DE202011003021U1 - operating unit - Google Patents

Abstract

Operating unit (1) with a capacitive touch surface (2), characterized in that the touch surface (2) is formed of zirconia ceramic.

Description

The invention relates to an operating unit with a capacitive touch surface.

Such control units are known for example from hobs made of glass ceramic.

In these hobs, the use of glass ceramic has been proven, since the heat radiation developed by the arranged in the hob heating elements can pass through the glass ceramic well.

Operating units with capacitive touch surface offer over the otherwise known mechanical or mechanical-electrical switching elements the advantage that can be completely dispensed with moving parts, which leaks are largely avoidable.

The invention has for its object to develop new applications for capacitive control units.

To achieve this object, it is provided that the touch surface is formed of zirconia ceramic. Here, the zirconia ceramic may be in pure form or be provided with additives. The use of zirconia makes it possible to obtain touch surfaces with increased scratch resistance and impact resistance compared with the conventional glass ceramics. The operating units thus created can therefore be used in an environment in which harmful environmental influences, mechanical stresses and / or vandalism can occur. Particularly noteworthy is the achieved with zirconia increased impact resistance of the touch surface, which is comparable to the impact resistance of metallic materials.

In this case, a capacitive touch surface is understood as an arrangement of a cover element and at least one electrode, wherein a contact of the areal-shaped cover element results in an electronically readable change in a capacitance associated with the electrode or a charge stored on the electrode.

In one embodiment of the invention stabilizers are added to the zirconia. The advantage here is that the stability of the ceramic can be increased with the stabilizers.

Zirconia occurs in monoclinic, tetragonal and cubic crystal modification. At temperatures below 1.173 ° C, the monocrystalline crystal phase prevails, between 1.173 ° C and 2.370 ° C the tetragonal crystal phase and between 2.370 ° C and 2.690 ° C the cubic crystal phase. Above 2.690 ° C, zirconia goes into a melt.

By adding additives, for example di- or tri-valent cations in the form of oxides, such as calcium oxide (CaO), magnesium oxide (MgO), cerium oxide (CeO ₂ ) and / or yttrium oxide (Y ₂ O ₃ ) and / or other substances, such as scandium oxide (ScO ₃ ) or yttrium oxide (YbO ₃ ), several phases can be simultaneously stabilized at room temperature after the ceramic is cooled. It is beneficial if the ceramic is used as partially stabilized zirconia (PSZ) to stabilize the cubic phase at room temperature.

It is particularly favorable if the touch surface is made of yttria-stabilized tetragonal polycrystalline zirconium dioxide. This results from the addition of 3 mol% Y ₂ O ₃ (= 5.1% by weight) to the zirconium dioxide and leads to a metastable tetragonal phase at room temperature. The advantage here is that the material automatically hampers crack propagation through a mechanism known as transformation enhancement, martensitic transformation or transmutation strengthening. Thus, the material strength is further increased.

The invention generally makes use of the knowledge that for many applications the impermeability to heat radiation which is absolutely necessary for cooktops is not required, so that it is possible to resort to more suitable materials. The invention further makes use of the knowledge that for many applications the touch surface is not needed in the size of a hob, whereby the production cost remains justifiable. However, the invention is not limited to touch surfaces that are smaller than a cooktop.

For many applications, favorable performance characteristics arise when the touch surface is translucent or even transparent. This can be achieved for example by adding appropriate materials and / or configuration of the grain size of the polycrystalline ceramic. The advantage here is that behind the touch surface protected information can be offered, which give information about the function and / or localization of special actuators on the touch surface, for example.

To achieve a large variety of functions can be provided that the touch surface provides several independent actuators. Preferably, these actuating elements are arranged and provided next to one another on the touch surface. This can be achieved, for example, by appropriate activation and readout of electrodes of the capacitive touch surface.

To provide persistent information, the touchpad may have color backprinting.

Alternatively or additionally, it may be provided that the touch surface is executed colored. It can also be provided areas with different coloring. For example, the coloring can be made blue or black. The colorations can be achieved by incorporation of corresponding ions in the zirconia ceramic.

For labeling and / or for the identification of operating elements, it may be provided that the touch surface has a laser marking. In this case, laser marking means a laser treatment of the ceramic material which is close to the surface and in which the optical properties of the ceramic material are changed under laser light without visibly or tangibly damaging the surface. The advantage here is that this label and / or marking is particularly durable.

For example, the laser marking can be introduced to the rear side of the touch surface. It is particularly favorable, however, if the laser marking is introduced at the front. In this case, the laser marking can be introduced after completion of all other assembly work. This has the advantage that the operating element must be adapted to individual customer requirements only at the end of the manufacturing process, for example, labels in a desired language and / or labels that comply with national regulations.

It is particularly favorable for cleaning and for a high resistance to harmful environmental influences if the touch surface has a closed surface on the outside.

To achieve a further increased resistance of the operating unit can be provided that the touch surface sealingly inserted into a housing opening and the housing opening is inserted.

For the visualization of backpressures and / or laser markings, provision can be made for a lighting unit to be arranged behind the touch surface and aligned for screening the touch surface. The advantage here is that the labels are thus switched on and off as needed.

It can also be provided that a display is arranged behind the touch surface. The advantage here is that the display on the one hand cause lighting and on the other hand can reproduce a desired color and / or additional information.

The invention will now be described in more detail with reference to embodiments, but is not limited to these embodiments. Further exemplary embodiments result from the combination of individual or a plurality of features of the claims with one another and / or with one or more features of the exemplary embodiments.

It shows:

1 an inventive control element in a greatly simplified sectional view,

2 the operating element according to 1 in a view on the touch surface,

3 another control element according to the invention,

4 the operating element according to 3 in a greatly simplified sectional view and

5 the control element off 3 in a greatly simplified three-dimensional oblique view.

An in 1 schematically and greatly simplified to illustrate the principles of the invention shown in a sectional view and in total with 1 designated operating unit has a touch surface 2 on which a planar or plate-shaped cover 3 and for a user behind the cover 3 arranged electrodes for forming a capacitive touch surface.

The touch surface 2 is sealingly inserted into a housing opening, not shown, and this housing opening is inserted in a sealed manner, so that the electrodes 4 are arranged inside the housing.

The electrodes 4 are connected in a conventional manner to a likewise not further shown evaluation, which is a change in the individual electrodes 4 assigned capacities or stored charges by placing a finger 5 on the outer surface of the cover 3 is detectable.

The individual electrodes 4 are arranged and switched so that the place of contact between the finger 5 and the cover 3 is detectable.

The touch surface 2 is with her cover 3 made of zirconia ceramic.

In the embodiment, yttrium-stabilized tetragonal polycrystalline zirconia is used, which has impact resistance which is otherwise achieved by metallic surfaces.

The Zirkoniumdioxidkeramik is each provided with stabilizing additives that the touch surface 2 translucent or even transparent is formed.

By the arrangement of several electrodes 4 at the back of the touchpad 2 represents the touch area 2 several independently operable actuators 6 some of which are exemplary in 2 are shown. By appropriate shaping of the electrodes 4 and / or corresponding circuitry are freely configurable geometric shapes of the actuators 6 reachable.

The spatial limitation and / or additional information signs for the respective function and / or inscriptions can be provided by a color background printing as a color layer 7 on the back side 8th the touch surface 2 and the cover 3 be upset.

Symbols, letters or terms for the description and / or identification of the individual actuators 6 linked control functions of the operating unit 1 can also by laser markings 9 . 10 be educated.

This is done on the surface 11 the touch surface 2 or the cover 3 with a laser beam 12 acted like that near the surface 11 a change in color and / or opacity is effected in the ceramic material.

This laser marking can be like laser marking 9 be linear introduced and, for example, trace the contours of letters, or it can be areal laser markings 10 be introduced.

The laser markings 9 . 10 can at the back 8th or at the front 13 the touch surface 2 be introduced.

Behind the touch surface 2 is a lighting unit 14 arranged, which is oriented so that the touch surface 2 can be examined if necessary.

The lighting unit 14 is here formed flat.

The electrodes 4 are made of a transparent material, for example of a polymer material or of ITO.

The through the cover 3 formed touch surface 2 is partially colored so that that of the lighting unit 14 emitted light 15 only in a limited area 16 can emerge, so that in a desired, freistaltbarer way a lighting yard to a label 17 is picturable.

By appropriate design and / or arrangement and / or control of the electrodes 4 can be achieved that the area 16 an active area of the capacitive touch area 2 forms, with its driving function with the label 17 is described.

3 to 5 show a further operating unit according to the invention 1 ,

This shows 3 a top view of the surface 11 the touch surface 2 . 4 a sectional view and 5 a three-dimensional oblique view of the control unit 1 ,

Functionally identical components are denoted by the same reference numerals as 1 and 2 designated and not described separately again.

At the control unit 1 according to 3 to 5 is the touch area 2 through a cover 3 formed, at the back 8th a single electrode 4 is applied flat.

By appropriate control of the electrode 4 is also detectable here, at which point a touch of the touch surface 2 with a finger 5 a user is done.

The electrode 4 in 4 is made of a transparent material whose optical properties are based on the optical properties of the zirconia ceramic of the cover 3 are tuned to unwanted refractions between coverage 3 and electrode 4 to avoid.

Behind the touch surface 2 can be analogous to 1 a lighting unit 14 be formed and arranged.

In further embodiments, combinations of the electrode shapes of the electrodes are 4 realized the embodiments shown.

The lighting unit 14 can have individually switchable lighting areas, so that the different actuators 6 . 18 individually and / or jointly illuminated from behind.

In the embodiments shown, the touch surface 2 designed in poetic-capacitive technology.

In further embodiments of the invention, electrodes may be used 4 both at the back 8th as well as on the front 13 be formed of the touch surface, so that in each case pairs of electrodes form a capacitive sensor element.

In further embodiments, the actuating elements 6 and / or the actuating element 18 not realized by a permanent background printing or laser marking, but are replaced by a instead of the lighting unit or between the lighting unit 14 and the cover 3 arranged display presented.

At the control unit 1 which has a capacitive touch surface 2 with a cover 3 and with at the cover 3 arranged, capacitive electrodes 4 has proposed, the touch surface 2 and especially the cover 3 made of zirconia ceramic.

Claims (10)

Control unit ( 1 ) with a capacitive touch surface ( 2 ), characterized in that the touch surface ( 2 ) is formed of zirconia ceramic. Control unit ( 1 ) according to claim 1, characterized in that the touch surface ( 2 ) is translucent or transparent. Control unit ( 1 ) according to claim 1 or 2, characterized in that the touch surface ( 2 ) several independent actuators ( 6 . 18 ). Control unit ( 1 ) according to one of claims 1 to 3, characterized in that the touch surface ( 2 ) has a color background printing. Control unit ( 1 ) according to one of claims 1 to 4, characterized in that the touch surface ( 2 ) is colored or areas ( 15 ) having different coloration. Control unit ( 1 ) according to one of claims 1 to 5, characterized in that the touch surface ( 2 ) a laser marking ( 9 . 10 ) having. Control unit ( 1 ) according to one of claims 1 to 6, characterized in that the laser marking ( 9 . 10 ) on the front side ( 18 ) and / or on the back ( 8th ) of the touch surface ( 2 ) is introduced. Control unit ( 1 ) according to one of claims 1 to 7, characterized in that the touch surface ( 2 ) on the outside a closed surface ( 11 ) having. Control unit ( 1 ) according to one of claims 1 to 8, characterized in that the touch surface ( 2 ) in a housing opening sealing and the housing opening is inserted sealingly Control unit ( 1 ) according to one of claims 1 to 9, characterized in that behind the touch surface ( 2 ) a lighting unit ( 14 ) and for the fluoroscopy of the touch surface ( 2 ) is aligned.

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