China Permanent Magnet Synchronous Motor (PMSM) Variable Frequency Converter Drive Pm VSD Inverter Direct Driven Double Screw Air Compressor with Affordable Price air compressor parts

Solution Description

Industrial AC Electricity Long term Magnet Synchronous Motor (PMSM) Variable Frequency Converter Push Pm VSD Inverter Immediate Coupled Screw Air Compressor Advantage 

one. DENAIR PMSM(Everlasting Magnet Synchronous Motor) VSD air compressor reduces the energy usage by a staggering fifty% on typical.
 
two.Ideal-in-class screw component with for a longer time male rotor, high volumetric efficiency
 
3.Long term magnetic electric powered motor, no bearing, no lubricant and no maintenance, 100% transmission
 
four.Intelligent contact monitor manage panel, checking air compressor standing a lot more conveniently, check overall power use, location start and end time of air compressor 
 
5.Exclusive style for inverter, ideal security from short period, phase limited circuit, floor limited circuit, more than recent, overvoltage, beneath voltage, overload, overheating, motor thermal protections etc.

Technical Parameters Of Variable Frequency Air Compressor with PMSM Motor

Model Maximum operating stress Capacity(Fad) Installed
motor electricity
IP Grade Noise amount Dimensions
(mm)
Weight Air outlet
pipe diameter
Starting
Strategy
EEI
bar(g) psig m3/min cfm kw hp L*W*H kg
DAV-five 7.5  109 .forty five-.89 15.eighty-31.59 5.five 7.5 IP65 75 900*660*960 315 G3/4″ Direct Pushed
Air
Cooling
EEI1
8.5  123 .44-.88 15.61-31.22
10.5  152 .38-.seventy six thirteen.38-26.seventy six
DAV-seven 7.5  109 .fifty nine-1.19 21.00-forty two.00 7.5 10 IP65 75 900*660*960 315 G3/4″
eight.5  123 .58-1.seventeen twenty.sixty three-41.26
ten.5  152 .fifty one-1.01 seventeen.84-35.68
DAV-eleven 7.5  109 .90-1.eighty 31.seventy eight-sixty three.56 11 15 IP65 75 900*660*960 324 G3/4″
eight.5  123 .89-1.seventy nine 31.59-63.19
10.5  152 .eighty one-1.sixty one 28.43-fifty six.87
thirteen.0  189 .68-1.37 24.16-48.32
DAV-15 7.5  109 one.22-2.forty three forty two.ninety three-eighty five.86 15 20 IP65 75 1465*990*1345 453 G1-1/4″
8.5  123 1.18-2.37 41.81-83.63
10.5  152 1.05-2.09 36.ninety eight-seventy three.ninety seven
thirteen.0  189 .96-1.92 33.eighty two-sixty seven.65
DAV-18 seven.5  109 1.55-3.09 fifty four.sixty four-109.28 18.5 25 IP65 75 1465*990*1345 453 G1-1/4″
8.5  123 1.fifty one-3.01 fifty three.fifteen-106.30
ten.5  152 one.34-2.sixty eight forty seven.39-94.78
13.0  189 1.08-2.sixteen 38.10-seventy six.twenty
DAV-22 7.5  109 1.eighty two-3.64 64.30-128.sixty 22 30 IP65 75 1465*990*1345 477 G1-1/4″
8.5  123 one.81-3.62 sixty three.ninety three-127.86
ten.5  152 1.sixty seven-3.35 fifty nine.10-118.twenty
thirteen.0  189 1.32-2.sixty three forty six.forty six-92.92
DAV-30 seven.5  109 2.63-5.26 92.ninety two-185.eighty four 30 40 IP65 78 1600*1250*1550 682 G1-1/2″
eight.5  123 2.62-5.24 ninety two.55-185.10
10.5  152 2.36-4.seventy two eighty three.26-166.51
thirteen.0  189 two.09-4.eighteen seventy three.78-147.fifty six
DAV-37 seven.5  109 3.44-6.87 121.35-242.seventy one 37 50 IP65 78 1600*1250*1550 728 G1-1/2″
eight.5  123 3.forty three-6.eighty five 120.98-241.ninety seven
10.5  152 2.95-5.89 104.07-208.14
13.0  189 two.forty-4.80 84.74-169.forty nine
DAV-forty five 7.5  109 four.01-8.01 141.forty three-282.eighty five 45 60 IP65 78 1600*1250*1550 728 G1-1/2″
eight.5  123 three.ninety nine-7.98 one hundred forty.87-281.seventy four
ten.5  152 3.sixty three-7.twenty five 128.05-256.09
13.0  189 3.fifteen-6.29 111.13-222.27
DAV-fifty five 7.5  109 five.14-ten.28 181.57-363.14 55 75 IP54 80 1800*1200*1400 1310 G2″
eight.5  123 five.ten-10.20 180.08-360.sixteen
ten.5  152 4.83-9.sixty six a hundred and seventy.sixty-341.21
13.0  189 3.94-7.87 139.01-278.02
DAV-75 7.5  109 6.forty eight-12.97 228.ninety six-457.ninety one 75 100 IP54 80 1800*1200*1400 1325 G2
8.5  123 6.forty four-twelve.87 227.28-454.fifty seven
ten.5  152 five.seventy one-11.forty two 201.64-403.28
thirteen.0  189 4.sixty eight-9.37 a hundred sixty five.forty-330.eighty
*) FAD in accordance with ISO 1217:2009, Annex C: Ansolute intake strain 1 bar (a), cooling and air intake temperature 20ºC
**) Nosie degree as per ISO 2151 and the basic regular ISO 9614-2, procedure at greatest working stress and optimum speed tolerance:±3 dB(A)
Specifications are subject matter to modify without having prior recognize

We meticulously chosen for you the vintage situation


fourteen sets of VSD air compressor for 40HQ are prepared for packing and providing to CZPT distributor in Buenos Aires, Argentina. The compressors are high-stop customized for Argentina industry with Germany MANN filters, France SCHNEIDER inverter, Belgium CMC controller, and so forth. 

DENAIR Factory

DENAIR Customers

DENAIR Exhibition

DENAIR Certificae

DENAIR Packing

FAQ

Q1: Are you manufacturing unit or trade organization?  
A1: We are factory.

Q2: What the exactly tackle of your manufacturing unit? 
A2:  No. 366, YangzhuangBang Street, Pingxing Rd., Xindai Town, HangZhou, ZHangZhoug Province, China

Q3: Guarantee phrases of your device? 
A3: Two years guarantee for the machine and technological assist in accordance to your needs.

This autumn: Will you supply some spare parts of the Air Compressors? 
A4: Yes, of program.

Q5: How prolonged will you take to set up generation? 
A5: 380V 50HZ we can delivery the items in 10 days. Other electrical power or other color we will shipping and delivery inside of 22 days

Q6: Can you acknowledge OEM orders? 
A6: Yes, with professional design and style crew, OEM orders are hugely welcome.

US $3,000-30,000
/ Piece
|
1 Piece

(Min. Order)

###

Shipping Cost:

Estimated freight per unit.



To be negotiated

###

Lubrication Style: Lubricated or Oil-Less
Cooling System: Air Cooling/Water Cooling
Power Source: AC Power

###

Customization:

###

Model Maximum working pressure Capacity(FAD) Installed
motor power
IP Grade Noise level Dimensions
(mm)
Weight Air outlet
pipe diameter
Starting
Method
EEI
bar(g) psig m3/min cfm kw hp L*W*H kg
DAV-5 7.5  109 0.45-0.89 15.80-31.59 5.5 7.5 IP65 75 900*660*960 315 G3/4" Direct Driven
Air
Cooling
EEI1
8.5  123 0.44-0.88 15.61-31.22
10.5  152 0.38-0.76 13.38-26.76
DAV-7 7.5  109 0.59-1.19 21.00-42.00 7.5 10 IP65 75 900*660*960 315 G3/4"
8.5  123 0.58-1.17 20.63-41.26
10.5  152 0.51-1.01 17.84-35.68
DAV-11 7.5  109 0.90-1.80 31.78-63.56 11 15 IP65 75 900*660*960 324 G3/4"
8.5  123 0.89-1.79 31.59-63.19
10.5  152 0.81-1.61 28.43-56.87
13.0  189 0.68-1.37 24.16-48.32
DAV-15 7.5  109 1.22-2.43 42.93-85.86 15 20 IP65 75 1465*990*1345 453 G1-1/4"
8.5  123 1.18-2.37 41.81-83.63
10.5  152 1.05-2.09 36.98-73.97
13.0  189 0.96-1.92 33.82-67.65
DAV-18 7.5  109 1.55-3.09 54.64-109.28 18.5 25 IP65 75 1465*990*1345 453 G1-1/4"
8.5  123 1.51-3.01 53.15-106.30
10.5  152 1.34-2.68 47.39-94.78
13.0  189 1.08-2.16 38.10-76.20
DAV-22 7.5  109 1.82-3.64 64.30-128.60 22 30 IP65 75 1465*990*1345 477 G1-1/4"
8.5  123 1.81-3.62 63.93-127.86
10.5  152 1.67-3.35 59.10-118.20
13.0  189 1.32-2.63 46.46-92.92
DAV-30 7.5  109 2.63-5.26 92.92-185.84 30 40 IP65 78 1600*1250*1550 682 G1-1/2"
8.5  123 2.62-5.24 92.55-185.10
10.5  152 2.36-4.72 83.26-166.51
13.0  189 2.09-4.18 73.78-147.56
DAV-37 7.5  109 3.44-6.87 121.35-242.71 37 50 IP65 78 1600*1250*1550 728 G1-1/2"
8.5  123 3.43-6.85 120.98-241.97
10.5  152 2.95-5.89 104.07-208.14
13.0  189 2.40-4.80 84.74-169.49
DAV-45 7.5  109 4.01-8.01 141.43-282.85 45 60 IP65 78 1600*1250*1550 728 G1-1/2"
8.5  123 3.99-7.98 140.87-281.74
10.5  152 3.63-7.25 128.05-256.09
13.0  189 3.15-6.29 111.13-222.27
DAV-55 7.5  109 5.14-10.28 181.57-363.14 55 75 IP54 80 1800*1200*1400 1310 G2"
8.5  123 5.10-10.20 180.08-360.16
10.5  152 4.83-9.66 170.60-341.21
13.0  189 3.94-7.87 139.01-278.02
DAV-75 7.5  109 6.48-12.97 228.96-457.91 75 100 IP54 80 1800*1200*1400 1325 G2
8.5  123 6.44-12.87 227.28-454.57
10.5  152 5.71-11.42 201.64-403.28
13.0  189 4.68-9.37 165.40-330.80
*) FAD in accordance with ISO 1217:2009, Annex C: Ansolute intake pressure 1 bar (a), cooling and air intake temperature 20ºC
**) Nosie level as per ISO 2151 and the basic standard ISO 9614-2, operation at maximum operating pressure and maximum speed; tolerance:±3 dB(A)
Specifications are subject to change without prior notice
US $3,000-30,000
/ Piece
|
1 Piece

(Min. Order)

###

Shipping Cost:

Estimated freight per unit.



To be negotiated

###

Lubrication Style: Lubricated or Oil-Less
Cooling System: Air Cooling/Water Cooling
Power Source: AC Power

###

Customization:

###

Model Maximum working pressure Capacity(FAD) Installed
motor power
IP Grade Noise level Dimensions
(mm)
Weight Air outlet
pipe diameter
Starting
Method
EEI
bar(g) psig m3/min cfm kw hp L*W*H kg
DAV-5 7.5  109 0.45-0.89 15.80-31.59 5.5 7.5 IP65 75 900*660*960 315 G3/4" Direct Driven
Air
Cooling
EEI1
8.5  123 0.44-0.88 15.61-31.22
10.5  152 0.38-0.76 13.38-26.76
DAV-7 7.5  109 0.59-1.19 21.00-42.00 7.5 10 IP65 75 900*660*960 315 G3/4"
8.5  123 0.58-1.17 20.63-41.26
10.5  152 0.51-1.01 17.84-35.68
DAV-11 7.5  109 0.90-1.80 31.78-63.56 11 15 IP65 75 900*660*960 324 G3/4"
8.5  123 0.89-1.79 31.59-63.19
10.5  152 0.81-1.61 28.43-56.87
13.0  189 0.68-1.37 24.16-48.32
DAV-15 7.5  109 1.22-2.43 42.93-85.86 15 20 IP65 75 1465*990*1345 453 G1-1/4"
8.5  123 1.18-2.37 41.81-83.63
10.5  152 1.05-2.09 36.98-73.97
13.0  189 0.96-1.92 33.82-67.65
DAV-18 7.5  109 1.55-3.09 54.64-109.28 18.5 25 IP65 75 1465*990*1345 453 G1-1/4"
8.5  123 1.51-3.01 53.15-106.30
10.5  152 1.34-2.68 47.39-94.78
13.0  189 1.08-2.16 38.10-76.20
DAV-22 7.5  109 1.82-3.64 64.30-128.60 22 30 IP65 75 1465*990*1345 477 G1-1/4"
8.5  123 1.81-3.62 63.93-127.86
10.5  152 1.67-3.35 59.10-118.20
13.0  189 1.32-2.63 46.46-92.92
DAV-30 7.5  109 2.63-5.26 92.92-185.84 30 40 IP65 78 1600*1250*1550 682 G1-1/2"
8.5  123 2.62-5.24 92.55-185.10
10.5  152 2.36-4.72 83.26-166.51
13.0  189 2.09-4.18 73.78-147.56
DAV-37 7.5  109 3.44-6.87 121.35-242.71 37 50 IP65 78 1600*1250*1550 728 G1-1/2"
8.5  123 3.43-6.85 120.98-241.97
10.5  152 2.95-5.89 104.07-208.14
13.0  189 2.40-4.80 84.74-169.49
DAV-45 7.5  109 4.01-8.01 141.43-282.85 45 60 IP65 78 1600*1250*1550 728 G1-1/2"
8.5  123 3.99-7.98 140.87-281.74
10.5  152 3.63-7.25 128.05-256.09
13.0  189 3.15-6.29 111.13-222.27
DAV-55 7.5  109 5.14-10.28 181.57-363.14 55 75 IP54 80 1800*1200*1400 1310 G2"
8.5  123 5.10-10.20 180.08-360.16
10.5  152 4.83-9.66 170.60-341.21
13.0  189 3.94-7.87 139.01-278.02
DAV-75 7.5  109 6.48-12.97 228.96-457.91 75 100 IP54 80 1800*1200*1400 1325 G2
8.5  123 6.44-12.87 227.28-454.57
10.5  152 5.71-11.42 201.64-403.28
13.0  189 4.68-9.37 165.40-330.80
*) FAD in accordance with ISO 1217:2009, Annex C: Ansolute intake pressure 1 bar (a), cooling and air intake temperature 20ºC
**) Nosie level as per ISO 2151 and the basic standard ISO 9614-2, operation at maximum operating pressure and maximum speed; tolerance:±3 dB(A)
Specifications are subject to change without prior notice

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.
air-compressor

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.
air-compressor

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.
air-compressor

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.

China Permanent Magnet Synchronous Motor (PMSM) Variable Frequency Converter Drive Pm VSD Inverter Direct Driven Double Screw Air Compressor with Affordable Price     air compressor partsChina Permanent Magnet Synchronous Motor (PMSM) Variable Frequency Converter Drive Pm VSD Inverter Direct Driven Double Screw Air Compressor with Affordable Price     air compressor parts
editor by czh 2022-11-26

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