ELECTROMECHANICAL APPARATUS CAPABLE OF CONTINUOUSLY AND UNCONSCIOUSLY EXTRACTING ELECTRIC POWER FROM DAILY ACTIVITIES

Organization Name

Panasonic Intellectual Property Management Co., Ltd.

Inventor(s)

Hideaki Abe of Osaka (JP)

ELECTROMECHANICAL APPARATUS CAPABLE OF CONTINUOUSLY AND UNCONSCIOUSLY EXTRACTING ELECTRIC POWER FROM DAILY ACTIVITIES - A simplified explanation of the abstract

This abstract first appeared for US patent application 17913814 titled 'ELECTROMECHANICAL APPARATUS CAPABLE OF CONTINUOUSLY AND UNCONSCIOUSLY EXTRACTING ELECTRIC POWER FROM DAILY ACTIVITIES

Simplified Explanation:

This patent application describes a gear mechanism connected to a generator that generates electric power. A pendulum is attached to the input shaft of the gear mechanism, swinging in response to shaking or the restoring force of an elastic body. The swinging motion of the pendulum generates electric power through the generator.

• The gear mechanism transmits rotation from the input shaft.
• The generator generates electric power in response to the rotation.
• The pendulum is connected to the input shaft and swings in response to shaking or the restoring force of the elastic body.
• The elastic body supports the pendulum, generating a restoring force to a predetermined position.
• The generator generates electric power in response to the swinging motion of the pendulum.

Potential Applications: - This technology could be used in portable energy generation devices. - It could be integrated into emergency power supply systems. - It may find applications in remote areas where traditional power sources are not available.

Problems Solved: - Provides a renewable and portable energy generation solution. - Offers a backup power source in case of emergencies. - Enables power generation in off-grid locations.

Benefits: - Renewable energy source. - Portable and versatile. - Reliable backup power supply.

Commercial Applications: Title: Portable Energy Generation System This technology could be commercialized for camping equipment, emergency kits, and off-grid power solutions. It has the potential to disrupt the portable power market and provide sustainable energy solutions for various industries.

Prior Art: Readers interested in exploring prior art related to this technology can start by researching similar patents in the field of energy generation from mechanical motion, pendulum-based power generation systems, and portable renewable energy solutions.

Frequently Updated Research: Researchers are constantly exploring ways to improve the efficiency and reliability of pendulum-based power generation systems. Stay updated on the latest advancements in this field to understand the full potential of this technology.

Questions about Pendulum-Based Power Generation: 1. How does the pendulum generate electric power in this system? The pendulum generates electric power by swinging in response to shaking or the restoring force of the elastic body, which is then converted into electrical energy by the generator.

2. What are the key advantages of using a pendulum in power generation systems? Using a pendulum allows for a simple and reliable way to convert mechanical motion into electrical energy, making it a versatile and efficient solution for portable and off-grid power generation.

Original Abstract Submitted

A gear mechanism has an input shaft and transmits rotation of the input shaft. A generator generates electric power in response to the rotation transmitted by the gear mechanism. A pendulum is connected to the input shaft of the gear mechanism. A frame is provided at a fixed position relative to the gear mechanism and the generator. A elastic body supports the pendulum with respect to the frame so as to generate a restoring force to a predetermined position. The pendulum swings about the input shaft of the gear mechanism in response to shaking of a whole of an electromechanical apparatus, or in response to the restoring force of the elastic body, and the generator generates the electric power in response to swinging of the pendulum.