Product Description
Reciprotating Oil-Free Diaphragm/Piston Compressor
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Our company specialize in making various kinds of compressors, such as:Diaphragm compressor,Piston compressor, Air compressors,Nitrogen generator,Oxygen generator ,Gas cylinder,etc. All products can be customized according to your parameters and other requirements.
Process principle:
Diaphragm compressor according to the needs of the user, choose the right type of compressor to meet the needs of the user. The diaphragm of the metal diaphragm compressor completely separates the gas from the hydraulic oil system to ensure the purity of the gas and no pollution to the gas. At the same time, advanced manufacturing technology and accurate membrane cavity design technology are adopted to ensure the service life of the diaphragm compressor diaphragm. No pollution: the metal diaphragm group completely separates the process gas from the hydraulic oil and lubricating oil parts to ensure the gas purity.
Diaphragm compressor structure is mainly composed of motor, base, crankcase, crankshaft linkage mechanism, cylinder components, crankshaft connecting rod, piston, oil and gas pipeline, electric control system and some accessories.
This series of oil-free compressor is one of the first products produced by our factory in China. The product has the characteristics of low speed, high component strength, stable operation, long service life and convenient maintenance. ZW series compressor is in the form of unit. It integrates compressor, gas-liquid separator, filter, 2 position four-way valve, safety valve, check valve, explosion-proof motor and chassis. The utility model has the advantages of small volume, light weight, low noise, good sealing performance, easy installation, simple operation, etc.
Product features:
1. Reliable operation and easy maintenance.
2. Flexible load regulation, wide range of air intake, wide range of application.
3. Integral skid structure, low noise, easy to install in urban area, saving investment.
4. CHINAMFG PLC control system, high degree of automation, remote control convenient.
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Refenrence specifications
Model | Volume flow(Nm3/h) | Suction pressure(Mpa) | Exhaust pressure (Mpa) | Motor power(kw) | Dimension (mm) | |
1 | ZW-0.4/ 2-250 | 60 | 0.2 | 25 | 18.5 | 2800*2200*1600 |
2 | ZW-0.81/ (1~3)-25 | 120 | 0.1~0.3 | 2.5 | 22 | 1000*580*870 |
3 | DW-5.8/0.5-5 | 400~500 | 0.05 | 0.5 | 37 | 2000*1600*1200 |
4 | DW-10/2 | 510 | Atmospheric pressure | 0.2 | 37 | 2000*1600*1200 |
5 | DW-6.0/5 | 300 | Atmospheric pressure | 0.5 | 37 | 2000*1600*1200 |
6 | DW-0.21/(20~30)-250 | 270 | 2~3 | 25 | 45 | 3200*2200*1600 |
7 | ZW-0.16/60-250 | 480 | 6 | 25 | 45 | 3000*2200*1600 |
8 | ZW-0.46 /(5~10)-250 | 200 | 0.5~1.0 | 25 | 45 | 3000*2200*1600 |
9 | DW-1.34/2-250 | 208 | 0.2 | 25 | 55 | 3400*2200*1600 |
10 | DW-0.6/24-85 | 720 | 2.4 | 8.5 | 55 | 2200*1600*1200 |
11 | ZW-2.9/14.2-20 | 220 | 1.42 | 2 | 55 | 2200*1600*1200 |
12 | VW-2.0/(2~4)-25 | 410 | 0.2~0.4 | 2.5 | 55 | 3400*2200*1600 |
13 | DW-0.85/(3~4)-250 | 180 | 0.3~0.4 | 25 | 55 | 2400*1800*1500 |
14 | DW-25-(0.2~0.3)-1.5 | 1620 | 0.02~0.03 | 0.15 | 75 | 2400*1800*1500 |
15 | VW-8.0/0.3-25 | 540 | 0.03 | 2.5 | 90 | 2400*1800*1500 |
16 | DW-6.8/0.05-40 | 200~400 | 0.005 | 4 | 90 | 2400*1800*1500 |
17 | DW-1.2 /6-250 | 420 | 0.6 | 25 | 90 | 3400*2200*1600 |
18 | DW-3.45/3.5-28 | 800 | 0.35 | 2.8 | 90 | 2400*1800*1500 |
19 | DW-8.3/0.6-15 | 660 | 0.06 | 15 | 90 | 2400*1800*1500 |
20 | DW-0.48/40-250 | 900 | 4 | 25 | 110 | 3400*2200*1600 |
21 | DW-2.7/2-200 | 420 | 0.2 | 20 | 110 | 3400*2200*1600 |
22 | VW-3.22/2-250 | 500 | 0.2 | 25 | 132 | 3400*2200*1600 |
23 | DW-6.0/(1~3)-25 | 840 | 0.1~0.3 | 2.5 | 132 | 3400*2200*1300 |
24 | DW-0.92/16-220 | 800 | 1.6 | 22 | 132 | 3400*2200*1600 |
25 | VW-3.5/2.5-250 | 600 | 0.25 | 25 | 160 | 4000*2000*1600 |
26 | DW-6.7/2-25 | 1571 | 0.2 | 2.5 | 160 | 4000*2000*1300 |
27 | DW-3.0/3-250 | 500 | 0.3 | 25 | 160 | 4800*2200*1600 |
28 | DW-30.50/0.05-4.3 | 1620 | 0.005 | 0.43 | 160 | 4800*2200*1300 |
29 | DW-1.1/10-250 | 600 | 1 | 25 | 160 | 4800*2200*1600 |
30 | DW-3.35/(2~3)-250 | 600 | 0.2~0.3 | 25 | 160 | 4800*2200*1600 |
31 | DW-7.7/0.5-150 | 600 | 0.05 | 15 | 160 | 4800*2200*1600 |
32 | VW-2.6/5-250 | 800 | 0.5 | 25 | 185 | 4800*3900*1850 |
33 | DW-0.9/40-250 | 1860 | 4 | 25 | 220 | 5500*3900*1700 |
34 | DW-19.35/(4~6)-12 | 6000 | 0.4~0.6 | 1.2 | 280 | 5500*3900*1700 |
35 | DW-34/1.04-8.5 | 3540 | 0.104 | 0.85 | 315 | 6500*4000*1800 |
36 | DW-7.5/30-48 | 17400 | 3 | 4.8 | 350 | 6800*4000*1800 |
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Lubrication Style: | Oil-free |
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Cooling System: | Air Cooling |
Cylinder Arrangement: | Balanced Opposed Arrangement |
Cylinder Position: | Horizontal |
Structure Type: | Closed Type |
Compress Level: | Single-Stage |
Customization: |
Available
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How Do You Maintain a Gas Air Compressor?
Maintaining a gas air compressor is essential to ensure its optimal performance, longevity, and safe operation. Regular maintenance helps prevent breakdowns, extends the compressor’s lifespan, and promotes efficient operation. Here are some key maintenance steps for a gas air compressor:
1. Read the Manual:
Before performing any maintenance tasks, thoroughly read the manufacturer’s manual specific to your gas air compressor model. The manual provides important instructions and guidelines for maintenance procedures, including recommended intervals and specific maintenance requirements.
2. Check and Change the Oil:
Gas air compressors typically require regular oil changes to maintain proper lubrication and prevent excessive wear. Check the oil level regularly and change it according to the manufacturer’s recommendations. Use the recommended grade of oil suitable for your compressor model.
3. Inspect and Replace Air Filters:
Inspect the air filters regularly and clean or replace them as needed. Air filters prevent dust, debris, and contaminants from entering the compressor’s internal components. Clogged or dirty filters can restrict airflow and reduce performance. Follow the manufacturer’s guidelines for filter cleaning or replacement.
4. Drain Moisture from the Tank:
Gas air compressors accumulate moisture in the compressed air, which can lead to corrosion and damage to the tank and internal components. Drain the moisture from the tank regularly to prevent excessive moisture buildup. Refer to the manual for instructions on how to properly drain the moisture.
5. Check and Tighten Connections:
Regularly inspect all connections, fittings, and hoses for any signs of leaks or loose connections. Tighten any loose fittings and repair or replace damaged hoses or connectors. Leaks can lead to reduced performance and inefficiency.
6. Inspect Belts and Pulleys:
If your gas air compressor has belts and pulleys, inspect them for wear, tension, and proper alignment. Replace any worn or damaged belts and ensure proper tension to maintain optimal performance.
7. Clean the Exterior and Cooling Fins:
Keep the exterior of the gas air compressor clean from dirt, dust, and debris. Use a soft cloth or brush to clean the surfaces. Additionally, clean the cooling fins regularly to remove any accumulated debris that can impede airflow and cause overheating.
8. Schedule Professional Servicing:
While regular maintenance can be performed by the user, it is also important to schedule professional servicing at recommended intervals. Professional technicians can perform thorough inspections, conduct more complex maintenance tasks, and identify any potential issues that may require attention.
9. Follow Safety Precautions:
When performing maintenance tasks on a gas air compressor, always follow safety precautions outlined in the manual. This may include wearing protective gear, disconnecting the power source, and ensuring proper ventilation in confined spaces.
By following these maintenance steps and adhering to the manufacturer’s guidelines, you can keep your gas air compressor in optimal condition, prolong its lifespan, and ensure safe and efficient operation.
What Are the Key Components of a Gas Air Compressor Control Panel?
A gas air compressor control panel typically consists of several key components. Here’s a detailed explanation:
1. Power Switch:
The power switch allows the operator to turn the compressor on or off. It is usually a toggle switch or a push-button switch located on the control panel.
2. Pressure Gauges:
Pressure gauges display the compressed air pressure at different stages of the compression process. Commonly, there are two pressure gauges: one to measure the incoming air pressure (suction pressure) and another to measure the outgoing compressed air pressure (discharge pressure).
3. Control Knobs or Buttons:
Control knobs or buttons are used to adjust and set various parameters of the compressor operation. These controls may include pressure settings, on/off timers, automatic start/stop functions, and other operational parameters specific to the compressor model.
4. Emergency Stop Button:
An emergency stop button is a critical safety feature that immediately shuts down the compressor in case of an emergency. Pressing the emergency stop button cuts off power to the compressor and stops its operation.
5. Motor Start/Stop Buttons:
Motor start and stop buttons allow the operator to manually start or stop the compressor motor. These buttons are used when manual control of the motor is required, such as during maintenance or troubleshooting.
6. Control Indicators:
Control indicators include various lights or LEDs that provide visual feedback about the compressor’s status and operation. These indicators may include power indicators, motor running indicators, pressure indicators, and fault indicators to signal any malfunctions or abnormal conditions.
7. Control Panel Display:
Some gas air compressors feature a control panel display that provides real-time information and feedback on the compressor’s performance. The display may show parameters such as operating pressure, temperature, maintenance alerts, fault codes, and other relevant information.
8. Start/Stop Control Circuit:
The start/stop control circuit is responsible for initiating and controlling the motor start and stop sequences. It typically includes relays, contactors, and other electrical components that enable the control panel to safely start and stop the compressor motor.
9. Safety and Protection Devices:
Gas air compressor control panels may incorporate safety and protection devices to safeguard the compressor and prevent potential damage or hazardous situations. These devices can include overload relays, thermal protection, pressure relief valves, and other safety features.
10. Control Panel Enclosure:
The control panel enclosure houses and protects the electrical components and wiring of the control panel. It provides insulation, protection from dust and moisture, and ensures the safety of the operator.
In summary, a gas air compressor control panel typically includes a power switch, pressure gauges, control knobs or buttons, emergency stop button, motor start/stop buttons, control indicators, control panel display (if applicable), start/stop control circuit, safety and protection devices, and a control panel enclosure. These components work together to monitor and control the compressor’s operation, ensure safety, and provide essential information to the operator.
How Does a Gas Air Compressor Work?
A gas air compressor works by utilizing a gas engine to power a compressor pump, which draws in air and compresses it to a higher pressure. The compressed air can then be used for various applications. Here’s a detailed explanation of how a gas air compressor operates:
1. Gas Engine:
A gas air compressor is equipped with a gas engine as its power source. The gas engine is typically fueled by gasoline, diesel, natural gas, or propane. When the engine is started, the fuel is combusted within the engine’s cylinders, generating mechanical energy in the form of rotational motion.
2. Compressor Pump:
The gas engine drives the compressor pump through a mechanical linkage, such as a belt or direct coupling. The compressor pump is responsible for drawing in atmospheric air and compressing it to a higher pressure. There are different types of compressor pumps used in gas air compressors, including reciprocating, rotary screw, or centrifugal, each with its own operating principles.
3. Intake Stroke:
In a reciprocating compressor pump, the intake stroke begins when the piston moves downward within the cylinder. This creates a vacuum, causing the inlet valve to open and atmospheric air to be drawn into the cylinder. In rotary screw or centrifugal compressors, air is continuously drawn in through the intake port as the compressor operates.
4. Compression Stroke:
During the compression stroke in a reciprocating compressor, the piston moves upward, reducing the volume within the cylinder. This compression action causes the air to be compressed and its pressure to increase. In rotary screw compressors, two interlocking screws rotate, trapping and compressing the air between them. In centrifugal compressors, air is accelerated and compressed by high-speed rotating impellers.
5. Discharge Stroke:
Once the air is compressed, the discharge stroke begins in reciprocating compressors. The piston moves upward, further reducing the volume and forcing the compressed air out of the cylinder through the discharge valve. In rotary screw compressors, the compressed air is discharged through an outlet port as the interlocking screws continue to rotate. In centrifugal compressors, the high-pressure air is discharged from the impeller into the surrounding volute casing.
6. Pressure Regulation:
Gas air compressors often include pressure regulation mechanisms to control the output pressure of the compressed air. This can be achieved through pressure switches, regulators, or control systems that adjust the compressor’s operation based on the desired pressure setting. These mechanisms help maintain a consistent and controlled supply of compressed air for the specific application requirements.
7. Storage and Application:
The compressed air produced by the gas air compressor is typically stored in a receiver tank or used directly for applications. The receiver tank helps stabilize the pressure and provides a reservoir of compressed air for immediate use. From the receiver tank, the compressed air can be distributed through pipelines to pneumatic tools, machinery, or other devices that require the compressed air for operation.
Overall, a gas air compressor operates by using a gas engine to power a compressor pump, which draws in air and compresses it to a higher pressure. The compressed air is then regulated and used for various applications, providing a reliable source of power for pneumatic tools, machinery, and other equipment.
editor by CX 2024-05-07