DE102004013947B3 - User control arrangement for glass ceramic cooker hob, has rotatable knob held in position over ceramic plate by magnetic force, and pattern on underside of knob used to determine setting position in conjunction with e.g. optical sensor - Google Patents

Abstract

A rotatable knob (12) is removably held over a glass ceramic plate (14) by means of a magnet (24) on its underside which reacts with the magnetic field produced by magnets (26) below the plate. The angular position of the knob is determined by means of a printed strip (22) with progressively-changing reflectivity on the underside of the rotatable knob in conjunction with optical sensors (20) below the ceramic plate. Alternatively, the strip may be in the form of a conductive pattern and capacitive sensors are employed.

Description

The The present invention relates to an operating device for a glass ceramic hob in the form of a rotary knob.

Ceramic glass hobs are becoming increasingly popular because they are easy to clean, variable hob sizes and enable forms a high level of technical comfort and high technical safety offer and have a noble design. The glass ceramic hobs Both are used as hobs in conjunction with a stove as well available as self-sufficient cooking stoves. The operation and control of the glass ceramic hobs is increasingly on a Sensor field operation, also called Touch Control, in which the Hob on touch of the sensor field reacts with the finger. Such a sensor field is easy to clean and visually appealing. The sensor field is typically an LED display to show the cooking level, the cooking time and assigned by special functions.

Furthermore, for example, from the DE 102 12 929 A1 a special operating device for a glass ceramic hob in the form of a rotary knob is known, which can be used in combination with a touch control - control panel. The known rotary knob is held by means of a magnetic holding device on the glass ceramic plate in the region of the sensor panel, and the rotational movement of the rotary knob is detected by Hall sensors that generate a digital output signal, which is converted by an associated evaluation in a corresponding control signal for the glass ceramic hob ,

In the DE 199 17 191 C2 a rotary switch is described, which is printed on its underside with a web with alternating black and white areas. An opto-electronic sensor, which is arranged stationary below this circular path, recognizes the color transitions upon rotation of the rotary switch and supplies corresponding evaluatable electrical voltage signals,
which are also carried out digitally and thus are only suitable for determining the extent of rotation, ie the relative change in position of the rotary switch and not its absolute position.

From the EP 0 797 227 A2 an arrangement for controlling electrically controllable devices with a magnetically supported on a glass ceramic cooking surface rotary knob is known in which the light of a arranged below the cooking surface light source is centrally radiated into the rotary knob, deflected by means of a Drehknebelkörper embedded light guide and offset radially outward again by the glass ceramic plate is reflected back, where it is received by in turn arranged below the cooking surface photosensors. By a circular arrangement of a plurality of such photosensors an absolute position determination of the rotary knob is possible here. However, this requires a lavishly designed rotary knob with an optical waveguide embedded in its body and a large number of photosensors.

Also from the DE 102 18 294 A1 In turn, a magnetically supported rotary knob for hot plates is known, which has a position sensor which interacts with a plurality of sensors arranged below the cooking surface during rotation and thus allows a determination of the absolute position of the knob.

Of the The present invention is based on the object, an operating device for a To provide glass ceramic hob in the form of a rotary knob, the for a Touch Control - Control Panel is suitable, has a simpler structure, easy to use is and in the absolute position of the rotary knob determined is.

These Task with an operating device for a glass ceramic hob with the features of claim 1 solved. Advantageous embodiments and further developments of the invention are the subject of the dependent claims.

The Operating device for a glass ceramic hob in the form of a rotary knob is characterized in that that provided on the underside of the rotary knob, a measuring strip is, which is arranged on a circular path and moves along the circular path continuously or stepwise changing physical properties having; that the glass-ceramic hob has at least one sensor, which is arranged according to the circular path of the measuring strip and one of the physical property of the sensor from the opposite section generates the output strip corresponding output signal; and that the at least one sensor is associated with an evaluation unit, from the output signal of the sensor one of the rotational position of Rotary knob generates corresponding control signal for the glass ceramic hob.

The at least one sensor is either an optical sensor, in particular an infrared (IR) sensor, and the measuring strip, which is preferably printed on the underside of the rotary knob, has a changing reflectivity. The measuring strip has a circular ring with several, itself from white to black changing grayscale.

alternative the at least one sensor is a capacitive sensor, and the measuring strip is made of an electrically conductive material and has a around the circular path increasing or decreasing distance to the at least a sensor on. In particular, the measuring strip may be a metal band its thickness or distance to the bottom of the rotary knob is changing continuously or gradually.

The Control device according to the invention is for Touch Control - Control panels suitable for glass ceramic hobs, characterized by a simple Construction and is by the user of the glass ceramic hob easy to use. The rotary knob offers the user a well-known possibility the setting of cooking stages by a rotary motion guaranteed but at the same time the familiar advantages of a touch control panel. The structure of the operating device only needs a suitable Gauges at the bottom of the rotary knob and a corresponding sensor in the control panel of the glass ceramic hob. Through the continuous or gradually changed physical property of the measuring strip is a simple and exact setting of a cooking level possible.

Thereby, that the physical property of the measuring strip over its Circumference changes constantly (In the case of the optical sensor, a in gray levels from white to black changing reflectivity or im Trap of the capacitive sensor to one of the circular path or decreasing Distance from the sensor), it is possible the positioning of the Absolutely to determine rotary knob.

In a further embodiment of the invention, the rotary knob a first holding magnet and the glass ceramic hob has a second holding magnet, so that the rotary knob releasably on the glass ceramic hob can be fastened.

Further the glass ceramic hob can have a guide device, with which the rotary motion of the rotary knob around a center of rotation guided is. This guide device can, for example, several guide magnets have, which are arranged in the circumferential direction of the rotary knob and with the centrally located first holding magnet of the rotary knob interact.

In a further embodiment of the invention, the rotary knob a display device for displaying the current rotational position of Turning the knob up. This display device is preferably made a printing, which is one of the current rotational position of the rotary knob corresponding heating or cooking stage represents. Deploying the display device directly on the rotary knob is in particular in so-called white Glass ceramic hobs advantageous because there the usual LED displays for the user difficult to read and are therefore unsuitable in practice.

Above and other features and advantages of the invention will become apparent from the following description of a preferred, non-limiting For example, with reference to the accompanying drawings better understandable. Show:

1 a schematic cross-sectional view of an operating device for a glass ceramic hob according to a preferred embodiment of the invention; and

2 a schematic plan view of the underside of the rotary knob of 1 ,

In 1 the operating device is generally indicated by the reference numeral 10 characterized. The operating device 10 is especially in the form of a rotary knob 12 Trained on a glass ceramic plate 14 is positioned in the area of a touch control panel of the glass ceramic hob. Below the glass ceramic plate 14 is a circuit board 16 provided, which serves both as a carrier for various measuring and control elements as well as for providing electrical connections between individual components. In particular, the circuit board 16 also with a control and evaluation unit 18 connected.

The desired function of the operating device 10 is achieved mainly by two components. The first component consists of one or more sensors 20 below the glass ceramic plate 14 on the circuit board 16 are arranged; the second component is a measuring strip 22 at the bottom of the rotary knob 12 is provided. As in particular in the presentation of 2 to recognize, is the gauge 22 arranged on a circular path and has along the circular path continuously or stepwise changing physical properties, as indicated by the zones A to H, which correspond to the different cooking or heating stages of the associated glass ceramic hob. The sensor (s) 20 are corresponding to this orbit of the measuring strip 22 under the glass ceramic plate 14 arranged so that the sensors 20 with correct positioning of the rotary knob 12 on the Touch Control - control panel the gauge 22 lie opposite.

Depending on the type of measuring strip 22 respectively. the physical properties of the measuring strip 22 is a suitable type of sensor 20 selected. The sensor 20 generates an output signal which is the physical property of the sensor 20 opposite section of the measuring strip 22 equivalent. This output signal of the sensor 20 is via connection lines of the control and evaluation unit 18 supplied, which generates from the output signal of the sensor of the rotational position of the rotary knob corresponding control signal for the glass ceramic hob, which is supplied, for example, an associated hotplate to these according to the on the rotary knob 12 to heat set cooking level.

In a preferred embodiment of the invention, the at least one sensor 20 an optical sensor, in particular an infrared (IR) sensor, which extends over the circumference of the measuring strip 22 changing reflectivity detected. The measuring strip 22 is in this case preferably on the underside of the rotary knob 12 and has, for example, a plurality of zones A to H formed in the form of gray levels from white (zone A) to black (zone H). These gray scale zones A to H can be provided either stepwise with sections of a constant gray level or as a continuously changing gray level.

To facilitate the user of the glass ceramic hob setting a desired heating or cooking level, has the rotary knob 12 preferably a display device 28 on, for example, as a print on the top of the rotary knob 12 is provided. The display device consists for example of the numbers 1 to 8 corresponding to the gray areas A to H of the measuring strip 22 , Such a display device 28 on the rotary knob 12 is particularly advantageous in so-called white glass ceramic cooktops, since in this case the otherwise usual LED displays in the touch control panel itself are very difficult to read and thus unsuitable.

As further in 1 shown, the operating device 10 a magnetic holding device for releasably securing the rotary knob 12 on the glass ceramic plate 14 on. The magnetic holding device consists essentially of a first holding magnet 24 , which is provided centrally in the rotary knob, and a second holding magnet 26 below the glass ceramic plate 14 , Due to the different polarity of the first and the second holding magnet 24 . 26 , turns the knob 12 on the glass ceramic plate 14 held.

To guide the rotation of the rotary knob 12 can the operating device 10 Furthermore, a (not shown) guide means, which for example additionally comprises a plurality of guide magnets, in the circumferential direction of the rotary knob 12 under the glass ceramic plate 14 are arranged, the same polarity as the first holding magnet 24 of the rotary knob 12 and therefore with the centrally located first holding magnet 24 of the rotary knob 12 interact such that they have a certain guiding force for rotation about the central first holding magnet 24 exercise.

The rotary knob 12 is through the magnetic holder 24 . 26 detachable on the glass ceramic plate 14 attached so that it can be easily removed if necessary and the glass ceramic plate can be easily cleaned in this way.

While the present invention above based on a preferred embodiment thereof fully described with reference to the accompanying drawings it is self-evident that different changes and modifications for the person skilled in the art are obvious. Such changes and modifications are still within the scope of the invention, as he by the attached claims is defined.

For example, the operating device 10 of the illustrated embodiment, two sensors 20 on. Instead of the two sensors 20 it is also possible to have only one sensor 20 or more than two sensors 20 according to the circular path of the measuring strip 22 of the rotary knob 12 to arrange. The more sensors 20 are provided, the higher the accuracy of detecting the rotational position of the rotary knob 12 , On the other hand, a smaller number of sensors is sufficient 20 , the more different zones of the measuring strips 22 having. In the case of only two different zones of the measuring strip 22 have at least two sensors 20 be provided.

Furthermore, the operating device 10 of the embodiment described above, an optical sensor 20 and a measuring strip 22 with variable reflectivity. Instead, it is also possible to use a capacitive sensor 20 insert and the measuring strip 22 made of an electrically conductive material, wherein the distance of the measuring strip 22 to the sensor 20 changed continuously or gradually around the circular path. For example, the measuring strip 22 a metal band whose thickness or distance to the bottom of the rotary knob 12 is variable. The capacitive sensor 20 can then with a rotation of the rotary knob 12 the rotational position of the rotary knob 12 from the current capacitance value between the sensor 20 and the measuring strip 22 to capture.

The evaluation of the output signals of the sensors 20 takes place in the control and evaluation Ness 18 for example, via reference values stored in advance, which have an association between the values of the output signals and the associated cooking or heating stages. Due to material aging, manufacturing tolerances in the glass ceramic plate 14 and the rotary knob 12 , a contamination of the glass ceramic plate 14 and the like, it is advantageous before the first use of the operating device 10 and possibly also before each use of the operating device 10 perform a reference measurement to the accuracy of detecting the rotational position of the rotary knob 12 to increase.

The advantages of the operating device according to the invention lie in the simple structure of the operating device and the simple operation of the operating device. In particular, the operating device according to the invention combines the advantages of a touch control operating panel with the conventional operation of a rotary knob. Due to the detachable attachment of the rotary knob 12 on the glass ceramic plate 14 The glass ceramic plate is easy to clean. Because the sensors 20 according to the training of the measuring strip 22 an analogue output signal to the control and evaluation unit 18 output is the accuracy of detecting the rotational position of the rotary knob 12 compared to the digital output signal in the case of a Hall sensor 20 elevated. If the rotary knob 12 even with a display device 28 is provided, the operating device according to the invention is particularly suitable for white glass ceramic hobs.

10

operating device

12

rotary knob

14

Glass ceramic plate

16

circuit board

18

Tax- and evaluation unit

20

sensors (IR, capacitive)

22

gauges

24

first holding magnet

26

second holding magnet

28

Oppression (Display device)

Claims (9)

Operating device ( 10 ) for a glass ceramic hob in the form of a rotary knob ( 12 ), where at the bottom of the rotary knob ( 12 ) a measuring strip ( 22 ) is provided, which is arranged on a circular path and has along the circular path continuously or stepwise changing physical properties; wherein the glass-ceramic hob has at least one sensor ( 20 ) corresponding to the circular path of the measuring strip ( 22 ) and generates an output signal corresponding to the physical property of the portion of the measuring strip opposite the sensor; further comprising the at least one sensor ( 20 ) an evaluation unit ( 18 ) is assigned, which from the output signal of the sensor one of the rotational position of the rotary knob ( 12 ) generates corresponding control signal for the glass ceramic hob; and finally the at least one sensor ( 20 ) is an optical sensor and the measuring strip ( 22 ) has a reflectivity varying over its circumference in the form of gray levels from white to black, or alternatively the at least one sensor ( 20 ) is a capacitive sensor and the measuring strip ( 22 ) is made of an electrically conductive material and has a distance to the circular path or decreasing distance to the at least one sensor. Operating device according to claim 1, characterized in that the at least one optical sensor ( 20 ) is an IR sensor. Operating device according to claim 1 or 2, characterized in that the measuring strip ( 22 ) on the underside of the rotary knob ( 12 ) is printed. Operating device according to claim 1, characterized in that the measuring strip ( 22 ) is a metal band whose thickness or distance to the bottom of the rotary knob changes. Operating device according to one of the preceding claims, characterized in that the rotary knob ( 12 ) a first holding magnet ( 24 ) and the glass-ceramic hob has a second holding magnet ( 26 ), so that the rotary knob is releasably attachable to the glass ceramic hob. Operating device according to one of the preceding claims, characterized in that the glass ceramic cooking field has a guide device, with which the rotational movement of the rotary knob ( 12 ) is guided around a turning center. Operating device according to claim 5 and 6, characterized in that the guide means comprises a plurality of guide magnets, which in the circumferential direction of the rotary knob ( 12 ) are arranged and with the centrally arranged first holding magnet ( 24 ) of the rotary knob interact. Operating device according to one of the preceding claims, characterized in that the rotary knob ( 12 ) a display device ( 28 ) for displaying the current rotational position of the rotary knob has. Operating device according to claim 8, characterized characterized in that the display device ( 28 ) has a print which represents a heat level corresponding to the current rotational position of the rotary knob.