SHOWER PLATE

Organization Name

KYOCERA Corporation

Inventor(s)

Daiki Watanabe of Satsumasendai-shi, Kagoshima (JP)

Miki Hamada of Satsumasendai-shi, Kagoshima (JP)

Yuusaku Ishimine of Satsumasendai-shi, Kagoshima (JP)

SHOWER PLATE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18568016 titled 'SHOWER PLATE

The abstract describes a shower plate with a ceramic base, a resistance heating element, a channel, and a hollow portion.

• The base of the shower plate is made of ceramic and has a plate shape.
• The resistance heating element is located inside the base along one surface.
• The channel inside the base includes an intermediate channel between the heating element and the opposite surface, extending in a planar direction.
• The hollow portion is adjacent to the intermediate channel inside the base.

Potential Applications: - This technology can be used in showers and other water heating systems. - It may find applications in industrial heating processes.

Problems Solved: - Provides efficient heating in a compact design. - Ensures uniform distribution of heat.

Benefits: - Energy-efficient heating solution. - Durable ceramic construction.

Commercial Applications: - This technology can be utilized in residential and commercial water heating systems. - It may have applications in industrial processes requiring precise heating control.

Questions about the Technology: 1. How does the ceramic base contribute to the efficiency of the heating element? 2. What are the potential cost savings associated with using this technology?

Frequently Updated Research: - Stay updated on advancements in ceramic heating technology for potential improvements in efficiency and performance.

Original Abstract Submitted

A shower plate includes a base, a resistance heating element, a channel, and a hollow portion. The base is made of ceramic and has a plate shape. The resistance heating element is located inside the base along a first surface of the base. The channel is located inside the base and includes an intermediate channel that is located between the resistance heating element and a second surface on a side opposite to the first surface of the base and extends in a planar direction of the base. The hollow portion is located adjacent to the intermediate channel in the planar direction of the base inside the base.