Product Description

Two Stage Compression Industry Screw Air Compressor 

Two stage compression energy saving advantages:
1.The intaked air flow after compressed by the first stage compression, connect with large amount oil mist then cool fast, and then goes into the second stage compression system to be compressed and discharged, more energy saving than 1 stage compression type.
2. Adopt internal spray oil cooling type, enable air isothermal compression, saving energy by 8%.
3. Each stage compression ratio is as low as 3:1, little internal leakage, improving efficiency by15%.
4. Adopt German rotor screw air end, big rotor and low rotary speed designing, Working reliable, low noise, long use life.
5. Have fixed frequency type (TKL) and permanent magnetic motor with frequency conversion one-piece shaft type (TKLYC).
 
Advantages of the whole unit air compressor:
1. Approved by ISO9001certificate, SGS, CE and etc..
2. Adopt special design electric motor, and CHINAMFG heavy bearing, IP54, high efficiency, reliable and long use life.
3. Adopt world famous brand of air intake filter, oil filter, air and oil separator, realize high filtration accuracy, compressed air oil content under 3ppm, reach to international advanced standard level.
4. Equip with the most advanced air control system. Adopt air intake valve, intelligent control system and pressure sensor combined control method, can operate by ON and OFF 2 point, stepless air capacity control system, time-delay stop and automatically start device 3 air capacity control method, can meet different clients demand.
5. Intelligent microcomputer control system, Chinese and English language operation interface, malfunction display, alarm and machine stop automatically.
6. Adopt high quality and world famous brand of main components like UK APD filter, America AMOT temperature controlling valve, SCHNEIDER electric parts and etc., high efficiency, reliable and long use life.

Technical parameter of 2 stage air compressor:
(TKL type):

Model   Exhause pressure (Mpa) Air displacemen  (m3/min) Power (Kw) Noise (dBa) Dimensions (mm) Outlet pipe size Weight (Kg)
TKL-45F-II 0.8 9.5 45 68 1800*1500*1510 DN50 2400
1.0 8.8
1.3 8.1
TKL-55F-II 0.8 11.5 55 68 1800*1500*1510 DN50 2430
1.0 10.9
1.3 10.5
TKL-75F-II 0.8 16.1 75 68 2470*1700*2571 DN65 2700
1.0 14.5
1.3 12.5
TKL-90F-II 0.8 19.8 90 68 2470*1700*2571 DN65 2800
1.0 16.5
1.3 13.5
TKL-110F-II 0.8 24.0 110 68 2660*1700*2571 DN65 2850
1.0 19.8
1.3 17.2
TKL-132F-II 0.8 28.3 132 70 2660*1700*2571 DN65 4150
1.0 23.2
1.3 19.2
TKL-160F-II 0.8 33.3 160 72 3460*2040*2200 DN80 5100
1.0 28.4
1.3 23.6
TKL-185F-II 0.8 38.5 185 72 3460*2040*2200 DN80 5200
1.0 33.3
1.3 28.4
TKL-200F-II 0.8 41.3 200 75 3460*2040*2200 DN80 5250
1.0 38.5
1.3 33.5
TKL-220F-II 0.8 45.5 220 75 3720*2220*2200 DN100 6100
1.0 40.8
1.3 37.6
TKL-250F-II 0.8 54.7 250 75 3720*2220*2200 DN100 6200
1.0 44.9
1.3 40.3

(TKLYC permanent magnetic frequency conversion type):

Type Exhause pressure (Mpa) Air displacemen (m3/min) Power (Kw) Noise (dBa) Dimensions (mm) Outlet pipe size Weight (Kg)
TKLYC-15F-II 0.8/1.0/1.3 2.7/2.3/2.2 15 66 1600*900*1300 G1 1/2 800
TKLYC-18F-II 0.8/1.0/1.3 3.5/3.0/2.5 18.5 66 1600*900*1300 G1 1/2 840
TKLYC-22F-II 0.8/1.0/1.3 4.0/3.5/3.0 22 66 1600*900*1300 G1 1/2 860
TKLYC-30F-II 0.8/1.0/1.3 6.4/5.0/4.2 30 68 1800*1500*1510 G1 1/2 1100
TKLYC-37F-II 0.8/1.0/1.3 7.0/6.0/5.5 37 68 1800*1500*1510 G1 1/2 1100
TKLYC-45F-II 0.8/1.0/1.3 9.5/8.8/8.1 45 68 1800*1500*1510 DN50 2200
TKLYC-55F-II 0.8/1.0/1.3 11.5/10.9/10.5 55 68 2300*1400*1800 DN50 2600
TKLYC-75F-II 0.8/1.0/1.3 16.1/14.5/12.5 75 68 2300*1400*1800 DN65 2850
TKLYC-90F-II 0.8/1.0/1.3 19.8/16.5/13.5 90 68 2470*1700*2571 DN65 2950
TKLYC-110F-II 0.8/1.0/1.3 24.0/19.8/17.2 110 68 3100*1740*2150 DN80 3000
TKLYC-132F-II 0.8/1.0/1.3 28.3/23.2/19.2 132 70 3100*1740*2150 DN80 3100
TKLYC-160F-II 0.8/1.0/1.3 33.3/28.4/23.6 160 72 3460*2040*2200 DN80 5400
TKLYC-185F-II 0.8/1.0/1.3 38.5/33.3/28.4 185 72 3460*2040*2200 DN80 5600
TKLYC-200F-II 0.8/1.0/1.3 41.3/38.5/33.5 200 75 3460*2040*2200 DN80 5800
TKLYC-220F-II 0.8/1.0/1.3 45.5/40.8/37.6 220 75 3720*2220*2200 DN100 6100
TKLYC-250F-II 0.8/1.0/1.3 54.7/44.9/40.3 250 75 3720*2220*2200 DN100 6200

 

Our factory and workshop:

After sales service:
1. Providing professional air compression program designing for free.
2. Providing our factory original machine parts at lowest price after machine sales.
3. Providing training and guidance for free, customers can send their staff to our factory to learn how to operate the machines. 
4. Warranty period: the screw main machine is 1 year, the bearing is 1 year, the wear parts of air intake valve, electric components, electromagnetic valve, rate valve are 6 months
5. The air filter, oil filter, oil-water separator, lubricating oil, rubber parts and etc. are not included in warranty range.

Certification and patents of our air compressor

 

FAQ:
Q1: Are you factory or trade company?  
A1: We are factory.
Q2: Warranty terms of your machine? 
A2: One year warranty for the machine and technical support according to your needs.
Q3: Will you provide some spare parts of the machines? 
A3: Yes, of course.
Q4: How long will you take to arrange production? 
A4: 380V 50HZ we can delivery the goods within 20 days. Other electricity or other color we will delivery within 30 days.
Q5: Can you accept OEM orders? 
A5: Yes, with professional design team, OEM orders are highly welcome!

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After-sales Service: Online Techinal Support or Remote Debuging
Warranty: 12-24 Month
Lubrication Style: Lubricated
Customization:
Available

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Currency: US$
Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

air compressor

Are There Portable Screw Compressors Available?

Yes, portable screw compressors are available in the market to cater to various applications that require mobility and flexibility. Here’s a detailed explanation:

Portable screw compressors are compact and designed for easy transportation, allowing them to be used in different locations as needed. They offer the advantage of providing compressed air or gas on-site without the need for a fixed installation.

These compressors are typically designed with features that make them suitable for portable applications. Some key characteristics of portable screw compressors include:

  • 1. Compact and Lightweight Design: Portable screw compressors are designed to be lightweight and compact, making them easy to transport and maneuver. They are often mounted on wheels or skids for enhanced mobility.
  • 2. Durability and Robustness: Portable compressors are built to withstand the rigors of transportation and on-site use. They are constructed with sturdy materials and reinforced components to ensure durability in various working environments.
  • 3. Engine-Powered: Many portable screw compressors are powered by internal combustion engines, such as gasoline or diesel. This eliminates the need for a fixed power source, allowing them to be used in remote locations or areas without access to electricity.
  • 4. Integrated Controls and Safety Features: Portable compressors are equipped with user-friendly controls and safety features for easy operation and protection. These may include start/stop controls, pressure regulation systems, temperature monitoring, and safety shutdown mechanisms.
  • 5. Noise and Vibration Reduction: Portable screw compressors often incorporate noise and vibration reduction technologies to minimize their operational noise levels and vibrations. This helps maintain a comfortable and safe working environment.
  • 6. Versatility in Application: Portable screw compressors are designed to accommodate a wide range of applications. They can be used for construction projects, road repairs, mining operations, oil and gas exploration, emergency air supply, and other portable compressed air or gas requirements.

The capacity and performance of portable screw compressors can vary, ranging from smaller units suitable for light-duty tasks to larger compressors capable of delivering higher volumes and pressures for heavy-duty applications.

When selecting a portable screw compressor, it’s important to consider factors such as the required air or gas flow rate, operating pressure, power source availability, environmental conditions, and specific application needs. Consulting with manufacturers or suppliers can help in choosing the most suitable portable screw compressor for a particular use case.

air compressor

How Do You Troubleshoot Common Issues with Screw Compressors?

Troubleshooting common issues with screw compressors involves a systematic approach to identify and resolve problems that may arise during operation. Here’s a detailed explanation:

1. Gather Information:

  • Start by gathering information about the symptoms and any recent changes or events related to the compressor. This can help pinpoint potential causes and guide the troubleshooting process.

2. Check Power and Controls:

  • Ensure that the compressor has a power supply and that all electrical connections are secure. Check for any tripped breakers or blown fuses. Verify that the compressor’s controls, such as pressure switches, temperature sensors, and safety devices, are functioning correctly.

3. Inspect for Leaks:

  • Check for any visible leaks in the compressed air system, including connections, fittings, hoses, and seals. Leaks can cause a drop in system pressure and affect the compressor’s performance. Repair or replace any damaged components.

4. Monitor Pressure and Temperature:

  • Monitor the discharge pressure and temperature of the compressor. Abnormal readings can indicate issues such as inadequate lubrication, high discharge temperatures, or problems with the cooling system. Refer to the manufacturer’s specifications for acceptable pressure and temperature ranges.

5. Verify Lubrication:

  • Ensure that the compressor’s lubrication system is functioning correctly. Check oil levels and the condition of the lubricant. Inadequate lubrication can lead to increased friction, overheating, and damage to internal components. Follow the manufacturer’s recommendations for lubricant type and change intervals.

6. Check Air Filters and Cooling System:

  • Inspect and clean or replace the air filters to ensure proper airflow. Clogged filters can reduce efficiency and increase the compressor’s operating temperature. Additionally, check the cooling system, including fans and heat exchangers, to ensure they are clean and functioning correctly.

7. Examine Vibration and Noise:

  • Pay attention to any unusual vibration or noise coming from the compressor. Excessive vibration may indicate misalignment, worn bearings, or loose components. Unusual noise can be a sign of mechanical issues or problems with the intake or discharge system.

8. Review Maintenance Records:

  • Review the compressor’s maintenance records to ensure that regular maintenance tasks, such as oil changes, filter replacements, and inspections, have been performed according to the manufacturer’s recommendations. Address any overdue or missed maintenance tasks.

9. Consult Manufacturer Documentation:

  • Refer to the compressor’s operating manual and troubleshooting guide provided by the manufacturer. These documents often contain specific troubleshooting steps for common issues and can provide valuable insights.

10. Seek Professional Assistance:

  • If the troubleshooting steps do not resolve the issue or if you are unsure about performing further diagnostics, it is recommended to seek assistance from a qualified technician or contact the compressor manufacturer’s technical support.

Remember to prioritize safety throughout the troubleshooting process, following appropriate lockout/tagout procedures and wearing the necessary personal protective equipment.

In summary, troubleshooting common issues with screw compressors involves checking power and controls, inspecting for leaks, monitoring pressure and temperature, verifying lubrication, checking air filters and cooling systems, examining vibration and noise, reviewing maintenance records, consulting manufacturer documentation, and seeking professional assistance when needed. By following a systematic approach, it is possible to identify and resolve common problems with screw compressors, ensuring their proper operation and performance.

air compressor

How Do Screw Compressors Compare to Piston Compressors?

Screw compressors and piston compressors are two common types of compressors used for various applications. Here’s a detailed comparison between these two types:

1. Working Principle:

Screw Compressors: Screw compressors use intermeshing rotors (usually a male and female rotor) to compress air or gas. The rotors rotate in opposite directions, creating compression chambers that gradually reduce in volume, compressing the air or gas. Piston Compressors: Piston compressors, also known as reciprocating compressors, use a piston and cylinder arrangement to compress air or gas. The piston moves back and forth within the cylinder, creating compression by reducing the volume of the chamber.

2. Continuous vs. Intermittent Compression:

Screw Compressors: Screw compressors provide continuous compression, which means they can deliver a steady flow of compressed air or gas without pulsations. The compression process is smooth and continuous, resulting in less vibration and noise. Piston Compressors: Piston compressors provide intermittent compression due to the reciprocating motion of the piston. The compression process is characterized by pulsations, resulting in pressure fluctuations and higher vibration levels compared to screw compressors.

3. Efficiency:

Screw Compressors: Screw compressors are known for their relatively high efficiency. They can achieve higher isothermal and adiabatic efficiency compared to piston compressors. The smooth and continuous compression process in screw compressors minimizes energy losses and heat generation, resulting in improved efficiency. Piston Compressors: Piston compressors have lower overall efficiency compared to screw compressors. The reciprocating motion of the piston leads to energy losses due to friction, heat generation, and pressure pulsations. These factors can reduce the efficiency of piston compressors, especially at higher compression ratios.

4. Size and Portability:

Screw Compressors: Screw compressors are generally more compact and require less space compared to piston compressors of similar capacity. They have a simpler design with fewer moving parts, making them relatively lightweight and easier to install. Screw compressors are often mounted on a skid or integrated into compact packages, offering convenient portability. Piston Compressors: Piston compressors are typically larger and bulkier compared to screw compressors of similar capacity. They have more complex designs with multiple moving parts, including pistons, connecting rods, and valves. The larger size and weight of piston compressors make them less portable and require more installation space.

5. Maintenance and Service:

Screw Compressors: Screw compressors generally require less maintenance compared to piston compressors. They have fewer moving parts, reducing the chances of wear and tear. Screw compressors often have longer service intervals and lower maintenance costs. However, proper lubrication and regular inspections are still necessary to ensure optimal performance and efficiency. Piston Compressors: Piston compressors require regular maintenance due to the higher number of moving parts. Components such as pistons, rings, valves, and bearings may require more frequent inspections, lubrication, and replacements. Maintenance costs and service intervals for piston compressors are typically higher compared to screw compressors.

6. Noise and Vibration:

Screw Compressors: Screw compressors operate with lower noise and vibration levels compared to piston compressors. The continuous and smooth compression process in screw compressors results in reduced vibrations and quieter operation, making them suitable for noise-sensitive environments. Piston Compressors: Piston compressors can generate higher noise levels and vibrations due to the reciprocating motion of the piston and the pulsations during compression. Additional measures, such as sound insulation and vibration dampening, may be required to minimize noise and vibration in piston compressors.

Both screw compressors and piston compressors have their advantages and disadvantages depending on specific application requirements. Screw compressors are favored in applications that demand continuous and efficient compression with minimal pulsations and lower noise levels. Piston compressors are suitable for applications that require intermittent compression, lower initial investment, and simplicity. Factors such as desired flow rate, pressure range, operating conditions, and cost considerations play a crucial role in selecting the appropriate compressor type for a given application.

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editor by CX 2024-05-02

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