2-Phase Standard Type NEMA14high Torque Stepper Motor 53mm

Product description

1. Longer Life

Stepping motor is a mechanical structure,which does not need be changed by electric brush or Hall sensor,thus reducing the probability and increasing the motor life.Stepping motor life usually determined by the life of the bearing.

2. Material quality: The coat is 304 stainless steel, the water jacket is the high compression casting aluminum tube, the red copper coil.

3. Mechanical size 100% meet the requirements, to ensure that there is no greater error in the use process

4. Automatic assembly line

Automatic assembly line, improve production efficiency, low cost without human operation, one line down intelligent mechanical

5.Strictly control the production of parts to improve the quality of parts

Specifications

Quality control process:

1. Incoming inspection: The inspection shall be conducted according to the Requirements of the Incoming Inspection Specification or the product drawing

2. Monitoring and measurement of production process (self-inspection - inspection - batch production)

3. Final inspection and test

4. All inspectors must be trained and then put on duty

5. Nonconforming products shall be executed in accordance with Nonconforming Product Control Procedures

6. Raw material inspection

7. Inspecting according to the standard of testing raw material or the drawing

8. Monitoring and measurement in production process

9. Self checking-tested by QC-Batches production

10. Final checking and make experiment

11. All products should be through testing by the professional equipment

The Advantages of Stepper Motors

Not every application will benefit from a stepper motor, but in the right environment stepper motors can be ideal. First, stepper motors have full torque at standstill, and the rotation angle of the motor is proportional to the input pulse. Essentially, stepper motors offer excellent speed control, precise positioning, and repeatability of movement.

Additionally, stepper motors are highly reliable since there are no contact brushes in the motor. This minimizes mechanical failure and maximizes the operation lifespan of the motor. These motors can be used in a wide range of environments, as many different rotational speeds can be achieved because the speed is proportional to the frequency of pulse inputs.