Product Description

Product Description

ZEGA diesel engine fixed air compressors also can be customized to 4 wheels, stationary type.

This series of products are designed for φ115-400 mm borehole drilling rigs and related compressed air stations required by water well, geothermal and other projects;

Under the premise of adhering to the excellent characteristics of mobile air compressors, the series products have been upgraded and optimized for the continuous use of the products and the characteristics of the transportation size requirements, the products are more durable, and the fuel consumption is lower.

The whole system product adopts TIER III engines.

Detailed Photos

 

Product Parameters

There are also some other machine models for your choice. for more information you can contact us on Whatsap:

 

Model Air Flow
(CFM)
Rated Pressure
(PSI)
Diesel Engine Fuel tank(gallon) Air End Dimension(L*W*H) mm Weight (kg)
S60+ 635 261 162 kw Yuchai 58 1 compression stage 3220*1670*2000 3000
S85+ 850 320 228 kw Yuchai 100 2compression stage 3560*1830*2050 3560
S95+ 1030 350 295kw Yuchai 111 2 compression stage 3950*2000*2300 4700
S98+ 1060 350 295 kw Yuchai 111 2 compression stage 3960*2000*2000 4600
S100+ 1100 362 309 kw FAWDE 111 2  compression stage 3960*2000*2000 4600
S120+ 1310 390 412 kw Yuchai 158 2  compression stage 4100x2000x2200 5600
S125+ 1270 435 410 kw Cummins 158 2  compression stage 4220*2000*2300 5600

 

Company Profile

HangZhou Duobo Intelligent Technology Co., Ltd. is a large-scale professional manufacturer of high, medium, and low wind pressure DTH drilling rigs and water well drilling rigs in ZheJiang Province. Products include more than 50 kinds of 6 series. The main products are KQZ series DTH drilling rigs, follow-up pipe series, FY series water well drilling rigs, high, medium, and low wind pressure engineering drilling rigs, etc.

The company has been committed to the professional production of water well drilling rigs and down-the-hole drilling rigs and the sales and maintenance of drilling tools and air compressors for more than 20 years. Accumulated a wealth of professional maintenance technology and thoughtful and meticulous after-sales service experience. It has accumulated a large amount of usage data through extensive contacts with users.

The company independently developed a new generation of water well drilling rigs and obtained a number of national patents. This series of products have the characteristics of standardized configuration, compact and reasonable structure, fast drilling speed, economical and durability, and low failure rate. Once launched, it has been recognized by the market and is widely used in mining engineering construction, civil drilling, geothermal drilling, and other fields. The comprehensive cost performance of this series of products is leading and has won a good reputation in the market, becoming the first choice of users everywhere.

The company always stands on the user’s point of view, pays attention to user needs, implements quality standards, makes “DUOBO” brand series drilling rigs closer to user needs, and forms the market management concept of “user needs, DUOBO pursuit”. The company always firmly believes that “the market is the only standard.

Other product

FAQ

 

1. Q: What kind of terms of payment can be accepted?
A: Normally we can work on T/T or L/C.

2. Q: Which incoterms 2571 terms can we work?
A: Normally we work on FOB, CFR, CIF, EXW, DDU.

3. Q: What about the delivery time?
A:7 days after receiving the deposit.

4. Q: What about the warranty time?
A:12 months after shipment, the engine is 6 months.

5. Q: What about the Minimum Order Quantity?
A: The MOQ is 1 set.

6. Q: Could you stick customers’ brands on the products?
A: We warmly welcome the OEM orders.

If you don’t know how to choose a suitable one, please send us an inquiry.
Your inquiry will be replied within 2 hours. Write down your message/request below.
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After-sales Service: Yes
Warranty: One Year
Lubrication Style: Lubricated
Cooling System: Air Cooling
Power Source: Diesel Engine
Cylinder Position: Vertical
Samples:
US$ 30000/Piece
1 Piece(Min.Order)

|
Request Sample

as discussed
Customization:
Available

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air compressor

How Does Variable Speed Control Work in Screw Compressors?

Variable speed control in screw compressors is a technology that allows the compressor’s rotational speed to be adjusted according to the compressed air or gas demand. This control method offers several benefits in terms of energy efficiency and system performance. Here’s a detailed explanation:

Variable speed control, also known as variable frequency drive (VFD) or inverter control, works by adjusting the speed of the compressor’s drive motor. The drive motor is typically an electric motor that powers the rotation of the compressor’s screw rotors.

The key components and operation of variable speed control in screw compressors are as follows:

  • 1. Drive Motor: The drive motor is connected to the compressor’s screw rotors and provides the rotational power required for compression. It is an electric motor capable of operating at variable speeds.
  • 2. Inverter or Variable Frequency Drive (VFD): The inverter or VFD is an electronic device that controls the speed of the drive motor. It converts the incoming electrical power into adjustable frequency and voltage, allowing precise control of the motor’s rotational speed.
  • 3. Control System: The control system of the screw compressor monitors and adjusts the speed of the drive motor based on the compressed air or gas demand. It receives input signals from sensors that measure parameters such as pressure, flow rate, or system demand, and sends corresponding signals to the inverter or VFD to regulate the motor speed.
  • 4. Speed Adjustment: When the demand for compressed air or gas decreases, the control system reduces the motor speed by decreasing the frequency and voltage supplied by the inverter or VFD. This results in a lower rotational speed of the screw rotors, reducing the compression capacity and power consumption of the compressor.
  • 5. Energy Efficiency: Variable speed control allows the compressor to match the output to the actual demand, avoiding energy wastage associated with constant-speed compressors. By operating at lower speeds during periods of lower demand, energy consumption can be significantly reduced. This energy-saving capability is particularly advantageous in applications with varying air or gas requirements.
  • 6. Smooth Operation: Variable speed control enables smooth and gradual motor acceleration and deceleration, minimizing mechanical stress on the compressor components and reducing the likelihood of sudden pressure surges or system shutdowns.
  • 7. System Stability: By adjusting the compressor’s speed to match the demand, variable speed control helps maintain stable system pressure and prevents excessive cycling of the compressor. This contributes to improved system performance and longevity.

It’s worth noting that variable speed control is more commonly found in larger screw compressors used in industrial and commercial applications. Smaller screw compressors may utilize fixed-speed motors due to cost considerations or simpler system requirements.

Overall, variable speed control in screw compressors offers precise capacity modulation, improved energy efficiency, enhanced system stability, and reduced maintenance requirements, making it a preferred choice in many applications where compressed air or gas demand fluctuates.

air compressor

What Is the Role of Control Systems in Screw Compressor Operation?

Control systems play a crucial role in the operation of screw compressors. Here’s a detailed explanation:

Screw compressors are complex machines that require precise control and monitoring for optimal performance and efficiency. Control systems provide the necessary intelligence and automation to regulate various aspects of screw compressor operation. Here are the key roles of control systems:

1. Start-up and Shutdown Control:

Control systems manage the start-up and shutdown sequences of screw compressors. During start-up, the control system ensures a gradual ramp-up of motor speed and system pressure to prevent sudden surges and excessive wear on components. During shutdown, it safely brings the compressor to a stop and performs necessary cooling and ventilation processes.

2. Load and Unload Control:

Screw compressors often feature load and unload operation to match compressed air supply with demand. The control system monitors system pressure, flow requirements, and other parameters to determine when to load or unload the compressor. It engages or disengages the compressor’s capacity control mechanism, such as inlet modulation valves or variable-speed drives, to maintain optimal operation at varying loads.

3. Pressure Control:

Control systems regulate the discharge pressure of screw compressors. They continuously monitor the system pressure and adjust compressor operation to maintain the desired pressure setpoint. The control system modulates the compressor’s capacity, adjusts the speed of the drive motor, or controls the opening and closing of inlet or discharge valves to achieve the target pressure.

4. Temperature Control:

Control systems monitor and control various temperature parameters within the screw compressor system. They ensure that the compressor operates within safe temperature limits by monitoring coolant temperatures, lubricant temperatures, and interstage or discharge temperatures. If temperature limits are exceeded, the control system may activate cooling mechanisms, adjust operating parameters, or trigger alarms and shutdowns to prevent damage.

5. Monitoring and Protection:

Control systems provide comprehensive monitoring and protection functions for screw compressors. They continuously collect data from various sensors and instruments, such as pressure sensors, temperature sensors, vibration sensors, and current sensors. The control system analyzes this data to detect abnormalities, malfunctions, or potential failures. It can initiate alarms, shutdowns, or safety interlocks to protect the compressor and associated equipment.

6. Energy Management:

Control systems optimize energy efficiency in screw compressor operation. They analyze system demand, performance characteristics, and energy consumption to make intelligent decisions regarding load modulation, capacity control, and motor speed adjustments. By optimizing the compressor’s operation, the control system helps reduce energy consumption, operating costs, and environmental impact.

7. Remote Monitoring and Control:

Modern control systems often offer remote monitoring and control capabilities. They can be integrated into supervisory control and data acquisition (SCADA) systems or connected to networked platforms. Remote access allows operators to monitor compressor performance, adjust operating parameters, receive alarms, and perform diagnostics from a central control room or via mobile devices.

In summary, control systems play a vital role in the operation of screw compressors by providing intelligent control, monitoring, and protection. They manage start-up and shutdown sequences, regulate load and unload operation, control pressure and temperature, monitor system parameters, optimize energy efficiency, and enable remote monitoring and control. By effectively managing the compressor’s operation, control systems contribute to reliable performance, energy efficiency, and overall system optimization.

air compressor

How Does a Screw Compressor Work?

A screw compressor operates based on a unique rotary positive displacement principle. Here’s a detailed explanation:

Working Principle:

A screw compressor consists of two helical rotors, typically referred to as male and female rotors, that rotate in opposite directions within a housing. The rotors have specially designed profiles that interlock with each other, creating a series of compression chambers as they rotate. The compression chambers gradually reduce in volume as the rotors rotate, compressing the air or gas trapped inside.

Suction Process:

The suction process begins when the rotors start rotating. As they rotate, the helical lobes or threads on the rotors create expanding spaces between them. The expanding spaces draw in the air or gas from the inlet port, allowing it to enter the compression chamber. The suction process continues as the rotors rotate, and the expanding spaces move the air or gas towards the discharge side of the compressor.

Compression Process:

As the air or gas enters the compression chamber, it gets trapped between the interlocking lobes or threads of the rotors. As the rotors continue to rotate, the trapped air or gas is carried along the length of the rotors. The volume of the compression chamber gradually decreases as the lobes or threads of the rotors intermesh, compressing the air or gas. The compression process is continuous and smooth as the air or gas moves from the suction side to the discharge side of the compressor.

Discharge Process:

Once the air or gas reaches the discharge end of the compression chamber, it is pushed towards the outlet port. The compressed air or gas is then released from the compressor through the outlet port to be used for various applications.

Oil-Injected and Oil-Free Variants:

Screw compressors are available in both oil-injected and oil-free variants. In oil-injected screw compressors, a small amount of lubricating oil is injected into the compression chamber. The oil provides lubrication, cooling, and sealing between the rotors, reducing friction and minimizing wear. The oil-injected variant is commonly used in industrial applications where a small amount of oil in the compressed air is acceptable.

Oil-free screw compressors, on the other hand, are designed to operate without the need for oil lubrication. These compressors use specialized rotor coatings, such as PTFE (polytetrafluoroethylene) or other non-stick materials, to reduce friction and eliminate the need for oil. Oil-free screw compressors are preferred in applications that require oil-free and contaminant-free compressed air, such as in the food and beverage, pharmaceutical, and electronics industries.

In summary, a screw compressor works by utilizing interlocking helical rotors to compress air or gas. The rotating rotors draw in the air or gas during the suction process, and as they rotate, the trapped air or gas is compressed within the compression chamber. The compressed air or gas is then discharged from the compressor. Screw compressors are available in oil-injected and oil-free variants, catering to different application requirements.

China manufacturer CHINAMFG S95 Four Wheel Type 1000cfm Trailer Screw Air Compressor for Borehole Drilling   12v air compressorChina manufacturer CHINAMFG S95 Four Wheel Type 1000cfm Trailer Screw Air Compressor for Borehole Drilling   12v air compressor
editor by CX 2024-02-26

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