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Forced feeding pump, G-type hopper pump
GF stainless steel single screw pumps are widely used in industries such as environmental protection, shipbuilding, petroleum, pharmaceuticals, daily
Product details
The low-speed screw pump with reducer has some advantages:
The flow rate and speed of a large resistant screw pump are linearly related. Compared to low-speed screw pumps, high-speed screw pumps can increase flow rate and head, but their power is significantly increased. High speed accelerates the wear between the rotor and stator, which inevitably leads to premature failure of the screw pump. Moreover, the length of the stator and rotor of high-speed screw pumps is very short, which is prone to wear and tear, thus shortening the service life of the screw pump. By using a reducer or a continuously variable speed mechanism to reduce the speed and keep it within a reasonable range of less than 300 revolutions per minute, the service life can be extended several times compared to high-speed screw pumps.
Due to the special geometric shape of these two components, they form separate sealed chambers, and the medium flows uniformly in the axial direction. The internal flow velocity is low, the volume remains constant, and the pressure is stable, so there will be no vortex or agitation. The output pressure of each stage pump is 0.6MPa, the head is 60m (for clean water), and the self-priming height is generally 6m. It is suitable for conveying medium temperatures below 80 ℃ (special requirements can reach 150 ℃). Due to the selection of multiple elastic materials for the stator, this pump has characteristics that general pump types cannot handle for transporting high viscosity fluids and media containing hard suspended particles or fiber media. Its flow rate is proportional to the rotational speed. Transmission can be achieved directly through couplings, or through devices such as variable speed motors, V-belts, gearboxes, etc. This screw pump has few parts, compact structure, small volume, and easy maintenance. The rotor and stator are vulnerable parts of this pump, and the structure is simple and easy to assemble and disassemble. The working principle of a single screw pump is that when the screw pump is working, the liquid is sucked in and enters the sealed space surrounded by the threads and pump casing. When the active screw rotates, the sealing volume of the screw pump is increased by the compression of the screw teeth, and moves axially. Due to the constant rotation of the screw, the liquid outflow flow rate is also uniform. The characteristics of a single screw pump are: small losses and good economic performance. High and uniform pressure, uniform flow rate, high speed, capable of direct connection with the prime mover.
Due to the special geometric shape of these two components, they form separate sealed chambers, and the medium flows uniformly in the axial direction. The internal flow velocity is low, the volume remains constant, and the pressure is stable, so there will be no vortex or agitation. The output pressure of each stage pump is 0.6MPa, the head is 60m (for clean water), and the self-priming height is generally 6m. It is suitable for conveying medium temperatures below 80 ℃ (special requirements can reach 150 ℃). Due to the selection of multiple elastic materials for the stator, this pump has characteristics that general pump types cannot handle for transporting high viscosity fluids and media containing hard suspended particles or fiber media. Its flow rate is proportional to the rotational speed. Transmission can be achieved directly through couplings, or through devices such as variable speed motors, V-belts, gearboxes, etc. This screw pump has few parts, compact structure, small volume, and easy maintenance. The rotor and stator are vulnerable parts of this pump, and the structure is simple and easy to assemble and disassemble. The working principle of a single screw pump is that when the screw pump is working, the liquid is sucked in and enters the sealed space surrounded by the threads and pump casing. When the active screw rotates, the sealing volume of the screw pump is increased by the compression of the screw teeth, and moves axially. Due to the constant rotation of the screw, the liquid outflow flow rate is also uniform. The characteristics of a single screw pump are: small losses and good economic performance. High and uniform pressure, uniform flow rate, high speed, capable of direct connection with the prime mover.
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petroleum industry
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Chemical and Pharmaceutical Industry
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Environmental Engineering
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Mining Engineering
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food industry
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paper industry
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| heavy oil transportation oil-gas mixing transportation Oil water separation and waste oil recovery system sewage treatment Polymer transportation |
Various types of paste like substances |
Various types of sewage transportation Dehydrated sludge transportation Measurement and dosing of coagulants and their chemical preparations Oil water separation and waste gas degradation |
Coal water slurry equipment and transportation Production equipment for titanium dioxide, kaolin, calcium carbonate, etc Feed the rotating fluid and filter body Chemical addition Loading and grouting Electrolyte treatment |
dairy products Juice, puree, vegetable sauce Meat mince and seasonings Beer and Brewing |
Raw material equipment Coating and coloring process stoichiometry Slurry making and wastewater treatment |
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● number
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G
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F
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70
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2
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A
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| G series single screw pump | Material of overcurrent components | Specification code | Pump series (lead) | High hardness rotor |
G-type single screw pump conveying method:
Selection of rubber sleeve for G-type single screw pump:
The selection of rubber sleeve for G-type screw pump. The sleeve of the screw pump is made of rubber and is also a vulnerable part of the single screw pump. The quality of its selection directly affects the life of the sleeve. Generally, the life of the sleeve is 6-12 months under normal circumstances. If not selected properly, the sleeve may fall off from the steel pipe or the rubber may fall off. So we are required to have an understanding of the basic characteristics of rubber and its adaptability to various media. Based on our experience, we have compiled the above characteristic table.
Basic characteristics of rubber
| Rubber properties | Nitrile rubber NBR | Chloroprene rubber CR | Fluororubber PPM | Ethylene propylene rubber (EPDM) |
| Maximum temperature resistance | +120°C | +110°C | +200°C | +150°C |
| wear resistance | excellent | very good | excellent | very good |
| Aging-resistance | very good | very good | excellent | excellent |
| ozone resistance | can't | excellent | excellent | excellent |
| Steam resistant | very good | can't | excellent | excellent |
| flame resistance | very good | excellent | excellent | excellent |
Rubber is commonly used for the lining of single screw pumps
| Rubber adaptability | Ethylene propylene rubber (EPDM) | Fluororubber PPM | Chloroprene rubber CR | Nitrile rubber NBR |
| Water (sewage) | very good | very good | very good | very good |
| vegetable oil | general | very good | general | very good |
| mineral oil | can't | very good | general | very good |
| ammonia | general | can't | can't | very good |
| aromatic solvent | can't | very good | can't | can't |
| Concentrated alkali | very good | can't | very good | very good |
| Concentrated nitric acid | can't | general | can't | can't |
| Glacial acetic acid | can't | very good | can't | very good |
| diluted sulfuric acid | very good | very good | can't | very good |
| concentrated sulfuric acid | general | very good | can't | can't |
| dilute hydrochloric acid | very good | very good | very good | very good |
| Concentrated Hydrochloric Acid | very good | very good | can't | very good |
| hot water | very good | can't | can't | general |
| gasoline | can't | very good | general | very good |
| toluene | can't | very good | can't | can't |
| xylene | can't | very good | can't | can't |
| ethanol | very good | very good | very good | general |
| kerosene | can't | very good | very good | very good |
| diesel oil | can't | very good | can't | very good |
| Chlorinated hydrocarbon | can't | general | can't | can't |
| Ketone containing materials | very good | can't | can't | can't |
| Materials containing alcohols | very good | very good | very good | very good |
| Lipid containing materials | very good | can't | can't | can't |
| Ether containing materials | very good | can't | can't | can't |
| mud | very good | general | general | very good |
| phosphoric acid | very good | general | very good | general |
| sodium carbonate | very good | can't | very good | very good |
| glucuronic acid | very good | general | general | general |
| Benzene 100 | can't | very good | can't | can't |
| acetone | very good | can't | can't | can't |
| linseed oil | very good | very good | very good | very good |
| carbon disulfide | can't | very good | can't | can't |
| fault | reason | Troubleshooting |
| 1. The pump cannot start |
a、 The new pump rotation and stator fit too tightly b、 Voltage and current are too low c、 Medium viscosity too high |
a、 Use tools and manpower to help rotate a few turns b、 Check and adjust c、 Dilution liquid |
| 2. The pump cannot produce liquid |
a、 The rotation direction is incorrect b、 There is a problem with the suction pipeline c、 Medium viscosity too high d、 Damage to the rotor, stator or transmission components e、 Blockage of the guide material inside the pump |
a、 adjustment direction b、 Check for leaks, open the inlet and outlet valves c、 Dilution liquid d、 Check and replace c、 Exclude replacement |
| 3. Traffic cannot be reached |
a、 Pipeline leakage b、 Valves not fully opened or partially blocked c、 The speed is too low d、 Wear of rotor and stator |
a、 Check and repair the pipeline b、 Open all valves and remove blockages c、 Adjust the speed d、 Replace damaged parts with another one |
| 4. The pressure cannot be reached | a、 Wear of rotor and stator | a、 Replace the rotor and stator |
| 5. Motor overheating |
a、 motor fault b、 Export pressure too high, motor overload c、 The stator is burnt out or stuck to the rotor |
a、 Check the motor, voltage, current, and frequency b、 Check the head, fully open the outlet valve, and eliminate blockages c、 Replace damaged parts |
| 6. Rapid decrease in flow pressure |
a、 Sudden blockage or leakage of pipelines b、 Poor stator wear c、 Sudden change in liquid viscosity d、 Sudden voltage drop |
Refer to the following items and exclude them one by one |
| 7. A large amount of liquid leaked from the shaft seal |
a、 Soft packing wear b、 Mechanical seal damage |
a、 Tighten or replace the packing material b、 Repair or replace |
Performance parameters at constant speed:
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model |
internet traffic |
pressure |
Allow the most |
electrical machinery |
Necessary gas |
Import Law |
Export Law |
Allow particles |
Allow fiber |
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G10-1 |
0.1 |
0.6 |
960 |
0.55 |
3.6 |
25 |
25 |
0.8 |
15 |
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G10-2 |
1.2 |
0.55 |
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G13-1 |
0.4 |
0.6 |
960 |
0.55 |
0.8 |
15 |
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G13-2 |
1.2 |
0.55 |
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G15-1 |
0.6 |
0.6 |
960 |
0.75 |
1 |
20 |
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G15-2 |
1.2 |
1.1 |
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G20-1 |
0.8 |
0.6 |
960 |
0.75 |
4 |
25 |
25 |
1.5 |
25 |
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G20-2 |
1.2 |
1.5 |
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G25-1 |
2 |
0.6 |
960 |
1.5 |
32 |
25 |
2 |
30 |
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G25-2 |
1.2 |
2.2 |
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G30-1 |
5 |
0.6 |
960 |
2.2 |
50 |
40 |
2.5 |
35 |
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G30-2 |
1.2 |
3 |
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G35-1 |
8 |
0.6 |
960 |
3 |
65 |
50 |
3 |
40 |
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G35-2 |
1.2 |
4 |
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G40-1 |
12 |
0.6 |
960 |
4 |
80 |
65 |
3.8 |
45 |
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G40-2 |
1.2 |
5.5 |
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G50-1 |
20 |
0.6 |
960 |
5.5 |
4.5 |
100 |
80 |
5 |
50 |
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G50-2 |
1.2 |
7.5 |
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G60-1 |
30 |
0.6 |
960 |
11 |
5 |
125 |
100 |
6 |
60 |
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G60-2 |
1.2 |
15 |
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G70-1 |
45 |
0.6 |
720 |
11 |
150 |
125 |
8 |
70 |
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G70-2 |
1.2 |
15 |
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G85-1 |
55 |
0.6 |
720 |
15 |
150 |
150 |
10 |
80 |
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G85-2 |
1.2 |
18.5 |
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G105-1 |
80 |
0.6 |
400 |
22 |
200 |
150 |
15 |
110 |
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G105-2 |
1.2 |
30 |
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G135-1 |
150 |
0.6 |
380 |
37 |
250 |
200 |
20 |
150 |
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G135-2 |
1.2 |
45 |
Note: 1. The test data in the performance table is based on water at 20 ℃ as the medium, with a viscosity of 1mm2/s.
2. When a pump transports a medium with high viscosity and particles, it depends on the properties of the medium. The speed of the pump must be different.
3. When the pump delivers different abrasive media, the pump speed must also be different.
Single stage, performance parameters for gear shifting, electromagnetic speed regulation motor with gear shifting, or continuously variable speed motor with gear shifting
| model | Pressure 0.3Mpa | Pressure 0.6Mpa | Adjustable RPM | ||||||
| number of rotations (r/min) |
internet traffic (m3/h) |
motor power (kw) |
number of rotations (r/min) |
internet traffic (m3/h) |
motor power (kw) |
number of rotations (r/min) |
internet traffic (m3/h) |
motor power (kw) |
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| G20-1 | 960 | 0.96 | 0.75-6 levels | 960 | 0.8 | 0.75-6 levels | 125~1250 | 0.1~1.5 | 1.1 |
| 720 | 0.8 | 0.55-8 levels | 720 | 0.5 | 0.75-8 levels | ||||
| 510 | 0.4 | 0.55-4 levels/gearbox | 510 | 0.3 | 0.75-4 levels/gearbox | ||||
| G25-1 | 960 | 2.4 | 0.75-6 levels | 960 | 2 | Levels 1.5-6 | 125~1250 | 0.1~3 | 1.5 |
| 720 | 1.5 | 0.55-8 levels | 720 | 1.27 | Levels 1.1-8 | ||||
| 510 | 1.08 | 0.55-4 levels/gearbox | 510 | 0.9 | 1.1-4 levels/gearbox | ||||
| G30-1 | 960 | 3.6 | Levels 1.5-6 | 960 | 3 | Level 2.2-6 | 125~1250 | 0.2~4 | 2.2 |
| 720 | 2.28 | Levels 1.1-8 | 720 | 1.9 | Levels 1.5-8 | ||||
| 510 | 1.63 | 1.1-4 levels/gearbox | 510 | 1.35 | 1.5-4 levels/gearbox | ||||
| G35-1 | 720 | 4.8 | Level 2.2-8 | 720 | 4.04 | Level 3-8 | 125~890 | 0.3~5 | 3 |
| 510 | 3.36 | 1.5-4 levels/gearbox | 510 | 2.8 | 2.2-4 levels/gearbox | ||||
| 380 | 1.92 | 1.1-4 levels/gearbox | 380 | 1.60 | 1.5-4 levels/gearbox | ||||
| G40-1 | 510 | 6.8 | 2.2-4 levels/gearbox | 510 | 5.6 | 3-4 levels/gearbox | 125~890 | 0.3~10 | 4 |
| 380 | 5.1 | 1.5-4 levels/gearbox | 380 | 4 | 2.2-4 levels/gearbox | ||||
| 252 | 2.65 | 1.1-6 levels/gearbox | 252 | 2.2 | 1.5-6 levels/gearbox | ||||
| G50-1 | 510 | 13.8 | 4-4 levels/gearbox | 510 | 11.5 | 5.5-4 levels/gearbox | 80~750 | 1~18 | 5.5 |
| 380 | 10.2 | 4-4 levels/gearbox | 380 | 7.5 | 5.5-4 levels/gearbox | ||||
| 252 | 5.6 | 3-6 levels/gearbox | 252 | 4.4 | 5.5-6 levels/gearbox | ||||
| G60-1 | 510 | 20.8 | 7.5-4 levels/gearbox | 510 | 16 | 11-4 levels/gearbox | 63~630 | 1~20 | 11 |
| 380 | 15.6 | 7.5-4 levels/gearbox | 380 | 12 | 11-4 levels/gearbox | ||||
| 252 | 7.8 | 5.5-6 levels/gearbox | 252 | 6 | 7.5-6 levels/gearbox | ||||
| G70-1 | 510 | 26 | 11-4 levels/gearbox | 510 | 20 | 11-4 levels/gearbox | 56~560 | 1~22 | 11 |
| 380 | 17 | 7.5-4 levels/gearbox | 380 | 13 | 11-4 levels/gearbox | ||||
| 252 | 9.1 | 7.5-6 levels/gearbox | 252 | 7 | 7.5-6 levels/gearbox | ||||
| G85-1 | 380 | 32 | 11-4 levels/gearbox | 380 | 25 | 15-4 levels/gearbox | 37~370 | 2~24 | 15 |
| 252 | 21 | 7.5-6 levels/gearbox | 252 | 16 | 11-6 levels/gearbox | ||||
| 189 | 11 | 5.5-8 levels/gearbox | 189 | 8 | 11-8 levels/gearbox | ||||
| G105-1 | 380 | 80 | 15-4 levels/gearbox | 380 | 65 | 22-4 levels/gearbox | 29~290 | 3~50 | 22 |
| 252 | 44 | 15-6 levels/gearbox | 252 | 34 | 22-6 levels/gearbox | ||||
| 189 | 29 | 11-8 levels/gearbox | 189 | 22 | 15-8 levels/gearbox | ||||
| G135-1 | 380 | 132 | 37-4 levels/gearbox | 380 | 120 | 45-4 levels/gearbox | 18~180 | 3~56 | 45 |
| 252 | 95 | 30-6 levels/gearbox | 252 | 80 | 37-6 levels/gearbox | ||||
| 189 | 65 | 18.5-6 levels/gearbox | 189 | 53 | 30-8 levels/gearbox | ||||
Dual stage, performance parameters for gear shifting, electromagnetic speed regulation motor with gear shifting, or continuously variable speed motor with gear shifting
| model | Pressure 0.8Mpa | Pressure 1.2Mpa | Adjustable RPM | ||||||
| number of rotations (r/min) |
internet traffic (m3/h) |
motor power (kw) |
number of rotations (r/min) |
internet traffic (m3/h) |
motor power (kw) |
number of rotations (r/min) |
internet traffic (m3/h) |
motor power (kw) |
|
| G20-2 | 960 | 0.96 | Levels 1.5-6 | 960 | 0.8 | Levels 1.5-6 | 125~1250 | 0.1~1.5 | 1.5 |
| 720 | 0.8 | Levels 1.1-8 | 720 | 0.5 | Levels 1.5-8 | ||||
| 510 | 0.4 | 1.1-4 levels/gearbox | 510 | 0.3 | 1.1-4 levels/gearbox | ||||
| G25-2 | 960 | 2.4 | Levels 1.5-6 | 960 | 2 | Level 2.2-6 | 125~1250 | 0.1~3 | 2.2 |
| 720 | 1.5 | Levels 1.1-8 | 720 | 1.27 | Levels 1.5-8 | ||||
| 510 | 1.08 | 1.1-4 levels/gearbox | 510 | 0.9 | 1.5-4 levels/gearbox | ||||
| G30-2 | 960 | 3.6 | Levels 3-6 | 960 | 3 | Levels 3-6 | 125~1250 | 0.2~4 | 3 |
| 720 | 2.28 | Levels 1.5-8 | 720 | 1.9 | Level 2.2-8 | ||||
| 510 | 1.63 | 1.5-4 levels/gearbox | 510 | 1.35 | 2.2-4 levels/gearbox | ||||
| G35-2 | 720 | 4.8 | Level 3-8 | 720 | 4.04 | Level 4-8 | 125~890 | 0.3~5 | 4 |
| 510 | 3.36 | 2.2-4 levels/gearbox | 510 | 2.8 | 3-4 levels/gearbox | ||||
| 380 | 1.92 | 1.5-4 levels/gearbox | 380 | 1.60 | 2.2-4 levels/gearbox | ||||
| G40-2 | 510 | 6.8 | 4-4 levels/gearbox | 510 | 5.6 | 5.5-4 levels/gearbox | 125~890 | 0.3~10 | 5.5 |
| 380 | 5.1 | 3-4 levels/gearbox | 380 | 4 | 4-4 levels/gearbox | ||||
| 252 | 2.65 | 2.2-6 levels/gearbox | 252 | 2.2 | 3-6 levels/gearbox | ||||
| G50-2 | 510 | 13.8 | 5.5-4 levels/gearbox | 510 | 11.5 | 7.5-4 levels/gearbox | 80~750 | 1~18 | 7.5 |
| 380 | 10.2 | 4-4 levels/gearbox | 380 | 7.5 | 5.5-4 levels/gearbox | ||||
| 252 | 5.6 | 3-6 levels/gearbox | 252 | 4.4 | 5.5-6 levels/gearbox | ||||
| G60-2 | 510 | 20.8 | 15-4 levels/gearbox | 510 | 16 | 15-4 levels/gearbox | 63~630 | 1~20 | 15 |
| 380 | 15.6 | 11-4 levels/gearbox | 380 | 12 | 15-4 levels/gearbox | ||||
| 252 | 7.8 | 7.5-6 levels/gearbox | 252 | 6 | 11-6 levels/gearbox | ||||
| G70-2 | 510 | 26 | 15-4 levels/gearbox | 510 | 20 | 18.5-4 levels/gearbox | 56~560 | 1~22 | 18.5 |
| 380 | 17 | 11-4 levels/gearbox | 380 | 13 | 15-4 levels/gearbox | ||||
| 252 | 9.1 | 11-6 levels/gearbox | 252 | 7 | 11-6 levels/gearbox | ||||
| G85-2 | 380 | 32 | 18.5-4 levels/gearbox | 380 | 25 | 22-4 levels/gearbox | 37~370 | 2~24 | 22 |
| 252 | 21 | 15-6 levels/gearbox | 252 | 16 | 18.5-6 levels/gearbox | ||||
| 189 | 11 | 15-8 levels/gearbox | 189 | 8 | 15-8 levels/gearbox | ||||
| G105-2 | 380 | 80 | 30-4 levels/gearbox | 380 | 65 | 37-4 levels/gearbox | 29~290 | 3~50 | 37 |
| 252 | 44 | 30-6 levels/gearbox | 252 | 34 | 30-6 levels/gearbox | ||||
| 189 | 29 | 22-8 levels/gearbox | 189 | 22 | 22-8 levels/gearbox | ||||
| G135-2 | 380 | 132 | 55-4 levels/gearbox | 380 | 120 | 75-4 levels/gearbox | 18~180 | 3~56 | 75 |
| 252 | 95 | 55-6 levels/gearbox | 252 | 80 | 75-6 levels/gearbox | ||||
| 189 | 65 | 37-8 levels/gearbox | 189 | 53 | 45-8 levels/gearbox | ||||
1. The above performance parameters are experimental data obtained during the room temperature water test;
2. For different media and speeds, performance parameters will vary, with flow rate values inversely proportional to concentration and viscosity, and directly proportional to speed;
3. Users must choose the type of pump based on usage requirements, the condition of the conveying medium, and selection principles, or consult with our company's technical department to determine the type of pump.
4. For water coal slurry pumps, the transmission form is gear speed regulation matched with electromagnetic speed regulation motors or mechanical continuously variable speed motors, and the flow rate is infinitely adjustable with the change of speed.
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