VALVE APPARATUS

Organization Name

denso corporation

Inventor(s)

Hiroshi Ogawa of Nisshin-city (JP)

Kazuhide Uchida of Nisshin-city (JP)

Mikio Matsuda of Nisshin-city (JP)

Teppei Matsumoto of Kariya-city (JP)

Akira Higuchi of Kariya-city (JP)

VALVE APPARATUS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240318734 titled 'VALVE APPARATUS

Simplified Explanation:

The patent application describes a system where a rotor is positioned on one side of a passage hole forming portion inside a housing. A differential pressure device on the same side as the rotor generates an urging force to push the rotor against the passage hole forming portion based on pressure differentials in different chambers within the system.

• The rotor is placed on one axial side relative to a passage hole forming portion inside a housing.
• A differential pressure device on the same side as the rotor generates an urging force to push the rotor against the passage hole forming portion.
• Pressure differentials between chambers in the system determine the force applied to the rotor.

Key Features and Innovation:

• Placement of the rotor and the differential pressure device for efficient operation.
• Utilization of pressure differentials to control the urging force on the rotor.
• Design to ensure proper functioning of the system.

Potential Applications:

This technology could be applied in:

• Hydraulic systems
• Pneumatic systems
• Fluid control mechanisms

Problems Solved:

• Ensures proper sealing and operation of the passage hole forming portion.
• Regulates the pressure within the system effectively.

Benefits:

• Improved efficiency in fluid control systems.
• Enhanced reliability of pressure regulation mechanisms.

Commercial Applications:

Potential commercial uses include:

• Manufacturing equipment
• Automotive systems
• Aerospace technology

Prior Art:

Further research can be conducted in the field of fluid dynamics and pressure regulation mechanisms to explore similar technologies.

Frequently Updated Research:

Stay updated on advancements in fluid control systems and pressure regulation technologies for potential improvements in this area.

Questions about the Technology: 1. What are the specific industries that could benefit most from this technology? 2. How does this system compare to traditional pressure regulation mechanisms in terms of efficiency and reliability?

Original Abstract Submitted

a rotor is placed on one axial side relative to a passage hole forming portion at an inside of a housing. a differential pressure device is placed on the one axial side relative to the rotor and has a pressure chamber. the housing has: a one-side space that is placed on the one axial side relative to the rotor; and at least one other-side space that is placed on another axial side, which is opposite to the one axial side, relative to the passage hole forming portion. the differential pressure device generates an urging force that urges the rotor against the passage hole forming portion by a differential pressure between a pressure in the pressure chamber and a pressure in the one-side space in a case where a pressure in the at least one other-side space is higher than the pressure in the one-side space.