Magnetorheological fluid damper tunable for smooth transitions

Assignee

• Delphi Technologies · US

Inventors

• William C. Kruckemeyer · Beavercreek, US
• Eric L. Jensen · Richmond, US
• Richard E. Longhouse · Dayton, US
• Patrick Neil Hopkins · West Carrollton, US
• John David Fehring · Waynesville, US
• Ilya Lisenker · Miamisburg, US
• James Morgan · Springboro, US

Key dates

Classification

• Technology area (CPC B)Performing Operations; Transporting
• CPC primaryB60G2204/112
• WIPO fieldMechanical elements
• WIPO sectorMechanical engineering

Abstract

An improved magnetorheological fluid damper is provided which effectively provides a smooth transition, without a sharp break in the damper force/velocity curve, between very low damping forces near zero damper velocity to higher damping forces at higher piston velocities while maintaining desirable maximum force levels. The damper includes a piston assembly, including a magnet assembly and a flow gap extending through the piston assembly to permit fluid flow between the chambers. The force/velocity optimization feature includes a groove or passage open to the flow gap, positioned in series with a part of the flow gap in a magnetic circuit generated by the magnet assembly and dimnensioned/sized to permit fluid flowing through the passage to experience a magnetorheological effect less than a magnetorheological effect experienced by fluid flowing through the flow gap but not through the groove. Preferably, the passage is formed in an inner annular surface of a flux ring positioned around a piston core. The passage may be formed, for example, by a curvilinear surface, a modified rectangular surface or a triangular surface.