Can for an Electric Rotating Machine

Organization Name

Siemens Aktiengesellschaft

Inventor(s)

David Finck of Forchheim (DE)

Christian Seidel of Baiersdorf (DE)

Günther Winkler of Freinberg (DE)

Can for an Electric Rotating Machine - A simplified explanation of the abstract

This abstract first appeared for US patent application 18579290 titled 'Can for an Electric Rotating Machine

The abstract of this patent application describes a can for an electric rotating machine that includes an asymmetric element to counteract expected deformation in loaded regions of the can.

• The can for an electric rotating machine includes a bearing seat and an asymmetric element on the can and/or on the bearing seat.
• The asymmetric element is designed to counteract expected deformation in loaded regions of the can, as identified by measurement data and/or deformation simulation.
• This innovation aims to improve the structural integrity and performance of electric rotating machines by addressing potential deformation issues in loaded regions of the can.

Potential Applications: - Electric motors - Generators - Wind turbines

Problems Solved: - Addressing potential deformation issues in loaded regions of the can - Improving the overall performance and reliability of electric rotating machines

Benefits: - Enhanced structural integrity - Increased efficiency - Extended lifespan of electric rotating machines

Commercial Applications: Title: "Innovative Can Design for Electric Rotating Machines" This technology can be utilized in various industries such as automotive, aerospace, and renewable energy for the development of more reliable and efficient electric rotating machines.

Questions about the technology: 1. How does the asymmetric element in the can help to counteract expected deformation in loaded regions? - The asymmetric element is strategically placed to provide structural support and balance the forces acting on the can, preventing deformation in loaded regions.

2. What are the potential implications of this innovation in the renewable energy sector? - This innovation can lead to more efficient and reliable wind turbines, improving their performance and longevity in renewable energy applications.

Original Abstract Submitted

Various embodiments of the teachings herein include a can for an electric rotating machine. An example can includes: a bearing seat; and an asymmetric element on the can and/or on the bearing seat. The asymmetric element counteracts an expected deformation in loaded regions of the can, the expected deformation identified by measurement data and/or deformation simulation calculated in advance.