Model | OPP-10PV | OPP-15PV | OPP-20PV | OPP-30PV | OPP-40PV | OPP-50PV | OPP-60PV | OPP-75PV | |
Power (kw) | 7.5 | 11 | 15 | 22 | 30 | 37 | 45 | 55 | |
Horsepower (hp) | 10 | 15 | 20 | 30 | 40 | 50 | 60 | 75 | |
Air displacement/ Working pressure (M³/Min. / bar) |
1.2 / 7 | 1.6 / 7 | 2.5 / 7 | 3.8 / 7 | 5.3 / 7 | 6.8 / 7 | 7.4 / 7 | 10.0 / 7 | |
1.1 / 8 | 1.5/8 | 2.3/8 | 3.6 / 8 | 5.0 / 8 | 6.2 / 8 | 7.0 / 8 | 9.2 / 8 | ||
0.9 / 10 | 1.3 / 10 | 2.1 / 10 | 3.2 / 10 | 4.5 / 10 | 5.6 / 10 | 6.2 / 10 | 8.5 / 10 | ||
0.8 / 12 | 1.1 / 12 | 1.9 / 12 | 2.7 / 12 | 4.0 / 12 | 5.0 / 12 | 5.6 / 12 | 7.6 / 12 | ||
Air out let diameter |
DN20 | DN25 | DN25 | DN25 | DN40 | DN40 | DN40 | DN50 | |
Lubricating oil volume (L) | 10 | 16 | 16 | 18 | 30 | 30 | 30 | 65 | |
Noise level dB(A) | 60±2 | 62±2 | 62±2 | 64±2 | 66±2 | 66±2 | 66±2 | 68±2 | |
Driven method | Direct driven | ||||||||
Type | PM VSD | ||||||||
Start method | Variable frequency start | ||||||||
Length (mm) | 950 | 1150 | 1150 | 1350 | 1500 | 1500 | 1500 | 1900 | |
Width (mm) | 670 | 820 | 820 | 920 | 1020 | 1020 | 1020 | 1260 | |
Height (mm) | 1030 | 1130 | 1130 | 1230 | 1310 | 1310 | 1310 | 1600 | |
Weight (kg) | 250 | 400 | 400 | 550 | 700 | 750 | 800 | 1750 |
Model | OPP-100PV | OPP-125F | OPP-150PV | OPP-175PV | OPP-200PV | OPP-275PV | OPP-350PV | |
Power (kw) | 75.0 | 90 | 110 | 132 | 160 | 200 | 250 | |
Horsepower (hp) | 100 | 125 | 150 | 175 | 200 | 275 | 350 | |
Air displacement/ Working pressure (M³/Min. / bar) |
13.4 / 7 | 16.2 / 7 | 21.0 / 7 | 24.5 / 7 | 32.4 / 7 | 38.2 / 7 | 45.5 / 7 | |
12.6 / 8 | 15.0 / 8 | 19.8 / 8 | 23.2 / 8 | 30.2 / 8 | 36.9 / 8 | 43 / 8 | ||
11.2 / 10 | 13.8 / 10 | 17.4 / 10 | 20.5 / 10 | 26.9 / 10 | 33/ / 10 | 38.9 / 10 | ||
10.0 / 12 | 12.3 / 12 | 14.8 / 12 | 17.4 / 12 | 23 / 12 | 28.5 / 12 | 36 / 12 | ||
Air out let diameter |
DN50 | DN50 | DN65 | DN65 | DN75 | DN90 | DN90 | |
Lubricating oil volume (L) | 65 | 72 | 90 | 90 | 110 | 130 | 150 | |
Noise level dB(A) | 68±2 | 70±2 | 70±2 | 70±2 | 75±2 | 85±2 | 85±2 | |
Driven method | Direct driven | |||||||
Type | PM VSD | |||||||
Start method | Variable frequency start | |||||||
Length (mm) | 1900 | 2450 | 2450 | 2450 | 2760 | 2760 | 2760 | |
Width (mm) | 1260 | 1660 | 1660 | 1660 | 1800 | 1800 | 1800 | |
Height (mm) | 1600 | 1700 | 1700 | 1700 | 2100 | 2100 | 2100 | |
Weight (kg) | 1850 | 1950 | 2200 | 2500 | 2800 | 3100 | 3500 |
1. Fast response to load
The load reaction action is very fast, the traditional screw machine will affect the reaction speed with the change of processing time during the operation, but this new frequency conversion screw machine will not;
2.Low motor friction
In the structural design of the body, there is no bearing, which effectively avoids the friction between the bearing and the rotor, and there is no need to do too much maintenance on the motor during daily use;
3.High transmission efficiency
This variable frequency permanent magnet screw machine has undergone a great change in transmission, and adopts the direct transmission mode to reduce the energy loss during the transmission process, especially when the main engine and the motor are connected together;
The frequency conversion permanent magnet screw machine has fast response speed, low motor friction, high transmission efficiency, and high use value of the body, especially suitable for large factories.
The OPPAIR permanent magnet variable frequency screw air compressor has energy-saving effect. It adopts the frequency converter of well-known Chinese brand and adopts the high-efficiency energy-saving control system. The software startup of the air compressor reduces the electrical shock to the electrical components of the motor, and the startup current is small, which prolongs the The life of the motor’s contactor.
The software start of the air compressor reduces the mechanical shock to the equipment, and the motor bearings, main engine bearings and gearboxes all prolong the service life. The high-efficiency and energy-saving controller control device keeps the air compressor in a loaded state most of the time, and all kinds of related solenoid valves and pneumatic components greatly reduce the number of actions, so the failure rate of electrical and mechanical parts is greatly reduced. Feeds the cost of replacement parts and labor. In addition, the inverter control device keeps the air compressor in the loading state most of the time, and the air inlet filter is always in the forward filtering state. When unloading, the air filter is in the reverse filtering state, and the use of the inverter is greatly reduced. It shortens the reverse filtration time of the inlet filter and prolongs the service life of the filter element.
1. Adopts the intermational top-level third-generation asymmetric wire twin-screw air end, adheres to the exquisite manufacturing process, adopts the peak high eficiency low pressure, high-fficiency tooth shape and the axial air inlet design.
2. Optimized flow channel design, with a large rotor, low speed and high eficiency. Increased energy eficiency by 5% -15% compared to the second generation.
3. Uses Swedish SKF heavy-duty bearings, doubl-lip lip shaft seal, durable and reliable. The bearing design life is 80,000-100,000 hours and the air end design life is about 200,000 hours.
1. Intake valve is the core component to control the air intake of the air compressor.
2. Adopting the world famous brand air intake valve, it can automatically adjust theair volume by 0-100% according to the requirement of the system air quantity. It promises small pressure loss, stable action and long life consequently reduced operating costs.
1. The heat exchanger uses high-quality raw materials and a unique intemal channel design, which increases the heat exchange area and can effectively dissipate heat for the air compressor.
2. The inner wall of the heat exchanger is treated with corrosion protection to increase the service life of the heat exchanger and increase the heat transfer effect.
3. The radiator has passed the strict factory test, and the quality is reliable, which efetively prevents the high temperature of the air compressor and increases the service life of the machine.