SOFT MAGNETIC COMPOSITE FIXATION WITHIN METAL POWDER COPPER ROTOR

Organization Name

Metal Powder Products, LLC

Inventor(s)

Terry Lee Sowder of Salem IN (US)

Ronald Dean Payne of Mitchell IN (US)

Anne N. Good of Bell Buckle TN (US)

Nicola M. Gismondi of Noblesville IN (US)

SOFT MAGNETIC COMPOSITE FIXATION WITHIN METAL POWDER COPPER ROTOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240022121 titled 'SOFT MAGNETIC COMPOSITE FIXATION WITHIN METAL POWDER COPPER ROTOR

Simplified Explanation

The abstract describes a rotor design that includes a rotor winding with core recesses and raised protrusions on the top surface. Cores are fitted into the recesses by applying force on the top surface of the winding and the cores. The raised protrusions deform and flow into the adjacent core recesses, securing the cores in place.

• The rotor includes a winding with core recesses and raised protrusions.
• Cores are partially inserted into the core recesses.
• Force is applied to fit the cores within the recesses.
• The raised protrusions deform and flow into the adjacent core recesses.
• This extra material helps secure the cores within the recesses.

Potential Applications:

• Electric motors
• Generators
• Rotating machinery

Problems Solved:

• Ensures secure fitting of cores within the rotor winding
• Prevents movement or displacement of cores during operation

Benefits:

• Improved stability and performance of the rotor
• Enhanced efficiency of electric motors and generators
• Reduced maintenance and repair needs

Original Abstract Submitted

a rotor includes a rotor winding that includes core recesses that are defined through the rotor winding. raised protrusions are located on a top surface of the rotor winding and positioned adjacent to the core recesses. a core is fit at least partially into each of the core recesses, and a force is applied on the top surface of the rotor winding and the top surface of the cores to fit the cores within the core recesses. as the force is applied to the top surface of the rotor winding, the raised protrusions adjacent to the core recesses are deformed so that the material from the raised protrusion flows into the adjacent core recess. this extra material helps to secure the core within the core recess.