Product Description
| Series | Typical Model | Displ. | Cooling Capaciry | Power | COP | Capacitor | Compressor Hight | Discharge Pipe ID | Sudbon Pipe ID | |
| cc | W | Btu/h | W | w/w | uF/V | mm | mm | mm | ||
| ZA | ZAS240F-MV | 24.0 | 7200 | 24566 | 2325 | 3.10 | 60/400 | 310 | 9.8 | 12.9 |
| LA | LAS75F-DJ | 7.5 | 2120 | 7233 | 725 | 2.92 | 30/370 | 278 | 8.2 | 9.8 |
| LAS82F-DJ | 8.2 | 2360 | 8050 | 801 | 2.95 | 30/370 | 278 | 8.2 | 9.8 | |
| LAS86F-DJ | 8.6 | 2425 | 8274.1 | 828 | 2.93 | 30/370 | 278 | 8.2 | 9.8 | |
| LAS89F-DJ | 9.8 | 2900 | 9895 | 930 | 3.12 | 35/370 | 278 | 8.2 | 9.8 | |
| LAS108F-FJ | 10.8 | 3080 | 10509 | 1048 | 2.94 | 35/370 | 292 | 8.2 | 12.9 | |
| LAS118F-FJ | 11.8 | 3390 | 11567 | 1125 | 3.01 | 35/370 | 278 | 8.2 | 12.9 | |
| GB | GBS210FD-MR | 20.8 | 6160 | 21018 | 2035 | 3.03 | 50/370 | 322 | 9.8 | 12.9 |
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| After-sales Service: | Standard |
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| Warranty: | 1 Year |
| Usage: | Air Conditioner Compressor |
| Samples: |
US$ 200/Piece
1 Piece(Min.Order) | Order Sample |
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| Customization: |
Available
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Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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| Payment Method: |
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Initial Payment Full Payment |
| Currency: | US$ |
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| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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Can air compressors be used for cleaning and blowing dust?
Yes, air compressors can be effectively used for cleaning and blowing dust in various applications. Here’s how air compressors are utilized for these purposes:
1. Cleaning Machinery and Equipment:
Air compressors are commonly used for cleaning machinery and equipment in industries such as manufacturing, automotive, and construction. Compressed air is directed through a nozzle or blowgun attachment to blow away dust, debris, and other contaminants from surfaces, crevices, and hard-to-reach areas. The high-pressure air effectively dislodges and removes accumulated dust, helping to maintain equipment performance and cleanliness.
2. Dusting Surfaces:
Air compressors are also employed for dusting surfaces in various settings, including homes, offices, and workshops. The compressed air can be used to blow dust off furniture, shelves, electronic equipment, and other objects. It provides a quick and efficient method of dusting, especially for intricate or delicate items where traditional dusting methods may be challenging.
3. Cleaning HVAC Systems:
Air compressors are utilized for cleaning HVAC (Heating, Ventilation, and Air Conditioning) systems. The compressed air can be used to blow dust, dirt, and debris from air ducts, vents, and cooling coils. This helps improve the efficiency and air quality of HVAC systems, preventing the buildup of contaminants that can affect indoor air quality.
4. Blowing Dust in Workshops:
In workshops and garages, air compressors are often used to blow dust and debris from workbenches, power tools, and work areas. Compressed air is directed to blow away loose particles and maintain a clean and safe work environment. This is particularly useful in woodworking, metalworking, and other trades where dust and debris can accumulate during the manufacturing or fabrication processes.
5. Cleaning Electronics and Computer Equipment:
Air compressors are employed for cleaning electronics and computer equipment. The compressed air is used to blow dust and debris from keyboards, computer cases, circuit boards, and other electronic components. It helps in preventing overheating and maintaining the proper functioning of sensitive electronic devices.
6. Industrial Cleaning Applications:
Air compressors find extensive use in industrial cleaning applications. They are employed in industrial settings, such as factories and warehouses, for cleaning large surfaces, production lines, and equipment. Compressed air is directed through specialized cleaning attachments or air-operated cleaning systems to remove dust, dirt, and contaminants efficiently.
When using air compressors for cleaning and blowing dust, it is important to follow safety precautions and guidelines. The high-pressure air can cause injury if directed towards the body or sensitive equipment. It is advisable to wear appropriate personal protective equipment, such as safety glasses and gloves, and ensure that the air pressure is regulated to prevent excessive force.
Overall, air compressors provide a versatile and effective solution for cleaning and blowing dust in various applications, offering a convenient alternative to traditional cleaning methods.
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Are there differences between single-stage and two-stage air compressors?
Yes, there are differences between single-stage and two-stage air compressors. Here’s an in-depth explanation of their distinctions:
Compression Stages:
The primary difference between single-stage and two-stage air compressors lies in the number of compression stages they have. A single-stage compressor has only one compression stage, while a two-stage compressor has two sequential compression stages.
Compression Process:
In a single-stage compressor, the entire compression process occurs in a single cylinder. The air is drawn into the cylinder, compressed in a single stroke, and then discharged. On the other hand, a two-stage compressor utilizes two cylinders or chambers. In the first stage, air is compressed to an intermediate pressure in the first cylinder. Then, the partially compressed air is sent to the second cylinder where it undergoes further compression to reach the desired final pressure.
Pressure Output:
The number of compression stages directly affects the pressure output of the air compressor. Single-stage compressors typically provide lower maximum pressure levels compared to two-stage compressors. Single-stage compressors are suitable for applications that require moderate to low air pressure, while two-stage compressors are capable of delivering higher pressures, making them suitable for demanding applications that require greater air pressure.
Efficiency:
Two-stage compressors generally offer higher efficiency compared to single-stage compressors. The two-stage compression process allows for better heat dissipation between stages, reducing the chances of overheating and improving overall efficiency. Additionally, the two-stage design allows the compressor to achieve higher compression ratios while minimizing the work done by each stage, resulting in improved energy efficiency.
Intercooling:
Intercooling is a feature specific to two-stage compressors. Intercoolers are heat exchangers placed between the first and second compression stages. They cool down the partially compressed air before it enters the second stage, reducing the temperature and improving compression efficiency. The intercooling process helps to minimize heat buildup and reduces the potential for moisture condensation within the compressor system.
Applications:
The choice between a single-stage and two-stage compressor depends on the intended application. Single-stage compressors are commonly used for light-duty applications such as powering pneumatic tools, small-scale workshops, and DIY projects. Two-stage compressors are more suitable for heavy-duty applications that require higher pressures, such as industrial manufacturing, automotive service, and large-scale construction.
It is important to consider the specific requirements of the application, including required pressure levels, duty cycle, and anticipated air demand, when selecting between a single-stage and two-stage air compressor.
In summary, the main differences between single-stage and two-stage air compressors lie in the number of compression stages, pressure output, efficiency, intercooling capability, and application suitability.
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How do you choose the right size of air compressor for your needs?
Choosing the right size of air compressor is essential to ensure optimal performance and efficiency for your specific needs. Here are some factors to consider when selecting the appropriate size:
1. Air Demand: Determine the air demand requirements of your applications. Calculate the total CFM (Cubic Feet per Minute) needed by considering the air consumption of all the pneumatic tools and equipment that will be operated simultaneously. Choose an air compressor with a CFM rating that meets or exceeds this total demand.
2. Pressure Requirements: Consider the required operating pressure for your applications. Check the PSI (Pounds per Square Inch) rating of the tools and equipment you will be using. Ensure that the air compressor you choose can deliver the necessary pressure consistently.
3. Duty Cycle: Evaluate the duty cycle of the air compressor. The duty cycle represents the percentage of time the compressor can operate within a given time period without overheating or experiencing performance issues. If you require continuous or heavy-duty operation, choose a compressor with a higher duty cycle.
4. Power Source: Determine the available power source at your location. Air compressors can be powered by electricity or gasoline engines. Ensure that the chosen compressor matches the available power supply and consider factors such as voltage, phase, and fuel requirements.
5. Portability: Assess the portability requirements of your applications. If you need to move the air compressor frequently or use it in different locations, consider a portable or wheeled compressor that is easy to transport.
6. Space and Noise Constraints: Consider the available space for installation and the noise restrictions in your working environment. Choose an air compressor that fits within the allocated space and meets any noise regulations or requirements.
7. Future Expansion: Anticipate any potential future expansions or increases in air demand. If you expect your air demand to grow over time, it may be wise to choose a slightly larger compressor to accommodate future needs and avoid the need for premature replacement.
8. Budget: Consider your budgetary constraints. Compare the prices of different air compressor models while ensuring that the chosen compressor meets your specific requirements. Keep in mind that investing in a higher-quality compressor may result in better performance, durability, and long-term cost savings.
By considering these factors and evaluating your specific needs, you can choose the right size of air compressor that will meet your air demand, pressure requirements, and operational preferences, ultimately ensuring efficient and reliable performance.
editor by CX 2024-01-11
China Hot selling Heavy Truck Parts Air Conditioner Compressor AC 612600130496 612600130651 Zl50 Air Compressor Diesel for CHINAMFG Sale supplier
Product Description
Product Description
engine parts air compressor 612600130177
Weichai Spare Parts Air Compressor 612600130369
Truck spare parts air compressor 612600130408
Howo engine spare parts air compressor 612600130624
trucks engine air compressor 61260013 0571
sinotruck engine air compressor assy. VG157130001
Heavy truck spare parts air pump VG1560130080A
Packaging & Shipping
Product Show
Our products include : Cabin spare parts, Engine spare parts, Gearbox spare parts, Axle spare parts and Electrical spare parts. All parts you need are here.
VGOil filter VGFine filter element
VG1540 0571 1 Primary filter element VG260571253 Belt-water pump
VGBelt-generator WGControl cable
WGCompressor VG14040065 Cylinder head cover
WGFan cover VG156571571 Camshaft bush
WGFRONT RIGHT MUDGUARD
WGFRONT WHEEL FENDER REAR PART LEFT WITH COLOR
WGFRONT WHEEL FENDER REAR PART RIGHT WITH COLOR
WGLEFT WHEEL FENDER WITH COLOR
WGRIGHT WHEEL FENDER WITH COLOR
WGSTEP RIGHT WGSTEP LEFT
WGSHOCK ABSORBER AZSTABILIZER
WGRUBBER STOP(STEEPLE-HEAD) WGWASHER
WGBUSH WGBUSH
WGABOVE BRACKET LEFT WGABOVE BRACKET RIGHT
WGSENSOR FOR CAB LOCK WGT-NOZZLE
WGHOSE WGHYDRAULIC LOCK
WGSHOCK ABSORBER
Cabin parts:
Bumper
Panel
Fender
Front Cover
Side Wing
Head Light
Rear View Mirror
Sun Shade
Hydraulic Lock
Wiper
Shock Absorber
Fog Lamp
WG162111011 Face Cover WGBumper
AZSun Visor WG1642777571/20 Rear View Mirror
AZShock Absorber WGDoor Handle
WGHydraulic Lock WG9719720001/2 Head Lamp
WG9719720005/6 Fog Lamp WG9719810001/2 Rear Tail Lamp
| Chassis parts | Brake Chamber Assembly |
| Transmission parts | Fast Gearbox, Transmission Shaft, Drive Shaft |
| Engine parts | Turbocharger, Piston, etc |
| Cab parts | Shock Absorber, |
Company Profile
HangZhou Xihu (West Lake) Dis. Trading Co., Ltd. is a heavy duty truck and spare parts supplier in China. we mainly deals with spare parts, trucks and construction machinery. Since the company was built, we pay attention to maintaining and developing the long-term cooperation relationship with the customers.
Our company covers an area of 10,000 square meters,including 2,000 square CHINAMFG business operation, 3,200 square CHINAMFG for maintenance and 2,000 square CHINAMFG truck parts warehouse. With a professional team nearly 100 workers with strong sales and maintenance abilities export products to more than 50 countries all over the world, such as Vietnam, Malaysia, Philippine, Thailand, Indonesia, Fiji, Nigeria, Algeria, Egypt, Tanzania, Ethiopia, Kenya, Mali, Congo, Sudan, Cameroon, Iran, Pakistan, Kazakhstan, Peru etc.
We can provide full range of genuine spare parts with best price. For other brands, we have very good relationship with the manufacturers, which can make sure that we are able to provide the spare parts quickly and accurately. The spare parts is now being exported to Russia, Middle East, Africa, South America, Asia countries, etc. we will provide the best service and products, to satisfy the demands of our customers. Sticking to the principle of ” all for our customers”, we warmly welcome friends all over the world to visit and establish business relationship with us.
Our Advantages
1. After getting your order, we will take pictures of every parts for you. Even if you have 500 items.
2. With CHINAMFG parts system,we can get the exact information according the chassis no and assembly nameplate , accurate rate reaches 99%.
3. Our boss is very familiar with the working principle and maintenance of trucks. You are welcome to communicate with us.
FAQ
Q1: What is your payment terms?
A: We accept T/T, WESTERN UNION, PAYPAL, T/T 30% as deposit, 70% before Delivery.
Q2: What is the packing?
A: Carton or wooden case, if you want to put your logo on the packing, we will do it after get your authorization letter.
Q3: When can you deliver products after payment?
A: By Express, Usually take 1-3 days; By Air, usually take 2-3 days; By Sea, usually take 5-15 days.
Q4: What can you do to complete order perfectly?
A: In the beginning, we will communicate with clients in detail to understand what they need. Before packing, we will check the products and send photos to clients. After confirmation, we will packing products well to avoid damage.
Once we get tracking number, we will offer it to clients and keep contact with clients.
Q5: Can you offer sample?
A: Yes , we can offer sample, for small value products, only need to pay shipping cost.
For High value products, you need to pay for it with freight.
| After-sales Service: | Online Guidance |
|---|---|
| Warranty: | 3-6 Months |
| Type: | Engine |
| Certification: | ISO9001 |
| Brake System Parts: | Brake |
| Color: | Black |
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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.
Can air compressors be integrated into automated systems?
Yes, air compressors can be integrated into automated systems, providing a reliable and versatile source of compressed air for various applications. Here’s a detailed explanation of how air compressors can be integrated into automated systems:
Pneumatic Automation:
Air compressors are commonly used in pneumatic automation systems, where compressed air is utilized to power and control automated machinery and equipment. Pneumatic systems rely on the controlled release of compressed air to generate linear or rotational motion, actuating valves, cylinders, and other pneumatic components. By integrating an air compressor into the system, a continuous supply of compressed air is available to power the automation process.
Control and Regulation:
In automated systems, air compressors are often connected to a control and regulation system to manage the compressed air supply. This system includes components such as pressure regulators, valves, and sensors to monitor and adjust the air pressure, flow, and distribution. The control system ensures that the air compressor operates within the desired parameters and provides the appropriate amount of compressed air to different parts of the automated system as needed.
Sequential Operations:
Integration of air compressors into automated systems enables sequential operations to be carried out efficiently. Compressed air can be used to control the timing and sequencing of different pneumatic components, ensuring that the automated system performs tasks in the desired order and with precise timing. This is particularly useful in manufacturing and assembly processes where precise coordination of pneumatic actuators is required.
Energy Efficiency:
Air compressors can contribute to energy-efficient automation systems. By incorporating energy-saving features such as Variable Speed Drive (VSD) technology, air compressors can adjust their power output according to the demand, reducing energy consumption during periods of low activity. Additionally, efficient control and regulation systems help optimize the use of compressed air, minimizing waste and improving overall energy efficiency.
Monitoring and Diagnostics:
Integration of air compressors into automated systems often includes monitoring and diagnostic capabilities. Sensors and monitoring devices can be installed to collect data on parameters such as air pressure, temperature, and system performance. This information can be used for real-time monitoring, preventive maintenance, and troubleshooting, ensuring the reliable operation of the automated system.
When integrating air compressors into automated systems, it is crucial to consider factors such as the specific requirements of the automation process, the desired air pressure and volume, and the compatibility of the compressor with the control and regulation system. Consulting with experts in automation and compressed air systems can help in designing an efficient and reliable integration.
In summary, air compressors can be seamlessly integrated into automated systems, providing the necessary compressed air to power and control pneumatic components, enabling sequential operations, and contributing to energy-efficient automation processes.
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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 CX 2023-12-06