Rotor and Method for Producing a Rotor

Organization Name

Bayerische Motoren Werke Aktiengesellschaft

Inventor(s)

Florian Beck of Freising (DE)

Rotor and Method for Producing a Rotor - A simplified explanation of the abstract

This abstract first appeared for US patent application 18282578 titled 'Rotor and Method for Producing a Rotor

The invention pertains to a rotor for a current-excited synchronous machine, with rotor teeth wound with conductor material and surrounded by a potting compound to form a potting body.

• Rotor for a current-excited synchronous machine
• Rotor teeth wound with conductor material
• Conductor material surrounded by potting compound for mechanical stabilization
• Potting body formed with segments on the front sides
• Material cohesion of potting compound selectively weakened or eliminated in at least one segment

Potential Applications: - Electric motors - Generators - Wind turbines - Industrial machinery

Problems Solved: - Enhances mechanical stability of rotor teeth - Improves performance and efficiency of synchronous machines - Reduces maintenance and repair costs

Benefits: - Increased durability and reliability - Enhanced performance and efficiency - Cost-effective solution for rotor design

Commercial Applications: Title: "Innovative Rotor Design for Synchronous Machines" This technology can be utilized in various industries such as automotive, aerospace, and renewable energy sectors for improved machine performance and reliability.

Prior Art: Prior art may include traditional rotor designs for synchronous machines without the selective weakening of potting compound material cohesion in specific segments.

Frequently Updated Research: There may be ongoing research on optimizing the design and materials used in rotor construction for synchronous machines to further enhance performance and efficiency.

Questions about the technology: 1. How does the selective weakening of potting compound material cohesion in specific segments improve rotor performance? 2. What are the potential cost savings associated with implementing this innovative rotor design in synchronous machines?

Original Abstract Submitted

The invention relates to a rotor, in particular for a current-excited synchronous machine, comprising a rotor main body which has a plurality of rotor teeth distributed around the circumference and rotor slots formed therebetween, the rotor teeth being wound, along the rotor slots and on the front side, with conductor material in order to form a winding, the conductor material, for mechanical stabilization, being surrounded by a potting compound, thereby forming a potting body, the potting body having segments on the front sides in extension of the rotor slots, and in at least one of the segments the material cohesion of the potting compound is selectively weakened or eliminated at least in regions or portions.