EP2600064A2 - Operating device - Google Patents

Abstract

The operating device has a lower sensor area (10a) with primary control function, and an upper sensor area (12a) with secondary operating function. A sensor unit (14a) is which functionally assigned at the lower sensor area and at the upper sensor area. An inactive region (16a) of the sensor unit is provided in the surface portion (17a) outside of the lower sensor area and upper sensor area. A control unit is provided to trigger the secondary control function with simultaneous selection of primary control function and the final control function by an operator. An independent claim is included for method for manufacturing operating device.

Description

From the prior art, an operating device with touch-sensitive sensor surfaces is known, wherein each sensor surface is assigned functionally exactly one sensor means designed as an electrode.

The object of the invention is, in particular, to provide an operating device with advantageously extended operating functionality. The object is achieved by the features of claim 1 and the method claim 9, while advantageous embodiments and refinements of the invention can be taken from the dependent claims.

An operating device is proposed with at least one first sensor surface having a first operating function, at least one second sensor surface having at least one first sensor means, which is functionally assigned to at least the first sensor surface and at least the second sensor surface, and at least one first inactive region of the first Sensor means in at least one surface area outside the first sensor surface and the second sensor surface. Preferably, the operating device for use in a household appliance, in particular a hob, is provided. In this context, a "control function" is to be understood as meaning, in particular, a control command for the domestic appliance unequivocally assigned to a sensor surface, which control command can be issued by touching the sensor surface and / or by approaching it. The operating function may in particular be a selection of a heating zone, an increase or decrease of a heating stage or a selection of a timer function. A "sensor surface" is to be understood, in particular, as a preferably marked surface, which is designed as a user interface and can be operated, in particular, by a touch and / or an approach. Preferably, the sensor surface is formed in a diaphragm unit, which in particular can be designed in one piece with a hob plate of the hob.

A "sensor means" is to be understood here and below as meaning in particular a means which is provided to detect a touch of and / or an approach to a sensor surface functionally associated sensor surface and to transmit a corresponding control signal to a control unit of the domestic appliance. By "provided" is intended to be understood in particular specially programmed and / or designed and / or equipped. By the fact that a sensor means is "functionally assigned" to a first and a second sensor surface, it should be understood in particular that the sensor means is intended to contact both the first and the second sensor surface and / or to approach both the first and the second sensor surface to detect the second sensor surface. Preferably, the sensor means comprises at least a first portion, which is arranged in a vertical view on the first sensor surface behind the first sensor surface. Furthermore, the sensor means has at least one second partial region, which is arranged in a vertical view on the second sensor surface behind the second sensor surface. In this context, an "inactive area" of a sensor means should be understood as meaning in particular a surface area, in particular the aperture unit, in which the sensor means is inactive, in particular although the sensor means is arranged below the surface area. The fact that an inactive region is arranged "in at least one surface region outside" of two sensor surfaces should in particular mean that the inactive region is arranged in at least one surface region which is different from the two sensor surfaces.

By such an embodiment, an advantageously extended operating functionality can be made possible. In particular, a variety of parts can be advantageously reduced, whereby a production cost and costs can be reduced. Due to the inactive area, operating safety can advantageously be increased, since false readout signals occur when the diaphragm unit is touched and / or an approach to the diaphragm unit in an area outside the sensor surfaces can be advantageously avoided.

It is also proposed that the operating device comprises at least one third sensor surface having a third operating function and at least one second sensor device, which is functionally assigned to at least the second sensor surface and at least the third sensor surface. Consequently, both the first sensor means and the second sensor means are associated with the second sensor surface. The second sensor surface forms in particular a virtual user interface. As a result, an operating functionality can be increased further advantageous.

Advantageously, the operating device has at least one second inactive region of the second sensor means in at least one surface region outside the second sensor surface and the third sensor surface. In this way, a reliability of operation and thus an operator safety can be further increased.

Furthermore, it is proposed that the operating device has at least one control unit which is provided to trigger the second operating function by simultaneously selecting the first operating function and the third operating function by an operator. A "control unit" is to be understood in particular as meaning an electronic unit which is provided to control and / or regulate operating units, in particular the sensor areas, and / or output units, in particular a plain text display and / or a loudspeaker. Preferably, the control unit comprises a computing unit and, in particular in addition to the computing unit, a memory unit with a control and / or regulating program stored therein. Preferably, the control unit is at least partially formed in one piece with a control and / or regulating unit of the domestic appliance, which is provided to control and / or regulate at least one main functional unit, in particular a heating unit or a cooling unit, of the domestic appliance. This can be a virtual sensor surface be created, which is assigned in particular no separate sensor means. Thus, only a reprogramming of the control unit and a corresponding configuration of sensor means a variety of different operating devices can be realized. A number of sensor means can be maintained, which can reduce costs, especially in different types of home appliances. Furthermore, a cost-effective, with relatively little connections for sensor means equipped control unit can be used.

In a preferred embodiment of the invention it is proposed that the sensor means are formed as electrodes. An "electrode" is to be understood in this context, in particular an electrically conductive and preferably flat component. An "electrically conductive" component is intended in particular to mean a component with a specific electrical conductivity of at least ⁵ × 10 ⁵ (Ωm) ^-1 , in particular of at least 10 ⁶ (Ωm) ^-1 and preferably of at least 2 × 10 ⁶ (Ωm) ^-1 20 ° C to be understood. The electrodes are preferably arranged on a surface of an electrically insulating unit, in particular a unit made of a glass ceramic, and preferably applied. An "electrically insulating" unit is to be understood as meaning in particular a unit having a specific electrical resistance of at least 10 ⁸ Ωm, in particular at least 10 ¹⁰ Ωm and advantageously at least 10 ¹² Ωm at 20 ° C. As a result, a simple and inexpensive operating device can be provided. Preferably, the electrodes are formed as electrically conductive coatings of an electrically insulating unit, whereby modifications in the design of the sensor means can be made particularly simple and a variety of products can be increased by advantageously simple adjustments.

In a particularly preferred embodiment of the invention, it is proposed that the operating device comprises a first shielding unit which at least substantially shields the first sensor means against contact and / or approach in the first inactive region. Preferably, the Operating device additionally a second shielding unit, which at least substantially shields the second sensor means against contact and / or approach in the second inactive region. In that a shielding unit "at least substantially shields" a sensor means from a touch and / or approach in its inactive region, should be understood in particular to be a contact of the inactive region, in particular of a region of the diaphragm unit above the sensor means, and / or an approximation the inactive region, in particular to a region of the diaphragm unit above the sensor means, causes due to the shielding unit such a small change of at least one parameter associated with the sensor means that this change is ignored by the control unit. When forming a sensor means as an electrode, the shielding unit is designed, in particular, as a unit differing from an electronic board and / or the diaphragm unit and in particular provided for influencing at least one significant influence of an electric field emanating from the sensor means when the inactive region, in particular a region of the diaphragm unit, is touched above the sensor means, and / or an approach to the inactive region, in particular to a region of the diaphragm unit above the sensor means to prevent. A "substantial influence" on the electric field emanating from the sensor means is to be understood in particular as a change of the electric field which is detected by the control unit as a triggering event, in particular a selection of an operating function. The shielding unit may be formed as a dielectric component, which is preferably arranged between the sensor means and the inactive region. Furthermore, the shielding unit may be formed as an electrically conductive and grounded component in an environment of the sensor means. As a result, advantageously an inactive area can be provided.

If the sensor means are formed in the region of the second sensor surface as mutually interlocking, it can be ensured that a touch of the and / or an approach to the second sensor surface always leads to a simultaneous triggering of the first and the third operating function. By the fact that "the sensor means are formed in the region of the second sensor surface as mutually interlocking", should be understood in particular that at least one of the sensor means at least partially surrounds the other sensor means.

In a further embodiment of the invention it is proposed that a center of gravity of the second sensor surface is spaced from a connecting straight line, which extends through a center of gravity of the first sensor surface and a center of gravity of the third sensor surface. A "center of gravity" of a sensor surface should in particular be understood to mean a centroid of the surface. Preferably, the center of gravity of the second sensor surface of the connecting straight line at least 5 mm, in particular at least 10 mm, preferably at least 15 mm and more preferably at least 20 mm spaced. This advantageously makes it possible to expand existing operating devices by further, virtual sensor surfaces.

Furthermore, a method for producing an operating device with at least one first sensor surface having a first operating function, at least one second sensor surface having a second operating function and at least one first sensor means, which is functionally assigned to at least the first sensor surface and at least the second sensor surface, is proposed an inactive region of the first sensor means is provided in at least one surface region outside the first sensor surface and the second sensor surface. As a result, an advantageously extended operating functionality can be provided.

Furthermore, a domestic appliance, in particular a hob, proposed with an operating device according to the invention. As a result, advantageously extended operating functionality can be provided for a domestic appliance and in particular for a hob.

Further advantages emerge from the following description of the drawing. In the drawing, three embodiments of the invention are shown. The drawing, the description and the claims contain numerous features in combination. A person skilled in the art will expediently also consider the features individually and combine them into meaningful further combinations.

Fig. 1

ein als Kochfeld ausgebildetes Hausgerät mit einer erfindungsgemäßen Bedienvorrichtung in einer Draufsicht,

Fig. 2

die Bedienvorrichtung mit dielektrischen Abschirmeinheiten in einer vergrößerten Darstellung,

Fig. 3

eine weitere Bedienvorrichtung mit elektrisch leitfähigen und geerdeten Abschirmeinheiten in einer vergrößerten Darstellung und

Fig. 4

eine weitere Bedienvorrichtung mit alternativen elektrisch leitfähigen und geerdeten Abschirmeinheiten in einer vergrößerten Darstellung.

Show it:

Fig. 1

a cooking appliance designed as a domestic appliance with an operating device according to the invention in a plan view,

Fig. 2

the operating device with dielectric shielding units in an enlarged view,

Fig. 3

another operating device with electrically conductive and grounded shielding in an enlarged view and

Fig. 4

another operating device with alternative electrically conductive and grounded shielding in an enlarged view.

FIG. 1 shows a trained as a hob 42a home appliance 40a with an operating device according to the invention in a plan view. The cooktop 42a includes a cooktop panel 44a. The cooktop panel 44a comprises a base plate 45a, which consists in particular of a glass ceramic. Furthermore, the cooktop panel 44a has markings 47a, of which in Fig. 1 only one is designated and which are preferably arranged on an upper side 46a of the base plate 45a. By the markings 47a sensor surfaces 10a, 12a, 18a of the operating device are characterized. Furthermore, the cooktop panel 44a has markings 48a, of which in Fig. 1 only one is designated and which are preferably also arranged on the upper side 46a of the base plate 45a. By the markings 48a heating zones 49a are identified (of which in turn only one is designated). The cooktop panel 44a is horizontally disposed in an operative state. The hob plate 44a is provided in an operational state for setting up cooking utensils for its heating. For this purpose, the hob 42a heating units, preferably induction heating units, which are arranged in a known manner below the heating zones 49a (in Fig. 1 not shown).

The operating device comprises a first sensor surface 10a, a second sensor surface 12a and a third sensor surface 18a. The sensor surfaces 10a, 12a, 18a are marked by the markings 47a on the top 46a of the base plate 45a of a portion 52a of the hob plate 44a. The portion 52a of the hob plate 44a is part of the operating device. By touching the first sensor surface 10a, a first operating function is triggered. By touching the second sensor surface 12a, a second operating function is triggered. By touching the third sensor surface 18a, a third operating function is triggered. The operating functions may, for example, be a selection and / or selection of a heating zone 49a and / or a heating power for a heating zone 49a and / or a timer function and / or a cooking program. The first sensor surface 10a and the second sensor surface 12a are separated by a first inactive region 16a which extends in a surface region 17a of the cooktop plate 44a. The second sensor surface 12a and the third sensor surface 18a are separated by a second inactive region 22a which extends in a surface region 23a of the cooktop plate 44a. In the surface regions 17a, 23a, the operating device is insensitive to contact.

The operating device further comprises a control unit 24a for controlling operating inputs and outputs (in Fig. 1 shown in dashed lines). The control unit 24a is integrated in a control and regulation unit 50a of the cooktop 42a arranged below the cooktop panel 44a (in FIG Fig. 1 shown in dashed lines). The control and regulation unit 50a of the hob 42a is provided in particular for controlling and / or regulating the heating units.

FIG. 2 shows a partial view of the operating device with disassembled cooktop plate 44a when viewing the top 46a opposite bottom 54a of the base plate 45a of the hob plate 44a. The sensor surfaces 10a, 12a, 18a are circular and in particular have a diameter of 15 mm (in Fig. 2 shown in dashed lines, since they are arranged on the upper side 46a of the base plate 45a). A center of gravity 32a of the second sensor surface 12a is spaced from a connecting straight line 34a which extends through a center of gravity 36a of the first sensor surface 10a and a center of gravity 38a of the third sensor surface 18a. The operating device comprises a first sensor means 14a designed as an electrode 26a and a second sensor means 20a designed as an electrode 28a. The sensor means 14a, 20a are formed as electrically conductive coatings 56a, 58a of the underside 54a of the base plate 45a. In this case, any coating 56a, 58a which appears expedient to a person skilled in the art can be used as the coating 56a, 58a, in particular a coating 56a, 58a applied by a screen-printing process and / or cathode sputtering.

The first sensor means 14a is operatively associated with the first sensor surface 10a and the second sensor surface 12a. The first sensor means 14a has a circular region below the first sensor surface 10a, which in particular has a slightly smaller diameter than the first sensor surface 10a. The first sensor means 14a has a convex hexagonal area below the second sensor surface 12a, the surface extent of which is in particular approximately half as large as the area of the second sensor surface 12a. Between the areas below the first sensor surface 10a and the second sensor surface 12a, the first sensor means 14a is formed like a line and in particular in a straight line. The second sensor means 20a is functionally associated with the second sensor surface 12a and the third sensor surface 18a. The second sensor means 20a has a circular region below the third sensor surface 18a, which in particular has a slightly smaller diameter than the third sensor surface 18a. The second sensor means 20a has a partially concave hexagonal area below the second sensor surface 12a, the surface extent of which is in particular approximately half as large as the area of the second sensor surface 12a. Between the areas below the second Sensor surface 12a and the third sensor surface 18a, the second sensor means 20a formed like a line and in particular provided with a kink. The sensor means 14a, 20a are formed in the region of the second sensor surface 12a as mutually interlocking. The second sensor means 20a engages around the first sensor means 14a partially in the region of the second sensor surface 12a.

The circular regions of the first sensor means 14a and the second sensor means 20a are respectively electrically conductively coupled in known manner to a sensor unit (in FIG Fig. 2 not shown), in particular via elastic and electrically conductive elements, preferably conductive rubbers. The sensor units register an alteration of an electric field originating from the sensor means 14a, 20a or ending at the sensor means 14a, 20a due to an approach, in particular, of a finger of an operator to the sensor means 14a, 20a. In this way, a contact of the first sensor surface 10a and the third sensor surface 18a can be detected, in particular by the finger of the operator. When the first sensor surface 10a is touched, the first operating function is triggered by the control unit 24a. When the third sensor surface 18a is touched, the third operating function is triggered by the control unit 24a accordingly. The second sensor surface 12a is a virtual sensor surface 60a, which, in particular, is not assigned its own sensor unit. When the second sensor surface 12a is touched, the control unit 24a registers a simultaneous actuation of the first sensor surface 10a and the third sensor surface 18a and evaluates this in particular as an actuation of the second sensor surface 12a. Thereafter, the control unit 24a triggers the second operating function.

In order to prevent unintentional triggering of the first operating function when the surface area 17a outside the first sensor area 10a and the second sensor area 12a touches, the operating device comprises a first shielding unit 30a, which at least substantially shields the first sensor means 14a from contact in the first inactive area 16a. To an unwanted triggering of the third operating function upon contact of the surface region 23a outside the second sensor surface 12a and the third sensor surface 18a, the operating device comprises a second shielding unit 62a which at least substantially shields the second sensor means 20a from contact in the second inactive region 22a. The shielding units 30a, 62a each include a dielectric shielding member 64a, 66a. The dielectric shielding element 64a is arranged in a region opposite to the first inactive region 16a between the underside 54a of the base plate 45a and the first sensor means 14a. The dielectric shielding element 66a is arranged in a region opposite to the second inactive region 22a between the underside 54a of the base plate 45a and the second sensor means 20a. The dielectric shielding elements 64a, 66a are formed as electrically insulating coatings 68a, 70a. Any coating 68a, 70a which appears expedient to a person skilled in the art may be used as the coating 68a, 70a, in particular a coating 68a, 70a, preferably a ceramic coating 68a, 70a, applied by a screen printing process. A thickness of the dielectric coatings 68a, 70a perpendicular to a main extension plane of the base plate 45a is preferably between 100 μm and 200 μm.

In 3 and 4 two further embodiments of the invention are shown. The following descriptions are essentially limited to the differences between the embodiments, with respect to the same components, features and functions on the description of the other embodiments, in particular of Fig. 1 and 2 , can be referenced. To distinguish the embodiments, the letter a in the reference numerals of the embodiment in Fig. 1 and 2 by the letters b and c in the reference numerals of the embodiments of 3 and 4 replaced. With regard to like-named components, in particular with regard to components with the same reference numerals, can in principle also to the drawings and / or the description of the other embodiments, in particular of Fig. 1 and 2 , to get expelled.

FIG. 3 shows a partial view of another operating device of a hob 42b with disassembled cooktop plate 44b when viewing a bottom 54b of a base plate 45b of the cooktop plate 44b. The operating device comprises shielding units 30b, 62b, which has electrically conductive and earthed shielding elements 64b, 66b. The electrically conductive and earthed shielding element 64b is arranged in a region opposite to a first inactive region 16b between the underside 54a of the base plate 45b and a first sensor means 14b. Between the shielding element 64b and the first sensor means 14b an additional electrical insulation 72b is provided. The electrically conductive and grounded shielding element 66b is disposed in a region opposite to a second inactive region 22b between the underside 54b of the base plate 45b and a second sensor means 20b. Between the shielding element 66b and the second sensor means 20b an electrical insulation 74b is likewise provided in addition. The electrically conductive and grounded shielding elements 64b, 66b are formed as electrically conductive coatings 68b, 70b. In this case, any coating 68b, 70b which appears expedient to a person skilled in the art can be used as the coating 68b, 70b, in particular a coating 68b, 70b applied by a screen printing method and / or by sputtering. Furthermore, the grounding lines of the shielding elements 64b, 66b may be formed as electrically conductive coatings. The electrical insulation 72b, 74b are formed as electrically insulating coatings 76b, 78b. Any coating 76b, 78b which appears expedient to a person skilled in the art may be used as the coating 76b, 78b, in particular a coating 76b, 78b, preferably a ceramic coating 76b, 78b, applied by a screen-printing process. A thickness of the electrically insulating coatings 76b, 78b perpendicular to a main extension plane of the base plate 45b is preferably between 10 μm and 50 μm.

FIG. 4 shows a partial view of another alternative operating device of a hob 42c with disassembled cooktop plate 44c when viewing a bottom 54c of a base plate 45c of the cooktop plate 44c. The operating device includes a first shielding unit 30c and a second shielding unit 62c. The first shielding unit 30c has two electrically conductive and grounded shielding elements 64c, which are arranged at a distance from a first sensor means 14c. The shielding members 64c are disposed adjacent to the first sensor means 14c on both sides and relative to a main extension plane of the base plate 45c. The shielding elements 64c have at each point a minimum distance of between 0.5 mm and 1 mm from the first sensor means 14c. The second shielding unit 62c also has two electrically conductive and earthed shielding elements 66c, which are arranged at a distance from a second sensor means 20c. The shielding members 66c are disposed adjacent to the second sensor means 20c on both sides and relative to a main extension plane of the base plate 45c. The shielding elements 66c have at each point a minimum distance of between 0.5 mm and 1 mm from the second sensor means 20c. The electrically conductive and grounded shielding elements 64c, 66c are formed as electrically conductive coatings 68c, 70c. Any coating 68c, 70c which appears expedient to a person skilled in the art may be used as the coating 68c, 70c, in particular a coating 68c, 70c applied by a screen printing method and / or by sputtering. Furthermore, the grounding lines of the shielding elements 64c, 66c may be formed as electrically conductive coatings.

In the embodiment of the hob plate 44c according to Fig. 4 offers a manufacturing method in which the base plate 45c is first provided on the bottom 54c over a large area and preferably completely with an electrically conductive and preferably metallic coating. This coating can be applied in particular by a physical vapor deposition and preferably by a cathode jet atomization. Subsequently, areas of the coating are removed to remove the in Fig. 4 shown structures, in particular the sensor means 14c, 20c, the shielding 64c, 66c and the grounding lines to obtain. Ablation can take place, for example, by means of a laser ablation.

reference numeral

10

First sensor surface

12

Second sensor surface

14

First sensor means

16

First inactive area

17

surface area

18

Third sensor surface

20

Second sensor means

22

Second inactive area

23

surface area

24

control unit

26

electrode

28

electrode

30

First shielding unit

32

main emphasis

34

connecting line

36

main emphasis

38

main emphasis

40

household appliance

42

hob

44

Hotplate

45

baseplate

46

top

47

mark

48

mark

49

heating zone

50

Control unit

52

subregion

54

bottom

56

coating

58

coating

60

Virtual sensor surface

62

Second shielding unit

64

shielding

66

shielding

68

coating

70

coating

72

insulation

74

insulation

76

coating

78

coating

Claims (10)

Operating device having at least one first sensor surface (10a-c) having a first operating function, at least one second sensor surface (12a-c) having a second operating function, at least one first sensor means (14a-c) functionally connected to at least the first sensor surface (10a-c ) and at least one second inactive area (16a-c) of the first sensor means (14a-c) in at least one surface area (17a-c) outside the first sensor area (10a-c). and the second sensor surface (12a-c). Operating device according to Claim 1, characterized by at least one third sensor surface (18a-c) having a third operating function and at least one second sensor means (20a-c) which is functionally connected to at least the second sensor surface (12a-c) and at least the third sensor surface (18a-c). c) is assigned. Operating device according to claim 2, characterized by at least one second inactive region (22a-c) of the second sensor means (20a-c) in at least one surface region (23a-c) outside the second sensor surface (12a-c) and the third sensor surface (18a-c ). Operating device at least according to claim 2, characterized by at least one control unit (24a-c), which is provided to trigger the second operating function while simultaneously selecting the first operating function and the third operating function by an operator. Operating device at least according to claim 2, characterized in that the sensor means (14a-c, 20a-c) as electrodes (26a-c, 28a-c) are formed. Operating device according to one of the preceding claims, characterized by a first shielding unit (30a-c) which at least substantially shields the first sensor means (14a-c) from contact and / or approach in the first inactive region (16a-c). Operating device at least according to claim 5, characterized in that the sensor means (14a-c, 20a-c) are formed in the region of the second sensor surface (12a-c) as mutually interlocking. Operating device at least according to claim 2, characterized in that a center of gravity (32a-c) of the second sensor surface (12a-c) from a connecting line (34a-c) is spaced, which by a center of gravity (36a-c) of the first sensor surface (10a c) and a center of gravity (38a-c) of the third sensor surface (18a-c) extends. Method for producing an operating device having at least one first sensor surface (10a-c) having a first operating function, at least one second sensor surface (12a-c) having a second operating function and at least one first sensor means (14a-c) which is functionally at least of the first sensor surface (10a-c) and at least the second sensor surface (12a-c) is associated, in particular according to one of the preceding claims, in which a first inactive region (16a-c) of the first sensor means (14a-c) in at least one surface region (17a). c) is provided outside the first sensor surface (10a-c) and the second sensor surface (12a-c). Domestic appliance (40a-c), in particular hob (42a-c), with an operating device according to one of claims 1 to 8.

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