Product Description
Model | MDS185-FF | |||||||||
Compressor | Air delivery |
m3/min |
5.18 |
|||||||
cu.ft/min | 185 | |||||||||
Discharge pressure | bar | 7 | ||||||||
psig | 101.5 | |||||||||
Lubricating Oil Capacity |
L | 23 | ||||||||
Diesel Engine |
Manufacture&Model |
Foxair-4571DF-005 |
||||||||
Cylinder Number | 4 | |||||||||
Rotation speed(Rmp) | Operating | 2650 | ||||||||
Idle speed(r/min) | 2200 | |||||||||
Rated power(KW) |
42 |
|||||||||
Lubricating Oil capacity(L) | 300 | |||||||||
Displacement (L) |
2.7 | |||||||||
Lubricating Oil Capacity (L) |
7 | |||||||||
Coolant Capacity (L) |
9 | |||||||||
Battery |
6-QW-70 |
Standard Configuration |
. Suction valve Lubricating oil filter Oil thermostatic valve 50°C radiator
Solenoid valve Vertical air/oil tank Pressure regular valve Air/oil separator
Lubricating oil radiator Safety valve Emergency stop button Air filter of engine
Minimum pressure valve Lockable battery isolator switch
Air filter of compressor Vent valve Powder coated canopy Shuttle valve
24V sealed for life maintenance free battery Fuel tank for 8 hours running
General Features |
Structure diagram |
1. Lifting bail 2.Exhaust outlet 3.Door 4. Handle 5.Service valve 6. Instrument panel
Feature&Benefit | ||||||||||
Feature | Benefit | |||||||||
Pressure selection and control | Easy pressure setting | |||||||||
Flow selection and control | The working pressure and airflow rate can be adjusted according to the size of air consumption without wasting any diesel | |||||||||
The twin-screw rotor is directly connected with the diesel engine by a highly flexible coupling | Outputting more air with less energy consumption, featuring high reliability, longer service life, and low maintenance cost. | |||||||||
The two-stage air filtration system | The total efficiency of air filtration reaches 99.8% ensuring the compressor to not be infringed by dust and dirt particles and longer service life of the engine | |||||||||
High-temperature resistance design | Able to run for a long time under extreme cold or hot temperature from -20ºC to 50ºC | |||||||||
One-button start, clear operational parameters | Operators don’t have to go through long-term professional training, and unattended operations can be achieved. |
Application areas |
Field | Application | Nominal Working Pressure(bar) | Free Air Delivery Range(m3/min) | |||||||
General Construction (building sites, road maintenance, bridges, tunnels, concrete pumping and shotcreting) |
Hand-held pneumatic breakers | 7~14 | 5~13 | |||||||
Jack hammers | ||||||||||
Air guns | ||||||||||
Shotcrete equipment | ||||||||||
Pneumatic wrenches | ||||||||||
Nut runners | ||||||||||
Ground Engineering Drilling (basement and foundation excavation for apartment blocks and other buildings) |
Pneumatic rock drills | 7~17 | 12~28 | |||||||
Block cutters | ||||||||||
Dewatering pumps. | ||||||||||
Hand-held pneumatic breakers | ||||||||||
Utility, CZPT Blasting (shipyards, steel construction and large renovation jobs) |
Sandblasting (remove rust, scale, paint) |
7~10 | 10~22 | |||||||
Blast Hole Drilling (aggregate production for construction stabilization, cement production in limestone quarries and open pit mining) |
Rock drills | 14~21 | 12~29 | |||||||
Dewatering pumps | ||||||||||
Hand-held breakers | ||||||||||
High Pressure Drilling (drilling for water wells and foundations for high-rise buildings, along with geotechnical/geothermal applications) |
Water well drilling | 20~35 | 18~40 | |||||||
DTH drilling | ||||||||||
Rotary drilling |
Selection table |
Small Series | ||||||||||
Small Series | FAD | Pressure | Engine model | Dimensional Date(mm) | ||||||
m3/min | cfm | Bar | psig | length | width | height | weight(kg) | |||
model | with tow bar | without tow bar | ||||||||
MDS55S-7 | 1,55 | 55 | 7 | 101,5 | D902 | 2925 | 1650 | 1200 | 1200 | 600 |
MDS80S-7 | 2,24 | 80 | 7 | 101,5 | D1005 | 2925 | 1650 | 1200 | 1200 | 630 |
MDS100S-7 | 2,8 | 100 | 7 | 101,5 | V1505 | 2925 | 1650 | 1200 | 1200 | 640 |
MDS125S-7 | 3,5 | 125 | 7 | 101,5 | V1505 | 3065 | 1800 | 1500 | 1350 | 810 |
MDS130S-8 | 3,7 | 132 | 8 | 116 | JE493 | 3065 | 1800 | 1500 | 1350 | 810 |
MDS185S-7 | 5,18 | 185 | 7 | 101,5 | JE493 | 3200 | 1900 | 1740 | 1660 | 950 |
MDS185S-10 | 5,18 | 185 | 10 | 145 | JE493 | 3050 | 1900 | 1740 | 1660 | 950 |
Middle Series (Low&Medium pressure) | ||||||||||
Middle Series (Low&Medium pressure) | FAD | Pressure | Engine model | Dimensional Date(mm) | ||||||
m3/min | cfm | Bar | psig | length | width | height | weight(kg) | |||
model | with tow bar | without tow bar | ||||||||
MDS265S-7 | 7,42 | 265 | 7 | 101,5 | JE493 | 3629 | 2200 | 1700 | 1470 | 1200 |
MDS300S-14 | 8,4 | 300 | 14 | 203 | 4BTA3.9 | 3850 | 2600 | 1810 | 2378 | 1800 |
MDS350S-10 | 9,9 | 354 | 10 | 145 | 4BT3.9 | 3850 | 2600 | 1810 | 2378 | 1800 |
MDS390S-7 | 11 | 393 | 7 | 101,5 | 4BTA3.9 | 3850 | 2600 | 1810 | 2378 | 1800 |
MDS390S-13 | 11 | 393 | 13 | 188,5 | QSB4.5 | 3850 | 3100 | 1810 | 2378 | 1980 |
MDS429S-7 | 12 | 429 | 7 | 101,5 | 4BTA3.9 | 3850 | 2600 | 1810 | 2378 | 1800 |
MDS429S-14 | 12 | 429 | 14 | 203 | QSB4.5 | 3850 | 3100 | 1810 | 2378 | 1980 |
MDS500S-14 | 14,1 | 504 | 14 | 203 | 6BTAA5.9 | 4550 | 3600 | 1810 | 2378 | 3100 |
MDS690S-14 | 19,3 | 689 | 14 | 203 | QSB6.7 | 4950 | 3300 | 2170 | 2620 | 3500 |
MDS720S-10 | 20,2 | 721 | 10 | 145 | QSB6.7 | 4950 | 3300 | 2170 | 2620 | 3500 |
MDS750S-12 | 21 | 750 | 12 | 174 | QSB6.7 | 4950 | 3300 | 2170 | 2620 | 3500 |
MDS786S-10.3 | 22 | 786 | 10,3 | 149,35 | QSB6.7 | 4950 | 3300 | 2170 | 2620 | 3500 |
MDS820S-14 | 23 | 821 | 14 | 203 | 6LTAA8.9 | 5300 | 4200 | 2170 | 2630 | 5200 |
MDS850S-8.6 | 24 | 857 | 8,6 | 124,7 | 6CTAA8.3 | 5300 | 4200 | 2170 | 2630 | 4600 |
MDS900S-7.1 | 25,3 | 904 | 7,1 | 102,95 | 6CTA8.3 | 5300 | 4200 | 2170 | 2630 | 4600 |
Middle Series (Medium&High pressure) | ||||||||||
Middle Series (Medium&High pressure) | FAD | Pressure | Engine model | Dimensional Date(mm) | ||||||
m3/min | cfm | Bar | psig | length | width | height | weight(kg) | |||
model | with tow bar | without tow bar | ||||||||
MDS460S-17 | 13 | 464 | 17 | 246,5 | 6BTAA5.9 | 4600 | 3500 | 1800 | 2230 | 3500 |
MDS620S-17 | 17,4 | 621 | 17 | 246,5 | 6LTAA8.9 | 5300 | 4200 | 2170 | 2630 | 5200 |
MDS650S-19 | 18,2 | 650 | 19 | 275,5 | QSL8.9 | 5300 | 4200 | 2170 | 2630 | 5200 |
MDS690S-20.4 | 19,4 | 693 | 20,4 | 295,8 | 6LTAA8.9 | 5300 | 4200 | 2170 | 2630 | 5200 |
MDS770S-21 | 21,6 | 771 | 21 | 304,5 | 6LTAA8.9 | 5300 | 4200 | 2100 | 2630 | 5280 |
MDS830S-18 | 23,2 | 830 | 18 | 261 | 6LTAA8.9 | 5300 | 4200 | 2100 | 2630 | 5280 |
MDS820S-25 | 23 | 821 | 25 | 362,5 | QSM11 | 5300 | 4200 | 2100 | 2630 | 5600 |
MDS860S-20.4/17.3 | 24,2 | 864 | 20,4 | 295,8 | QSL8.9 | 5300 | 4200 | 2100 | 2630 | 5280 |
24,2 | 864 | 17,3 | 250,85 | |||||||
MDS875S-23 | 24,5 | 875 | 23 | 333,5 | QSM11 | 5300 | 4200 | 2100 | 2630 | 5600 |
Large Series (Low&Medium pressure) | ||||||||||
Large Series (Low&Medium pressure) | FAD | Pressure | Engine model | Dimensional Date(mm) | ||||||
m3/min | cfm | Bar | psig | length | width | height | weight(kg) | |||
model | with tow bar | without tow bar | ||||||||
MDS900S-14.2/10.5 | 25,1 | 896 | 14,2 | 205,9 | 6LTAA8.9 | 5300 | 4200 | 2100 | 2630 | 5280 |
25,2 | 900 | 10,5 | 152,25 | |||||||
MDS910S-14 | 25,6 | 914 | 14 | 203 | 6LTAA8.9 | 5300 | 4200 | 2100 | 2630 | 5280 |
MDS970S-10 | 27,2 | 971 | 10 | 145 | QSL8.9 | 5300 | 4200 | 2100 | 2630 | 5280 |
MDS1011S-8.6 | 28,3 | 1011 | 8,6 | 124,7 | QSL8.9 | 5300 | 4200 | 2100 | 2630 | 5280 |
MDS1054S-12 | 29,5 | 1054 | 12 | 174 | QSL8.9 | 5300 | 4200 | 2100 | 2630 | 5280 |
MDS1250S-8.6 | 35 | 1250 | 8,6 | 124,7 | QSL8.9 | 5300 | 4200 | 2100 | 2630 | 5280 |
MDS1400S-13 | 40 | 1400 | 13 | 188,5 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 5800 |
MDS1600S-10.3 | 45 | 1600 | 10,3 | 149,35 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 5800 |
MDS1785S-13 | 50 | 1785 | 13 | 188,5 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 5800 |
MDS2140S-10 | 60 | 2142 | 10 | 145 | QSZ14 | 7400 | 5400 | 2230 | 2630 | 8400 |
Large Series (Medium&High pressure) | ||||||||||
Large Series (Medium&High pressure) | FAD | Pressure | Engine model | Dimensional Date(mm) | ||||||
m3/min | cfm | Bar | psig | length | width | height | weight(kg) | |||
model | with tow bar | without tow bar | ||||||||
MDS900S-20 | 25,3 | 904 | 20 | 290 | QSM11 | 5300 | 4200 | 2100 | 2630 | 5800 |
MDS960S-18 | 26,9 | 961 | 18 | 261 | QSM11 | 5300 | 4200 | 2100 | 2630 | 5800 |
MDS1000S-35 | 28,2 | 1000 | 35 | 507,5 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 7200 |
MDS1089S-25 | 30,5 | 1089 | 25 | 362,5 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 7200 |
MDS1200S-24 | 33,6 | 1200 | 24 | 348 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 7200 |
MDS1250S-21 | 35 | 1250 | 21 | 304,5 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 7200 |
MDS1250S-25 | 35 | 1250 | 25 | 362,5 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 7200 |
MDS1250S-30 | 35 | 1250 | 30 | 435 | WP17G770E302 | 6200 | 4700 | 2100 | 2630 | 7800 |
MDS1250S-35 | 35 | 1250 | 35 | 507,5 | WP17G770E302 | 6200 | 4700 | 2100 | 2630 | 7800 |
MDS1250S-40 | 35 | 1250 | 40 | 580 | WP17G770E302 | 6200 | 4700 | 2100 | 2630 | 7800 |
MDS1428S-18 | 40 | 1428 | 18 | 261 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 7200 |
MDS1428S-35 | 40 | 1428 | 35 | 507,5 | TAD1643VE-B | 7400 | 5500 | 2180 | 2650 | 10000 |
MDS1428S-40 | 40 | 1428 | 40 | 580 | QSK19 | 7400 | 5500 | 2180 | 2650 | 10000 |
MDS1600S-25 | 44,8 | 1600 | 25 | 362,5 | WP17G770E302 | 7400 | 5500 | 2180 | 2650 | 10000 |
GTL Air compressor test system |
After-sales Service: | Online |
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Warranty: | 1year |
Lubrication Style: | Lubricated |
Cooling System: | Water Cooling |
Power Source: | Diesel Engine |
Cylinder Position: | Vertical |
Customization: |
Available
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How to Choose the Right Air Compressor
An air compressor uses pressurized air to power a variety of tools. They are most commonly used to power nailers and impact wrenches. Other popular uses for air compressors include paint sprayers and impact wrenches. While all air compressors have the same basic construction, their specialty differs. Ultimately, their differences come down to the amount of air they can push. Read on for information on each type of air compressor. These tools are great for many different purposes, and choosing the right air compressor depends on your specific needs.
Electric motor
While purchasing an electric motor for air compressor, compatibility is a key factor. Not all motors work with the same type of air compressor, so it’s important to check the manufacturer’s instructions before purchasing. By doing this, you can avoid wasting money on an incompatible motor. Another important consideration is speed. A motor’s speed is its rate of rotation, measured in revolutions per minute. It is critical that you purchase a motor with sufficient speed to meet the needs of your air compressor.
Typically, an electric motor for air compressor is 1.5 hp. It is ideal for use with medical equipment and metal-cutting machines. It also performs well under continuous operation and offers a high efficiency and energy-saving performance. Moreover, it features an attractive price, making it a good choice for a wide range of applications. If you are looking for a motor for an air compressor, look no further than a ZYS series.
A motor’s protection class indicates how the motor will operate. Protection classes are specified by the IEC 60034-5. These are stated with two digits and represent the protection against solid objects and water. For example, an IP23 rating means that the motor will be protected from solid objects, while IP54 means that it will protect from dust and water sprayed from all directions. It is vital to choose a motor with the correct protection class for your air compressor.
When choosing an electric motor, you should consider whether it’s compatible with the brand of air compressor. Some may be compatible, while others may require advanced electronics skills to repair. However, most air compressors are covered by warranty, so it’s important to check with the manufacturer if the warranty is still in effect before you spend a dime on a replacement. The motor should be replaced if it has failed to perform as designed.
Oil bath
Air compressors require proper lubrication to function efficiently. The piston must draw air with minimal friction. Depending on their design, air compressors can either be oil-lubricated or oil-free. The former uses oil to reduce piston friction, while the latter splashes it on the cylinder bearings and walls. Such air compressors are commonly known as oil-flooded air compressors. In order to keep their oil baths clean, they are recommended for use in locations with high dust levels.
Start/stop control
An air compressor can be controlled by a start/stop control. This type of control sends a signal to the main motor that activates the compressor when the demand for air falls below a preset limit. This control strategy is effective for smaller air compressors and can be useful for reducing energy costs. Start/stop control is most effective in applications where air pressure does not change frequently and where the compressor is not required to run continuously.
To troubleshoot this problem, you need to check the power supply of your compressor. To check the supply side, use a voltage monitor to determine if power is flowing to the compressor. Ensure that the power supply to the compressor is steady and stable at all times. If it fluctuates, the compressor may not start or stop as expected. If you cannot find the problem with the air compressor power supply, it may be time to replace it.
In addition to the start/stop control, you may want to purchase additional air receivers for your air compressor. These can increase the capacity of air stored and reduce the number of times it starts and stops. Another way to decrease the number of starts per hour is to add more air receivers. Then, you can adjust the control to match your requirements. You can also install a pressure gauge that monitors the compressor’s performance.
Start/stop control for air compressors can be complex, but the basic components are relatively easy to understand. One way to test them is to turn the compressor on or off. It is usually located on the exterior of the motor. If you’re unsure of the location of these components, check the capacitors and make sure that the air compressor is not running while you’re not using it. If it does, try to remove the capacitor.
Variable displacement control is another way to adjust the amount of air flowing into the compressor. By controlling the amount of air, the control can delay the use of additional compressors until more required air is available. In addition to this, the device can also monitor the energy used in the compressor. This control method can result in substantial energy savings. You can even save on the amount of electricity by using variable displacement control. It is essential for efficient compressed air systems.
Variable speed drive
A VFD, or variable frequency drive, is a type of electric motor that adjusts its speed to match the demand for air. It is an efficient way to reduce energy costs and improve system reliability. In fact, studies have shown that a 20% reduction in motor speed can save up to 50% of energy. In addition, a VFD can monitor additional variables such as compressor oil pressure and motor temperature. By eliminating manual checks, a VFD will improve the performance of the application and reduce operating costs.
In addition to reducing energy costs, variable-speed drives also increase productivity. A variable-speed air compressor reduces the risk of system leaks by 30 percent. It also reduces the risk of system leaks by reducing pressure in the system. Because of these advantages, many governments are promoting this technology in their industries. Many even offer incentives to help companies upgrade to variable-speed drives. Therefore, the variable-speed drive can benefit many air compressor installations.
One major benefit of a variable-speed drive is its ability to optimize energy use. Variable frequency drives are able to ramp up and down to match the demand for air. The goal is to optimize the pressure and flow in the system so that the best “dead band” occurs between forty percent and eighty percent of full load. A variable-speed compressor will also increase energy efficiency because of its programmability.
A variable-speed air compressor can also be used to control the amount of air that is compressed by the system. This feature adjusts the frequency of power supplied to the motor based on the demand. If the demand for air is low, the frequency of the motor will reduce to save energy. On the other hand, if there is an excess demand for air, the variable-speed compressor will increase its speed. In addition, this type of air compressor is more efficient than its fixed-speed counterpart.
A VFD has many benefits for compressed air systems. First, it helps stabilize the pressure in the pipe network, thereby reducing the power losses due to upstream pressure. It also helps reduce the power consumption caused by fluctuations in upward pressure. Its benefits are also far-reaching. And as long as the air pressure and air supply is properly sized, a VFD will help optimize the efficiency of compressed air systems.
editor by CX 2023-04-22