WIRELESS POWER TRANSFER SYSTEM

Organization Name

mitsubishi electric corporation

Inventor(s)

Mariko Nakagawa of Tokyo (JP)

Tomokazu Sakashita of Tokyo (JP)

Hidehito Yoshida of Tokyo (JP)

WIRELESS POWER TRANSFER SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240317080 titled 'WIRELESS POWER TRANSFER SYSTEM

Simplified Explanation

The wireless power transfer system described in the patent application consists of multiple power transmitters and a power receiver. The power transmitters are positioned in a hoistway aligned with the car's movement direction, while the power receiver is located on the car. Electric power is transmitted from the power transmitters to the power receiver without physical contact. The power received by the power receiver is then supplied to a load device via a power receiving device.

• The system includes multiple power transmitters and a power receiver.
• Power transmitters are placed in a hoistway in line with the car's movement direction.
• The power receiver is installed on the car.
• Electric power is transmitted wirelessly from the power transmitters to the power receiver.
• The power received by the power receiver is supplied to a load device.

Key Features and Innovation

• Wireless power transfer system with power transmitters and a power receiver.
• Power transmitters aligned with the car's movement direction in a hoistway.
• Power receiver on the car.
• Contactless transmission of electric power.
• Efficient power supply to load devices.

Potential Applications

The technology can be applied in various industries such as:

• Elevators and escalators.
• Automated guided vehicles.
• Robotics.
• Electric vehicles.
• Industrial automation.

Problems Solved

• Eliminates the need for physical connectors for power transfer.
• Enables efficient and convenient power supply to moving devices.
• Reduces maintenance and wear associated with physical connectors.

Benefits

• Increased efficiency in power transfer.
• Enhanced safety by eliminating physical contact points.
• Reduced maintenance costs.
• Improved reliability of power supply to moving devices.

Commercial Applications

Title: Wireless Power Transfer System for Moving Devices This technology can revolutionize industries such as:

• Elevator manufacturing.
• Robotics companies.
• Electric vehicle manufacturers.
• Industrial automation providers.
• Smart home technology companies.

Prior Art

Readers interested in prior art related to wireless power transfer systems for moving devices can explore research papers, patents, and industry publications in the field of wireless power transmission and automation technologies.

Frequently Updated Research

Stay updated on the latest advancements in wireless power transfer systems for moving devices by following research publications, conferences, and industry developments in the field of wireless power transmission and automation technologies.

Questions about Wireless Power Transfer Systems for Moving Devices

How does wireless power transfer benefit industries like elevator manufacturing?

Wireless power transfer eliminates the need for physical connectors, reducing maintenance costs and improving safety in elevator systems.

What are the potential challenges in implementing wireless power transfer for moving devices?

Challenges may include ensuring efficient power transmission over varying distances and optimizing the system for different types of moving devices.

Original Abstract Submitted

a wireless power transfer system includes a plurality of power transmitters and a power receiver. the plurality of power transmitters are arranged in a hoistway in line with a moving direction of a car. the power receiver is installed on the car. a power transmitting device supplies electric power to the plurality of power transmitters and the plurality of power transmitters transmits electric power to the power receiver without contact. the electric power received by a power receiving device from the power receiver is supplied to a load device. a dimension of the power receiver in the moving direction of the car is larger than a dimension of each of the plurality of power transmitters in the moving direction of the car.