Product Description
Portable Diesel Motor Screw Air Compressor
KaiShan Brand (reliable quality)
Cummins Diesel Motor (easy maintainence on spare parts)
0.8~2.3 Mpa (suitable for most working conditions)
10~30 mĀ³/min (large working capacity)
2/4 rubber tire (portable)
Two-Stage High Air Pressure Models ( LGCY series)
Ā
| Model | Air Pressure | Air Delivery | Diesel Motor Power | Output Ball Valve | Weight | Overall Size |
| Mpa | mĀ³/min | HP | kg | MM | ||
| LGCY-15/16TK | 1.6 | 15 | CUMMINS 180HP | G1 1/2x1, G3/4x1 | 2400 | 3100x1520x2200 |
| LGCY-15/18-17/14TKL (two wheels) | 1.8-1.4 | 15-17 | CUMMINS 210HP | G2x1, G3/4x1 | 2200 | 3520x1980x2250 |
| LGCY-17/17TK | 1.7 | 17 | CUMMINS 210HP | G2x1, G3/4x1 | 3200 | 3000x1520x2200 |
| LGCY-17/18-18/15TK | 1.8-1.5 | 17-18 | CUMMINS 210HP | G2x1, G3/4x1 | 2200 | 3000x1520x2300 |
| LGCY-19/20-20/17KL (two wheels) | 2.0-1.7 | 19-20 | CUMMINS 260HP | G2x1, G3/4x1 | 3400 | 3700x2100x2395 |
| LGCY-25/8TK | 0.8 | 25 | CUMMINS 260HP | G2x1, G3/4x1 | 3000 | 3600x1600x2500 |
| LGCY-19/21-21/18K | 2.1-1.8 | 19-21 | CUMMINS 260HP | G2x1, G3/4x1 | 3600 | 3300x1700x2420 |
| LGCY-23/23-25/18K | 2.3-1.8 | 23-25 | CUMMINS 360HP | G2x1, G3/4x1 | 4850 | 4150x1950x2850 |
| LGCY-25/23-27/18K | 2.3-1.8 | 25-27 | CUMMINS 360HP | G2x1, G3/4x1 | 4850 | 4150x1950x2850 |
| LGCY-31/25K | 2.5 | 31 | CUMMINS 550HP | G2x1, G3/4x1 | 5100 | 3750x1950x2870 |
| LGCY-33/25K | 2.5 | 33 | CUMMINS 550HP | G2x1, G3/4x1 | 6800 | 4700x2160x2650 |
Single-Stage Low Air Pressure Models ( LGCY series)
Ā
| Model | Air Pressure | Air Delivery | Diesel Motor Power | Output Ball Valve | Weight | Overall Size |
| Mpa | mĀ³/min | HP | kg | MM | ||
| LGCY-12.5/14L (two wheels) | 1.4 | 12.5 | CUMMINS 180HP | G2x1, G3/4x1 | 2100 | 3520x1980x2256 |
| LGCY-14/14L (two wheels) | 1.4 | 14 | CUMMINS 210HP | G2x1, G3/4x1 | 2400 | 3520x1980x2356 |
| LGCY-18/17K | 1.7 | 18 | CUMMINS 260HP | G2x1, G3/4x1 | 3400 | 3980x1800x2450 |
| LGCY-22/8K | 0.8 | 22 | CUMMINS 260HP | G2x1, G3/4x1 | 4000 | 3764x1800x2213 |
| LGCY-27/10K | 1 | 27 | CUMMINS 360HP | G2x1, G3/4x1 | 5000 | 4600x1950x2850 |
| LGCY-32/10K | 1 | 32 | CUMMINS 360HP | G2x1, G3/4x1 | 5000 | 4600x1950x2850 |
High Air Pressure Models ( KSCY series)
Ā
| Model | Air Pressure | Air Delivery | Diesel Motor Power | Output Ball Valve | Weight | Overall Size |
| Mpa | mĀ³/min | HP | kg | MM | ||
| KSCY-570/12-550/15K | 1.2-1.5 | 16-15 | CUMMINS 180HP | G1 1/2x1, G3/4x1 | 2000 | 3500x1880x2100 |
| KSCY-550/14.5K | 1.45 | 15 | CUMMINS 180HP | G1 1/2x1, G3/4x1 | 2400 | 3000x1520x2200 |
| KSCY-560/15K | 1.5 | 16 | CUMMINS 210HP | G2x1, G3/4x1 | 2400 | 3000x1520x2200 |
| KSCY-650/20-700/17TK | 2.0-1.7 | 18-19 | CUMMINS 260HP | G2x1, G3/4x1 | 2700 | 3000x1520x2390 |
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| Lubrication Style: | Lubricated |
|---|---|
| Cooling System: | Air Cooling |
| Power Source: | Diesel Engine |
| Cylinder Position: | Vertical |
| Structure Type: | Closed Type |
| Installation Type: | Movable Type |
| Customization: |
Available
|
|
|---|
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What Safety Precautions Should Be Taken When Operating Screw Compressors?
When operating screw compressors, it is important to follow specific safety precautions to ensure the well-being of personnel and prevent potential accidents. Here’s a detailed explanation:
1. Familiarize Yourself with the Equipment:
- Before operating a screw compressor, thoroughly read and understand the manufacturer’s instructions, safety guidelines, and operating procedures. Familiarize yourself with the specific features, controls, and safety devices of the compressor.
2. Wear Appropriate Personal Protective Equipment (PPE):
- Wear the necessary PPE, such as safety glasses, hearing protection, gloves, and appropriate clothing, when operating the compressor. PPE helps protect against potential hazards, including flying debris, noise, and contact with hot or moving parts.
3. Ensure Proper Ventilation:
- Operate the screw compressor in a well-ventilated area to prevent the buildup of potentially harmful gases or fumes. Ensure that the compressor’s intake and exhaust vents are not obstructed, allowing for adequate airflow.
4. Compressor Location:
- Position the compressor on a stable and level surface to prevent tipping or instability during operation. Ensure that the compressor is located away from flammable materials, heat sources, or sources of ignition.
5. Electrical Safety:
- Follow electrical safety guidelines and ensure that the compressor is properly grounded. Avoid using damaged or frayed electrical cords and ensure that the electrical connections are secure.
6. Lockout/Tagout Procedures:
- Before performing any maintenance or repair tasks on the compressor, follow lockout/tagout procedures to isolate electrical power and prevent accidental startup. Lockout/tagout procedures help protect against unexpected energization of the compressor or its components.
7. Pressure Relief:
- Before performing any maintenance tasks or opening the compressor, ensure that all pressure has been relieved from the system. Follow proper procedures for depressurizing the compressor and associated piping to avoid sudden releases of pressure.
8. Hot Surfaces:
- Be cautious of hot surfaces, such as compressor casings, piping, or discharge components. Allow sufficient cooling time before touching or performing maintenance tasks on hot surfaces to avoid burns.
9. Maintenance and Inspection:
- Adhere to the manufacturer’s recommended maintenance schedule and perform regular inspections of the compressor. Replace any worn or damaged components promptly to prevent potential hazards or malfunctions.
10. Emergency Procedures:
- Be familiar with emergency procedures, including how to shut down the compressor in case of an emergency, how to respond to leaks or spills, and how to handle fire or electrical incidents. Have emergency contact information readily available.
11. Training and Qualified Personnel:
- Ensure that operators and maintenance personnel are adequately trained in the safe operation and maintenance of screw compressors. Only allow qualified personnel to perform maintenance or repair tasks.
It is essential to consult the specific safety guidelines provided by the manufacturer of the screw compressor as they may include additional precautions or recommendations.
In summary, when operating screw compressors, it is important to familiarize yourself with the equipment, wear appropriate PPE, ensure proper ventilation, follow electrical safety measures, implement lockout/tagout procedures, be cautious of hot surfaces, perform regular maintenance and inspections, and be prepared with emergency procedures. By following these safety precautions, the risk of accidents or injuries can be minimized, ensuring a safe working environment when operating screw compressors.
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How Do You Maintain the Air Quality in a Screw Compressor System?
Maintaining air quality in a screw compressor system is crucial to ensure the performance, efficiency, and reliability of the compressed air. Here’s a detailed explanation:
1. Proper Intake Filtration:
Install high-quality intake filters to prevent contaminants, such as dust, dirt, and debris, from entering the screw compressor system. These filters should have an appropriate filtration rating to effectively capture particles of the desired size. Regularly inspect and clean or replace the intake filters to maintain their effectiveness.
2. Compressed Air Dryers:
Use compressed air dryers, such as refrigerated dryers or desiccant dryers, to remove moisture from the compressed air. Moisture can lead to corrosion, damage to pneumatic equipment, and compromised air quality. The type of dryer selected depends on the specific application requirements and the desired level of moisture removal.
3. Oil Removal Filters:
In oil-injected screw compressors, oil is used for lubrication, which can contaminate the compressed air. Install oil removal filters downstream of the compressor to remove any oil carryover from the compressed air. These filters typically use coalescing technology to separate and trap oil particles, ensuring clean air quality.
4. Condensate Management:
Effectively manage condensate, which is formed when moisture in the compressed air condenses as it cools. Install condensate drains and separators to remove and properly dispose of condensate. Improper condensate management can lead to water contamination in the compressed air system.
5. Regular Maintenance:
Perform regular maintenance tasks as recommended by the manufacturer, including oil changes, filter replacements, and inspections. Proper maintenance helps ensure that the compressor system operates efficiently and minimizes the risk of contaminants entering the compressed air.
6. Air Receiver Tank Maintenance:
If the screw compressor system includes an air receiver tank, regularly inspect and clean the tank to remove any accumulated debris or contaminants. Additionally, ensure that the tank’s drain valve is functioning correctly to remove any water or condensate from the tank.
7. Leak Detection and Repair:
Regularly inspect the compressed air system for leaks. Leaks not only waste energy but also allow contaminants from the surrounding environment to enter the system. Use appropriate leak detection methods, such as ultrasonic detectors or soapy water solutions, to identify and promptly repair any leaks.
8. Monitor and Control Operating Conditions:
Monitor and maintain proper operating conditions within the screw compressor system. This includes monitoring discharge pressure, temperature, and other relevant parameters to ensure they are within acceptable ranges. Implement appropriate control strategies, such as regulating compressor capacity or adjusting dryer settings, to optimize air quality while meeting the specific application requirements.
9. Training and Awareness:
Provide training to operators and maintenance personnel on the importance of air quality in a screw compressor system. Ensure they understand proper maintenance procedures, the significance of filtration, and how to identify and address potential air quality issues.
10. Compliance with Regulations:
Be aware of and comply with relevant regulations and standards governing air quality in your specific industry or application. This may include adherence to guidelines such as ISO 8573, which specifies air purity classes for different contaminants in compressed air systems.
By following these practices, you can maintain the air quality in a screw compressor system, ensuring clean, reliable, and high-quality compressed air for various applications.
What Are the Maintenance Requirements for Screw Compressors?
Screw compressors require regular maintenance to ensure optimal performance, reliability, and longevity. Here’s a detailed overview of the maintenance requirements for screw compressors:
- 1. Lubrication: Screw compressors rely on proper lubrication to reduce friction, minimize wear, and maintain efficient operation. Regular lubrication of the rotor bearings, seals, and other moving parts is essential. The type and frequency of lubrication may vary depending on the compressor’s design and manufacturer’s recommendations.
- 2. Filter Replacement: Screw compressors have intake filters that prevent dust, debris, and contaminants from entering the compression chamber. These filters need to be inspected regularly and replaced or cleaned as necessary to ensure unrestricted airflow and prevent damage to the compressor components.
- 3. Cooling System Maintenance: Screw compressors may have cooling systems, such as air or water coolers, to dissipate heat generated during compression. The cooling system should be inspected periodically, and any blockages or leaks should be addressed promptly to maintain optimal cooling efficiency.
- 4. Inspection of Belts and Couplings: If the screw compressor is belt-driven or connected through couplings, regular inspection of belts, pulleys, and couplings is necessary. Worn or damaged belts should be replaced, and couplings should be checked for alignment and tightness to ensure smooth power transmission.
- 5. Cleaning of Heat Exchangers: Heat exchangers in screw compressors, such as intercoolers and aftercoolers, can accumulate dirt, scale, and other deposits over time. Regular cleaning of these heat exchangers is important to maintain their heat transfer efficiency and prevent overheating of the compressed air or gas.
- 6. Inspection of Seals and Gaskets: The seals and gaskets in a screw compressor play a critical role in maintaining proper compression and preventing air or gas leakage. Regular inspection of these components is necessary to detect any signs of wear, damage, or leakage. Faulty seals or gaskets should be replaced promptly to maintain the compressor’s efficiency.
- 7. Regular Performance Testing: Periodic performance testing of screw compressors is recommended to assess their operating parameters, such as discharge pressure, flow rate, and power consumption. This helps identify any deviations from the expected performance and allows for adjustments or repairs as needed.
It’s important to note that the specific maintenance requirements for screw compressors may vary depending on the compressor’s design, manufacturer’s recommendations, operating conditions, and usage. Consulting the compressor’s manual and following the manufacturer’s guidelines is crucial for maintaining the compressor effectively and ensuring its reliable operation over time.
editor by CX 2024-02-24