15/ 7.5 A ac electric motor for air compressor has multiple heat dissipation holes, which can quickly dissipate heat during operation. It is designed with a protector and the protection grade is IP 2.
Specification
Model |
ATO-CM02256 |
Power |
2 HP (1.5 kW) |
Speed |
3600 rpm |
Current |
15/ 7.5 A |
Voltage |
115/ 230 V |
Protector |
√ |
Frame |
56 |
Shaft diameter |
5/8" |
Shaft length |
1.88" |
Capacitance |
2 |
ENC |
ODP |
Frequency |
60Hz |
IP |
23 |
INS |
F |
ROT |
CCW |
Housing material |
Steel plate |
Packing size |
34*27*27cm |
Weight |
17kg |
Dimention (Unit: inch)
Frame |
E |
2F |
H |
BA |
A |
B |
C |
D |
L |
J |
P |
G |
AA |
S |
ES |
R |
N-W |
U |
56 |
2.44 |
3 |
0.34 |
2.75 |
6.5 |
4 |
11.1 |
3.5 |
7.95 |
1.73 |
6.46 |
0.12 |
0.5 |
0.188 |
1.41 |
0.517 |
1.88 |
0.625 |
Details
Tips: Precautions for using high-power air compressor motor
High-power air compressor motors are important equipment in the air separation industry. The power is large and the operation and startup steps are complicated. When the high-power air compressor motor starts, in order to provide a large enough starting current for the high-power air compressor motor, many departments of the enterprise will choose to shut down. Therefore, the restart of the high-power air compressor motor will bring huge economic losses to the enterprise. The fault diagnosis and control of the high-power air compressor motor and the improvement of the reliability of the equipment itself will bring huge economic benefits to the enterprise.
In order to ensure the safe operation of high-power air compressor motor equipment, a lot of monitoring and control points are set up to complete its protection. The selection of monitoring and control points for different types of air compressor motors should be different. The control of key points can protect the air compressor motor. However, the control of some non-critical points not only increases the burden on the system, but also Bring a negative impact on the economic benefits of the enterprise. Therefore, it is optimized in the air compressor motor detection control system, and the air compressor motor is controlled with the least number of points.
While safely protecting the motor equipment of the air compressor, timely feedback of abnormal information is also very important. In the high-power air compressor motor control, the conventional instrument control has a relatively high failure rate, and the connection between the parameter points is not close. Misoperation often occurs, and a stop signal is issued when it should not be stopped, which has a huge impact on the production of the enterprise. The fault diagnosis and control of the high-power air compressor motor should be based on the principles of systemicity, reliability, real-time, and economy, to maximize the system optimization, and automatically adjust the compressor working conditions as much as possible.