GB2490657A - Reducing electromagnetic radiation emitted by ceramic infrared heating elements - Google Patents

Abstract

A method to reduce EMR/EMF (Electromagnetic Radiation) given off from ceramic infrared heating elements. A live feed 5 is connected to one end of the element 1 and the neutral feed passes through insulated conductive wires 2 to the other end of the element. The insulated conductive wires are attached to the ceramic rod using a terminal 6 at one end of the element. The current that passes through the heater element also passes through the conductive wires but in the opposite direction, which has the effect of cancelling out any radiated EMR/EMF (Electromagnetic Radiation).

Description

Descd ption Title Method to reduce EMR/EMF (Electromagnetic Radiation) given off from ceramic infrared heating elements.

Background

This invention solves the problem of high EMRIEMF (Electromagnetic Radiation) levels given off from conventional infrared ceramic heating elements when measured using a Guass meter.

Statement of invention

To overcome this, the present invention proposes that the ceramic rod is powered by two coated conductive wires each side of the ceramic rod which significantly reduces the EMR levels given off by the heater.

Advantages The technology will ensure an environment which is free of EMR/EMF (Electromagnetic Radiation), even directly in front of the heater.

Many doctors and medical experts are advising the avoidance of exposure levels of 3mG (Milli-Gauss) or higher. EMR is short for electromagnetic radiation or sometimes known as electromagnetic fields (EMF) or electromagnetic energy (EME). Electromagnetic fields are created when electric current flows, such as using a hair dryer, microwave or cell phone. This invention will dramatically reduce this type of radiation, making the product safer and more appealing to market.

Introduction to Drawings

An example of the invention will now be described by referring to the accompanying drawings.

Figures 1 2 and 3 show the design of the heater.

The numbers on Figures 1 2 and 3 relate to the following items; 1. Ceramic Rod 2. Insulated Conductive Wires 3. Protective Grill 4. Neutral Feed 5. Live Feed 6. Screws

Detailed Description

The infrared ceramic rod I is fed by two coated conductive wires 2 running up the sides of the ceramic tube.

The live feed 5 is connected using one end of the element and the neutral feed 4 passes through the insulated conductive wires 2 to the other end of the element 1. The insulated conductive wires 2 are attached to the ceramic rod I using a terminal at one end of the element.

This significantly reduces the EMR/EMF (Electromagnetic Radiation) levels.

The current that passes through the heater element I also passes through the conductive wires 2 but in the opposite direction. This has the effect of cancelling out any radiated EMR!EMF (Electromagnetic Radiation).

The current passing though the insulated conductive wires 2 is always flowing in opposite direction to the heating element.

Claims (2)

1. Claims 1. A method to reduce EMR/EMF (Electromagnetic Radiation) given off from ceramic infrared heating elements, comprising of insulated conductive wires, which are attached to the ceramic rod, the live feed is connected to one end of the element and the neutral feed passes through the insulated conductive wires to the other end of the element.
2. 2. A method to reduce EMR/EMF (Electromagnetic Radiation) given off from ceramic infrared heating elements according to claim 1, in which the current that passes through the heater element also passes through the conductive wires but in the opposite direction, this has the effect of cancefling out any radiated EMR/EMF (EHectromagnetic Radiation).