Product Description
| Model Name | Displ. | Capacity | Power | COP | Current | Noise | Capacitor | Oil | R22 Max | Wt. | Sizes Refer to Table 10 |
| (POE) | |||||||||||
| (cm3/rev) | (±5%W) | (±5% W) | (±5%) | (A) | ±3dB(A) | μF-V | (ml) | (kg) | (kg) | ||
| PH108X1CY-8BGD2 | 10.8 | 1820 | 595 | 3.06 | 2.7 | 59 | 25/370 | 350 | 0.7 | 10.7 | No.1 |
| PH120X1CY-8BGD2 | 12.2 | 2090 | 675 | 3.1 | 3.1 | 59 | 25/370 | 350 | 0.7 | 10.7 | No.1 |
| PH135X1C-8DZD2 | 13.6 | 2280 | 750 | 3.04 | 3.4 | 59 | 25/370 | 400 | 0.85 | 12 | No.6 |
| PH150X1C-8DZD2 | 14.8 | 2500 | 820 | 3.05 | 3.8 | 60 | 25/370 | 400 | 0.85 | 12 | No.6 |
| PH155X1C-8DZD2 | 15.4 | 2600 | 850 | 3.06 | 4 | 59 | 25/370 | 400 | 0.85 | 12 | No.6 |
| PH160X1C-8DZD2 | 16.1 | 2720 | 890 | 3.06 | 4.1 | 59 | 25/370 | 400 | 0.85 | 12 | No.6 |
| PH165X1C-8DZD2 | 16.5 | 2810 | 920 | 3.05 | 4.2 | 59 | 25/370 | 400 | 0.85 | 12 | No.6 |
| PH170X1C-8DZD2 | 17.1 | 2920 | 960 | 3.04 | 4.5 | 59 | 25/370 | 400 | 0.85 | 12 | No.6 |
| PH180X1C-8DZD2 | 17.8 | 3050 | 1571 | 2.98 | 4.8 | 59 | 25/370 | 400 | 0.85 | 12 | No.6 |
| PH195X2C-8FTC | 19.3 | 3330 | 1080 | 3.08 | 5 | 61 | 25/370 | 480 | 1.1 | 15.1 | No.16 |
| PH200X2C-8FTC | 20 | 3470 | 1135 | 3.06 | 5.2 | 61 | 25/370 | 480 | 1.1 | 15.1 | No.16 |
| PH215X2C-8FTC | 21.6 | 3750 | 1210 | 3.1 | 5.6 | 61 | 35/370 | 480 | 1.2 | 15.8 | No.16 |
| PH225X2C-8FTC | 22.4 | 3870 | 1250 | 3.1 | 5.7 | 61 | 35/370 | 480 | 1.2 | 15.8 | No.16 |
| PH230X2C-8FTC | 23.1 | 3990 | 1310 | 3.05 | 6 | 61 | 35/370 | 480 | 1.2 | 15.8 | No.16 |
| PH240X2C-8FTC | 23.9 | 4140 | 1355 | 3.06 | 6.2 | 61 | 35/370 | 480 | 1.2 | 15.8 | No.16 |
| PH260X2C-8FTC1 | 26.2 | 4600 | 1510 | 3.05 | 7.3 | 63 | 35/370 | 520 | 1.3 | 16.3 | No.21 |
| PH280X2C-8FTC1 | 28 | 4900 | 1570 | 3.12 | 7.5 | 64 | 35/370 | 520 | 1.3 | 17.1 | No.21 |
| PH290X2C-8FTC1 | 29 | 5110 | 1650 | 3.1 | 8 | 64 | 35/370 | 520 | 1.3 | 17.1 | No.21 |
| PH295X2C-8FTC1 | 29.4 | 5180 | 1670 | 3.1 | 8 | 64 | 35/370 | 520 | 1.3 | 17.1 | No.21 |
| PH295X2CS-8KUC1 | 29.4 | 5200 | 1700 | 3.06 | 8 | 65 | 35/370 | 750 | 1.8 | 17.7 | No.22 |
| PH310X2CS-8KUC1 | 30.8 | 5410 | 1815 | 2.98 | 9.5 | 64 | 40/370 | 750 | 1.8 | 17.7 | No.22 |
| PH330X2CS-8KUC3 | 32.8 | 5720 | 1920 | 2.98 | 10 | 64 | 40/370 | 750 | 1.8 | 17.7 | No.22 |
| PH340X2CS-8KUC1 | 33.8 | 5860 | 1890 | 3.1 | 9 | 66 | 45/400 | 750 | 1.8 | 18.1 | No.23 |
| PH340X3C-8KUC1 | 34.2 | 5950 | 1945 | 3.06 | 9.1 | 66 | 50/400 | 750 | 1.8 | 20.6 | No.25 |
| PH360X3C-8KUC1 | 35.7 | 6220 | 2040 | 3.05 | 9.6 | 66 | 50/400 | 750 | 1.8 | 20.6 | No.25 |
| PH400X3C-8KUC1 | 40.2 | 6920 | 2245 | 3.08 | 10.5 | 66 | 50/400 | 950 | 2.1 | 23.3 | No.27 |
| PH420X3C-8KUC1 | 42 | 7400 | 2370 | 3.12 | 11.1 | 66 | 50/400 | 950 | 2.1 | 23.3 | No.28 |
| PH440X3C-8KUC1 | 43.5 | 7650 | 2510 | 3.05 | 12.3 | 66 | 50/400 | 950 | 2.1 | 23.3 | No.28 |
| PH460X3C-8KUC1 | 45.9 | 8060 | 2600 | 3.1 | 12.5 | 68 | 55/400 | 1100 | 2.45 | 25.2 | No.29 |
| PH480X3C-8KUC1 | 47.9 | 8460 | 2730 | 3.1 | 13 | 67 | 55/400 | 1100 | 2.45 | 25.2 | No.29 |
Archean refrigeration has been focusing on the refrigeration industry for more than 10 years. The compressors are sold all over the world and have been well received. The company has accumulated strong experience in the compressor market, rich technical support, and a satisfactory one-stop procurement solution. You can rest assured You don’t need to worry about this series, from placing an order to receiving the goods. We provide a complete solution to serve customers well, which is our purpose of hospitality.
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What are the energy-saving technologies available for air compressors?
There are several energy-saving technologies available for air compressors that help improve their efficiency and reduce energy consumption. These technologies aim to optimize the operation of air compressors and minimize energy losses. Here are some common energy-saving technologies used:
1. Variable Speed Drive (VSD) Compressors:
VSD compressors are designed to adjust the motor speed according to the compressed air demand. By varying the motor speed, these compressors can match the output to the actual air requirement, resulting in energy savings. VSD compressors are particularly effective in applications with varying air demands, as they can operate at lower speeds during periods of lower demand, reducing energy consumption.
2. Energy-Efficient Motors:
The use of energy-efficient motors in air compressors can contribute to energy savings. High-efficiency motors, such as those with premium efficiency ratings, are designed to minimize energy losses and operate more efficiently than standard motors. By using energy-efficient motors, air compressors can reduce energy consumption and achieve higher overall system efficiency.
3. Heat Recovery Systems:
Air compressors generate a significant amount of heat during operation. Heat recovery systems capture and utilize this wasted heat for other purposes, such as space heating, water heating, or preheating process air or water. By recovering and utilizing the heat, air compressors can provide additional energy savings and improve overall system efficiency.
4. Air Receiver Tanks:
Air receiver tanks are used to store compressed air and provide a buffer during periods of fluctuating demand. By using appropriately sized air receiver tanks, the compressed air system can operate more efficiently. The tanks help reduce the number of starts and stops of the air compressor, allowing it to run at full load for longer periods, which is more energy-efficient than frequent cycling.
5. System Control and Automation:
Implementing advanced control and automation systems can optimize the operation of air compressors. These systems monitor and adjust the compressed air system based on demand, ensuring that only the required amount of air is produced. By maintaining optimal system pressure, minimizing leaks, and reducing unnecessary air production, control and automation systems help achieve energy savings.
6. Leak Detection and Repair:
Air leaks in compressed air systems can lead to significant energy losses. Regular leak detection and repair programs help identify and fix air leaks promptly. By minimizing air leakage, the demand on the air compressor is reduced, resulting in energy savings. Utilizing ultrasonic leak detection devices can help locate and repair leaks more efficiently.
7. System Optimization and Maintenance:
Proper system optimization and routine maintenance are essential for energy savings in air compressors. This includes regular cleaning and replacement of air filters, optimizing air pressure settings, ensuring proper lubrication, and conducting preventive maintenance to keep the system running at peak efficiency.
By implementing these energy-saving technologies and practices, air compressor systems can achieve significant energy efficiency improvements, reduce operational costs, and minimize environmental impact.
What safety precautions should be taken when working with compressed air?
Working with compressed air requires adherence to certain safety precautions to prevent accidents and ensure the well-being of individuals involved. Here are some important safety measures to consider:
1. Personal Protective Equipment (PPE):
Wear appropriate PPE, including safety goggles or a face shield to protect eyes from flying debris or particles, hearing protection to reduce noise exposure, and gloves to safeguard hands from potential hazards.
2. Compressed Air Storage:
Avoid storing compressed air in containers that are not designed for this purpose, such as soda bottles or makeshift containers. Use approved and properly labeled air storage tanks or cylinders that can handle the pressure and are regularly inspected and maintained.
3. Pressure Regulation:
Ensure that the air pressure is regulated to a safe level suitable for the equipment and tools being used. High-pressure air streams can cause serious injuries, so it is important to follow the manufacturer’s recommendations and never exceed the maximum allowable pressure.
4. Air Hose Inspection:
Regularly inspect air hoses for signs of damage, such as cuts, abrasions, or leaks. Replace damaged hoses immediately to prevent potential accidents or loss of pressure.
5. Air Blowguns:
Exercise caution when using air blowguns. Never direct compressed air towards yourself or others, as it can cause eye injuries, hearing damage, or dislodge particles that may be harmful if inhaled. Always point blowguns away from people or any sensitive equipment or materials.
6. Air Tool Safety:
Follow proper operating procedures for pneumatic tools. Ensure that tools are in good working condition, and inspect them before each use. Use the appropriate accessories, such as safety guards or shields, to prevent accidental contact with moving parts.
7. Air Compressor Maintenance:
Maintain air compressors according to the manufacturer’s guidelines. Regularly check for leaks, clean or replace filters, and drain moisture from the system. Proper maintenance ensures the safe and efficient operation of the compressor.
8. Training and Education:
Provide adequate training and education to individuals working with compressed air. Ensure they understand the potential hazards, safe operating procedures, and emergency protocols. Encourage open communication regarding safety concerns and implement a culture of safety in the workplace.
9. Lockout/Tagout:
When performing maintenance or repairs on compressed air systems, follow lockout/tagout procedures to isolate the equipment from energy sources and prevent accidental startup. This ensures the safety of the individuals working on the system.
10. Proper Ventilation:
Ensure proper ventilation in enclosed areas where compressed air is used. Compressed air can displace oxygen, leading to a potential risk of asphyxiation. Adequate ventilation helps maintain a safe breathing environment.
By adhering to these safety precautions, individuals can minimize the risks associated with working with compressed air and create a safer work environment.
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What is the difference between a piston and rotary screw compressor?
Piston compressors and rotary screw compressors are two common types of air compressors with distinct differences in their design and operation. Here’s a detailed explanation of the differences between these two compressor types:
1. Operating Principle:
- Piston Compressors: Piston compressors, also known as reciprocating compressors, use one or more pistons driven by a crankshaft to compress air. The piston moves up and down within a cylinder, creating a vacuum during the intake stroke and compressing the air during the compression stroke.
- Rotary Screw Compressors: Rotary screw compressors utilize two intermeshing screws (rotors) to compress air. As the male and female screws rotate, the air is trapped between them and gradually compressed as it moves along the screw threads.
2. Compression Method:
- Piston Compressors: Piston compressors achieve compression through a positive displacement process. The air is drawn into the cylinder and compressed as the piston moves back and forth. The compression is intermittent, occurring in discrete cycles.
- Rotary Screw Compressors: Rotary screw compressors also employ a positive displacement method. The compression is continuous as the rotating screws create a continuous flow of air and compress it gradually as it moves along the screw threads.
3. Efficiency:
- Piston Compressors: Piston compressors are known for their high efficiency at lower flow rates and higher pressures. They are well-suited for applications that require intermittent or variable air demand.
- Rotary Screw Compressors: Rotary screw compressors are highly efficient for continuous operation and are designed to handle higher flow rates. They are often used in applications with a constant or steady air demand.
4. Noise Level:
- Piston Compressors: Piston compressors tend to generate more noise during operation due to the reciprocating motion of the pistons and valves.
- Rotary Screw Compressors: Rotary screw compressors are generally quieter in operation compared to piston compressors. The smooth rotation of the screws contributes to reduced noise levels.
5. Maintenance:
- Piston Compressors: Piston compressors typically require more frequent maintenance due to the higher number of moving parts, such as pistons, valves, and rings.
- Rotary Screw Compressors: Rotary screw compressors have fewer moving parts, resulting in lower maintenance requirements. They often have longer service intervals and can operate continuously for extended periods without significant maintenance.
6. Size and Portability:
- Piston Compressors: Piston compressors are available in both smaller portable models and larger stationary units. Portable piston compressors are commonly used in construction, automotive, and DIY applications.
- Rotary Screw Compressors: Rotary screw compressors are typically larger and more suitable for stationary installations in industrial and commercial settings. They are less commonly used in portable applications.
These are some of the key differences between piston compressors and rotary screw compressors. The choice between the two depends on factors such as required flow rate, pressure, duty cycle, efficiency, noise level, maintenance needs, and specific application requirements.
editor by lmc 2025-02-24
China factory 8bar 116psi CHINAMFG Rotary Type Belt Driving Air Cooling Stationery 380V 220V Three Phase 50Hz Fix Speed Screw Air Compressor Price List manufacturer
Product Description
Q1: What information do I need to provide to get the suitable machine?
1. How much air delivery capacity ( Unit:CFM or M3/Min )
2 How much working pressure ( Unit:PSI, Bar or Mpa )
3.What is the voltage and frequency of my country of residence ( V/Hz )
4. Whether I need other accessories such as air tank, filters and/or air dryers.
Tell us the answer, we will offer scheme for you!
Q2: What are the general unit conversion?
1bar = 0.1Mpa = 14.5psi 1m³/min = 35.32cfm 1KW = 1.34HP
Q3: Are you factory or trading company?
We are factory. Our factory is located in 39 Xihu (West Lake) Dis. Rd, HangZhou, ZHangZhoug
Q4: Which trade term can you accept?
FOB, CIF, CFR, EXW, etc.
Q5: How long will you take to arrange production?
15 days for Regular Products, 35 days for Customizing Models
SPECIFICATION
| MODEL | LG-15B-8 |
| Ambient Temperature | -5ºC to +45 ºC |
| Max Pressure (bar) | 8 |
| Air Delivery (m3/min) | 1.5 |
| Compression Stage | Single Stage Compression |
| Cooling Method | Air Cooled |
| Discharge Temperature (ºC) | ≤ 75ºC |
| Oil Cotent (ppm) | ≤3 |
| Transmission Method | Belt Driven |
| Sound Level dB(A) | 66±3 |
| Lubricating Oil Amount | 7.5L |
| Motor Power | 11KW/15HP |
| Motor Level Of Protection | IP55 |
| Voltage | 380V/3ph/50Hz |
| Dimensions (mm) | 1050×740×1150(L*W*H) |
| Weight | 225KG |
| Discharge Outlet Thread | 1/2” |
/* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| After-sales Service: | Operation Training; Maintenance |
|---|---|
| Warranty: | 2-Year-Warranty |
| Lubrication Style: | Lubricated |
| Cooling System: | Air Cooling |
| Power Source: | AC Power |
| Installation Type: | Stationary Type |
| Samples: |
US$ 800/set
1 set(Min.Order) | |
|---|
| Customization: |
Available
|
|
|---|
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What is the impact of humidity on compressed air quality?
Humidity can have a significant impact on the quality of compressed air. Compressed air systems often draw in ambient air, which contains moisture in the form of water vapor. When this air is compressed, the moisture becomes concentrated, leading to potential issues in the compressed air. Here’s an overview of the impact of humidity on compressed air quality:
1. Corrosion:
High humidity in compressed air can contribute to corrosion within the compressed air system. The moisture in the air can react with metal surfaces, leading to rust and corrosion in pipes, tanks, valves, and other components. Corrosion not only weakens the structural integrity of the system but also introduces contaminants into the compressed air, compromising its quality and potentially damaging downstream equipment.
2. Contaminant Carryover:
Humidity in compressed air can cause carryover of contaminants. Water droplets formed due to condensation can carry particulates, oil, and other impurities present in the air. These contaminants can then be transported along with the compressed air, leading to fouling of filters, clogging of pipelines, and potential damage to pneumatic tools, machinery, and processes.
3. Decreased Efficiency of Pneumatic Systems:
Excessive moisture in compressed air can reduce the efficiency of pneumatic systems. Water droplets can obstruct or block the flow of air, leading to decreased performance of pneumatic tools and equipment. Moisture can also cause problems in control valves, actuators, and other pneumatic devices, affecting their responsiveness and accuracy.
4. Product Contamination:
In industries where compressed air comes into direct contact with products or processes, high humidity can result in product contamination. Moisture in compressed air can mix with sensitive products, leading to quality issues, spoilage, or even health hazards in industries such as food and beverage, pharmaceuticals, and electronics manufacturing.
5. Increased Maintenance Requirements:
Humidity in compressed air can increase the maintenance requirements of a compressed air system. Moisture can accumulate in filters, separators, and other air treatment components, necessitating frequent replacement or cleaning. Excessive moisture can also lead to the growth of bacteria, fungus, and mold within the system, requiring additional cleaning and maintenance efforts.
6. Adverse Effects on Instrumentation:
Humidity can adversely affect instrumentation and control systems that rely on compressed air. Moisture can disrupt the accuracy and reliability of pressure sensors, flow meters, and other pneumatic instruments, leading to incorrect measurements and control signals.
To mitigate the impact of humidity on compressed air quality, various air treatment equipment is employed, including air dryers, moisture separators, and filters. These devices help remove moisture from the compressed air, ensuring that the air supplied is dry and of high quality for the intended applications.
What is the impact of altitude on air compressor performance?
The altitude at which an air compressor operates can have a significant impact on its performance. Here are the key factors affected by altitude:
1. Decreased Air Density:
As altitude increases, the air density decreases. This means there is less oxygen available per unit volume of air. Since air compressors rely on the intake of atmospheric air for compression, the reduced air density at higher altitudes can lead to a decrease in compressor performance.
2. Reduced Airflow:
The decrease in air density at higher altitudes results in reduced airflow. This can affect the cooling capacity of the compressor, as lower airflow hampers the dissipation of heat generated during compression. Inadequate cooling can lead to increased operating temperatures and potential overheating of the compressor.
3. Decreased Power Output:
Lower air density at higher altitudes also affects the power output of the compressor. The reduced oxygen content in the air can result in incomplete combustion, leading to decreased power generation. As a result, the compressor may deliver lower airflow and pressure than its rated capacity.
4. Extended Compression Cycle:
At higher altitudes, the air compressor needs to work harder to compress the thinner air. This can lead to an extended compression cycle, as the compressor may require more time to reach the desired pressure levels. The longer compression cycle can affect the overall efficiency and productivity of the compressor.
5. Pressure Adjustments:
When operating an air compressor at higher altitudes, it may be necessary to adjust the pressure settings. As the ambient air pressure decreases with altitude, the compressor’s pressure gauge may need to be recalibrated to maintain the desired pressure output. Failing to make these adjustments can result in underinflated tires, improper tool performance, or other issues.
6. Compressor Design:
Some air compressors are specifically designed to handle higher altitudes. These models may incorporate features such as larger intake filters, more robust cooling systems, and adjusted compression ratios to compensate for the reduced air density and maintain optimal performance.
7. Maintenance Considerations:
Operating an air compressor at higher altitudes may require additional maintenance and monitoring. It is important to regularly check and clean the intake filters to ensure proper airflow. Monitoring the compressor’s operating temperature and making any necessary adjustments or repairs is also crucial to prevent overheating and maintain efficient performance.
When using an air compressor at higher altitudes, it is advisable to consult the manufacturer’s guidelines and recommendations specific to altitude operations. Following these guidelines and considering the impact of altitude on air compressor performance will help ensure safe and efficient operation.
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What is the impact of tank size on air compressor performance?
The tank size of an air compressor plays a significant role in its performance and functionality. Here are the key impacts of tank size:
1. Air Storage Capacity: The primary function of the air compressor tank is to store compressed air. A larger tank size allows for greater air storage capacity. This means the compressor can build up a reserve of compressed air, which can be useful for applications that require intermittent or fluctuating air demand. Having a larger tank ensures a steady supply of compressed air during peak usage periods.
2. Run Time: The tank size affects the run time of the air compressor. A larger tank can provide longer continuous operation before the compressor motor needs to restart. This is because the compressed air in the tank can be used to meet the demand without the need for the compressor to run continuously. It reduces the frequency of motor cycling, which can improve energy efficiency and prolong the motor’s lifespan.
3. Pressure Stability: A larger tank helps maintain stable pressure during usage. When the compressor is running, it fills the tank until it reaches a specified pressure level, known as the cut-out pressure. As the air is consumed from the tank, the pressure drops to a certain level, known as the cut-in pressure, at which point the compressor restarts to refill the tank. A larger tank size results in a slower pressure drop during usage, ensuring more consistent and stable pressure for the connected tools or equipment.
4. Duty Cycle: The duty cycle refers to the amount of time an air compressor can operate within a given time period. A larger tank size can increase the duty cycle of the compressor. The compressor can run for longer periods before reaching its duty cycle limit, reducing the risk of overheating and improving overall performance.
5. Tool Compatibility: The tank size can also impact the compatibility with certain tools or equipment. Some tools, such as high-demand pneumatic tools or spray guns, require a continuous and adequate supply of compressed air. A larger tank size ensures that the compressor can meet the air demands of such tools without causing pressure drops or affecting performance.
It is important to note that while a larger tank size offers advantages in terms of air storage and performance, it also results in a larger and heavier compressor unit. Consider the intended application, available space, and portability requirements when selecting an air compressor with the appropriate tank size.
Ultimately, the optimal tank size for an air compressor depends on the specific needs of the user and the intended application. Assess the air requirements, duty cycle, and desired performance to determine the most suitable tank size for your air compressor.
editor by CX 2024-02-22
China Good quality 380V 250kw Fix Speed Direct Driven Rotary Screw Air Compressor portable air compressor
Product Description
CHINAMFG compressor is 1 of the leading compressor manufacturers in China. With 20 years of manufacturing experience and a team of experienced engineers and managers, CHINAMFG began to establish its own brand by providing high-quality air compressors and compressed air treatment equipment to the market. CHINAMFG has a wide range of products ranging from oil-lubricated and oil-free rotary screw compressors and two-stage compressors. To further enrich the product lines, besides permanent magnet compressors and laser cutting compressors, CHINAMFG could also provide low-pressure and high-pressure compressors, portable air compressors and air treatment equipment.
Oaliss-your very own system provider.
Specification
|
Item |
Description |
|
Condition |
New |
|
Warranty |
1 Year |
|
Applicable Industries |
Hotels, Garment Shops, Building Material Shops, Manufacturing Plant, Machinery Repair Shops, Food & Beverage Factory, Farms, Restaurant, Home Use, Retail, Food Shop, Printing Shops, Construction works, Energy & Mining, Food & Beverage Shops, Other, Advertising Company |
|
After Warranty Service |
Spare parts |
|
Local Service Location |
None |
|
Showroom Location |
None |
|
Video outgoing-inspection |
Provided |
|
Machinery Test Report |
Provided |
|
Marketing Type |
New Product 2571 |
|
Place of CHINAMFG |
China |
|
Brand Name |
Oaliss |
|
Type |
Air Compressor |
| Compressor type | Max. pressure | Capacity FAD | Motor power | Noise level | Weight | Air outlet | Dimensions (mm) |
| bar(e) | m3/min | kW | dB(A) | kg | LxWxH | ||
| OLS-08A OLS-08AV |
7 | 1.30 | 7.5 | 64 | 184 | G1/2″ | 850x700x920 |
| 8 | 1.2 | 7.5 | 64 | 184 | G1/2″ | 850x700x920 | |
| 10 | 1 | 7.5 | 64 | 184 | G1/2″ | 850x700x920 | |
| 13 | 0.8 | 7.5 | 64 | 184 | G1/2″ | 850x700x920 | |
| OLS-11A OLS-11AV |
7 | 1.7 | 11 | 65 | 278 | G3/4″ | 1080x750x1000 |
| 8 | 1.6 | 11 | 65 | 278 | G3/4″ | 1080x750x1000 | |
| 10 | 1.4 | 11 | 65 | 278 | G3/4″ | 1080x750x1000 | |
| 13 | 1.2 | 11 | 65 | 278 | G3/4″ | 1080x750x1000 | |
| OLS-15A OLS-15AV |
7 | 2.52 | 15 | 66 | 299 | G3/4″ | 1080x750x1000 |
| 8 | 2.4 | 15 | 66 | 299 | G3/4″ | 1080x750x1000 | |
| 10 | 2.1 | 15 | 66 | 299 | G3/4″ | 1080x750x1000 | |
| 13 | 1.7 | 15 | 66 | 299 | G3/4″ | 1080x750x1000 | |
| OLS-18A OLS-18AV |
7 | 3.2 | 18.5 | 67 | 452 | G1″ | 1380x850x1160 |
| 8 | 3.0 | 18.5 | 67 | 452 | G1″ | 1380x850x1160 | |
| 10 | 2.7 | 18.5 | 67 | 452 | G1″ | 1380x850x1160 | |
| 13 | 2.3 | 18.5 | 67 | 452 | G1″ | 1380x850x1160 | |
| OLS-22A OLS-22AV |
7 | 3.7 | 22 | 68 | 467 | G1″ | 1380x850x1160 |
| 8 | 3.6 | 22 | 68 | 467 | G1″ | 1380x850x1160 | |
| 10 | 3.4 | 22 | 68 | 467 | G1″ | 1380x850x1160 | |
| 13 | 2.8 | 22 | 68 | 467 | G1″ | 1380x850x1160 | |
| OLS-30A OLS-30AV |
7 | 5.1 | 30 | 69 | 452 | G1″ | 1230x850x1110 |
| 8 | 5.0 | 30 | 69 | 452 | G1″ | 1230x850x1110 | |
| 10 | 4.9 | 30 | 69 | 452 | G1″ | 1230x850x1110 | |
| 13 | 4.7 | 30 | 69 | 452 | G1″ | 1230x850x1110 | |
| OLS-37A OLS-37AV |
7 | 6.5 | 37 | 69 | 583 | G1 1/2″ | 1340x950x1210 |
| 8 | 6.2 | 37 | 69 | 583 | G1 1/2″ | 1340x950x1210 | |
| 10 | 5.6 | 37 | 69 | 583 | G1 1/2″ | 1340x950x1210 | |
| 13 | 5.0 | 37 | 69 | 583 | G1 1/2″ | 1340x950x1210 | |
| OLS-45A OLS-45AV |
7 | 8.0 | 45 | 70 | 688 | G1 1/2″ | 1500x1000x1300 |
| 8 | 7.7 | 45 | 70 | 688 | G1 1/2″ | 1500x1000x1300 | |
| 10 | 7.0 | 45 | 70 | 688 | G1 1/2″ | 1500x1000x1300 | |
| 13 | 6.7 | 45 | 70 | 688 | G1 1/2″ | 1500x1000x1300 | |
| OLS-55A OLS-55AV |
7 | 10.4 | 55 | 70 | 1055 | G2″ | 1900x1250x1570 |
| 8 | 9.8 | 55 | 70 | 1055 | G2″ | 1900x1250x1570 | |
| 10 | 9.1 | 55 | 70 | 1055 | G2″ | 1900x1250x1570 | |
| 13 | 7.8 | 55 | 70 | 1055 | G2″ | 1900x1250x1570 | |
| OLS-75A OLS-75AV |
7 | 13.6 | 75 | 72 | 1129 | G2″ | 1900x1250x1570 |
| 8 | 13.1 | 75 | 72 | 1129 | G2″ | 1900x1250x1570 | |
| 10 | 11.8 | 75 | 72 | 1129 | G2″ | 1900x1250x1570 | |
| 13 | 9.8 | 75 | 72 | 1129 | G2″ | 1900x1250x1570 | |
| OLS-90A OLS-90AV |
7 | 16.1 | 90 | 73 | 1220 | G2″ | 2000*1250*1680 |
| 8 | 15.5 | 90 | 73 | 1220 | G2″ | 2000*1250*1680 | |
| 10 | 14.8 | 90 | 73 | 1220 | G2″ | 2000*1250*1680 | |
| 13 | 12.5 | 90 | 73 | 1220 | G2″ | 2000*1250*1680 | |
| OLS-110A OLS-110AV |
7 | 21.2 | 110 | 73 | 1970 | G1 1/2″ | 2400x1630x1980 |
| 8 | 19.6 | 110 | 73 | 1970 | G1 1/2″ | 2400x1630x1980 | |
| 10 | 17.8 | 110 | 73 | 1970 | G1 1/2″ | 2400x1630x1980 | |
| 13 | 15.5 | 110 | 73 | 1970 | G1 1/2″ | 2400x1630x1980 | |
| OLS-132A OLS-132AV |
7 | 24.1 | 132 | 73 | 2120 | G1 1/2″ | 2400x1630x1980 |
| 8 | 23.2 | 132 | 73 | 2120 | G1 1/2″ | 2400x1630x1980 | |
| 10 | 19.5 | 132 | 73 | 2120 | G1 1/2″ | 2400x1630x1980 | |
| 13 | 17.8 | 132 | 73 | 2120 | G1 1/2″ | 2400x1630x1980 | |
| OLS-160A OLS-160AV |
7 | 28.8 | 160 | 73 | 3620 | G1 1/2″ | 2800x1820x2150 |
| 8 | 27.8 | 160 | 73 | 3620 | G1 1/2″ | 2800x1820x2150 | |
| 10 | 23 | 160 | 73 | 3620 | G1 1/2″ | 2800x1820x2150 | |
| 13 | 20 | 160 | 73 | 3620 | G1 1/2″ | 2800x1820x2150 | |
| OLS-185A OLS-185AV |
7 | 32.5 | 185 | 74 | 3920 | DN85 | 2800x1820x2150 |
| 8 | 31.2 | 185 | 74 | 3920 | DN85 | 2800x1820x2150 | |
| 10 | 27.5 | 185 | 74 | 3920 | DN85 | 2800x1820x2150 | |
| 13 | 25.8 | 185 | 74 | 3920 | DN85 | 2800x1820x2150 | |
| OLS-200A OLS-200AV |
7 | 36.8 | 220 | 76 | 4800 | DN100 | 3000x1900x1930 |
| 8 | 34.7 | 220 | 76 | 4800 | DN100 | 3000x1900x1930 | |
| 10 | 31.5 | 220 | 76 | 4800 | DN100 | 3000x1900x1930 | |
| 13 | 29.5 | 220 | 76 | 4800 | DN100 | 3000x1900x1930 | |
| OLS-250A OLS-250AV |
7 | 43 | 250 | 76 | 5200 | DN100 | 3000x1900x1930 |
| 8 | 41.5 | 250 | 76 | 5200 | DN100 | 3000x1900x1930 | |
| 10 | 38 | 250 | 76 | 5200 | DN100 | 3000x1900x1930 | |
| 13 | 34.9 | 250 | 76 | 5200 | DN100 | 3000x1900x1930 |
Industrial equipment, printing service, pipelines, power plants, oil&gas, oil refinery, coating, painting,
plastics, steel industry, rubber, mechanical, blow molding, color sorter machine, shipyard, sandblasting,
metallurgy, etc.
To provide the right equipment to you, please send us your detailed requirements.
1 Q: How about the quality of products?
A: We are an authorized distributor of Atlas Copco. Don’t worry about the quality and service.
2 Q: How long is your delivery lead time?
A: If there is stock, the lead time is about 3 working days after we get the payment if need to
be produced, it depends.
3 Q: How about your overseas after-sale service?
A: (1)Provide customers with installation and commissioning online instructions.
(2)Worldwide agents and after service available.
4 Q: Can you accept OEM&ODM orders?
A: Yes, we have a professional design team, OEM&ODM orders are highly welcomed.
/* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| Lubrication Style: | Lubricated |
|---|---|
| Cooling System: | Air Cooling |
| Power Source: | AC Power |
| Cylinder Position: | Vertical |
| Structure Type: | Closed Type |
| Installation Type: | Stationary Type |
| Customization: |
Available
|
|
|---|
What are the energy-saving technologies available for air compressors?
There are several energy-saving technologies available for air compressors that help improve their efficiency and reduce energy consumption. These technologies aim to optimize the operation of air compressors and minimize energy losses. Here are some common energy-saving technologies used:
1. Variable Speed Drive (VSD) Compressors:
VSD compressors are designed to adjust the motor speed according to the compressed air demand. By varying the motor speed, these compressors can match the output to the actual air requirement, resulting in energy savings. VSD compressors are particularly effective in applications with varying air demands, as they can operate at lower speeds during periods of lower demand, reducing energy consumption.
2. Energy-Efficient Motors:
The use of energy-efficient motors in air compressors can contribute to energy savings. High-efficiency motors, such as those with premium efficiency ratings, are designed to minimize energy losses and operate more efficiently than standard motors. By using energy-efficient motors, air compressors can reduce energy consumption and achieve higher overall system efficiency.
3. Heat Recovery Systems:
Air compressors generate a significant amount of heat during operation. Heat recovery systems capture and utilize this wasted heat for other purposes, such as space heating, water heating, or preheating process air or water. By recovering and utilizing the heat, air compressors can provide additional energy savings and improve overall system efficiency.
4. Air Receiver Tanks:
Air receiver tanks are used to store compressed air and provide a buffer during periods of fluctuating demand. By using appropriately sized air receiver tanks, the compressed air system can operate more efficiently. The tanks help reduce the number of starts and stops of the air compressor, allowing it to run at full load for longer periods, which is more energy-efficient than frequent cycling.
5. System Control and Automation:
Implementing advanced control and automation systems can optimize the operation of air compressors. These systems monitor and adjust the compressed air system based on demand, ensuring that only the required amount of air is produced. By maintaining optimal system pressure, minimizing leaks, and reducing unnecessary air production, control and automation systems help achieve energy savings.
6. Leak Detection and Repair:
Air leaks in compressed air systems can lead to significant energy losses. Regular leak detection and repair programs help identify and fix air leaks promptly. By minimizing air leakage, the demand on the air compressor is reduced, resulting in energy savings. Utilizing ultrasonic leak detection devices can help locate and repair leaks more efficiently.
7. System Optimization and Maintenance:
Proper system optimization and routine maintenance are essential for energy savings in air compressors. This includes regular cleaning and replacement of air filters, optimizing air pressure settings, ensuring proper lubrication, and conducting preventive maintenance to keep the system running at peak efficiency.
By implementing these energy-saving technologies and practices, air compressor systems can achieve significant energy efficiency improvements, reduce operational costs, and minimize environmental impact.
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Can air compressors be used for medical and dental applications?
Yes, air compressors can be used for various medical and dental applications. Compressed air is a reliable and versatile utility in healthcare settings, providing power for numerous devices and procedures. Here are some common applications of air compressors in medical and dental fields:
1. Dental Tools:
Air compressors power a wide range of dental tools and equipment, such as dental handpieces, air syringes, air scalers, and air abrasion devices. These tools rely on compressed air to generate the necessary force and airflow for effective dental procedures.
2. Medical Devices:
Compressed air is used in various medical devices and equipment. For example, ventilators and anesthesia machines utilize compressed air to deliver oxygen and other gases to patients. Nebulizers, used for respiratory treatments, also rely on compressed air to convert liquid medications into a fine mist for inhalation.
3. Laboratory Applications:
Air compressors are used in medical and dental laboratories for various purposes. They power laboratory instruments, such as air-driven centrifuges and sample preparation equipment. Compressed air is also used for pneumatic controls and automation systems in lab equipment.
4. Surgical Tools:
In surgical settings, compressed air is employed to power specialized surgical tools. High-speed air-driven surgical drills, saws, and bone-cutting instruments are commonly used in orthopedic and maxillofacial procedures. Compressed air ensures precise control and efficiency during surgical interventions.
5. Sterilization and Autoclaves:
Compressed air is essential for operating sterilization equipment and autoclaves. Autoclaves use steam generated by compressed air to sterilize medical instruments, equipment, and supplies. The pressurized steam provides effective disinfection and ensures compliance with rigorous hygiene standards.
6. Dental Air Compressors:
Specialized dental air compressors are designed specifically for dental applications. These compressors have features such as moisture separators, filters, and noise reduction mechanisms to meet the specific requirements of dental practices.
7. Air Quality Standards:
In medical and dental applications, maintaining air quality is crucial. Compressed air used in healthcare settings must meet specific purity standards. This often requires the use of air treatment systems, such as filters, dryers, and condensate management, to ensure the removal of contaminants and moisture.
8. Compliance and Regulations:
Medical and dental facilities must comply with applicable regulations and guidelines regarding the use of compressed air. These regulations may include requirements for air quality, maintenance and testing procedures, and documentation of system performance.
It is important to note that medical and dental applications have specific requirements and standards. Therefore, it is essential to choose air compressors and associated equipment that meet the necessary specifications and comply with industry regulations.
What are the safety considerations when operating an air compressor?
Operating an air compressor requires careful attention to safety to prevent accidents, injuries, and equipment damage. Here are some important safety considerations to keep in mind:
1. Read the Manual: Before operating an air compressor, thoroughly read and understand the manufacturer’s instruction manual. Familiarize yourself with the specific safety guidelines, recommended operating procedures, and any specific precautions or warnings provided by the manufacturer.
2. Proper Ventilation: Ensure that the area where the air compressor is operated has adequate ventilation. Compressed air can produce high levels of heat and exhaust gases. Good ventilation helps dissipate heat, prevent the buildup of fumes, and maintain a safe working environment.
3. Personal Protective Equipment (PPE): Always wear appropriate personal protective equipment, including safety glasses or goggles, hearing protection, and non-slip footwear. Depending on the task, additional PPE such as gloves, a dust mask, or a face shield may be necessary to protect against specific hazards.
4. Pressure Relief: Air compressors should be equipped with pressure relief valves or devices to prevent overpressurization. Ensure that these safety features are in place and functioning correctly. Regularly inspect and test the pressure relief mechanism to ensure its effectiveness.
5. Secure Connections: Use proper fittings, hoses, and couplings to ensure secure connections between the air compressor, air tools, and accessories. Inspect all connections before operation to avoid leaks or sudden hose disconnections, which can cause injuries or damage.
6. Inspect and Maintain: Regularly inspect the air compressor for any signs of damage, wear, or leaks. Ensure that all components, including hoses, fittings, and safety devices, are in good working condition. Follow the manufacturer’s recommended maintenance schedule to keep the compressor in optimal shape.
7. Electrical Safety: If the air compressor is electric-powered, take appropriate electrical safety precautions. Use grounded outlets and avoid using extension cords unless approved for the compressor’s power requirements. Protect electrical connections from moisture and avoid operating the compressor in wet or damp environments.
8. Safe Start-Up and Shut-Down: Properly start and shut down the air compressor following the manufacturer’s instructions. Ensure that all air valves are closed before starting the compressor and release all pressure before performing maintenance or repairs.
9. Training and Competence: Ensure that operators are adequately trained and competent in using the air compressor and associated tools. Provide training on safe operating procedures, hazard identification, and emergency response protocols.
10. Emergency Preparedness: Have a clear understanding of emergency procedures and how to respond to potential accidents or malfunctions. Know the location of emergency shut-off valves, fire extinguishers, and first aid kits.
By adhering to these safety considerations and implementing proper safety practices, the risk of accidents and injuries associated with operating an air compressor can be significantly reduced. Prioritizing safety promotes a secure and productive working environment.
editor by CX 2024-02-01
China supplier CHINAMFG 380V 5.5HP Italy Type Piston Belt Air Compressor with Aluminum Casing 2090 with Hot selling
Product Description
Product Description
| Model | Voltage | Power | Cylinder | Speed | Theoretic Displacement |
Pressure | Tank | Tank Size | |
| V/HZ/ph | Kw | HP | mm*n | r.p.m. | L/min | bar/psi | L | mm*mm | |
| XYB2090B-200 | 380V/50HZ/3 | 4.0 | 5.5 | ¢90*2 | 900 | 687 | 8/115 | 200 | ¢450*1050 |
Model description
XYB2090B-200
XY: CHINAMFG company;
B: Italian type;
2: 2pcs cylinder;
90: cylinder diameter 90(mm);
B: air pump type B;
200: tank volume 200L;
Product advanatge
1.belt-driven 2 cylinders unit, with stable & completely closed belt guard
2.motor circuit breaker,start capacitor or three-phase versions for good starting performance
3.easy-open drain valve
4.pressure switch with cut-in/cut-off pressure 5.regulator with gauge to show pressure
6.quick connector is available
7.petrol engine air compressor with master unloader& throttle
control for better pressure control & petrol saving
8.plastic coating tank
Explosive
Installation Instructions
Application
Similar products
Packaging & Shipping
Company Profile
Founded in 1988, we are proessional in water pump & air compressor, develop solar pump in 2011. We are ZHangZhoug key private enterprise and pioneering backbone enterprise. We have the most advanced technology in both production and management. We have a very powerful Research & Development team. We carry on strict monitoring and control to products by many kinds of advanced apparatus with third-party qualified laboratory. Our products have been approved by RoHS,EMC and CE certificate.
XINYAc ompany, pays much attention to the perfect integration of performance and appearance,so that you can safely enjoy XINYAproducts.All CHINAMFG products are checked routinely and strictly,and every detail in design is optimized in particular use of CHINAMFG products.
Certifications
FAQ
Q: Are you manufacturer or trading factory?
A: We are factory, located in HangZhou pump industry zone.
Q: What is your MOQ?
A:
| Product | ready good | Customized goods |
| Vibration pump | 1pc/model | 1000pcs/model |
| Solar pump | 1pc/model | 50pcs/model |
| Direct-driven air compressor | 1pc/model | 100pcs/model |
| Belt-driven air compressor | 1pc/model | mixed model for 1*40HQ |
| Oil free air compressor | 1pc/model | 100pcs/model |
| Air pump | 1pc/model | 100pcs/model |
Q: May OEM?
A: OK, pls provide your logo design files when PI is comfirmed.
Q: May I buy 1pc sample first? And How long?
A: Of course, we support sampling order, especially for new customers.
Ready goods, within 3 working days; Customized goods, 15-45 days.
Q: What is your Payment terms?
A: Sample: 100% payment in advance
Official order: 30% deposit TT and 70% balance against BL copy
Q: What about the warranty?
A: one-year quality guarantee policy. Money refunded if any quality issues come up.
Q: Where is the landing port?
A: HangZhou port, China.
If ZheJiang or other port, pls inform us in advance.
Q: May I visit your factory? Where?
A: Welcome to ZHangZhoug CHINAMFG Pump Industry Co.,ltd
Address: DaXi Pump Industrial Zone, DaXi Town, WenLing City, ZheJiang Province, China.
Nearest railway station:
1. HangZhou station,
2. HangZhou station,
3. HangZhou station;
Nearest air port:
1. HangZhou airport,
2. HangZhou airport;
| After-sales Service: | Online After Service |
|---|---|
| Warranty: | 1 Year Warranty |
| Lubrication Style: | Lubricated |
| Cooling System: | Air Cooling |
| Cylinder Position: | Vertical |
| Structure Type: | Closed Type |
| Samples: |
US$ 750/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
|
|
|---|
.webp)
What role do air dryers play in compressed air systems?
Air dryers play a crucial role in compressed air systems by removing moisture and contaminants from the compressed air. Compressed air, when generated, contains water vapor from the ambient air, which can condense and cause issues in the system and end-use applications. Here’s an overview of the role air dryers play in compressed air systems:
1. Moisture Removal:
Air dryers are primarily responsible for removing moisture from the compressed air. Moisture in compressed air can lead to problems such as corrosion in the system, damage to pneumatic tools and equipment, and compromised product quality in manufacturing processes. Air dryers utilize various techniques, such as refrigeration, adsorption, or membrane separation, to reduce the dew point of the compressed air and eliminate moisture.
2. Contaminant Removal:
In addition to moisture, compressed air can also contain contaminants like oil, dirt, and particles. Air dryers help in removing these contaminants to ensure clean and high-quality compressed air. Depending on the type of air dryer, additional filtration mechanisms may be incorporated to enhance the removal of oil, particulates, and other impurities from the compressed air stream.
3. Protection of Equipment and Processes:
By removing moisture and contaminants, air dryers help protect the downstream equipment and processes that rely on compressed air. Moisture and contaminants can negatively impact the performance, reliability, and lifespan of pneumatic tools, machinery, and instrumentation. Air dryers ensure that the compressed air supplied to these components is clean, dry, and free from harmful substances, minimizing the risk of damage and operational issues.
4. Improved Productivity and Efficiency:
Utilizing air dryers in compressed air systems can lead to improved productivity and efficiency. Dry and clean compressed air reduces the likelihood of equipment failures, downtime, and maintenance requirements. It also prevents issues such as clogging of air lines, malfunctioning of pneumatic components, and inconsistent performance of processes. By maintaining the quality of compressed air, air dryers contribute to uninterrupted operations, optimized productivity, and cost savings.
5. Compliance with Standards and Specifications:
Many industries and applications have specific standards and specifications for the quality of compressed air. Air dryers play a vital role in meeting these requirements by ensuring that the compressed air meets the desired quality standards. This is particularly important in industries such as food and beverage, pharmaceuticals, electronics, and automotive, where clean and dry compressed air is essential for product integrity, safety, and regulatory compliance.
By incorporating air dryers into compressed air systems, users can effectively control moisture and contaminants, protect equipment and processes, enhance productivity, and meet the necessary quality standards for their specific applications.
Can air compressors be used for inflating tires and sporting equipment?
Yes, air compressors can be used for inflating tires and sporting equipment, providing a convenient and efficient method for achieving the desired air pressure. Here’s how air compressors are used for these purposes:
1. Tire Inflation:
Air compressors are commonly used for inflating vehicle tires, including car tires, motorcycle tires, bicycle tires, and even larger truck or trailer tires. Air compressors provide a continuous source of pressurized air, allowing for quick and accurate inflation. They are often used in automotive repair shops, gas stations, and by individuals who regularly need to inflate tires.
2. Sporting Equipment Inflation:
Air compressors are also useful for inflating various types of sporting equipment. This includes inflatable balls such as soccer balls, basketballs, footballs, and volleyballs. Additionally, air compressors can be used to inflate inflatable water toys, air mattresses, inflatable kayaks, and other recreational items that require air for proper inflation.
3. Air Tools for Inflation:
Air compressors can power air tools specifically designed for inflation purposes. These tools, known as inflators or air blow guns, provide controlled airflow for inflating tires and sporting equipment. They often have built-in pressure gauges and nozzles designed to fit different types of valves, making them versatile and suitable for various inflation tasks.
4. Adjustable Pressure:
One advantage of using air compressors for inflation is the ability to adjust the pressure. Most air compressors allow users to set the desired pressure level using a pressure regulator or control knob. This feature ensures that tires and sporting equipment are inflated to the recommended pressure, promoting optimal performance and safety.
5. Efficiency and Speed:
Air compressors provide a faster and more efficient inflation method compared to manual pumps. The continuous supply of compressed air allows for quick inflation, reducing the time and effort required to inflate tires and sporting equipment manually.
6. Portable Air Compressors:
For inflating tires and sporting equipment on the go, portable air compressors are available. These compact and lightweight compressors can be easily carried in vehicles or taken to sports events and outdoor activities, ensuring convenient access to a reliable air supply.
It is important to note that when using air compressors for inflating tires, it is recommended to follow manufacturer guidelines and proper inflation techniques to ensure safety and avoid overinflation.
How does an air compressor work?
An air compressor works by using mechanical energy to compress and pressurize air, which is then stored and used for various applications. Here’s a detailed explanation of how an air compressor operates:
1. Air Intake: The air compressor draws in ambient air through an intake valve or filter. The air may pass through a series of filters to remove contaminants such as dust, dirt, and moisture, ensuring the compressed air is clean and suitable for its intended use.
2. Compression: The intake air enters a compression chamber, typically consisting of one or more pistons or a rotating screw mechanism. As the piston moves or the screw rotates, the volume of the compression chamber decreases, causing the air to be compressed. This compression process increases the pressure and reduces the volume of the air.
3. Pressure Build-Up: The compressed air is discharged into a storage tank or receiver where it is held at a high pressure. The tank allows the compressed air to be stored for later use and helps to maintain a consistent supply of compressed air, even during periods of high demand.
4. Pressure Regulation: Air compressors often have a pressure regulator that controls the output pressure of the compressed air. This allows the user to adjust the pressure according to the requirements of the specific application. The pressure regulator ensures that the compressed air is delivered at the desired pressure level.
5. Release and Use: When compressed air is needed, it is released from the storage tank or receiver through an outlet valve or connection. The compressed air can then be directed to the desired application, such as pneumatic tools, air-operated machinery, or other pneumatic systems.
6. Continued Operation: The air compressor continues to operate as long as there is a demand for compressed air. When the pressure in the storage tank drops below a certain level, the compressor automatically starts again to replenish the compressed air supply.
Additionally, air compressors may include various components such as pressure gauges, safety valves, lubrication systems, and cooling mechanisms to ensure efficient and reliable operation.
In summary, an air compressor works by drawing in air, compressing it to increase its pressure, storing the compressed air, regulating the output pressure, and releasing it for use in various applications. This process allows for the generation of a continuous supply of compressed air for a wide range of industrial, commercial, and personal uses.
editor by CX 2023-10-30