GAS CIRCUIT BREAKER

Organization Name

KABUSHIKI KAISHA TOSHIBA

Inventor(s)

Tomohiko Jimbo of Fujisawa (JP)

Biswas Debasish of Shiki (JP)

Amane Majima of Kawasaki (JP)

Tooru Inoue of Yokohama (JP)

GAS CIRCUIT BREAKER - A simplified explanation of the abstract

This abstract first appeared for US patent application 18455065 titled 'GAS CIRCUIT BREAKER

The gas-circuit-breaker described in the patent application consists of a container, opposing part, movable part, and nozzle, all filled with an arc-extinguishing gas. The opposing part includes an opposing-arc-contact and an exhaust stack, while the movable part includes a movable-arc-contact that connects with the opposing-arc-contact in a closed state and separates in an open state. The pressure-accumulation part allows for an increase in arc-extinguishing gas pressure, and the nozzle facilitates arc-discharge between the contacts.

• The gas-circuit-breaker features a unique design with opposing and movable parts for efficient arc-extinguishing.
• The pressure-accumulation part ensures a build-up of arc-extinguishing gas pressure for effective operation.
• The nozzle plays a crucial role in directing the flow of arc-extinguishing gas to extinguish the arc-discharge.
• The design allows for a controlled and precise interruption of electrical circuits to prevent damage.
• The innovation enhances safety and reliability in electrical systems by quickly extinguishing arcs.

Potential Applications: The gas-circuit-breaker technology can be applied in power distribution systems, industrial machinery, and electrical substations to protect equipment from electrical faults.

Problems Solved: This technology addresses the issue of arc faults in electrical systems, providing a reliable method for interrupting circuits and preventing damage.

Benefits: The gas-circuit-breaker offers improved safety, reliability, and efficiency in electrical systems, reducing the risk of equipment damage and downtime.

Commercial Applications: Title: Gas Circuit Breaker Technology for Enhanced Electrical Safety This technology can be commercialized for use in power plants, manufacturing facilities, and utility companies to enhance electrical safety and prevent costly downtime.

Prior Art: Readers interested in exploring prior art related to gas-circuit-breaker technology can start by researching patents in the field of electrical circuit protection and arc-extinguishing devices.

Frequently Updated Research: Researchers in the field of electrical engineering and power systems continue to explore advancements in gas-circuit-breaker technology for improved performance and reliability.

Questions about Gas Circuit Breaker Technology: 1. How does the gas-circuit-breaker technology improve electrical safety in industrial applications? 2. What are the key differences between traditional circuit breakers and gas-circuit-breaker technology in terms of arc-extinguishing capabilities?

Original Abstract Submitted

The gas-circuit-breaker includes a container, opposing part, movable-part, and nozzle. An arc-extinguishing gas fills the container. The opposing-part is housed in the container and includes an opposing-arc-contact and an exhaust stack. The movable-part is housed in the container and includes a movable-arc-contact coming in contact with the opposing-arc-contact in a connected-state and separating from the opposing-arc-contact in an open-state; and a pressure-accumulation-part where an arc-extinguishing gas pressure increases. The nozzle is housed in the container and includes a space where arc-discharge occurs between the movable-arc-contact and the opposing-arc-contact. The nozzle includes a middle-part where the opposing-arc-contact is inserted and one or more jet-holes that eject, toward the space, partial arc-extinguishing gas flowing in from a flow-passage between the pressure-accumulation-part and the middle-part. The arc-extinguishing gas whose pressure increases in the pressure-accumulation-part flows into the space via the flow-passage and the jet-holes to extinguish the arc-discharge.