10.1
3 × 1.25
10.1
10.1
3 × 1.25
10.1
50PLS2.75S 3 × 1.25
S2
2
0.2
0.3
0.4
3
Capacity (m /min)
0.5
0
0.6
0
.1
5S
0.1
0.2
0.3
0.4
3
Capacity (m /min)
0.5
0.6
Discharge
Bore
Model
Motor
Output
50
50
50
Phase
Starting
Method
Solids
Passage
50PLS2.15S
0.15
Single
Capacitor Run
0.4
Single
Capacitor Run
38 (10)
24 (10)
0.75
Single
Capacitor Run
kW
50PLS2.4S
50PLS2.75S
Dry
Weight
mm
• Figure in ( ) shows the solids passage of the pump with a strainer.
kg
5.8
6.7
24 (10)
8.6
Dimensions
50PLS2.15S 3 × 1.25
50PLS2.4S
0.1
mm
Model
Total Head (m)
5S
Model Selection
Cabtyre Cables
Class E
Single-phase
Capacitor Run
PL
.1
Length
Material
50PLS2.15S
m
5
Model
50PLS2.4S
PVC
50PLS2.75S
d
A
B
H1
Unit: mm
H2
W
50
341
142
180
185
220
50
342
150
185
200
220
50
362
150
185
201
310
A
d
C.W.L.
PVC
Screwed Flange
H1
H2
W
Cable
Applications
0
50
4
S
.4
S2
S
S2
S
.4
PL
6
PL
50
S2
5S
PL
50
4
2
Standard Accessory
.7
8
.75
6
S2
S2
PL
PL
Hz
50
50
8
60
10
50
Total Head (m)
10
S.S. 3600min-1
12
B
Submer sible Wa s t ew a t er Pump s
Comparison of Continuous Running Water Level
C.W.L.
120mm
C.W.L.
340mm
220mm
40PU2.15S
11
50PLS2.15S
12
Submersible Seawater Pumps
The TM-series is a semi-vortex pump, which is constructed of titanium and
special resin. Titanium has a superb corrosion resistance against seawater.
Being all wetted metal parts made of titanium, the pump is suitable for the intake,
transfer, and drainage of seawater.
Performance Curves
Standard and Automatic models have the identical performance.
S.S. 3000min-1
50
28
TM
23
8
40
TM
4
2.
25
16
50
TM
21
50
.5
TM
2.
75
12
8 4
0T
M
2.
4
(S
)
0
0.2
0.4
0.6
0.8
3
0
1.0
0
25
(S
)
0.2
Capacity (m /min)
Type, Pole
Insulation
Phase
Motor
40
50
80
Seawater
0 to 40℃
Vortex
Silicon Carbide
Class E
Three-phase
Starting Method
Direct on Line
Protection Device
(Built-in)
(single-phase only)
Lubricant
Frame
Materials Shaft
Cable
Titanium
Titanium
PVC
Screwed Flange
Corrosion Tests (in Seawater / 6 months)
Material
Stepped Shaft
Shaft Tap
Discharge
Bore
• Supplying seawater to aquarium
• Circulating seawater in breeding pond
kW
40
40TM2.25S
40TMA2.25S
0.25
Single
0.25
Three
0.4
0.4
40TM2.25
Three-phase
Model
40TM2.25
50TM2.4
50TM2.75
50TM21.5
80TM22.2
80TM23.7
200-240V
mm2
mm
mm2
mm
3 × 1.25
10.1
3 × 1.25
10.1
3 × 1.25
10.1
3 × 1.25
10.1
200-240V
380-600V
mm2
mm
mm2
mm
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 1.25
11.1
4 × 2.0
11.8
4 × 1.25
11.1
4 × 3.5
13.9
4 × 2.0
11.8
Material
m
5
PVC
Length
Material
50TMA2.4
50TM2.75
50TMA2.75
50TM21.5
50TMA21.5
80TM22.2
80
80TMA22.2
80TM23.7
80
80TMA23.7
Starting
Method
40TM2.25S
PVC
Dry Weight kg
Auto &
Auto-alternation
Standard
Capacitor Run
10
6.7
7.2
D.O.L.
10
5.7
6.2
Single
Capacitor Run
10
6.7
7.2
Three
D.O.L.
10
6.6
7.1
0.75
Three
D.O.L.
10
7.8
8.4
1.5
Three
D.O.L.
20
14.9
15.6
2.2
Three
D.O.L.
20
21.0
22.0
3.7
Three
D.O.L.
20
26.0
27.0
Dimensions
Model
6
Solids
Passage
mm
m
40TM2.25
50TM2.4S
50TM2.4
50TM2.75
50TM21.5
80TM22.2
80TM23.7
Titanium
50TMA2.4S
50TM2.4
50
Length
40TMA2.25
50TM2.4S
50
100-120V
Phase
Automatic
50
Single-phase
Motor
Output
Model
Standard
50
Cabtyre Cables
50TM2.4S
1.0
Capacity (m /min)
mm
40
40TM2.25S
0.8
Model Selection
• Pumping seawater from bilge and pit of vessel
Model
0.6
3
Unit: mm
d
A
B
H
W1
W2
40
236
162
360
325
110
40
236
162
349
310
110
50
236
162
360
325
110
50
236
162
360
325
110
50
236
162
374
335
110
50
295
196
435
390
110
80
311
212
559
500
130
80
311
212
594
535
130
A
B
Discharge Bore
mm
Fluid
Fluid Temperature
Impeller
Bearing
Pump
Impeller
Materials Casing
Shaft seal
Applications
0.4
C.W.L.
d
W1
H
.7
)
S
4(
2.
TM
50
50
TM
2.
75
TM
2.
4(
S)
50
20
.2
12
Hz
23
22
50
80
TM
TM
80
TM
22
.2
TM
21
.5
16
.7
Total Head (m)
20
24
80
Total Head (m)
80
60
28
Hz
24
0
S.S. 3600min-1
W2
L.W.L.
304
Stainless
Steel
13
14
--- Economic --The OM-series is the most compact and economic pump in the VANCS-series. It
is a semi-vortex design and can handle liquids containing moderate size of
solids. Since the pump is made of special resin and stainless steel, it is
corrosion-resistant and lightweight.
Applications
Performance Curves
Standard and Automatic models have the identical performance.
S.S. 3000 / 3600min-1
50/60
Type, Pole
2
32
Wastewater and
0 to 40℃
Vortex
Double Mechanical Seal
Silicon Carbide
0
0
Capacity
Unit: mm
C.W.L.
203
304 Stainless Steel
420 Stainless Steel
PVC
Screwed Flange
Frame
Materials Shaft
Cable
32
L.W.L.
70
Lubricant
0.2
(m3/min)
Dimensions
Class E
Single-phase
Capacitor Run
Protection Device
(Built-in)
0.1
140
Motor
Insulation
Phase
Starting Method
z
316
Fluid
Fluid Temperature
Impeller
Bearing
Pump
Impeller
Materials Casing
Shaft seal
H
280
mm
50
4
z
Discharge Bore
6
H
Hz
60
Total Head (m)
8
Model Selection
Discharge
Bore
mm
32
Motor
Output
Model
Standard
Automatic
OM3
OMA3
Phase
Starting
Method
kW
0.15
Solids
Passage
mm
Single
Capacitor Run
Dry Weight kg
Standard
Automatic
5.9
6.1
10
Cabtyre Cable
100-240V
Length
Cores ×
Outer Dia.
2
mm
mm
m
3 × 0.75
9.2
3
Material
PVC
We reserve the right to change the specifications and designs for improvement without prior notice.
Your Dealer
Printed in Japan CAT. IA114-A HB-F-C-R

Submersible Resin Pumps

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