BRACKET FOR ANTI-VIBRATION DEVICE

Organization Name

Prospira Corporation

Inventor(s)

Tadashi Onishi of Kawasaki city, Kanagawa prefecture (JP)

Mizuki Kataura of Kawasaki city, Kanagawa prefecture (JP)

Kaoru Ootani of Kawasaki city, Kanagawa prefecture (JP)

BRACKET FOR ANTI-VIBRATION DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240011537 titled 'BRACKET FOR ANTI-VIBRATION DEVICE

Simplified Explanation

The abstract describes a bracket for an anti-vibration device that has improved durability. The bracket consists of a main body and a reinforcement member, with the reinforcement member being buried within the main body. The reinforcement member has a defining edge surface that is inclined towards the outer surface of the member.

• The bracket for an anti-vibration device includes a main body and a reinforcement member.
• The reinforcement member is buried within the main body.
• The reinforcement member has a defining edge surface that is inclined towards the outer surface of the member.

Potential applications of this technology:

• Anti-vibration devices in various industries such as automotive, aerospace, and machinery.
• Mounting systems for sensitive equipment or components that require vibration isolation.

Problems solved by this technology:

• Increased durability of the bracket, reducing the risk of failure or damage.
• Improved stability and vibration isolation, enhancing the performance of the anti-vibration device.

Benefits of this technology:

• Enhanced durability and longevity of the bracket, leading to cost savings and reduced maintenance.
• Improved performance of the anti-vibration device, resulting in better vibration isolation and reduced impact on surrounding components or structures.

Original Abstract Submitted

it is provided a bracket for anti-vibration device with improved durability. a bracket () includes a bracket main body () and a reinforcement member (). the reinforcement member () has an inner surface () buried in the main body (). the reinforcement member () has a defining edge surface () that defines this reinforcement member () as a surface. at least a part of the defining edge surface () is an inclined surface (a) formed by the inner surface () of the reinforcement member (), which is inclined toward an outer surface () of this reinforcement member ().