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Please feel free to contactus Parts Sea engineers or sales for help if you have no parts No.
tse@partssea.com | sales@partssea.com
The plunger motor is a device that uses an electric motor to drive the plunger to move back and forth in a sealed motor housing to realize the rotation of the output shaft. The specific working principle is as follows:
1. There is an eccentric wheel and several plungers inside the motor housing, and the plungers mesh with the gears of the eccentric wheel. one
2. When the motor starts, the driving plunger begins to reciprocate in the housing. The plunger rotates around the eccentric wheel and moves forward and backward in the track groove. This method of motion converts electrical energy into mechanical energy.
3. When the plunger moves forward, because the plunger connects the housing and the output shaft, the output shaft will also follow the plunger to rotate forward.
4. When the plunger moves backward, the output shaft will rotate in the opposite direction accordingly.
5. By controlling the direction and size of the current, the movement speed and direction of the plunger can be controlled, thereby achieving forward and reverse rotation and speed adjustment of the output shaft.
In general, the working principle of the plunger motor is to use electrical energy to drive the reciprocating motion of the plunger in the housing, and then drive the output shaft to rotate to achieve the output of mechanical energy.
Please feel free to contactus Parts Sea engineers or sales for help if you have no parts No.
tse@partssea.com | sales@partssea.com
The plunger motor is a device that uses an electric motor to drive the plunger to move back and forth in a sealed motor housing to realize the rotation of the output shaft. The specific working principle is as follows:
1. There is an eccentric wheel and several plungers inside the motor housing, and the plungers mesh with the gears of the eccentric wheel. one
2. When the motor starts, the driving plunger begins to reciprocate in the housing. The plunger rotates around the eccentric wheel and moves forward and backward in the track groove. This method of motion converts electrical energy into mechanical energy.
3. When the plunger moves forward, because the plunger connects the housing and the output shaft, the output shaft will also follow the plunger to rotate forward.
4. When the plunger moves backward, the output shaft will rotate in the opposite direction accordingly.
5. By controlling the direction and size of the current, the movement speed and direction of the plunger can be controlled, thereby achieving forward and reverse rotation and speed adjustment of the output shaft.
In general, the working principle of the plunger motor is to use electrical energy to drive the reciprocating motion of the plunger in the housing, and then drive the output shaft to rotate to achieve the output of mechanical energy.