The invention relates to a temperature controlled/limiting heating or cooking element for an electrically powered cooking appliance, particularly where the temperature is controlled as a fire prevention measure to be below a flash point or ignition temperature of commonly used cooking oils, grease and common household materials.
Cooking of food in residential buildings and homes is a major cause of fires and smoke damage. Of course fires cause significant numbers of preventable deaths, personal injuries as well as property damage. Any means of preventing kitchen fires will be perceived as an important safety advance by individuals, fire departments, insurance companies, health professionals and government agencies.
Restaurant kitchens and large scale food preparation operations are protected by training professional kitchen staff in accident and fire prevention as well as with smoke detectors, fire suppression systems and fire extinguishers.
Homes, student residences, retirement residences and the like where individuals prepare food alone or in an unsupervised non-professional environment are often the scene of kitchen fires due to lack of proper attention, oil spills, grease build-up, carelessness, forgetfulness, and lack of awareness of safe cooking procedures. For example, fire statistics indicate that in North America the cause of over 40% of residential fires is related to cooking.
Electric stoves and heating elements in particular cause kitchen fires because the temperature of the hot surface exceeds the flash point or ignition temperature of many foods, paper, cloth and building materials that may come into contact with the hot surface. U.S. Pat. No. 6,246,033 to Shah provides a temperature controlled electric heating element. However, due to the complexity of the internal stove circuit modifications required, installation must be carried out by the original equipment manufacturer (OEM) or by a licensed electrician.
Although electric stoves are being produced with a single glass cook top having multiple burners in a single unit, the electric stoves with individual elements are still popular due to lower cost and ease of maintenance. For example, in a rental apartment, damage to a single burner is relatively cheap and easy to repair by simply exchanging the faulty element with a new element. However replacing the entire multiple burner glass cook top is almost as expensive as purchasing a new stove. The fragile nature of glass ceramic cook tops makes such stoves unsuitable for many rental or public housing residences where care and attention to appliances is often lacking, low cost and durability is a major concern.
Accordingly it is desirable to provide a temperature controlled or limiting electric heating element that reduces fire risk and is simple to install by unskilled labour, inexpensive to manufacture, durable and can be retrofit to existing appliances.
Features that distinguish the present invention from the background art will be apparent from review of the disclosure, drawings and description of the invention presented below.
The invention provides a temperature controlled heating element for an electrically powered cooking appliance, having: a plate with an upper contact heating surface; a pair of heating element terminals adapted for removably engaging electrical power supply terminals of the electrically powered cooking appliance; a plurality of resistive heating wires, in thermal engagement with a lower surface of the top plate, comprising: a non-cycling resistive heating wire connected in series to the heating element terminals; and a cycling resistive heating wire connected in series to the heating element terminals via a thermostat switch in thermal engagement with a lower surface of the top plate, wherein the thermostat switch is normally closed when exposed to a sensed temperature below a set temperature and the thermostat switch opens when the sensed temperature is equal to or exceeds the set temperature.
The temperature controlled heating element reduces the risk of fire by maintaining the set temperature below the ignition temperature or flash point of common cooking oils, paper and cloth for example that are often the initial cause of flames when contacting a hot element.
Conventional electric stove elements when fully powered can be up to 600° C. so that the electric element can quickly heat a pot and contents thereby speeding up the cooking process. However once the element and pot are initially brought up to a cooking temperature, the amount of energy required to maintain the cooking temperature is reduced, and an attentive cook will turn the heat down to avoid burning the food, to avoid unsafe boiling of liquids, and unsafe overheating of oil that may ignite.
Unfortunately, despite the best efforts of fire safety educators, kitchen fires still occur due to negligence, ignorance, lack of attention or forgetfulness. The invention provides a temperature controlled heating element for an electric cooking appliance that can reduce the risk of fire since the temperature of the element is restricted to a lower temperature than conventional elements. Further the heating element may be configured as a single burner element so that existing electric stoves may be repaired or retrofit with a temperature controlled element by unskilled labour. Changing a stove element is similar to changing a light bulb and does not require circuit modifications or the skill of a trained electrician.
In order that the invention may be readily understood, an embodiment of the invention is illustrated by way of example in the accompanying drawings.
Further details of the invention and its advantages will be apparent from the detailed description included below.
As best seen in
As seen in
As seen in
The non-cycling resistive heating wire 12 is connected in series to the heating element terminals 10-11 and remains energized at all times that the terminals 10-11 are energized by the stove. The non-cycling wire 12 provides a basic amount of heat to maintain the plate 2 at a relatively low temperature and reduces the frequency of cycling on-off by the two cycling resistive heating wires 13. The cycling resistive heating wires 13 are connected in series to the heating element terminals 10-11 via the normally closed thermostat switch 8 that is in thermal engagement with the lower surface of the top plate 2.
The thermostat switch 8 is normally closed when exposed to a sensed temperature below a set temperature and the thermostat switch 8 opens when the sensed temperature is equal to or exceeds the set temperature. For example the set temperature can be established at a temperature anywhere between 370° F. and 450° F., such as 400-420° F. to maintain the contact surface 3 below the ignition temperature of common cooking oil, which is a frequent cause of serious kitchen fires.
The thermostat switch 8 can be for example Z03 High Temperature Thermostat produced by Zertan SA of Navarra, Spain that has a nominal current load capacity of 10 Amps at 250 Volts AC and a duty life of no less than 10,000 cycles, which has been found to be suitable and provides an acceptable 7-10 year life expectancy.
The temperature controlled heating element 1 illustrated has two cycling resistive heating wires 13 and a single non-cycling resistive heating wire 12. However any number of cycling and non-cycling heating wires 12-13 could be provided depending on the application.
The cycling resistive heating wires 13 are configured in a series circuit shown in
As seen in
A pair of terminal wires 18-19 pass through the cover 14. An inner insulative ceramic block 20 is disposed between the plate 2 and the cover 14, and the inner ceramic block 20 surrounds the pair of terminal wires 18-19.
An outer insulative ceramic block 21 is disposed beneath the cover 14 and engages the inner ceramic block 20. The outer insulative ceramic block 21 has a pair of connectors engaging end portions of the pair of terminal wires 18-19 extending downward from the inner block 20. In this manner the metal cover 14 is electrically isolated from the electrical circuit and the ceramic blocks 20-21 impede heat transfer between the heating wires 12-13 and the cover 14.