18420359. ASYMMETRIC GAS BEARING BUSHING FOR THERMO-PUMP simplified abstract (KLA Corporation)
Contents
ASYMMETRIC GAS BEARING BUSHING FOR THERMO-PUMP
Organization Name
Inventor(s)
Anatoly Shchemelinin of Bozeman MT (US)
ASYMMETRIC GAS BEARING BUSHING FOR THERMO-PUMP - A simplified explanation of the abstract
This abstract first appeared for US patent application 18420359 titled 'ASYMMETRIC GAS BEARING BUSHING FOR THERMO-PUMP
The abstract describes a gas bearing system consisting of a cylinder with an inner radius, a piston with a smaller radius located within the cylinder, and a gas bearing radius that is greater than the piston radius but less than the inner cylinder radius. The system includes a gap filled with pressurized gas to prevent contact between the cylinder and the piston, with a gas bearing interface controlling the size of the gap.
- Gas bearing system with cylinder, piston, and gas bearing radius
- Pressurized gas in the gap prevents contact between cylinder and piston
- Gas bearing interface controls the size of the gap
Potential Applications: - Industrial machinery - Automotive engines - Aerospace technology
Problems Solved: - Reduces friction and wear between moving parts - Improves efficiency and performance of mechanical systems
Benefits: - Increased durability and longevity of equipment - Enhanced operational efficiency - Reduced maintenance costs
Commercial Applications: Gas bearing systems can be utilized in various industries such as manufacturing, automotive, and aerospace for improved performance and longevity of machinery.
Questions about Gas Bearing Systems: 1. How does the gas bearing interface control the size of the gap? 2. What are the specific advantages of using a gas bearing system in industrial applications?
Original Abstract Submitted
A gas bearing is disclosed. The gas bearing may include a cylinder with an inner cylinder radius. The gas bearing may include a piston with a piston radius, wherein the inner cylinder radius is larger than the piston radius, wherein the piston is located within the cylinder. The gas bearing may include a gas bearing radius, wherein the gas bearing radius is greater than the piston radius and less than the inner cylinder radius. The gas bearing may include a gap that exists between the cylinder and the piston, wherein the gap contains a pressurized gas, the pressurized gas configured to prevent contact between the cylinder and the piston. The gas bearing may include a gas bearing interface, wherein the gas bearing interface is positioned to control a size of the gap.