PISTON FOR A BRAKE CALIPER

Organization Name

Divergent Technologies, Inc.

Inventor(s)

Marco Pagni of Los Angeles CA (US)

Claudio Alberto Caprarella of Los Angeles CA (US)

PISTON FOR A BRAKE CALIPER - A simplified explanation of the abstract

This abstract first appeared for US patent application 18601856 titled 'PISTON FOR A BRAKE CALIPER

The abstract describes pistons designed for transferring a force perpendicular to the length of a cylinder, with features such as an outer structure with a piston face, a piston wall aligned with the cylinder wall, and an internal volume.

• Pistons include an outer structure with a piston face and wall, defining an internal volume.
• Inner structure may be present, bounding hollow spaces within the piston.
• Inner structure may include a discharge hole or intersecting crossing members.
• Designed for transferring force perpendicular to cylinder length.
• Outer structure aligns with and is proximate to the cylinder wall.

Potential Applications: - Automotive industry for engine components - Industrial machinery for hydraulic systems - Aerospace for aircraft components

Problems Solved: - Efficient transfer of force in a perpendicular direction - Improved alignment and stability within a cylinder

Benefits: - Enhanced performance and durability - Increased precision in force transfer - Potential for reduced wear and tear on machinery

Commercial Applications: Title: Advanced Pistons for Industrial Machinery This technology can be utilized in various industries such as automotive, industrial machinery, and aerospace for improved performance and efficiency in force transfer applications.

Questions about Pistons: 1. How do these pistons improve force transfer efficiency compared to traditional designs? These pistons are designed to align with and transfer force perpendicular to the cylinder wall, enhancing stability and precision in the transfer process.

2. What are the potential benefits of incorporating an inner structure with hollow spaces in these pistons? The inner structure with hollow spaces can provide additional support and stability to the piston, potentially improving overall performance and durability.

Original Abstract Submitted

Disclosed herein are pistons for transferring a force perpendicular to a length of a cylinder in which the piston is arranged. The pistons may include an outer structure including a piston face configured to transfer the force, a piston wall configured to align parallel with and proximate to a cylinder wall of the cylinder, and the piston face and piston wall defining an internal volume of the piston. Further, the pistons may also include a inner structure. The outer and inner structures can bound hollow spaces within the piston. The inner structure can also include a discharge hole or a pair of intersecting crossing members.