WO2000066950A1

WO2000066950A1 - A cooker hood

Info

Publication number: WO2000066950A1
Application number: PCT/DK2000/000218
Authority: WO
Inventors: Christian Eskildsen; Neil A. Ovenden; Jens HÄUSLER; Dieter Kohl
Original assignee: Aktiebolaget Electrolux
Priority date: 1999-04-29
Filing date: 2000-05-01
Publication date: 2000-11-09
Also published as: DE60008506D1; PT1159566E; AU4101200A; DE60008506T2; ES2215636T3; EP1159566B1; EP1159566A1; ATE260445T1

Abstract

Known cooker hoods may be controlled by a combination of sensors, such as for humidity and temperature, and commence increased action when thresholds are exceeded. Some sensors may be sensitive to particular compounds in gas form. Such combinations only react to a very specific range of chemical substances and are sensitive to contamination. According to one embodiment of the invention three sensors are used, the first sensor being sensitive to water vapour but not sensitive to grease and fat vapours, the second sensor being sensitive to both water vapour and to fat vapour, with opposing reactions, and the third having a high sensitivity to fat vapours, and a low sensitivity to water vapour. The sensors are all mounted above the grease filter and below the fan impeller.

Description

A cooker hood

The invention relates to a cooker hood controlled by at least one sensor element reacting to fumes and vapours given off from the food to be cooked within the catchment range of said cooker hood. Most cooker hoods are disposed generally above the food giving off fumes and vapours but the present invention is not limited to such a configuration.

Cooker hoods are known which are controlled by e.g. a humidity sensor or a temperature sensor, commencing extraction of fumes or increasing the rate when the humidity or temperature reaches a pre-determined level. It is also known to use a number of sensors, each sensitive to particular compounds in gas form, to control a cooker hood. It appears that the known constructions which depend on sensors for chemicals all only react to a very specific range of chemical susbstances, and they are inherently very sensitive to contamination which means that their performance and service life in a kitchen environment is less than desired.

Cooker hoods functioning according to the principles outlined above will be found among the following patent publications: DE30339346, DE 25 18 750, US 36 25 135, EP892221.

It is the purpose of the invention to provide a cooker hood which does not display the disadvantages associated with prior known control systems and which is able to provide automatic fume extraction in a wide range of foods being prepared on the cooker. This is obtained in a cooker hood which is particular in that a multitude of sensor elements are used, and that the combined responses of said sensor elements provides a controlling indication of the intensity of the cooking process.

In an advantageous embodiment of the invention, each sensor has a sensitivity to a separate broad range of chemicals, the instantaneous rate of extraction being determined by a specific combination of sensor signals. In a further advantageous embodiment, three sensors are used, the first sensor being sensitive to water vapour but not sensistive to grease and fat vapours, the second sensor being sensitive to both water vapour and to fat vapour, with opposing reactions, and the third having a high sensitivity to fat vapours, and a low sensitivity to water vapour.

In a further advantageous embodiment the output from each sensor is compared to corresponding data stored in a permanent memory.

In a further advantageous embodiment the data stored in permanent memory is obtained during a calibration run with foods of predetermined compositions being heated with a predetermined amount of heat at a predetermined rate.

The invention will be described further in the following with reference to the drawing, in which

Fig. 1 shows a disposition of a cooker hood in relation to a pan on a cooker, and Fig. 2 shows a block diagram of the control for a cooker hood employing the invention.

From a condition of rest, the cooking of food in conjunction with a cooker hood according to the invention proceeds as follows: the heating provided by the cooker heats the food, and a series of chemical processes are activated, each creating vapours, the mixture and concentrations of which may be detected as specific to the particular process by means of dedicated sensors. At low temperatures water vapour is given off, and at higher temperatures certain oxidation of some of the components in the food takes place, and at still higher temperatures fatty components are also given off as vapours, and from parts of the food covered with the most heat tolerant components of the fat, various forms of decomposition may also occur. All of these processes provide quite specific volatile compounds. Known sensors for cooker hood control are directed to the detection of such compounds and to activate the fan or blower. According to the invention this is not required, but instead the signals from a number of sensors are combined as defined in the patent claims, in order to obtain a classification of compounds and an intensity which activates the fan When the fan is activated, there will at first be an increase in the concentration of the vapours present at the sensors, and this is very beneficial, because it creates a use-dependent delay or hysteresis which ensures that the fan is activated sufficiently to perform in the manner intended - to provide a fume-free environment in the kitchen

In the embodiment shown, three semiconductor gas sensors (marked smell sensors) are mounted generally above the cooking area, and above the grease filter and below the impeller of the fan In the present embodiment they are semiconductor sensors which change their electrical resistance when influenced by the vapours they respond to Sensor 1 is sensitive to water vapour but not sensitive to grease and fat Sensor 2 is sensitive to both water vapour and to fat vapour but influence the resistance in opposite directions Sensor 3 has a high sensitivity to fat vapour but lower sensitivity to water vapour

When power is first applied to the control, the sensors are monitored for a period of time (typically 5 minutes), this in order to make sure that the sensors are thermally and electrically stable and to gain a knowledge (to be stored) of the sensor output pattern that represents a clean kitchen atmosphere After this time the monitoring programme starts All the resistance values (signal levels) of all three sensors are continously monotored The signals are read into RAM memory every 30 seconds (optional), and this value is compared to a rolling average over 5 minutes (optional) Both of times indicated are pre-programmed and adjusted to obtain a reliable and speedy response, with a minimum of false starts, nuisance speed changes and false shut downs

Sensor 1 and 3 have a high signal stability over time under clean air conditions and are therefore mainly used to detect and confirm the existence of and return to clean air conditions Sensor 2 does not have a stable signal over time in clean air, bur responds quickly to levels of fat vapour and is therefore mainly used to select fan speed changes, rather than to switch the fan on or off The following are the control parameters of the present embodiment The fan switches from off to speed level 1 - the ratio (sensor 1 at 30 sec signal)/( sensor 1 at 5 min average) is < 0 9 and the ratio (sensor3 at 30 sec signal)/(sensor3 at 5 min average) is < 0 85

The fan switches from level 1 to level 2 - the ratio (sensor 1 at 30 sec signal)/( sensor 1 at 5 min average) is <0 75 and the ratio (sensor3 at 30 sec signal)/(sensor3 at 5 min average) is < 0 5, or sensor 2 drops below the value lOOkohm

The fan switches from level 2 to level 3 - the ratio (sensor3 at 30 sec signal)/(sensor3 at 5 min average) is < 0 3, or sensor 3 drops below 50kohm

Clean air - the fan is switched off Light steam/water vapour - fan speed 1 Heavy steam/water vapour or light fat vapours - fan speed 2 Heavy fat vapours - fan speed 3

After cessation of the cooking and a clean kitchen has been detected and achieved, the fan runs for 5 minutes at speed 1

In a further embodiment, the fan can switch directly from level 0 to level 2 or level 3, and it can also switch back from level 3 to level 1 or level 2 before switching off, in dependence of the precise inputs provided by the sensors

Claims

PATENT CLAIMS

1. A cooker hood controlled by at least one sensor element reacting to fumes and vapours given off from the food to be cooked within the catchment range of said cooker hood, characterised in that a multitude of sensor elements are used, and that the combined responses of said sensor elements provides a controlling indication of the intensity of the cooking process.

2. A cooker hood according to claim 1, characterised in that each sensor has a sensitivity to a separate broad range of chemicals, the instantaneous rate of extraction being determined by a specific combination of sensor signals.

3. A cooker hood according to claim 2, characterised in that three sensors are used, the first sensor being sensitive to water vapour but not sensistive to grease and fat vapours, the second sensor being sensitive to both water vapour and to fat vapour, with opposing reactions, and the third having a high sensitivity to fat vapours, and a low sensitivity to water vapour.

4. A cooker hood according to claim 2, characterised in that the output from each sensor is compared to corresponding data stored in a permanent memory.

5. A cooker hood according to claim 4, characterised in that the data stored in permanent memory is obtained during a calibration run with food of a predetermined composition being heated with a predetermined amount of heat at a predetermined rate.