3 Phase vibration motor for sale, cheap price, 150 watt, 0.84A, 4 pole, motor made of pure copper, with strong power, shell coating protection, long service life.
Specification
Model |
ATO-MVE40015 |
Phase |
3 Phase |
Pole |
4 Pole |
Force |
388 Kg, 4 kN |
Speed |
1450 rpm |
Power |
150W (0.15kW) |
Current |
0.84A |
Voltage Class |
3 Phase 220V 50Hz/380V 50Hz |
Weight |
19.0 kg |
Frame No. |
40 |
Frequency |
50 Hz/60 Hz |
Protection Rank |
IP65 |
Insulation Class |
F |
Certificate |
CE |
Warranty |
12 Months |
150W 4 Pole 3 Phase Vibration Motor Dimension (unit: mm)
A |
B |
C |
D |
E |
F |
G |
H |
I |
L |
M |
N |
Cable Gland |
105 |
140 |
334 |
168 |
196 |
22 |
13 |
92 |
169 |
178 |
78 |
158 |
M20*1.5 |
3 Phase Vibration Motor Structure
Tips: ATO three-phase vibration motor structure
1. Customized silicon steel sheet design, silicon steel sheet with high performance and low iron loss to meet its ultra-small volume, extremely low heat generation, and ultra-high efficiency.
2. The stator adopts the industry's proven vacuum pressure dipping system, which has strong insulation and anti-corona capabilities. The air gap is perfectly filled, no bubbles, excellent insulation performance, long insulation life, and high mechanical and electrical strength of the winding.
3. The machining of the rotor adopts Motorsolve design, advanced aluminum casting process, and high-precision CNC machining process. The rotor main shaft adopts 40Cr round steel quenched and tempered heat treatment, the strength is twice as high as that of the ordinary motor main shaft. The rotor silicon steel sheet adopts high-speed punching progressive die, with small punching burrs, good flatness and high smoothness.
4. The shell material of ATO AC vibration motor includes high-strength aluminum alloy, corrosion-resistant stainless steel and ductile iron, etc., and they are all high-density die-casting. All series products adopt scientific and reasonable structural design and choose long-life The bearing ensures the high mechanical reliability and operational stability of the motor.