Product Description
Products Description:
|
Model |
Power(HP/KW) |
Pressure(BAR) |
Capacity(m3/min) |
Dimension(mm) |
Weight(KG) |
Outlet Size |
|
SCR7.5M |
7.5/5.5 |
7/8/10/12.5 |
0.85/0.8/0.7/0.6 |
900*680*970 |
240 |
Rc 1/2 |
|
SCR10M |
10/7.5 |
7/8/10/12.5 |
1.1/1/0.9/0.8 |
900*680*970 |
250 |
Rc 1/2 |
|
SCR15M |
15/11 |
7/8/10/12.5 |
1.7/1.6/1.4/1.2 |
800*950*1130 |
380 |
Rc 3/4 |
|
SCR20M |
20/15 |
7/8/10/12.5 |
2.4/2.3/2/1.8 |
800*950*1130 |
410 |
Rc 3/4 |
|
SCR25M |
25/18.5 |
7/8/10/12.5 |
3.4/3/2.6/2.3 |
900*1150*1350 |
560 |
Rc 1 |
|
SCR30M |
30/22 |
7/8/10/12.5 |
3.8/3.5/3.3/2.9 |
900*1150*1350 |
580 |
Rc 1 |
|
SCR40M |
40/30 |
7/8/10/12.5 |
5.1/5/4.3/3.7 |
900*1150*1350 |
640 |
Rc 1 |
|
SCR50M |
50/37 |
7/8/10/12.5 |
6.5/6.3/5.8/5.3 |
1000*1300*1470 |
800 |
Rc 1 1/2 |
|
SCR60M |
60/45 |
7/8/10/12.5 |
8.1/8/6.8/6 |
1000*1300*1470 |
920 |
Rc 1 1/2 |
|
SCR75M |
75/55 |
7/8/10/12.5 |
10.4/10/8.5/7.6 |
1800*1450*1570 |
1540 |
DN 50 |
|
SCR100M |
100/75 |
7/8/10/12.5 |
13.8/13.3/11.7/10 |
1800*1450*1570 |
1600 |
DN 50 |
|
SCR10D |
10/7.5 |
7/8 |
1.1/1 |
1053*680*928 |
250 |
Rc 1/2 |
|
SCR20D |
20/15 |
7/8/10 |
2.4/2.3/1.9 |
1300*900*1100 |
530 |
Rc 1 |
|
SCR30D |
30/22 |
7/8/10 |
3.7/3.6/3.2 |
1380*850*1160 |
580 |
Rc 1 |
|
SCR40D |
40/30 |
7/8 |
5.2/5 |
1600*1000*1360 |
860 |
Rc 1 1/2 |
|
SCR50D |
50/37 |
7/8/10 |
6.5/6.3/5.8 |
1600*1000*1360 |
860 |
Rc 1 1/2 |
|
SCR60D |
60/45 |
7/8/10 |
8.1/8/7.1 |
1850*1000*1360 |
950 |
Rc 1 1/2 |
|
SCR75D |
75/55 |
7/8/10 |
10.4/10.1/8.5 |
2200*1360*1755 |
1720 |
DN 50 |
|
SCR100D |
100/75 |
7/8/10/12.5 |
13.6/13.3/11.8 |
2200*1360*1755 |
1860 |
DN 50 |
Advantages:
1. Sino-Japan technology cooperation, high reliability.
2. Big airend with low rpm for better performance an long life span.
3. High reliability components imported original from Germany, Swiss etc.
4. CE level protection design and manufacturing
5. Oversize cooler suitable for tropical area.
6. More than 10,000.00 units running around the world since 10years ago.
7. Intelligent PLC control.
8. Easy to do maintenance and service.
Semi-Automatic PET Bottle Blowing Machine Bottle Making Machine Bottle Moulding Machine PET Bottle Making Machine is suitable for producing PET plastic containers and bottles in all shapes.
Details Images
CHINAMFG Main Motor
TEFC type motor (IEC standard)
Our standard is IP 54 Protection Grade (IP55 is an option).
F Grade Insulation
S1 Duty ensures stable running even in 24hour / 7 day applications,Large service factor reserves allows for longevity and predictable service in heavy duty applications, harsh environements or dusty conditions.
1. Well thought out arrangement, with careful attention made to accessibility of service components. 2. Fully enclosed cabinet with sealing doors to ensure low dust ingress into the cabinet. 3. Strong and rigid anti-vibration base eliminate possible vibrations which could damage airend
CHINAMFG Contactors; We select oversized contactors for use in our panels to ensure longevity, even in the heaviest duty applications. 2. Intelligent PLC control, monitors all key running parameters of the compressor. The PLC reports on 12 alarms and 13 security proteciton situations. Multi-language selection accommodate different countries and markets
Advanced & Robust Suction valve designed for heavy duty running. Reliable solenoid valve, service life up to 2 million actions.
Simple layout and easy to maintain.
Innovative design ensures efficient oil-air separation prior to contact with separator elements. First stage physical centrifugal separation. Second stage is high efficiency oil separator element. Residual oil content is typically lower than 3PPM.
Special design heavy duty air filter housing allows for filtration efficiency of up to 99.8%. Even under adverse conditions, it protects and extends the life of the compressor.
Reliable Pulley & Belt Every pulley is dynamically balanced to eliminate vibration and preserve life of bearings. Heavy Duty, Kevlar reinforced OPTI drive belts (Made in Germany) are used to ensure high transmission efficiency and longer life span than standard belts
1:1 Drive Ratio (Direct Driven)
Flexible Shock Resistant Coupling made in Germany. Loss-free transmission efficiency. (There is no system more efficient!) Low RPM of airend, matched to motor speed which extend life-span of airend. Low vibration and low noise. Coupling is shielded to eliminate any risk of injury to personnel.
Customer feedback picture
Poland Metal Procssing
Bangladesh Textile
Spain Metal Processing Industry
Vietnam Factory
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Please let us know if you like any models!
FAQ
1 What trade terms do we provide? What kind of settlement currency do we offer?
Trade term :CIF ,CFR ,FOB,Ex-Works As far Our business traded in Dollars ,Euros and RMB .
2 How long is our delivery?
Our standard delivery time is 30-40 days after confirmation order & receiving recipets for standard compressors, for the other non standard requirement will be discussed case by case.
3 What is the voltage of the compressor?
The available voltage include 380V/50HZ/3Phase, 400V/50HZ/3P, 415V/50HZ/3P, 220V/60HZ/3P, 380V/60HZ/3P, 440V/60HZ/3P. At the same time we provide other voltage according to customer requirement.
4 Can our compressor run in high temperature environment? What is the working temperature range for our machine?
Yes ,our machine would run in high temperature environment ,until now our products have been sold to many countries which wouldmeet high temperature in summer ,such like Iraq, Saudi Arabia, Egypt, Algeria, etc. Work temperature range :1-45 (33.8-113)
5 What’s the min. Order requirement ?
Min. Order requirement is 1PCS.
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| Lubrication Style: | Lubricated |
|---|---|
| Power Source: | AC Power |
| Type: | Screw |
| Customization: |
Available
|
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|---|
.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}
| Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
|---|
| Payment Method: |
|
|---|---|
|
Initial Payment Full Payment |
| Currency: | US$ |
|---|
| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
|---|
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How are air compressors utilized in the aerospace industry?
Air compressors play a crucial role in various applications within the aerospace industry. They are utilized for a wide range of tasks that require compressed air or gas. Here are some key uses of air compressors in the aerospace industry:
1. Aircraft Systems:
Air compressors are used in aircraft systems to provide compressed air for various functions. They supply compressed air for pneumatic systems, such as landing gear operation, braking systems, wing flap control, and flight control surfaces. Compressed air is also utilized for starting aircraft engines and for cabin pressurization and air conditioning systems.
2. Ground Support Equipment:
Air compressors are employed in ground support equipment used in the aerospace industry. They provide compressed air for tasks such as inflating aircraft tires, operating pneumatic tools for maintenance and repair, and powering air-driven systems for fueling, lubrication, and hydraulic operations.
3. Component Testing:
Air compressors are utilized in component testing within the aerospace industry. They supply compressed air for testing and calibrating various aircraft components, such as valves, actuators, pressure sensors, pneumatic switches, and control systems. Compressed air is used to simulate operating conditions and evaluate the performance and reliability of these components.
4. Airborne Systems:
In certain aircraft, air compressors are employed for specific airborne systems. For example, in military aircraft, air compressors are used for air-to-air refueling systems, where compressed air is utilized to transfer fuel between aircraft in mid-air. Compressed air is also employed in aircraft de-icing systems, where it is used to inflate inflatable de-icing boots on the wing surfaces to remove ice accumulation during flight.
5. Environmental Control Systems:
Air compressors play a critical role in the environmental control systems of aircraft. They supply compressed air for air conditioning, ventilation, and pressurization systems, ensuring a comfortable and controlled environment inside the aircraft cabin. Compressed air is used to cool and circulate air, maintain desired cabin pressure, and control humidity levels.
6. Engine Testing:
In the aerospace industry, air compressors are utilized for engine testing purposes. They provide compressed air for engine test cells, where aircraft engines are tested for performance, efficiency, and durability. Compressed air is used to simulate different operating conditions and loads on the engine, allowing engineers to assess its performance and make necessary adjustments or improvements.
7. Oxygen Systems:
In aircraft, air compressors are involved in the production of medical-grade oxygen for onboard oxygen systems. Compressed air is passed through molecular sieve beds or other oxygen concentrator systems to separate oxygen from other components of air. The generated oxygen is then supplied to the onboard oxygen systems, ensuring a sufficient and continuous supply of breathable oxygen for passengers and crew at high altitudes.
It is important to note that air compressors used in the aerospace industry must meet stringent quality and safety standards. They need to be reliable, efficient, and capable of operating under demanding conditions to ensure the safety and performance of aircraft systems.
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What is the energy efficiency of modern air compressors?
The energy efficiency of modern air compressors has significantly improved due to advancements in technology and design. Here’s an in-depth look at the energy efficiency features and factors that contribute to the efficiency of modern air compressors:
Variable Speed Drive (VSD) Technology:
Many modern air compressors utilize Variable Speed Drive (VSD) technology, also known as Variable Frequency Drive (VFD). This technology allows the compressor motor to adjust its speed according to the compressed air demand. By matching the motor speed to the required airflow, VSD compressors can avoid excessive energy consumption during periods of low demand, resulting in significant energy savings compared to fixed-speed compressors.
Air Leakage Reduction:
Air leakage is a common issue in compressed air systems and can lead to substantial energy waste. Modern air compressors often feature improved sealing and advanced control systems to minimize air leaks. By reducing air leakage, the compressor can maintain optimal pressure levels more efficiently, resulting in energy savings.
Efficient Motor Design:
The motor of an air compressor plays a crucial role in its energy efficiency. Modern compressors incorporate high-efficiency electric motors that meet or exceed established energy efficiency standards. These motors are designed to minimize energy losses and operate more efficiently, reducing overall power consumption.
Optimized Control Systems:
Advanced control systems are integrated into modern air compressors to optimize their performance and energy consumption. These control systems monitor various parameters, such as air pressure, temperature, and airflow, and adjust compressor operation accordingly. By precisely controlling the compressor’s output to match the demand, these systems ensure efficient and energy-saving operation.
Air Storage and Distribution:
Efficient air storage and distribution systems are essential for minimizing energy losses in compressed air systems. Modern air compressors often include properly sized and insulated air storage tanks and well-designed piping systems that reduce pressure drops and minimize heat transfer. These measures help to maintain a consistent and efficient supply of compressed air throughout the system, reducing energy waste.
Energy Management and Monitoring:
Some modern air compressors feature energy management and monitoring systems that provide real-time data on energy consumption and performance. These systems allow operators to identify energy inefficiencies, optimize compressor settings, and implement energy-saving practices.
It’s important to note that the energy efficiency of an air compressor also depends on factors such as the specific model, size, and application. Manufacturers often provide energy efficiency ratings or specifications for their compressors, which can help in comparing different models and selecting the most efficient option for a particular application.
Overall, modern air compressors incorporate various energy-saving technologies and design elements to enhance their efficiency. Investing in an energy-efficient air compressor not only reduces operational costs but also contributes to sustainability efforts by minimizing energy consumption and reducing carbon emissions.
How is air pressure measured in air compressors?
Air pressure in air compressors is typically measured using one of two common units: pounds per square inch (PSI) or bar. Here’s a brief explanation of how air pressure is measured in air compressors:
1. Pounds per Square Inch (PSI): PSI is the most widely used unit of pressure measurement in air compressors, especially in North America. It represents the force exerted by one pound of force over an area of one square inch. Air pressure gauges on air compressors often display pressure readings in PSI, allowing users to monitor and adjust the pressure accordingly.
2. Bar: Bar is another unit of pressure commonly used in air compressors, particularly in Europe and many other parts of the world. It is a metric unit of pressure equal to 100,000 pascals (Pa). Air compressors may have pressure gauges that display readings in bar, providing an alternative measurement option for users in those regions.
To measure air pressure in an air compressor, a pressure gauge is typically installed on the compressor’s outlet or receiver tank. The gauge is designed to measure the force exerted by the compressed air and display the reading in the specified unit, such as PSI or bar.
It’s important to note that the air pressure indicated on the gauge represents the pressure at a specific point in the air compressor system, typically at the outlet or tank. The actual pressure experienced at the point of use may vary due to factors such as pressure drop in the air lines or restrictions caused by fittings and tools.
When using an air compressor, it is essential to set the pressure to the appropriate level required for the specific application. Different tools and equipment have different pressure requirements, and exceeding the recommended pressure can lead to damage or unsafe operation. Most air compressors allow users to adjust the pressure output using a pressure regulator or similar control mechanism.
Regular monitoring of the air pressure in an air compressor is crucial to ensure optimal performance, efficiency, and safe operation. By understanding the units of measurement and using pressure gauges appropriately, users can maintain the desired air pressure levels in their air compressor systems.
editor by CX 2024-02-14