Vertical Single Stage Pump

Use: water/oil/chemical

Flow: 1~1800m3/h

Head: 2~150m

Caliber: 15~500mm

Power: 0.18~160/6P kW

Speed: 960~2900r/min

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  • Product Overview
  • Product Structure
  • Application
  • Technical Data
Vertical Single Stage Pump water/chemical/oil

Profile
1.It can be used for cold water, hot water, chemical liquid and oil.
1.It runs quietly and steadily with easily installaion and maintenance.
2.It can be installed in the pipeline as valve with small space. If used in outdoor, please cover its top.
3.The axle seal adopts use imported material which can extend the life of machinery seal effectively.
4.Series or parallel operation is costmomized to your requirements for flow and lift.
5. It can be installed vertically or horizontally according to the pipeline system requirement.

Model Explanation
ISG 50 - 160 (I) A (B)
ISG - Vertical cold water pump
IHG - Vertical chemical pump
IRG - Vertical hot water pump
I — Flow classification
A — impeller through first-cutting
B — impeller through second-cutting

ISW 50 - 160 (I) A (B)
ISW - Horizontal cold water pump
ISWH - Horizontal chemical pump
ISWR - Horizontal hot water pump
*YG, ISWB Oil pump (explosion-proof motor)
50 — nominal diameter of pump inlet and outlet (mm)
160 — impeller nominal outside diameter (mm)
1. Vertical



1. Y/Y2 Series Motor: the driving part of pump, with a close- coupled type.
2. Pump Shaft: coaxial with motor and high concentricity to enable pump operating without noise and vibration.
3. Water Deflector: to avoid water entering motor due to leakage at seal.
4. Pump Cover: elaborately designed of sharing the same end cover with motor, shortened axial dimensions and simple structure.
5. Mechanical Seal: made of stainless steel, tungsten carbide, fluorine rubber and etc, for outstanding sealing, durable service life and leak-tightness.
6. Pressure Plug: to mount pressure gauge to monitor the normal operation of pump.
7. Pump Body: to lower the velocity of flow, making velocity energy into pressure energy
8. Drain Plug: fully let out the liquid inside in case that pump needs servicing or will be left unused for a long time.
9. Air Release Valve: to release the air inside to ensure the normal start of pump.
10. Impeller: to play a leading role with its vane forcing liquid rotated and splashed around driven by centrifugal force.

2. Horizontal



1. Pump Body: to lower the velocity of flow, making velocity energy into pressure energy.
2. Impeller: to play a leading role with its vane forcing liquid rotated and splashed around driven by centrifugal force.
3. Pressure Plug: to mount pressure gauge to monitor the normal operation of pump.
4. Air Release Valve: to release the air inside to ensure the normal start of pump.
5. Y/Y2 Series Motor: the driving part of pump, with a close coupled type.
6. Base: pump’s foundation, to ensure the stable of installation.
7. Water Deflector: to avoid water entering motor due to leakage at seal.
8. Pump Cover: elaborately designed of sharing the same end cover with motor, shortened axial dimensions and simple structure.
9. Mechanical Seal: made of stainless steel, tungsten carbide, fluorine rubber and etc, for outstanding sealing, durable service life and leak-tightness.
10. Pump Shaft: coaxial with motor and high concentricity to enable pump operating without noise and vibration.
11. Drain Plug: fully let out the liquid inside in case that pump needs servicing or will be left unused for a long time.
1. Application
Deliver fresh water or the liquid which its chemical character is similar to fresh water. Industry and city water supply and drainage.

2. Using Instruction
Before start:
1. Turning the clutch by hand, there should be no jammed phenomenon at the turner position.
2. Opening the inlet valve and the vent valve, letting the water fill into the pump's chamber, then closing the vent valve.
3. Clicking the switch of motor, and confirming whether the turning is right or not.
Running:
1. Fully opening the inlet valves, and closing the valves of the outlet pipe.
2. Connecting the power, Opening the valves of the outlet pipe and adjusting the needed working point when the turning velocity is normal.
3. Watching whether there exist abnormities or not, if yes, should the pump be stopped and inspected before re-running.
Stop:
1. After turning off the outlet valves one by one, shutting off the power.
2. Shutting off the inlet valves.
3. If the ambient temperature is below 0, some warm keeping measures should be adopted.
1. Performance spectrum


2. Specifications
Model Flow(m3/h) Head(mpa) Power(kw) Speed (rpm) Caliber (mm)
25-125 4 20 0.75 2900 25
25-160 4 32 1.5 2900 25
32-100 4.5 12.5 0.55 2900 32
32-200 4.5 50 3 2900 32
40-160A 5.9 28 1.5 2900 40
40-200 6.3 50 4 2900 40
40-250 6.3 80 7.5 2900 40
40-250(I) 12.5 80 11 2900 40
50-125A 11 16 1.1 2900 50
50-200 12.5 50 5.5 2900 50
50-250 12.5 80 11 2900 50
50-315(I)B 22.5 101 18.5 2900 50
65-125A 22.3 16 2.2 2900 65
65-200B 21.8 38 4 2900 65
65-250 25 80 15 2900 65
65-315(I) 50 125 37 2900 65
80-160 50 32 7.5 2900 80
80-250 50 80 22 2900 80
80-350 50 150 55 2900 80
80-315(I) 100 125 75 2900 80
100-125A 80 16 7.5 2900 100
100-200A 93.5 44 18.5 2900 100
100-250 100 80 37 2900 100
100-350 100 150 90 2900 100
125-160 160 32 22 2900 125
125-200 160 50 37 2900 125
125-250 160 90 55 2900 125
125-315A 150 110 75 2900 125
150-160B 140 24 15 2900 150
150-250 200 80 75 2900 150
150-315A 187 110 90 2900 150
150-350 160 150 110 2900 150
more specifications pls feel free to contact us.

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