EP0845922A2 - Sensor controles cooking unit with condensate drain in the constructional functional unit - Google Patents

Abstract

The cooking device uses an IR sensor (1) projecting slightly above the surface (14) of the ceramic cooking hob, incorporated in a functional unit with a condensate trap which provides protection against a condensed water film. The condensate trap may be provided by a rough interior surface (20) of the plastics housing of the sensor, which may be treated with a hygroscopic chemical, or used in combination with a hygroscopic capsule.

Description

The invention relates to a sensor-controlled cooking unit consisting of Cooking appliance, sensors and hob, one assigned to the sensor-controlled cooking unit Infrared sensor slightly increased above the cooktop is arranged.

Heating processes, especially cooking processes in cooking appliances made from cooktops run off automatically when the temperature of the food to be cooked during the heating process is sufficiently well measurable. Temperature profiles obtained from such a type can be concluded on the progress of the cooking process. Here corresponds to the temperature of, for example, the bottom of the cookware or one Cookware wall largely cooked food temperatures, where the cooking process is the parboiling phase exceeded and reached the so-called steady state of cooking is.

It is known from the prior art, via the measurement of the temperature on cooking appliances, to control the cooking process so that minimal energy expenditure is sought can be. The temperature measurement is carried out by different acting Sensor technology. For example, radiant heat can be collected and transferred via a Thermocouple chain can be converted into electrical energy.

The object of the present invention is an infrared sensor-controlled cooking unit build up, the infrared sensor unit no error response due to humidity should have.

The solution to this problem is characterized in that the constructive Functional unit integrated infrared sensor unit by means of a condensate trap in front of one condensing water film is protected. Another advantageous solution The task is characterized in that in combination with the roughened Inside on the plastic housing of the sensor dome or as the sole measure there is a hygroscopic pill in the sensor housing. Other beneficial Embodiments of the invention are contained in the subclaims according to the invention is described below with reference to the drawing.

Fig. 1

eine Schnittfigur der konstruktiven Funktionseinheit (Infrarotsensordom) mit Infrarotsensoreinheit,

Fig. 2

eine schalttechnische Ausführung zwischen Sensoreinheit und Mikroschalter.

It shows:

Fig. 1

a sectional figure of the constructive functional unit (infrared sensor dome) with infrared sensor unit,

Fig. 2

a switchgear design between sensor unit and microswitch.

According to FIGS. 1, 2, an infrared sensor 1, a lens for the infrared sensor 2, a sensor board 3, a cover cap 4, a slide 5. a locking mechanism 6, a compression spring 7, a lower part 8, a base plate 9, a lower cover 10, a connecting line 11, a housing of the sensor unit 12, a hob frame 13, a glass ceramic hob 14, a microswitch 15, a switching plunger of the microswitch 16, a rocker switch 17, a bearing pin 18, a screw point to the trough frame 19, a roughened inside 20 and a hygroscopic pill 21 recognizable. The design of the infrared sensor functional unit is as follows described. Fig. 1 serves as the basis for the functional description. The carriage 5 is inserted into the housing 12 and by means of the locking mechanism 6, which is a disc on both sides with a heart-shaped guide represents, fixed. The compression spring 7 is snapped onto the housing 12 Lower part 8 held. The rocker switch 17 shown in Figure 2 is on a Housing 12 molded bearing pin 18 pushed. With a lower cover 10 the opening on the lower part 8 is closed and thereby the connecting line 11 led away laterally so that it does not come into contact with the bottom plate 9. The Infrared transparent plastic lens 2, which is a conventional biconvex lens or a plastic lens equipped with Fresnel lens segments is closely fitting on the Pressed sheet metal housing of the infrared sensor 1. This will equalize the temperature between lens and sensor. The sensor board 3 is inserted into the cover cap 4 used, the connecting lines 11 are through the carriage 5 and the lower part 8th threaded through and the cover cap 4 together with the circuit board on the carriage 5 mounted latching, the board 3 positioned itself in the carriage 5. After that the microswitch 15 is snapped into the housing 12. The pre-assembled system that is centered and screwed into the trough frame works as follows: Press on the cover cap 4, the sensor system (sensor dome) is unlocked and extends upwards after the actuation pressure has been removed. It will end of the stroke over a run-up slope on the slide 5, the rocker switch 17 around Bearing pin 18 deflected and thereby the microswitch 15 closed. The Closing the microswitch 15 signals the electronics that the Systems. The sensor system is locked by pressing the Cover cap 4 as far as it will go and let go. Here is the optical system that can also be a mirror system, set so that even with different Distances between the sensor and the saucepan the same measured value is recorded.

So that the constructive sensor unit can work properly, must be excluded be that the optical functional parts are exposed to water vapor. The constructive sensor unit is synonymous with the term infrared sensor dome fully sealed housing. This housing is injection molded from plastic. Of the infrared sensor dome integrated in a constructive functional unit is to be by means of a Protect the condensate trap from a condensing water film. This is possible that the condensate trap by a rough as possible Inner wall element is formed on the plastic housing of the sensor dome. Such a thing designed inner wall has an enlarged surface and must be sharp-edged be. It can be assumed that the water vapor is preferably sharp Edges condensed. To prevent this, measures can be taken that during installation of the infrared dome included as little water vapor as possible becomes. This is sensible because the cooling of the sensor dome on optical Parts of water vapor can be precipitated. This forms optically a water film that focuses the transmission of the infrared filter into the reflection of the Effectively affects mirrors or lens systems. As further advantageous measures the condensate trap can thus be improved against the formation of condensate that the roughened inside of the infrared sensor dome with a hygroscopic chemical is treated. Furthermore, in combination with the roughened inside of the sensor dome or as a sole measure a hygroscopic Pill in the sensor housing. The measures according to the invention aim to use optical systems, either lens systems or mirrors for Infrared sensor technology to keep water vapor free and thus the optical systems keep condensate free. There are advantages of the solution to this problem according to the invention in that, in contrast to previous water vapor collection methods Residues contaminating the infrared optics arise, and the measure from the start causes no haze on the infrared optics.

Claims (5)

Sensor-controlled cooking unit, consisting of cooking device, infrared sensor unit and hob, whereby an infrared sensor assigned to the sensor-controlled cooking unit is arranged slightly elevated above the hob in relation to the cooking point, characterized in that the infrared sensor unit integrated in a structural functional unit is protected from a condensing water film by means of a condensate trap. Sensor-controlled cooking unit according to claim 1, characterized in that the condensate trap has the largest possible rough inside (20) in the plastic housing of the sensor dome. Sensor-controlled cooking unit according to claim 1, 2, characterized in that the inside (20) of the infrared sensor dome is made with sharp edges. Sensor-controlled cooking unit according to claim 1, characterized in that the inside (20) of the sensor dome, which is roughened with sharp edges, is treated with a hygroscopic chemical. Sensor-controlled cooking unit according to claim 1, characterized in that a hygroscopic pill (21) is located in the housing of the infrared sensor unit in combination with the roughened sharp inside (20) of the infrared sensor dome or as the sole measure.

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