ELECTROMAGNETIC HEATING SYSTEM

Organization Name

Unknown Organization

Inventor(s)

Kamil Podhola of Liberec (CZ)

ELECTROMAGNETIC HEATING SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240039333 titled 'ELECTROMAGNETIC HEATING SYSTEM

Simplified Explanation

The invention is an electromagnetic heating system (EHS) that allows wireless power transfer between primary and secondary electromagnetic interfaces. The system includes primary and secondary coils that can produce heat to warm vehicles, water vessels, constructions, foods and drinks, human bodies, animal bodies, and plants. The EHS can have defined electrocomponents and heating oscillators formed by the coils. It can also be coupled with other heating systems, be buoyant, have insulation and heat accumulating material, and be modularly configured. The invention proposes an electromagnetic heating method for proximity or vicinity heating, as well as a microwave heating method for systems combining microwave energy producing, conducting, and heat transforming functions.

• The invention is an electromagnetic heating system (EHS) that enables wireless power transfer between primary and secondary electromagnetic interfaces.
• The EHS includes primary and secondary coils that can generate heat to warm various objects and substances.
• The system can be used to heat vehicles, water vessels, constructions, foods and drinks, human bodies, animal bodies, and plants.
• The EHS can incorporate defined electrocomponents and heating oscillators formed by the coils.
• It can be coupled with other heating systems to enhance its capabilities.
• The system can be buoyant, insulated, and equipped with a heat accumulating material.
• It can be modularly configured to adapt to different heating requirements.
• The invention also proposes an electromagnetic heating method for proximity or vicinity heating.
• Additionally, a microwave heating method is suggested for systems combining microwave energy production, conduction, and heat transformation.

Potential Applications

The electromagnetic heating system has a wide range of potential applications, including:

• Heating vehicles, such as cars, trucks, and buses, without the need for traditional heating systems.
• Warming water vessels, such as tanks, pools, and hot tubs, efficiently and wirelessly.
• Providing heating solutions for various constructions, including buildings, houses, and infrastructure.
• Heating foods and drinks in a wireless and efficient manner, suitable for both domestic and industrial settings.
• Warming human bodies, animal bodies, and plants without direct contact, offering comfort and convenience.
• Enabling heating in remote or hard-to-reach locations where traditional heating methods may be impractical.

Problems Solved

The electromagnetic heating system addresses several problems associated with traditional heating methods:

• Eliminates the need for physical connections or fuel consumption, providing a wireless and efficient heating solution.
• Offers flexibility and adaptability by being modularly configured, allowing for easy installation and customization.
• Provides a safe heating method by utilizing electromagnetic interfaces, reducing the risk of accidents or burns.
• Enables heating in remote or inaccessible areas, expanding the possibilities for heating applications.
• Reduces energy waste by utilizing wireless power transfer, resulting in more efficient heating processes.

Benefits

The electromagnetic heating system offers various benefits:

• Efficient and wireless heating solution, eliminating the need for physical connections or fuel consumption.
• Versatile applications, capable of heating different objects and substances in various settings.
• Improved safety compared to traditional heating methods, reducing the risk of accidents or burns.
• Energy-efficient operation, minimizing energy waste and promoting sustainability.
• Flexibility and adaptability, allowing for easy installation and customization according to specific heating requirements.

Original Abstract Submitted

the invention relates to an electromagnetic heating system (ehs) comprising a primary electromagnetic interface including one or more primary coils and a secondary electromagnetic interface including one or more secondary coils wherein a wireless power transfer can be provided between the primary and the secondary electromagnetic interfaces. the primary and/or the secondary coils can be configured to produce heat which can heat vehicles, water vessels, constructions, foods and drinks, human bodies, animal bodies, plants. the ehs can include defined electrocomponents. the coils can form heating oscillators. the system can include repeating interfaces and can be coupled with other heating systems. the system can be buoyant, provided with an insulation, a heat accumulating material, it can be modularly configured. an electromagnetic heating method is proposed for proximity or vicinity heating. a microwave heating method is proposed for systems and/or apparatuses combining microwave energy producing, conducting and in heat transforming functions.