AN APPARATUS FOR AND A METHOD OF MICROWAVE HEATING OF ROTATABLE ARTICLES, ESPECIALLY GREEN TYRE BLANKS

Organization Name

ROMILL S.R.O.

Inventor(s)

[[:Category:Roman Vop�lka of Tkalcovská (CZ)|Roman Vop�lka of Tkalcovská (CZ)]][[Category:Roman Vop�lka of Tkalcovská (CZ)]]

Nikolaj Ternovoj of Brno (CZ)

Pavel Polcer of Brno (CZ)

AN APPARATUS FOR AND A METHOD OF MICROWAVE HEATING OF ROTATABLE ARTICLES, ESPECIALLY GREEN TYRE BLANKS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240015863 titled 'AN APPARATUS FOR AND A METHOD OF MICROWAVE HEATING OF ROTATABLE ARTICLES, ESPECIALLY GREEN TYRE BLANKS

Simplified Explanation

The patent application describes an apparatus and method for microwave heating of rotatable articles. The apparatus includes a microwave radiation source, a wave guide, and a heating chamber. The heating chamber is designed to receive a rotatable article made of a material that absorbs microwave radiation. The microwave radiation source is connected to the heating chamber through a wave guide that has at least one inlet in a lateral wall of the heating chamber.

The heating chamber consists of at least two covers, each defined by an inner and outer circumference. One of the covers is vertically slidable relative to the lateral wall of the heating chamber. It is combined with a stationary ring on the outer circumference and at least one extendable portion on the inner circumference. This design allows for direct and selective heating of the heated portion of the rotatable article, while the non-heated portions outside the heating space remain unaffected.

• The apparatus includes a microwave radiation source, wave guide, and heating chamber.
• The heating chamber is designed to receive a rotatable article made of a material that absorbs microwave radiation.
• The microwave radiation source is connected to the heating chamber through a wave guide with at least one inlet in a lateral wall of the heating chamber.
• The heating chamber consists of at least two covers, one of which is vertically slidable relative to the lateral wall.
• The slidable cover is combined with a stationary ring on the outer circumference and at least one extendable portion on the inner circumference.
• This design allows for direct and selective heating of the heated portion of the rotatable article, while the non-heated portions outside the heating space remain unaffected.

Potential applications of this technology:

• Industrial processes requiring selective and controlled heating of rotatable articles.
• Food processing industry for cooking or heating specific portions of food items.
• Medical industry for targeted heating of medical devices or materials.
• Materials science for controlled heating of samples in research and development.

Problems solved by this technology:

• Provides a method for direct and selective heating of specific portions of a rotatable article.
• Ensures that non-heated portions of the article outside the heating space are not directly heated.
• Allows for efficient and controlled heating of materials that absorb microwave radiation.

Benefits of this technology:

• Improved efficiency and energy savings compared to traditional heating methods.
• Enables precise and targeted heating, reducing the risk of overheating or damage to non-heated portions.
• Provides flexibility in heating different types of rotatable articles with varying heating requirements.
• Can be integrated into existing industrial processes or systems.

Original Abstract Submitted

an apparatus for and a method of microwave heating of rotatable articles includes at least one microwave radiation source, at least one wave guide and a heating chamber for receiving a rotatable article which comprises a material absorbing microwave radiation. each microwave radiation source is connected to the heating chamber via at least one wave guide having at least one inlet in a lateral wall of the heating chamber. the heating chamber includes at least two covers in the form of an area defined by an inner and outer circumference. at least one cover is vertically slidable relative to the lateral wall of the heating chamber in combination with a stationary ring on the outer circumference of said area and at least one extendable portion on the inner circumference of said area. the method allows for direct and selective heating of the heated portion of the rotatable article, the non-heated portions of the rotatable article outside the heating space are not directly heated.