VIP IN-LINE PUMPSVERTICAL MULTISTAGE
INSTALLATION / OPERATION / MAINTENANCE MANUAL
Dear Customer,
We thank you for choosing VANSAN Vertical Inline Pump and wish you have good use of it.VANSAN Vertical Inline Pumps are certified under ISO 9001:2015 and manufactured with TS... Vertical Inline Pump standards.
This manual contains important instructions that should be followed during installation, operation and maintenance of the product.
Read this manual very carefully before you install the pump.
Please keep this manual to get use of it also in the future.
Symbols used in this Manual
CautionFailure to observe these safety instructions may result in personal injury.
WarningFailure to observe these instructions may result in electric shock, which could result in a risk of serious injury or death to operating personnel.
If these safety instructions are not observed, it may result in malfunction or damage to the equipment.
Attent�on
Notes or instructions that make the job easier and ensure safe operation.Note
VERTICAL MULTISTAGE
VIP IN-LINE PUMPS
INDEX
Instruction and Safety Information
Safety Information Information that refers to personal injury is printed in black and is always accompied by a ““WARNING” and “ CAUTION” symbols.
Installation of the pump must be done by people who have been authorized certificate.
Vansan VIP Pumps General Info
Pump Parts and Materials
VIP Pump Types Table
General Performane Curves
General Capacity
Type Identification Code System
Sample of Label
Preparation for Installation
Delivery and Unpacking
Uncrating and Lifting
Mechanical Installation
Electrical Connection
Electrical Connections and Grounding
Start Up
Frequency Converter Operation
Frost Protection
Maintenance and Service
Maximum Permissible Operating Pressure
In-lıne Pumps Weight and Dimensions
Possible Troubles and Corrective Actions
2
3-5
6
6
7
7
7
8
8
8
9-10
10-11
12
13-14
15
15
15
16
17-22
23
Page
Dear Customer,
We thank you for choosing VANSAN Vertical Inline Pump and wish you have good use of it.VANSAN Vertical Inline Pumps are certified under ISO 9001:2015 and manufactured with TS... Vertical Inline Pump standards.
This manual contains important instructions that should be followed during installation, operation and maintenance of the product.
Read this manual very carefully before you install the pump.
Please keep this manual to get use of it also in the future.
Symbols used in this Manual
CautionFailure to observe these safety instructions may result in personal injury.
WarningFailure to observe these instructions may result in electric shock, which could result in a risk of serious injury or death to operating personnel.
If these safety instructions are not observed, it may result in malfunction or damage to the equipment.
Attent�on
Notes or instructions that make the job easier and ensure safe operation.Note
VERTICAL MULTISTAGE
VIP IN-LINE PUMPS
INDEX
Instruction and Safety Information
Safety Information Information that refers to personal injury is printed in black and is always accompied by a ““WARNING” and “ CAUTION” symbols.
Installation of the pump must be done by people who have been authorized certificate.
Vansan VIP Pumps General Info
Pump Parts and Materials
VIP Pump Types Table
General Performane Curves
General Capacity
Type Identification Code System
Sample of Label
Preparation for Installation
Delivery and Unpacking
Uncrating and Lifting
Mechanical Installation
Electrical Connection
Electrical Connections and Grounding
Start Up
Frequency Converter Operation
Frost Protection
Maintenance and Service
Maximum Permissible Operating Pressure
In-lıne Pumps Weight and Dimensions
Possible Troubles and Corrective Actions
2
3-5
6
6
7
7
7
8
8
8
9-10
10-11
12
13-14
15
15
15
16
17-22
23
Page
Vansan VIP Pumps General Features
The bearings are lubricated with the pumped water. The pump designed for the working conditions between -20 ºC to +120 ºC up to 25 bar pressure.
The inline design gives the advantage of same horizontal line installation and same size of inlet&outlet connection advantage. This feature provides a compact system design.
Mechanical Seal;All Vansan VIP Pumps are produced with Si-C cartridge type mechanical seal provides the longlife and maintanence free operation.
Coupling;The removable coupling design supplies easy replacement operation for the motor without dismantling the pump from the pipeline.
Wet Parts;All impellers and difusers are made from AISI304 Stainless Steel. As an option the wet parts of the top&bottom brackets can also made from AISI304.
Vansan VIP Pumps General Info
It is designed to find solutions for the applications like transfer the clean water to the place of usage in industrial premises, high buildings, fire fighting systems and booster systems at adequate pressure and amount. For this reason, it is conveniently used in a wide range of pumping systems that will respond to specific needs, where the pump’s performance and material are important.
Vansan Vertical Multistage In-line Fire Pumps can be connected directly to a single pipeline thanks to the suction and discharge flanges of the same diameter that are placed in the same axis. This special design provides a compact installation and pumping system.
Vansan VIP Pumps Applications
- High Pressure Applications- Agricultural use- Geothermal use
- Chemical Fluid Applications- Hygenic Applications- Special solutions
2
Pump Parts and Materials
3/5 m³/h - Parts and Material List
19
20
21
22
23
24
25
26
27
28
29
30
31
3
8
11
15
1
2
4
5
6
7
10
12
13
14
16
17
18
9
SS= Stainless Steel
Nr Part Name
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
Lower Table
Staybolds
Suction Case
O-Ring
Drain Plug
Con. Flange for Suction
Cylinder Head Gasket
Outer Sleeve
O-Ring
Pump Pressure Ring
Pump Head
Plug
O-Ring
Coupling Guard
Drain Plug
Mechanical Seal
Coupling
Coupling Pin
Lock Washer
Stop Nut
Chamber
Impeller
Carbon Bearing
Sinter Bearing Bronze
Spacing Pipe
Chamber
Neck Ring
Neck Ring Retainer
Strainer
Stop Nut
Shaft Seal
Material
Cast Iron (GG25)
SS (CK 45)
SS (AISI304)/Cast Iron (GG25)
NBR
SS (AISI 303)
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
NBR
SS (AISI 304)
Cast Iron (GG25)
SS (AISI 303)
NBR
SS (AISI 304)
SS (AISI 303)
SIC/VITON/SUS304
Cast Iron (GG25)
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
Carbon
Bronze (ASTM B145-4A)
SS (AISI 304)
SS (AISI 304)
Teflon
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
SS (AISI 420 )
3
Vansan VIP Pumps General Features
The bearings are lubricated with the pumped water. The pump designed for the working conditions between -20 ºC to +120 ºC up to 25 bar pressure.
The inline design gives the advantage of same horizontal line installation and same size of inlet&outlet connection advantage. This feature provides a compact system design.
Mechanical Seal;All Vansan VIP Pumps are produced with Si-C cartridge type mechanical seal provides the longlife and maintanence free operation.
Coupling;The removable coupling design supplies easy replacement operation for the motor without dismantling the pump from the pipeline.
Wet Parts;All impellers and difusers are made from AISI304 Stainless Steel. As an option the wet parts of the top&bottom brackets can also made from AISI304.
Vansan VIP Pumps General Info
It is designed to find solutions for the applications like transfer the clean water to the place of usage in industrial premises, high buildings, fire fighting systems and booster systems at adequate pressure and amount. For this reason, it is conveniently used in a wide range of pumping systems that will respond to specific needs, where the pump’s performance and material are important.
Vansan Vertical Multistage In-line Fire Pumps can be connected directly to a single pipeline thanks to the suction and discharge flanges of the same diameter that are placed in the same axis. This special design provides a compact installation and pumping system.
Vansan VIP Pumps Applications
- High Pressure Applications- Agricultural use- Geothermal use
- Chemical Fluid Applications- Hygenic Applications- Special solutions
2
Pump Parts and Materials
3/5 m³/h - Parts and Material List
19
20
21
22
23
24
25
26
27
28
29
30
31
3
8
11
15
1
2
4
5
6
7
10
12
13
14
16
17
18
9
SS= Stainless Steel
Nr Part Name
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
Lower Table
Staybolds
Suction Case
O-Ring
Drain Plug
Con. Flange for Suction
Cylinder Head Gasket
Outer Sleeve
O-Ring
Pump Pressure Ring
Pump Head
Plug
O-Ring
Coupling Guard
Drain Plug
Mechanical Seal
Coupling
Coupling Pin
Lock Washer
Stop Nut
Chamber
Impeller
Carbon Bearing
Sinter Bearing Bronze
Spacing Pipe
Chamber
Neck Ring
Neck Ring Retainer
Strainer
Stop Nut
Shaft Seal
Material
Cast Iron (GG25)
SS (CK 45)
SS (AISI304)/Cast Iron (GG25)
NBR
SS (AISI 303)
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
NBR
SS (AISI 304)
Cast Iron (GG25)
SS (AISI 303)
NBR
SS (AISI 304)
SS (AISI 303)
SIC/VITON/SUS304
Cast Iron (GG25)
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
Carbon
Bronze (ASTM B145-4A)
SS (AISI 304)
SS (AISI 304)
Teflon
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
SS (AISI 420 )
3
34
7
15
16a
35
2
16b
31
20
36
16c
18
16d
1723
32
19
33
8
11
26
27
4
12
6
28
22
29
21
3
25
30
10
13
14
24
37
1
5
9
Lower Table
Impeller
Suction Case
Pump Head
Tie Rod
Coupling Guard
Shaft
Coupling
Discharge
Staybolts
Mechanical Seal
Plug
Vent Plug
Stop Spacer
Spacing Pipe
Stop Nut
Sinter Bearing Bronze
Centrilizer Suct.Carbon
Neck Ring
Outer Sleeve
Stop Spacer
Lock Washer
Coupling Pin
Drain Plug
Bolt
Washer
O-Ring
O-Ring
O-Ring
Neck Ring Retainer
Lock Nut for Shaft,Washer
Bolt
Slot Diffuser
Diffuser
Suction Case
Carbon Bearing
Cast Iron (GG25)
SS (AISI 304)
SS (AISI304)/Cast Iron (GG25)
Cast Iron (GG25)
SS (AISI 304)
SS (AISI 304)
SS (AISI 420)
Cast Iron (GG25)
Cast Iron (GG25)
SS (CK 45)
SIC/VITON/SUS304
SS (AISI 303)
SS (AISI 303)
NBR
SS (AISI 304)
SS (AISI 304)
Bronze (ASTM B145-4A)
Carbon
Teflon
SS (AISI 304)
NBR
SS (AISI 304)
SS (AISI 304)
SS (AISI 303)
SS (AISI 304)
SS (AISI 304)
NBR
NBR
NBR
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
Cast Iron (GG25)
Carbon
4
10/15/20 m³/h - Parts and Material List
Pump Parts and Materials
Suction Case
Connection Flange
Flange Centring Spring
Staybolts
O-Ring
Outer Sleeve
Stop Spacer
Plug
O-Ring
Pump Head
Mechanical Seal
Mechanical Seal Holder
Pump Head
Coupling Guard
Coupling
Coupling Pin
Lock Washer
Thrust Washer
Shaft Bearing Support
Shaft Bearing
Centralizer Suction Sheet
Tie Rod
Neck Ring
Neck Ring Retainer
Impeller
Impeller Connection Collar
Impeller Retaining Nut
Centrilizer Suction Carbon
Carbon Bearring
Intermediate Chamber
End Chamber
Shaft
Part Name
1
2 3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
5
Pump Parts and Materials
32 m³/h - Parts and Material List
SS= Stainless SteelSS= Stainless Steel
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
Nr Material
Cast Iron (GG25)
Cast Iron (GG25)
SS (AISI 304)
SS (CK 45)
NBR
SS (AISI 304)
NBR
SS (AISI 303)
NBR
Cast Iron (GG25)
SIC/VITON/SUS304
SS (AISI 420)
Cast Iron (GG25)
SS (AISI 304)
Cast Iron (GG25)
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
Teflon
SS (AISI 304)
SS (AISI 304)
SS (AISI 420)
SS (AISI 420)
SS (AISI 420)
Carbon
SS (AISI 304)
SS (AISI 304)
SS (AISI 420)
Part Name Material
1
2
3
4
5
6
7
8
9
10
11
12
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
34
35
36
37
38
32/33
13/14
Nr
34
7
15
16a
35
2
16b
31
20
36
16c
18
16d
1723
32
19
33
8
11
26
27
4
12
6
28
22
29
21
3
25
30
10
13
14
24
37
1
5
9
Lower Table
Impeller
Suction Case
Pump Head
Tie Rod
Coupling Guard
Shaft
Coupling
Discharge
Staybolts
Mechanical Seal
Plug
Vent Plug
Stop Spacer
Spacing Pipe
Stop Nut
Sinter Bearing Bronze
Centrilizer Suct.Carbon
Neck Ring
Outer Sleeve
Stop Spacer
Lock Washer
Coupling Pin
Drain Plug
Bolt
Washer
O-Ring
O-Ring
O-Ring
Neck Ring Retainer
Lock Nut for Shaft,Washer
Bolt
Slot Diffuser
Diffuser
Suction Case
Carbon Bearing
Cast Iron (GG25)
SS (AISI 304)
SS (AISI304)/Cast Iron (GG25)
Cast Iron (GG25)
SS (AISI 304)
SS (AISI 304)
SS (AISI 420)
Cast Iron (GG25)
Cast Iron (GG25)
SS (CK 45)
SIC/VITON/SUS304
SS (AISI 303)
SS (AISI 303)
NBR
SS (AISI 304)
SS (AISI 304)
Bronze (ASTM B145-4A)
Carbon
Teflon
SS (AISI 304)
NBR
SS (AISI 304)
SS (AISI 304)
SS (AISI 303)
SS (AISI 304)
SS (AISI 304)
NBR
NBR
NBR
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
Cast Iron (GG25)
Carbon
4
10/15/20 m³/h - Parts and Material List
Pump Parts and Materials
Suction Case
Connection Flange
Flange Centring Spring
Staybolts
O-Ring
Outer Sleeve
Stop Spacer
Plug
O-Ring
Pump Head
Mechanical Seal
Mechanical Seal Holder
Pump Head
Coupling Guard
Coupling
Coupling Pin
Lock Washer
Thrust Washer
Shaft Bearing Support
Shaft Bearing
Centralizer Suction Sheet
Tie Rod
Neck Ring
Neck Ring Retainer
Impeller
Impeller Connection Collar
Impeller Retaining Nut
Centrilizer Suction Carbon
Carbon Bearring
Intermediate Chamber
End Chamber
Shaft
Part Name
1
2 3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
5
Pump Parts and Materials
32 m³/h - Parts and Material List
SS= Stainless SteelSS= Stainless Steel
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
Nr Material
Cast Iron (GG25)
Cast Iron (GG25)
SS (AISI 304)
SS (CK 45)
NBR
SS (AISI 304)
NBR
SS (AISI 303)
NBR
Cast Iron (GG25)
SIC/VITON/SUS304
SS (AISI 420)
Cast Iron (GG25)
SS (AISI 304)
Cast Iron (GG25)
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
SS (AISI 304)
Teflon
SS (AISI 304)
SS (AISI 304)
SS (AISI 420)
SS (AISI 420)
SS (AISI 420)
Carbon
SS (AISI 304)
SS (AISI 304)
SS (AISI 420)
Part Name Material
1
2
3
4
5
6
7
8
9
10
11
12
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
34
35
36
37
38
32/33
13/14
Nr
VIP CS04 03
VIP CS04 05
VIP CS04 10
VIP CS04 15
VIP CS04 20
VIP CS04 32
Product Type
Rp 1 ¼" Oval Flange
Rp 1 ¼4" Oval Flange
DN 40
DN 50
DN 50
DN 65
Inlet-Outlet Dia. Direction of Rotation Voltage Frequency Rotation Speed
CCW
CCW
CCW
CCW
CCW
CCW
380-415 V (+%6 / -%10)
380-415 V (+%6 / -%10)
380-415 V (+%6 / -%10)
380-415 V (+%6 / -%10)
380-415 V (+%6 / -%10)
380-415 V (+%6 / -%10)
50 Hz
5O Hz
50 Hz
50 Hz
50 Hz
50 Hz
2900 RPM
2900 RPM
2900 RPM
2900 RPM
2900 RPM
2900 RPM
6
VIP Pump Types TableH
ead
(m)
3Flow (m /h)
300
200
100
50
40
30
20
10
1
3 4 5 6 7 8 9 10 20 30 40 50 60 70 8021
General Performane Curves
7
Sample of Label
• Capacity of 3-32 m³/h
• Total head up to 290 m.
• Work temperature range from -20°C to 120ºC
• Pressure up to 25 bar
General Capacity
Type
Serial No.
Q
n
f
H
H
P
m
m
kW
Made in Turkey
m³/h
min
Hz
max
VANSAN MAKİNA SAN. ve TİC. A.Ş.10035 Sk. No:10 A.O.S.B. Çiğli - İZMİR - TURKEYTel: +90 232 376 76 50 Fax: +90 232 328 01 68
CCW
Type Identification Code System
V I P C S 0 4 0 5 / 0 2 - 0 , 3 7 k W
Stage3Capacity (m /h)
Diffuser/Impeller Material (S04: AISI304, S16: AISI316)
Pump Type
Body Material (C: Cast Iron, S: Stainless Steel)
Motor Power
VIP
CS04 0
5
VIP
CS04 1
0
VIP
CS04 1
5
VIP
CS04 2
0
VIP
CS04 3
2
VIP
CS04 0
3
VIP CS04 03
VIP CS04 05
VIP CS04 10
VIP CS04 15
VIP CS04 20
VIP CS04 32
Product Type
Rp 1 ¼" Oval Flange
Rp 1 ¼4" Oval Flange
DN 40
DN 50
DN 50
DN 65
Inlet-Outlet Dia. Direction of Rotation Voltage Frequency Rotation Speed
CCW
CCW
CCW
CCW
CCW
CCW
380-415 V (+%6 / -%10)
380-415 V (+%6 / -%10)
380-415 V (+%6 / -%10)
380-415 V (+%6 / -%10)
380-415 V (+%6 / -%10)
380-415 V (+%6 / -%10)
50 Hz
5O Hz
50 Hz
50 Hz
50 Hz
50 Hz
2900 RPM
2900 RPM
2900 RPM
2900 RPM
2900 RPM
2900 RPM
6
VIP Pump Types Table
Hea
d (m
)
3Flow (m /h)
300
200
100
50
40
30
20
10
1
3 4 5 6 7 8 9 10 20 30 40 50 60 70 8021
General Performane Curves
7
Sample of Label
• Capacity of 3-32 m³/h
• Total head up to 290 m.
• Work temperature range from -20°C to 120ºC
• Pressure up to 25 bar
General Capacity
Type
Serial No.
Q
n
f
H
H
P
m
m
kW
Made in Turkey
m³/h
min
Hz
max
VANSAN MAKİNA SAN. ve TİC. A.Ş.10035 Sk. No:10 A.O.S.B. Çiğli - İZMİR - TURKEYTel: +90 232 376 76 50 Fax: +90 232 328 01 68
CCW
Type Identification Code System
V I P C S 0 4 0 5 / 0 2 - 0 , 3 7 k W
Stage3Capacity (m /h)
Diffuser/Impeller Material (S04: AISI304, S16: AISI316)
Pump Type
Body Material (C: Cast Iron, S: Stainless Steel)
Motor Power
VIP
CS04 0
5
VIP
CS04 1
0
VIP
CS04 1
5
VIP
CS04 2
0
VIP
CS04 3
2
VIP
CS04 0
3
Preparation for Installation
Before the installation, pump and motor should be checked if it has been damaged during the shipment or not. Check if there is any fracture or cut on the pump, motor and power cables and do not start the installation until damaged area is repaired.
Pumps, that are ready to be delivered, accessories are attached on them after they are tested.
Pumps, that are ready to be delivered, accessories are attached on them after they are tested.
Before shipment pump is fastened securely to the crate. The pump should be removed from the crate carefully by using proper tools and equipments. After removing from crate make sure that all the components are in good condition and have been received as mentioned in the packing list. Report immediately to the concerned person /department if any component is missing or received in a damaged condition.
• Use lifting equipment which is approved for the weight of the product
• Persons must keep a safe distance to the product during lifting operations.
• Do not transport the pump or pump assembly from the collectors or kit parts.
• Lift the pump to the center of gravity (Fig.1)
8
The installation area of the pump must be carried out according to the following instructions.
• Never use the collectors of the pump as a support for piping.
• The pump suction pipe should be as short as possible and without bend.
• Install the pump right next to the water reservoir and with the suction collector not above the lower cistern level.
Mechanical Installation
• Keep the product in a stable and fixed position before installing.
• Make sure that the foundation is suitable for the weight of the product.
We recommend that you install the pump on a concrete foundation which is heavy enough
to provide permanent and rigid support for the entire pump. The foundatin must be capable
of absorbing any vibration, normal strain or shock. The concrete foundation must have an
absolutely level and even surface. (Fig.2 )
9
Delivery and Unpacking
Installation of the pump must be done by people who have been certificated.Controls of the pump should be done in order to detect there is any damage on them happened during the delivery and handling and if so, it must be reported. If there are any fracture on the pump or any damage on the motor, installation has to be stopped and you should get in touch with our distributor. Otherwise, failures that might be caused because of starting in these condintions are out of WARRANTY.
Uncrating and Lifting
Attent�on
F�gure 1
F�gure 2
Attent�on
Preparation for Installation
Before the installation, pump and motor should be checked if it has been damaged during the shipment or not. Check if there is any fracture or cut on the pump, motor and power cables and do not start the installation until damaged area is repaired.
Pumps, that are ready to be delivered, accessories are attached on them after they are tested.
Pumps, that are ready to be delivered, accessories are attached on them after they are tested.
Before shipment pump is fastened securely to the crate. The pump should be removed from the crate carefully by using proper tools and equipments. After removing from crate make sure that all the components are in good condition and have been received as mentioned in the packing list. Report immediately to the concerned person /department if any component is missing or received in a damaged condition.
• Use lifting equipment which is approved for the weight of the product
• Persons must keep a safe distance to the product during lifting operations.
• Do not transport the pump or pump assembly from the collectors or kit parts.
• Lift the pump to the center of gravity (Fig.1)
8
The installation area of the pump must be carried out according to the following instructions.
• Never use the collectors of the pump as a support for piping.
• The pump suction pipe should be as short as possible and without bend.
• Install the pump right next to the water reservoir and with the suction collector not above the lower cistern level.
Mechanical Installation
• Keep the product in a stable and fixed position before installing.
• Make sure that the foundation is suitable for the weight of the product.
We recommend that you install the pump on a concrete foundation which is heavy enough
to provide permanent and rigid support for the entire pump. The foundatin must be capable
of absorbing any vibration, normal strain or shock. The concrete foundation must have an
absolutely level and even surface. (Fig.2 )
9
Delivery and Unpacking
Installation of the pump must be done by people who have been certificated.Controls of the pump should be done in order to detect there is any damage on them happened during the delivery and handling and if so, it must be reported. If there are any fracture on the pump or any damage on the motor, installation has to be stopped and you should get in touch with our distributor. Otherwise, failures that might be caused because of starting in these condintions are out of WARRANTY.
Uncrating and Lifting
Attent�on
F�gure 1
F�gure 2
Attent�on
• Install the pressure booster collector to the installation with a rubber hose or a
compensator and valve. (Figure 3)
• The nominal diameter of the pipes and accessories used must be equal to or greater than
the flange or mouth diameters of the suction collector. Never use pipes and accessories of
smaller diameter than collector flange or mouth diameters.
• The piping system should be supported at points close to the collectors, and it must be
checked that the stresses and contractions in the piping system do not affect the booster
collector.
Ÿ Follow the instruction for the motor when carrying out the electrical connections.
Ÿ The electrical connection must be carried out by an authorised electrician in accordance with local regulations.
Ÿ Before starting any work on the product, make sure that the power supply has been switched off and that it cannot be accidentally switched on.
Ÿ Connect the pump to an external main switch close to the pump and to a motor-protective circuit breaker or a frequency converter. Make sure you can lock the main switch in OFF position.
C�ty Installat�on Bu�ld�ng Installat�on
Electrical Connection
10
The operating voltage and frequency are marked on the motor nameplat. Make sure that
the motor is suitable for the power supply on which it is used and that the motor terminal
connection is correct. You will find the connection scheme below. (Figure 4-5 )
380V STAR CONNECTION
380V DELTA CONNECTION
CAPACITOR
AU
XIL
IAR
Y W
IND
ING Z2
Z1
U2
U1
220
V
Electrical Connection
MA
IN W
IND
ING
11
Mechanical Installation
F�gure 3
Attent�on
F�gure 4
F�gure 5
F�gure 6
• Install the pressure booster collector to the installation with a rubber hose or a
compensator and valve. (Figure 3)
• The nominal diameter of the pipes and accessories used must be equal to or greater than
the flange or mouth diameters of the suction collector. Never use pipes and accessories of
smaller diameter than collector flange or mouth diameters.
• The piping system should be supported at points close to the collectors, and it must be
checked that the stresses and contractions in the piping system do not affect the booster
collector.
Ÿ Follow the instruction for the motor when carrying out the electrical connections.
Ÿ The electrical connection must be carried out by an authorised electrician in accordance with local regulations.
Ÿ Before starting any work on the product, make sure that the power supply has been switched off and that it cannot be accidentally switched on.
Ÿ Connect the pump to an external main switch close to the pump and to a motor-protective circuit breaker or a frequency converter. Make sure you can lock the main switch in OFF position.
C�ty Installat�on Bu�ld�ng Installat�on
Electrical Connection
10
The operating voltage and frequency are marked on the motor nameplat. Make sure that
the motor is suitable for the power supply on which it is used and that the motor terminal
connection is correct. You will find the connection scheme below. (Figure 4-5 )
380V STAR CONNECTION
380V DELTA CONNECTION
CAPACITOR
AU
XIL
IAR
Y W
IND
ING Z2
Z1
U2
U1
220
V
Electrical Connection
MA
IN W
IND
ING
11
Mechanical Installation
F�gure 3
Attent�on
F�gure 4
F�gure 5
F�gure 6
12
Direction of Rotation
If you want to change the direction of rotation of the motor, the two phases are replaced.
When the installation is complete, the box cover must be carefully tightened to ensure that
the terminal box has IP specifications.
Box Cover
After making the necessary connections in the terminal box, the box cover must be closed
and tightened to meet IP requirements. Box covers that are left open may cause electric
shock and property damage.
Correct Connection
The user is responsible for the proper connection of the electrical connections using the
fittings and diagrams (nuts, washers, spring washers) provided with the electric motor
terminal. (Figure 6)
Grounding
Where electrical energy is used, the electrical connection arrangement of the metallic parts
that can carry current on the earth is called grounding.
The purpose of grounding in electrical installations is to ensure the safety of the person
using the electrical equipment and to prevent the destruction of the equipment. The
grounding circuit must be made of low resistance conductors (copper or alum.), Capable of
transmitting the greatest leakage current in the circuit of the device to which it is connected,
and protected from mechanical and chemical influences.
The motor housing and terminal box must be grounded.
Electrical connections must be completed using the grounding terminal on the terminal box
and the grounding bolt on the motor foot. The ground resistance must be less than 1 ohm.
Electrical Connections and Grounding
13
Start Up
Check the direction of rotation when starting up and read these installation
and operating instruction.
• Check the network values and compare them with the label values
• Check the grounding system
• Check the connections on the control panel (Read the first operating instructions.)
• Check the flange and other fittings
• Open the valves of the suction line
• Fill the suction line and vent the pump
• Keep the discharge line cut-off valve in the closed position.
• Manually check if the pumps are stuck.
• Check the direction of rotation of the pumps.
• Check the sequential operation of the multi-pump booster.
• Vent again 5-10 minutes after starting the pump
• After stopping the pumps, open the shut-off valves of the pressure line.
• Check the booster for unacceptable noise and vibration during operation
• Check the tightness of the fittings
Attent�on
12
Direction of Rotation
If you want to change the direction of rotation of the motor, the two phases are replaced.
When the installation is complete, the box cover must be carefully tightened to ensure that
the terminal box has IP specifications.
Box Cover
After making the necessary connections in the terminal box, the box cover must be closed
and tightened to meet IP requirements. Box covers that are left open may cause electric
shock and property damage.
Correct Connection
The user is responsible for the proper connection of the electrical connections using the
fittings and diagrams (nuts, washers, spring washers) provided with the electric motor
terminal. (Figure 6)
Grounding
Where electrical energy is used, the electrical connection arrangement of the metallic parts
that can carry current on the earth is called grounding.
The purpose of grounding in electrical installations is to ensure the safety of the person
using the electrical equipment and to prevent the destruction of the equipment. The
grounding circuit must be made of low resistance conductors (copper or alum.), Capable of
transmitting the greatest leakage current in the circuit of the device to which it is connected,
and protected from mechanical and chemical influences.
The motor housing and terminal box must be grounded.
Electrical connections must be completed using the grounding terminal on the terminal box
and the grounding bolt on the motor foot. The ground resistance must be less than 1 ohm.
Electrical Connections and Grounding
13
Start Up
Check the direction of rotation when starting up and read these installation
and operating instruction.
• Check the network values and compare them with the label values
• Check the grounding system
• Check the connections on the control panel (Read the first operating instructions.)
• Check the flange and other fittings
• Open the valves of the suction line
• Fill the suction line and vent the pump
• Keep the discharge line cut-off valve in the closed position.
• Manually check if the pumps are stuck.
• Check the direction of rotation of the pumps.
• Check the sequential operation of the multi-pump booster.
• Vent again 5-10 minutes after starting the pump
• After stopping the pumps, open the shut-off valves of the pressure line.
• Check the booster for unacceptable noise and vibration during operation
• Check the tightness of the fittings
Attent�on
14
Do not starting the pump until when it is filled with water and vented. If the pump runs dry,
the pump bearings and the shaft seal may be damaged.
The sealing surfaces of the shaft seal are lubricated with pump fluid. When the pump is
started for the first time or when a new shaft seal is installed, the seal needs to run for a
certain period of time to reduce the leakage to a reasonable level. The length of this time
varies depending on the operating conditions. Please read first our Startup Instruction!
(Figure 7 )
Start Up
STARTUP INSTRUCTIONSVERTICAL IN-LINE PUMP
15
Frequency Converter Operation
The three-phase motors supplied by vansan can be connected to the frequency converter.
The frequency converter must be adjust to a variable torque.
For more information, please contact the supplier of the frequency converter or motor. For
proper operation, carefully observe the application and wiring diagram of the frequency
converter manual.
Pumps which are not being used during periods of frost to avoid damage. Periods of frost to
avoid damage. To drain the pump loosen or remove the drain plug from the pump base.
Pay attention to the direction of the drain plug when draining the pump. Make sure that the escaping liquid doesn’t cause injury the persons.
Frost Protection
Maintenance and Service
• The pump must be maintained and repaired by authorized service personnel.
• The supply cables must be disconnected before any maintenance is performed.
• Original spare parts must be used when the pump parts need to be replaced.
• Before starting to repair and maintenance of the pump, always take the environmental safety, follow the necessary instructions.
• Before commissioning the pump, make sure that all pump components are correct.
• Do not carry out any work on the pump except for unsafe operating instructions.
Attent�on
F�gure 6
Attent�on
14
Do not starting the pump until when it is filled with water and vented. If the pump runs dry,
the pump bearings and the shaft seal may be damaged.
The sealing surfaces of the shaft seal are lubricated with pump fluid. When the pump is
started for the first time or when a new shaft seal is installed, the seal needs to run for a
certain period of time to reduce the leakage to a reasonable level. The length of this time
varies depending on the operating conditions. Please read first our Startup Instruction!
(Figure 7 )
Start Up
STARTUP INSTRUCTIONSVERTICAL IN-LINE PUMP
15
Frequency Converter Operation
The three-phase motors supplied by vansan can be connected to the frequency converter.
The frequency converter must be adjust to a variable torque.
For more information, please contact the supplier of the frequency converter or motor. For
proper operation, carefully observe the application and wiring diagram of the frequency
converter manual.
Pumps which are not being used during periods of frost to avoid damage. Periods of frost to
avoid damage. To drain the pump loosen or remove the drain plug from the pump base.
Pay attention to the direction of the drain plug when draining the pump. Make sure that the escaping liquid doesn’t cause injury the persons.
Frost Protection
Maintenance and Service
• The pump must be maintained and repaired by authorized service personnel.
• The supply cables must be disconnected before any maintenance is performed.
• Original spare parts must be used when the pump parts need to be replaced.
• Before starting to repair and maintenance of the pump, always take the environmental safety, follow the necessary instructions.
• Before commissioning the pump, make sure that all pump components are correct.
• Do not carry out any work on the pump except for unsafe operating instructions.
Attent�on
F�gure 6
Attent�on
16
Maximum Permissible Operating Pressure
VIP CS04 03/02 - VIP CS04 03/29
VIP CS04 03/31 - VIP CS04 03/36
VIP CS04 05/02 - VIP CS04 05/16
VIP CS04 05/20 - VIP CS04 05/36
VIP CS04 10/01 - VIP CS04 10/06
VIP CS04 10/08 - VIP CS04 10/22
VIP CS04 15/02 - VIP CS04 15/03
VIP CS04 15/05 - VIP CS04 15/17
VIP CS04 20/01 - VIP CS04 20/03
VIP CS04 20/04 - VIP CS04 20/17
VIP CS04 32/01 - VIP CS04 32/04
VIP CS04 32/05 - VIP CS04 32/10
VIP CS04 32/11 - VIP CS04 32/14
10 BAR
15 BAR
10 BAR
15 BAR
8 BAR
10 BAR
8 BAR
10 BAR
8 BAR
10 BAR
4 BAR
10 BAR
15 BAR
VIP SS04 03/02 - VIP SS04 03/29
VIP SS04 03/02 - VIP SS04 03/31
VIP SS04 10/01 - VIP SS04 10/06
VIP SS04 10/08 - VIP SS04 10/22
VIP SS04 15/02 - VIP SS04 15/03
VIP SS04 15/05 - VIP SS04 15/17
VIP SS04 20/01 - VIP SS04 20/03
VIP SS04 20/04 - VIP SS04 20/17
VIP SS04 32/01 - VIP SS04 32/04
VIP SS04 32/05 - VIP SS04 32/10
VIP SS04 32/11 - VIP SS04 32/14
10 BAR
10 BAR
8 BAR
10 BAR
8 BAR
10 BAR
8 BAR
10 BAR
4 BAR
10 BAR
15 BAR
Inlet Pressure of "VIP SS" Pumps
Inlet Pressure of "VIP CS" Pumps
17
Inlet-Outlet Diameter
Number of Vanes
Rotation
Voltage
Frequency
Speed
Rp 1 ¼" (Oval Flange)
6
CCW
380-415 V (+%6 / -%10)
50 Hz.
2900 rpm
:
:
:
:
:
:50
LM
LP
LA
Ø M
L
100
21 5
0
180220 4xØ13
75M10 klavuz
75180
100
156
220
4xØ13
50
VIP CS04 03/02
VIP CS04 03/03
VIP CS04 03/04
VIP CS04 03/05
VIP CS04 03/06
VIP CS04 03/07
VIP CS04 03/08
VIP CS04 03/09
VIP CS04 03/10
VIP CS04 03/11
VIP CS04 03/12
VIP CS04 03/13
VIP CS04 03/14
VIP CS04 03/15
VIP CS04 03/16
VIP CS04 03/17
VIP CS04 03/18
VIP CS04 03/19
VIP CS04 03/20
VIP CS04 03/21
VIP CS04 03/22
VIP CS04 03/23
VIP CS04 03/24
VIP CS04 03/25
VIP CS04 03/26
VIP CS04 03/27
VIP CS04 03/28
VIP CS04 03/29
VIP CS04 03/30
VIP CS04 03/31
VIP CS04 03/32
VIP CS04 03/33
VIP CS04 03/34
VIP CS04 03/35
VIP CS04 03/36
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36Dİm
ensi
on a
nd W
eight
Table
VIP CS04 03 02 - 36 STAGE
In-Line Pumps Weight and Dimensions
0,37
0,37
0,37
0,37
0,55
0,55
0,75
0,75
0,75
1,1
1,1
1,1
1,1
1,1
1,1
1,5
1,5
1,5
1,5
2,2
2,2
2,2
2,2
2,2
2,2
2,2
2,2
2,2
2,2
3
3
3
3
3
3
0,5
0,5
0,5
0,5
0,75
0,75
1
1
1
1,5
1,5
1,5
1,5
1,5
1,5
2
2
2
2
3
3
3
3
3
3
3
3
3
3
4
4
4
4
4
4
0,93
0,93
0,93
0,93
1,32
1,32
1,7
1,7
1,7
2,4
2,4
2,4
2,4
2,4
2,4
3,2
3,2
3,2
3,2
4,5
4,5
4,5
4,5
4,5
4,5
4,5
4,5
4,5
4,5
6
6
6
6
6
6
LLM FM LA
LPPump Type Stage
Dimensions(mm) Weight
KgCS SS CS SS
223
223
223
223
223
223
244
244
244
244
244
244
244
244
244
247
247
247
247
267
267
267
267
267
267
267
267
267
267
292
292
292
292
292
292
138
138
138
138
138
138
158
158
158
158
158
158
158
158
158
193
193
193
193
193
193
193
193
193
193
193
193
193
193
217
217
217
217
217
217
66
66
66
66
66
66
115
115
115
115
115
115
115
115
115
132
132
132
132
132
132
132
132
132
132
132
132
132
132
141
141
141
141
141
141
18
19
20
20
22
23
26
27
27
29
30
31
32
32
33
38
39
40
40
43
44
45
45
46
47
48
49
49
50
55
56
57
57
58
59
461
479
497
515
533
551
597
615
633
651
669
687
705
723
754
775
793
811
829
867
885
903
921
939
957
975
993
1011
1029
1072
1090
1108
1126
1144
1162
494
512
530
548
566
584
630
648
666
684
702
720
738
756
787
808
826
844
862
900
918
936
954
972
990
1008
1026
1044
1062
1105
1123
1141
1159
1177
1195
238
256
274
292
310
328
353
371
389
407
425
443
461
479
510
528
546
564
582
600
618
636
654
672
690
708
726
744
762
780
798
816
834
852
870
271
289
307
325
343
361
386
404
422
440
458
476
494
512
543
561
579
597
615
633
651
669
687
705
723
741
759
777
795
813
831
849
867
885
903
kW HP
Motor
Current(A)
16
Maximum Permissible Operating Pressure
VIP CS04 03/02 - VIP CS04 03/29
VIP CS04 03/31 - VIP CS04 03/36
VIP CS04 05/02 - VIP CS04 05/16
VIP CS04 05/20 - VIP CS04 05/36
VIP CS04 10/01 - VIP CS04 10/06
VIP CS04 10/08 - VIP CS04 10/22
VIP CS04 15/02 - VIP CS04 15/03
VIP CS04 15/05 - VIP CS04 15/17
VIP CS04 20/01 - VIP CS04 20/03
VIP CS04 20/04 - VIP CS04 20/17
VIP CS04 32/01 - VIP CS04 32/04
VIP CS04 32/05 - VIP CS04 32/10
VIP CS04 32/11 - VIP CS04 32/14
10 BAR
15 BAR
10 BAR
15 BAR
8 BAR
10 BAR
8 BAR
10 BAR
8 BAR
10 BAR
4 BAR
10 BAR
15 BAR
VIP SS04 03/02 - VIP SS04 03/29
VIP SS04 03/02 - VIP SS04 03/31
VIP SS04 10/01 - VIP SS04 10/06
VIP SS04 10/08 - VIP SS04 10/22
VIP SS04 15/02 - VIP SS04 15/03
VIP SS04 15/05 - VIP SS04 15/17
VIP SS04 20/01 - VIP SS04 20/03
VIP SS04 20/04 - VIP SS04 20/17
VIP SS04 32/01 - VIP SS04 32/04
VIP SS04 32/05 - VIP SS04 32/10
VIP SS04 32/11 - VIP SS04 32/14
10 BAR
10 BAR
8 BAR
10 BAR
8 BAR
10 BAR
8 BAR
10 BAR
4 BAR
10 BAR
15 BAR
Inlet Pressure of "VIP SS" Pumps
Inlet Pressure of "VIP CS" Pumps
17
Inlet-Outlet Diameter
Number of Vanes
Rotation
Voltage
Frequency
Speed
Rp 1 ¼" (Oval Flange)
6
CCW
380-415 V (+%6 / -%10)
50 Hz.
2900 rpm
:
:
:
:
:
:50
LM
LP
LA
Ø M
L
100
21 5
0
180220 4xØ13
75M10 klavuz
75180
100
156
220
4xØ13
50
VIP CS04 03/02
VIP CS04 03/03
VIP CS04 03/04
VIP CS04 03/05
VIP CS04 03/06
VIP CS04 03/07
VIP CS04 03/08
VIP CS04 03/09
VIP CS04 03/10
VIP CS04 03/11
VIP CS04 03/12
VIP CS04 03/13
VIP CS04 03/14
VIP CS04 03/15
VIP CS04 03/16
VIP CS04 03/17
VIP CS04 03/18
VIP CS04 03/19
VIP CS04 03/20
VIP CS04 03/21
VIP CS04 03/22
VIP CS04 03/23
VIP CS04 03/24
VIP CS04 03/25
VIP CS04 03/26
VIP CS04 03/27
VIP CS04 03/28
VIP CS04 03/29
VIP CS04 03/30
VIP CS04 03/31
VIP CS04 03/32
VIP CS04 03/33
VIP CS04 03/34
VIP CS04 03/35
VIP CS04 03/36
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36Dİm
ensi
on a
nd W
eight
Table
VIP CS04 03 02 - 36 STAGE
In-Line Pumps Weight and Dimensions
0,37
0,37
0,37
0,37
0,55
0,55
0,75
0,75
0,75
1,1
1,1
1,1
1,1
1,1
1,1
1,5
1,5
1,5
1,5
2,2
2,2
2,2
2,2
2,2
2,2
2,2
2,2
2,2
2,2
3
3
3
3
3
3
0,5
0,5
0,5
0,5
0,75
0,75
1
1
1
1,5
1,5
1,5
1,5
1,5
1,5
2
2
2
2
3
3
3
3
3
3
3
3
3
3
4
4
4
4
4
4
0,93
0,93
0,93
0,93
1,32
1,32
1,7
1,7
1,7
2,4
2,4
2,4
2,4
2,4
2,4
3,2
3,2
3,2
3,2
4,5
4,5
4,5
4,5
4,5
4,5
4,5
4,5
4,5
4,5
6
6
6
6
6
6
LLM FM LA
LPPump Type Stage
Dimensions(mm) Weight
KgCS SS CS SS
223
223
223
223
223
223
244
244
244
244
244
244
244
244
244
247
247
247
247
267
267
267
267
267
267
267
267
267
267
292
292
292
292
292
292
138
138
138
138
138
138
158
158
158
158
158
158
158
158
158
193
193
193
193
193
193
193
193
193
193
193
193
193
193
217
217
217
217
217
217
66
66
66
66
66
66
115
115
115
115
115
115
115
115
115
132
132
132
132
132
132
132
132
132
132
132
132
132
132
141
141
141
141
141
141
18
19
20
20
22
23
26
27
27
29
30
31
32
32
33
38
39
40
40
43
44
45
45
46
47
48
49
49
50
55
56
57
57
58
59
461
479
497
515
533
551
597
615
633
651
669
687
705
723
754
775
793
811
829
867
885
903
921
939
957
975
993
1011
1029
1072
1090
1108
1126
1144
1162
494
512
530
548
566
584
630
648
666
684
702
720
738
756
787
808
826
844
862
900
918
936
954
972
990
1008
1026
1044
1062
1105
1123
1141
1159
1177
1195
238
256
274
292
310
328
353
371
389
407
425
443
461
479
510
528
546
564
582
600
618
636
654
672
690
708
726
744
762
780
798
816
834
852
870
271
289
307
325
343
361
386
404
422
440
458
476
494
512
543
561
579
597
615
633
651
669
687
705
723
741
759
777
795
813
831
849
867
885
903
kW HP
Motor
Current(A)
18 19
VIP CS04 05 02 - 35 STAGE
VIP CS04 05/02
VIP CS04 05/03
VIP CS04 05/04
VIP CS04 05/05
VIP CS04 05/06
VIP CS04 05/07
VIP CS04 05/08
VIP CS04 05/09
VIP CS04 05/10
VIP CS04 05/11
VIP CS04 05/12
VIP CS04 05/13
VIP CS04 05/14
VIP CS04 05/15
VIP CS04 05/16
VIP CS04 05/17
VIP CS04 05/18
VIP CS04 05/19
VIP CS04 05/20
VIP CS04 05/21
VIP CS04 05/22
VIP CS04 05/23
VIP CS04 05/24
VIP CS04 05/25
VIP CS04 05/26
VIP CS04 05/27
VIP CS04 05/28
VIP CS04 05/29
VIP CS04 05/30
VIP CS04 05/31
VIP CS04 05/32
VIP CS04 05/33
VIP CS04 05/34
VIP CS04 05/35
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
50
LM
LP
LA
Ø M
L
100
21 5
0
180220 4xØ13
75M10 klavuz
75180
100
156
220
4xØ13
50
In-Line Pumps Weight and DimensionsIn-Line Pumps Weight and Dimensions
Inlet-Outlet Diameter
Number of Vanes
Rotation
Voltage
Frequency
Speed
Rp 1 ¼" (Oval Flange)
6
CCW
380-415 V (+%6 / -%10)
50 Hz.
2900 rpm
:
:
:
:
:
:
Dİm
ensi
on a
nd W
eight
Table
VIP CS04 10/01
VIP CS04 10/02
VIP CS04 10/03
VIP CS04 10/04
VIP CS04 10/05
VIP CS04 10/06
VIP CS04 10/07
VIP CS04 10/08
VIP CS04 10/09
VIP CS04 10/10
VIP CS04 10/11
VIP CS04 10/12
VIP CS04 10/13
VIP CS04 10/14
VIP CS04 10/15
VIP CS04 10/16
VIP CS04 10/17
VIP CS04 10/18
VIP CS04 10/19
VIP CS04 10/20
VIP CS04 10/21
VIP CS04 10/22
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
Inlet-Outlet Diameter
Number of Vanes
Rotation
Voltage
Frequency
Speed
DN40
6
CCW
380-415 V (+%6 / -%10)
50 Hz.
2900 rpm
:
:
:
:
:
:
39
150
118
215256
80
109
125
4xØ13
20
215
110
256
130
280189
Ø13
L
LM
LP
LA
Ø M
80
VIP CS04 10 01 - 22 STAGE
0,37
0,55
0,75
1,1
1,1
1,1
1,1
1,5
1,5
2,2
2,2
2,2
2,2
2,2
2,2
3
3
3
3
4
4
4
4
4
5,5
5,5
5,5
5,5
5,5
5,5
5,5
5,5
5,5
5,5
0,5
0,75
1
1,5
1,5
1,5
1,5
2
2
3
3
3
3
3
3
4
4
4
4
5,5
5,5
5,5
5,5
5,5
7,5
7,5
7,5
7,5
7,5
7,5
7,5
7,5
7,5
7,5
0,93
1,32
1,7
2,4
2,4
2,4
2,4
3,2
3,2
4,5
4,5
4,5
4,5
4,5
4,5
6
6
6
6
7,5
7,5
7,5
7,5
7,5
10,4
10,4
10,4
10,4
10,4
10,4
10,4
10,4
10,4
10,4
0,55
0,75
1,1
1,5
2,2
2,2
3
3
3
4
4
4
5,5
5,5
5,5
5,5
7,5
7,5
7,5
7,5
7,5
7,5
0,75
1
1,5
2
3
3
4
4
4
5,5
5,5
5,5
7,5
7,5
7,5
7,5
10
10
10
10
10
10
1,32
1,7
2,4
3,2
4,5
4,5
6
6
6
7,5
7,5
7,5
10,4
10,4
10,4
10,4
13,8
13,8
13,8
13,8
13,8
13,8
LLM FM LA
LPPump Type Stage
Dimensions(mm) Weight
KgCS SS CS SS
LLM FM LA
LPPump Type Stage
Dimensions(mm) Weight
KgCS SS CS SS
287
314
341
375
402
429
456
496
523
550
577
605
632
659
686
713
740
767
794
821
858
885
912
939
966
993
1020
1047
1074
1101
1128
1156
1183
1210
254
281
308
342
369
396
424
464
491
518
545
572
599
626
653
680
707
734
761
788
825
852
879
906
934
961
988
1015
1042
1069
1096
1123
1150
1177
510
537
585
619
646
673
703
743
790
817
844
872
899
951
978
1005
1032
1059
1086
1123
1150
1177
1204
1231
1302
1329
1356
1383
1410
1437
1464
1492
1519
1546
477
504
552
586
613
640
671
711
758
785
812
839
866
918
945
972
999
1026
1053
1090
1117
1144
1171
1198
1270
1297
1324
1351
1378
1405
1432
1459
1486
1513
223
223
244
244
244
244
247
247
267
267
267
267
267
292
292
292
292
292
292
292
292
292
292
292
336
336
336
336
336
336
336
336
336
336
138
138
158
158
158
158
193
193
193
193
193
193
193
217
217
217
217
217
217
217
217
217
217
217
232
232
232
232
232
232
232
232
232
232
66
66
115
115
115
115
132
132
132
132
132
132
132
141
141
141
141
141
141
141
141
141
141
141
149
149
149
149
149
149
149
149
149
149
18
20
23
24
25
26
31
32
34
35
36
37
38
42
43
44
45
46
52
53
54
55
55
56
70
71
72
72
73
74
75
76
76
77
223
244
244
247
267
267
292
292
292
292
292
336
336
336
336
381
381
381
381
381
381
381
138
158
158
193
193
193
217
217
217
217
217
232
232
232
232
232
232
232
232
232
232
232
66
115
115
132
132
132
141
141
141
141
141
149
149
149
149
149
149
149
149
149
149
149
35
38
41
46
50
51
57
58
66
67
69
83
85
86
88
96
98
99
101
102
104
105
O336
376
406
446
476
506
546
576
606
636
666
696
726
756
786
816
866
896
926
956
986
1016
309
349
379
419
449
479
519
549
579
609
639
669
699
729
759
789
839
869
899
929
959
989
559
620
650
693
743
773
838
868
898
928
958
1032
1062
1092
1122
1197
1247
1277
1307
1337
1367
1397
532
593
623
666
716
746
811
841
871
901
931
1005
1035
1065
1095
1170
1220
1250
1280
1310
1340
1370
kW HPkW HP
Motor
Current(A)
Motor
Current(A)
18 19
VIP CS04 05 02 - 35 STAGE
VIP CS04 05/02
VIP CS04 05/03
VIP CS04 05/04
VIP CS04 05/05
VIP CS04 05/06
VIP CS04 05/07
VIP CS04 05/08
VIP CS04 05/09
VIP CS04 05/10
VIP CS04 05/11
VIP CS04 05/12
VIP CS04 05/13
VIP CS04 05/14
VIP CS04 05/15
VIP CS04 05/16
VIP CS04 05/17
VIP CS04 05/18
VIP CS04 05/19
VIP CS04 05/20
VIP CS04 05/21
VIP CS04 05/22
VIP CS04 05/23
VIP CS04 05/24
VIP CS04 05/25
VIP CS04 05/26
VIP CS04 05/27
VIP CS04 05/28
VIP CS04 05/29
VIP CS04 05/30
VIP CS04 05/31
VIP CS04 05/32
VIP CS04 05/33
VIP CS04 05/34
VIP CS04 05/35
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
50
LM
LP
LA
Ø M
L
100
21 5
0
180220 4xØ13
75M10 klavuz
75180
100
156
220
4xØ13
50
In-Line Pumps Weight and DimensionsIn-Line Pumps Weight and Dimensions
Inlet-Outlet Diameter
Number of Vanes
Rotation
Voltage
Frequency
Speed
Rp 1 ¼" (Oval Flange)
6
CCW
380-415 V (+%6 / -%10)
50 Hz.
2900 rpm
:
:
:
:
:
:
Dİm
ensi
on a
nd W
eight
Table
VIP CS04 10/01
VIP CS04 10/02
VIP CS04 10/03
VIP CS04 10/04
VIP CS04 10/05
VIP CS04 10/06
VIP CS04 10/07
VIP CS04 10/08
VIP CS04 10/09
VIP CS04 10/10
VIP CS04 10/11
VIP CS04 10/12
VIP CS04 10/13
VIP CS04 10/14
VIP CS04 10/15
VIP CS04 10/16
VIP CS04 10/17
VIP CS04 10/18
VIP CS04 10/19
VIP CS04 10/20
VIP CS04 10/21
VIP CS04 10/22
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
Inlet-Outlet Diameter
Number of Vanes
Rotation
Voltage
Frequency
Speed
DN40
6
CCW
380-415 V (+%6 / -%10)
50 Hz.
2900 rpm
:
:
:
:
:
:
39
150
118
215256
80
109
125
4xØ13
20
215
110
256
130
280189
Ø13
L
LM
LP
LA
Ø M
80
VIP CS04 10 01 - 22 STAGE
0,37
0,55
0,75
1,1
1,1
1,1
1,1
1,5
1,5
2,2
2,2
2,2
2,2
2,2
2,2
3
3
3
3
4
4
4
4
4
5,5
5,5
5,5
5,5
5,5
5,5
5,5
5,5
5,5
5,5
0,5
0,75
1
1,5
1,5
1,5
1,5
2
2
3
3
3
3
3
3
4
4
4
4
5,5
5,5
5,5
5,5
5,5
7,5
7,5
7,5
7,5
7,5
7,5
7,5
7,5
7,5
7,5
0,93
1,32
1,7
2,4
2,4
2,4
2,4
3,2
3,2
4,5
4,5
4,5
4,5
4,5
4,5
6
6
6
6
7,5
7,5
7,5
7,5
7,5
10,4
10,4
10,4
10,4
10,4
10,4
10,4
10,4
10,4
10,4
0,55
0,75
1,1
1,5
2,2
2,2
3
3
3
4
4
4
5,5
5,5
5,5
5,5
7,5
7,5
7,5
7,5
7,5
7,5
0,75
1
1,5
2
3
3
4
4
4
5,5
5,5
5,5
7,5
7,5
7,5
7,5
10
10
10
10
10
10
1,32
1,7
2,4
3,2
4,5
4,5
6
6
6
7,5
7,5
7,5
10,4
10,4
10,4
10,4
13,8
13,8
13,8
13,8
13,8
13,8
LLM FM LA
LPPump Type Stage
Dimensions(mm) Weight
KgCS SS CS SS
LLM FM LA
LPPump Type Stage
Dimensions(mm) Weight
KgCS SS CS SS
287
314
341
375
402
429
456
496
523
550
577
605
632
659
686
713
740
767
794
821
858
885
912
939
966
993
1020
1047
1074
1101
1128
1156
1183
1210
254
281
308
342
369
396
424
464
491
518
545
572
599
626
653
680
707
734
761
788
825
852
879
906
934
961
988
1015
1042
1069
1096
1123
1150
1177
510
537
585
619
646
673
703
743
790
817
844
872
899
951
978
1005
1032
1059
1086
1123
1150
1177
1204
1231
1302
1329
1356
1383
1410
1437
1464
1492
1519
1546
477
504
552
586
613
640
671
711
758
785
812
839
866
918
945
972
999
1026
1053
1090
1117
1144
1171
1198
1270
1297
1324
1351
1378
1405
1432
1459
1486
1513
223
223
244
244
244
244
247
247
267
267
267
267
267
292
292
292
292
292
292
292
292
292
292
292
336
336
336
336
336
336
336
336
336
336
138
138
158
158
158
158
193
193
193
193
193
193
193
217
217
217
217
217
217
217
217
217
217
217
232
232
232
232
232
232
232
232
232
232
66
66
115
115
115
115
132
132
132
132
132
132
132
141
141
141
141
141
141
141
141
141
141
141
149
149
149
149
149
149
149
149
149
149
18
20
23
24
25
26
31
32
34
35
36
37
38
42
43
44
45
46
52
53
54
55
55
56
70
71
72
72
73
74
75
76
76
77
223
244
244
247
267
267
292
292
292
292
292
336
336
336
336
381
381
381
381
381
381
381
138
158
158
193
193
193
217
217
217
217
217
232
232
232
232
232
232
232
232
232
232
232
66
115
115
132
132
132
141
141
141
141
141
149
149
149
149
149
149
149
149
149
149
149
35
38
41
46
50
51
57
58
66
67
69
83
85
86
88
96
98
99
101
102
104
105
O336
376
406
446
476
506
546
576
606
636
666
696
726
756
786
816
866
896
926
956
986
1016
309
349
379
419
449
479
519
549
579
609
639
669
699
729
759
789
839
869
899
929
959
989
559
620
650
693
743
773
838
868
898
928
958
1032
1062
1092
1122
1197
1247
1277
1307
1337
1367
1397
532
593
623
666
716
746
811
841
871
901
931
1005
1035
1065
1095
1170
1220
1250
1280
1310
1340
1370
kW HPkW HP
Motor
Current(A)
Motor
Current(A)
20 21
VIP CS04 15/01
VIP CS04 15/02
VIP CS04 15/03
VIP CS04 15/04
VIP CS04 15/05
VIP CS04 15/06
VIP CS04 15/07
VIP CS04 15/08
VIP CS04 15/09
VIP CS04 15/10
VIP CS04 15/11
VIP CS04 15/12
VIP CS04 15/13
VIP CS04 15/14
VIP CS04 15/15
VIP CS04 15/16
VIP CS04 15/17
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
LA
Ø M
LM
LP
98
L
130
21
51
35
25
6
300189
Ø13
25
256215
65125
14
5
185
98 1
52
VIP CS04 15 01 - 17 STAGE
In-Line Pumps Weight and DimensionsIn-Line Pumps Weight and Dimensions
Inlet-Outlet Diameter
Number of Vanes
Rotation
Voltage
Frequency
Speed
DN50
6
CCW
380-415 V (+%6 / -%10)
50 Hz.
2900 rpm
:
:
:
:
:
:
Dİm
ensi
on a
nd W
eight
Table
VIP CS04 20/01
VIP CS04 20/02
VIP CS04 20/03
VIP CS04 20/04
VIP CS04 20/05
VIP CS04 20/06
VIP CS04 20/07
VIP CS04 20/08
VIP CS04 20/09
VIP CS04 20/10
VIP CS04 20/11
VIP CS04 20/12
VIP CS04 20/13
VIP CS04 20/14
VIP CS04 20/15
VIP CS04 20/16
VIP CS04 20/17
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
Inlet-Outlet Diameter
Number of Vanes
Rotation
Voltage
Frequency
Speed
DN50
6
CCW
380-415 V (+%6 / -%10)
50 Hz.
2900 rpm
:
:
:
:
:
:
VIP CS04 20 01 - 17 STAGELA
Ø M
LM
LP
98
L
130
21
51
35
25
6
300189
Ø13
25
256215
65125
14
5
185
98 1
52
Dİm
ensi
on a
nd W
eight
Table
1,1
2,2
3
4
4
5,5
5,5
7,5
7,5
11
11
11
11
11
15
15
15
1,5
3
4
5,5
5,5
7,5
7,5
10
10
15
15
15
15
15
20
20
20
2,4
4,5
6
7,5
7,5
10,4
10,4
13,8
13,8
20
20
20
20
20
26,5
26,5
26,5
1,1
2,2
4
5,5
5,5
7,5
7,5
11
11
11
15
15
15
15
15
15
18,5
1,5
3
5,5
7,5
7,5
10
10
15
15
15
20
20
20
20
20
20
25
2,4
4,5
7,5
10,4
10,4
13,8
13,8
20
20
20
26,5
26,5
26,5
26,5
26,5
26,5
34
LLM FM LA
LPPump Type Stage
Dimensions(mm) Weight
KgCS SS CS SS
LLM FM LA
LPPump Type Stage
Dimensions(mm) Weight
KgCS SS CS SS
244
267
292
292
336
336
336
381
361
361
361
361
361
476
476
476
476
158
193
217
217
232
232
232
232
279
279
279
279
279
323
323
323
323
115
132
141
141
149
149
149
149
182
182
182
182
182
200
200
200
200
42
51
58
66
82
85
88
98
107
109
112
115
118
149
151
154
157
243
266
292
335
335
395
395
395
395
395
395
466
466
466
466
466
466
193
232
279
279
279
279
279
279
279
279
279
279
279
279
279
279
279
115
132
141
141
141
141
141
149
149
149
149
149
149
149
149
149
149
42
50
55
68
69
94
95
126
128
130
132
136
138
140
142
144
158
363
419
464
519
564
609
655
720
765
810
855
901
946
991
1061
1106
1152
363
419
464
519
564
609
655
720
765
810
855
901
946
991
1061
1106
1152
607
686
756
811
900
945
991
1101
1126
1171
1216
1262
1307
1467
1537
1582
1628
607
686
756
811
900
945
991
1101
1126
1171
1216
1262
1307
1467
1537
1582
1628
363
419
464
519
564
609
655
720
765
810
855
901
946
991
1061
1106
1152
363
419
464
519
564
609
655
720
765
810
855
901
946
991
1061
1106
1152
606
685
756
854
899
1004
1050
1115
1160
1205
1250
1367
1412
1457
1527
1572
1618
606
685
756
854
899
1004
1050
1115
1160
1205
1250
1367
1412
1457
1527
1572
1618
kW HPkW HP
Motor
Current(A)
Motor
Current(A)
20 21
VIP CS04 15/01
VIP CS04 15/02
VIP CS04 15/03
VIP CS04 15/04
VIP CS04 15/05
VIP CS04 15/06
VIP CS04 15/07
VIP CS04 15/08
VIP CS04 15/09
VIP CS04 15/10
VIP CS04 15/11
VIP CS04 15/12
VIP CS04 15/13
VIP CS04 15/14
VIP CS04 15/15
VIP CS04 15/16
VIP CS04 15/17
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
LA
Ø M
LM
LP
98
L
130
21
51
35
25
6
300189
Ø13
25
256215
65125
14
5
185
98 1
52
VIP CS04 15 01 - 17 STAGE
In-Line Pumps Weight and DimensionsIn-Line Pumps Weight and Dimensions
Inlet-Outlet Diameter
Number of Vanes
Rotation
Voltage
Frequency
Speed
DN50
6
CCW
380-415 V (+%6 / -%10)
50 Hz.
2900 rpm
:
:
:
:
:
:
Dİm
ensi
on a
nd W
eight
Table
VIP CS04 20/01
VIP CS04 20/02
VIP CS04 20/03
VIP CS04 20/04
VIP CS04 20/05
VIP CS04 20/06
VIP CS04 20/07
VIP CS04 20/08
VIP CS04 20/09
VIP CS04 20/10
VIP CS04 20/11
VIP CS04 20/12
VIP CS04 20/13
VIP CS04 20/14
VIP CS04 20/15
VIP CS04 20/16
VIP CS04 20/17
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
Inlet-Outlet Diameter
Number of Vanes
Rotation
Voltage
Frequency
Speed
DN50
6
CCW
380-415 V (+%6 / -%10)
50 Hz.
2900 rpm
:
:
:
:
:
:
VIP CS04 20 01 - 17 STAGELA
Ø M
LM
LP
98
L
130
21
51
35
25
6
300189
Ø13
25
256215
65125
14
5
185
98 1
52
Dİm
ensi
on a
nd W
eight
Table
1,1
2,2
3
4
4
5,5
5,5
7,5
7,5
11
11
11
11
11
15
15
15
1,5
3
4
5,5
5,5
7,5
7,5
10
10
15
15
15
15
15
20
20
20
2,4
4,5
6
7,5
7,5
10,4
10,4
13,8
13,8
20
20
20
20
20
26,5
26,5
26,5
1,1
2,2
4
5,5
5,5
7,5
7,5
11
11
11
15
15
15
15
15
15
18,5
1,5
3
5,5
7,5
7,5
10
10
15
15
15
20
20
20
20
20
20
25
2,4
4,5
7,5
10,4
10,4
13,8
13,8
20
20
20
26,5
26,5
26,5
26,5
26,5
26,5
34
LLM FM LA
LPPump Type Stage
Dimensions(mm) Weight
KgCS SS CS SS
LLM FM LA
LPPump Type Stage
Dimensions(mm) Weight
KgCS SS CS SS
244
267
292
292
336
336
336
381
361
361
361
361
361
476
476
476
476
158
193
217
217
232
232
232
232
279
279
279
279
279
323
323
323
323
115
132
141
141
149
149
149
149
182
182
182
182
182
200
200
200
200
42
51
58
66
82
85
88
98
107
109
112
115
118
149
151
154
157
243
266
292
335
335
395
395
395
395
395
395
466
466
466
466
466
466
193
232
279
279
279
279
279
279
279
279
279
279
279
279
279
279
279
115
132
141
141
141
141
141
149
149
149
149
149
149
149
149
149
149
42
50
55
68
69
94
95
126
128
130
132
136
138
140
142
144
158
363
419
464
519
564
609
655
720
765
810
855
901
946
991
1061
1106
1152
363
419
464
519
564
609
655
720
765
810
855
901
946
991
1061
1106
1152
607
686
756
811
900
945
991
1101
1126
1171
1216
1262
1307
1467
1537
1582
1628
607
686
756
811
900
945
991
1101
1126
1171
1216
1262
1307
1467
1537
1582
1628
363
419
464
519
564
609
655
720
765
810
855
901
946
991
1061
1106
1152
363
419
464
519
564
609
655
720
765
810
855
901
946
991
1061
1106
1152
606
685
756
854
899
1004
1050
1115
1160
1205
1250
1367
1412
1457
1527
1572
1618
606
685
756
854
899
1004
1050
1115
1160
1205
1250
1367
1412
1457
1527
1572
1618
kW HPkW HP
Motor
Current(A)
Motor
Current(A)
22 23
VIP CS04 32 01 - 14 STAGE
VIP CS04 32/01
VIP CS04 32/02
VIP CS04 32/03
VIP CS04 32/04
VIP CS04 32/05
VIP CS04 32/06
VIP CS04 32/07
VIP CS04 32/08
VIP CS04 32/09
VIP CS04 32/10
VIP CS04 32/11
VIP CS04 32/12
VIP CS04 32/13
VIP CS04 32/14
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Inlet-Outlet Diameter
Number of Vanes
Rotation
Voltage
Frequency
Speed
DN65
6
CCW
380-415 V (+%6 / -%10)
50 Hz.
2900 rpm
:
:
:
:
:
:
LA
Ø M
LM
LP
104,5
L
170
240
160
300
320225,5
4xØ13
31
16074,5
240300
153,5
200
104,5
173,5
In-Line Pumps Weight and DimensionsD
İmen
sion
and W
eight
Table
ProblemMotor does not runwhen started
Possible Cause SolutionSupply failure
The fuses are blown
The control circuit is defective
The motor-protective circuit breaker hastripped
The thermal protection has tripped
The motor is failed
Connect the power supply
Replace the fuses
Repair the control circuit
Reactivate the motor-protectivecircuit breaker
Reactivate the thermal protection
Change the motor
1. a)
b)
c)
d)
e)
f)
The motor-protectivecircuit breaker tripsimmediately whenthe power supplyswitched on
One fuse is blown or the automatic circuitbreaker has tripped
The contacts in the motor-protective circuitbreaker are faulty
The cable connection is loose or faulty
The motor winding is defective
The pump is mechanically blocked
The motor-protective circuit breaker settingis too low
Replace the fuse or cut in thecircuit breaker
Replace the motor-protectivecircuit breaker contacts
Fasten or replace the cableconnection
Replace the motor
Remove the mechanical blockingof the pump
Set the motor-protective circuitbreaker correcty
2. a)
b)
c)
d)
e)
f )
The pump performanceis not constant
The pump inlet pressure is too low(cavitation)
The inlet pipe or pump is partly blocked byimpurities
Check the inlet conditions
Clean the inlet pipe or pump
3. a)
b)
c)
Possible Troubles and Corrective Actions
The pump is mechanically blocked Check the inlet conditions
The pump runs, butgives no water
The inlet pipe or pump is blocked byimpurities
The foot or non-return valve is blocked inclosed position
Clean the inlet pipe or pump
Repair the foot or non-return valve
4. a)
b)
c)
d)
e)
There is a leckage in the inlet pipe Repair the inlet pipe
There is air in the inlet pipe or pump Check the inlet conditions
The motor runs in the wrong directionof rotation
Change the direction of rotations
The pump runs backwardswhen switched off
There is a leckage in the inlet pipe
The foot or non-return valve is defective
Repair the inlet pipe
Repair the foot or non-return valve
5.
Noise Cavitation
The pump doesn’t rotate freely due tofrictional resistance as a result ofincorrect pump shaft position
Check the inlet conditions
Adjust the pump shaft
6.
2,2
5,5
7,5
11
11
15
15
18,5
18,5
22
22
30
30
30
3
7,5
10
15
15
20
20
25
25
30
30
40
40
40
4,5
10,4
13,8
20
20
26,5
26,5
32,2
32,2
38,1
38,1
53
53
53
LLM FM LA
LPPump Type Stage
Dimensions(mm) Weight
KgCS SS CS SS
267
336
381
361
361
476
476
476
476
519
519
519
519
519
193
232
232
279
279
323
323
323
323
370
370
415
415
415
132
149
149
182
182
200
200
200
200
248
248
261
261
261
66
101
120
138
150
190
202
225
237
267
279
326
338
350
740
891
1028
1080
1152
1339
1441
1513
1585
1700
1772
1864
1936
2008
-
-
-
-
-
-
-
-
-
-
-
-
-
-
473
555
647
719
791
863
965
1037
1109
1181
1253
1345
1417
1489
-
-
-
-
-
-
-
-
-
-
-
-
-
-
Motor
kW HPCurrent
(A)
22 23
VIP CS04 32 01 - 14 STAGE
VIP CS04 32/01
VIP CS04 32/02
VIP CS04 32/03
VIP CS04 32/04
VIP CS04 32/05
VIP CS04 32/06
VIP CS04 32/07
VIP CS04 32/08
VIP CS04 32/09
VIP CS04 32/10
VIP CS04 32/11
VIP CS04 32/12
VIP CS04 32/13
VIP CS04 32/14
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Inlet-Outlet Diameter
Number of Vanes
Rotation
Voltage
Frequency
Speed
DN65
6
CCW
380-415 V (+%6 / -%10)
50 Hz.
2900 rpm
:
:
:
:
:
:
LA
Ø M
LM
LP
104,5
L
170
240
160
300
320225,5
4xØ13
31
16074,5
240300
153,5
200
104,5
173,5
In-Line Pumps Weight and Dimensions
Dİm
ensi
on a
nd W
eight
Table
ProblemMotor does not runwhen started
Possible Cause SolutionSupply failure
The fuses are blown
The control circuit is defective
The motor-protective circuit breaker hastripped
The thermal protection has tripped
The motor is failed
Connect the power supply
Replace the fuses
Repair the control circuit
Reactivate the motor-protectivecircuit breaker
Reactivate the thermal protection
Change the motor
1. a)
b)
c)
d)
e)
f)
The motor-protectivecircuit breaker tripsimmediately whenthe power supplyswitched on
One fuse is blown or the automatic circuitbreaker has tripped
The contacts in the motor-protective circuitbreaker are faulty
The cable connection is loose or faulty
The motor winding is defective
The pump is mechanically blocked
The motor-protective circuit breaker settingis too low
Replace the fuse or cut in thecircuit breaker
Replace the motor-protectivecircuit breaker contacts
Fasten or replace the cableconnection
Replace the motor
Remove the mechanical blockingof the pump
Set the motor-protective circuitbreaker correcty
2. a)
b)
c)
d)
e)
f )
The pump performanceis not constant
The pump inlet pressure is too low(cavitation)
The inlet pipe or pump is partly blocked byimpurities
Check the inlet conditions
Clean the inlet pipe or pump
3. a)
b)
c)
Possible Troubles and Corrective Actions
The pump is mechanically blocked Check the inlet conditions
The pump runs, butgives no water
The inlet pipe or pump is blocked byimpurities
The foot or non-return valve is blocked inclosed position
Clean the inlet pipe or pump
Repair the foot or non-return valve
4. a)
b)
c)
d)
e)
There is a leckage in the inlet pipe Repair the inlet pipe
There is air in the inlet pipe or pump Check the inlet conditions
The motor runs in the wrong directionof rotation
Change the direction of rotations
The pump runs backwardswhen switched off
There is a leckage in the inlet pipe
The foot or non-return valve is defective
Repair the inlet pipe
Repair the foot or non-return valve
5.
Noise Cavitation
The pump doesn’t rotate freely due tofrictional resistance as a result ofincorrect pump shaft position
Check the inlet conditions
Adjust the pump shaft
6.
2,2
5,5
7,5
11
11
15
15
18,5
18,5
22
22
30
30
30
3
7,5
10
15
15
20
20
25
25
30
30
40
40
40
4,5
10,4
13,8
20
20
26,5
26,5
32,2
32,2
38,1
38,1
53
53
53
LLM FM LA
LPPump Type Stage
Dimensions(mm) Weight
KgCS SS CS SS
267
336
381
361
361
476
476
476
476
519
519
519
519
519
193
232
232
279
279
323
323
323
323
370
370
415
415
415
132
149
149
182
182
200
200
200
200
248
248
261
261
261
66
101
120
138
150
190
202
225
237
267
279
326
338
350
740
891
1028
1080
1152
1339
1441
1513
1585
1700
1772
1864
1936
2008
-
-
-
-
-
-
-
-
-
-
-
-
-
-
473
555
647
719
791
863
965
1037
1109
1181
1253
1345
1417
1489
-
-
-
-
-
-
-
-
-
-
-
-
-
-
Motor
kW HPCurrent
(A)
24
Notes
24
Notes
10039 Sk. No:28 A.O.S.B., 35260 - Cigli, Izmir / TURKEY
T:+90 (232) 376 76 50 • F: +90 (232) 328 01 68
[email protected] • www.vansan.com.tr
20200727-v
4-b
0