DE102012009875A1 - Operation unit i.e. haptic touchpad, for three-dimensional display utilized in motor car, has control elements comprising control sides, where maximum length of control side is distance between two points on control side - Google Patents

Abstract

The operation unit (10) has multiple control elements (16b) variable between a retracted position and an extended position. A user interface is formed as a three-dimensional structure by using the control elements. A control side of each control element is formed as a planar surface. Maximum length of the control side of each control element is larger than distance between adjacent control elements. Maximum length of the control side is distance between two points on the control side of the respective control element, where the points are arranged at long distance from each other. The control side is formed in a polygon shape i.e. rectangular shape. The user interface is designed as a thin and flexible cover. An independent claim is also included for a method for providing control functions by using an operation unit.

Description

The invention relates to a control unit according to the preamble of patent claim 1 and a method for providing operating functions according to the preamble of claim 17.

Operating units, in particular haptic touchpads, are known from the prior art, in which the feel is produced by the extension of braille pens. By extending the Braille pins, for example, a display shown on a display can be simulated as a three-dimensional structure on the touchpad, whereby the display shown on the touchpad can be felt. In order to achieve a high resolution in the replica of a display, while a variety of juxtaposed braille pins are used. Furthermore, menu items shown on the display by pressing the touchpad in a range that z. B. is designed as a three-dimensional button can be selected.

It is desirable to provide more ease of use for a user.

The object of the present invention is therefore to provide an operating unit and a method for providing operating functions which offer a user a higher level of operating convenience.

This object is achieved by an operating unit having the features of patent claims 1 and 8 and a method having the features of patent claim 17.

Advantageous embodiments of the invention can be found in the dependent claims.

According to a first aspect, the operating unit according to the invention comprises a user interface and a plurality of operating elements that can be varied between a first position and a second position, wherein the first position is a retracted position and the second position is an extended position and wherein by means of the operating elements User interface can be formed as a three-dimensional structure. The controls each have an operating page, wherein the respective operating side of the controls is the side to which the user can apply pressure to exercise the control unit. Furthermore, the controls are arranged such that each two adjacently arranged controls have a distance from each other. The operating side of each operating element is designed as a flat surface and a maximum length of the respective operating side of each operating element is greater than the distance to an adjacently arranged operating element, wherein the maximum length of the operating side of the distance between two points on the operating side of the respective control element with the greatest distance from each other is.

On the one hand, due to the planar design of the operating elements, in particular on the sides facing a user, the operating feeling is made considerably more pleasant for a user and thus the operating comfort is increased. It is particularly advantageous that leave no impressions in the finger of a user by this design of the operating pages of the controls, as is the case with the Braille pens. On the other hand, this is made possible by the fact that the flat operating pages are formed substantially larger than the small operating pages of the Braille pins, in such a way that the distances between the individual controls are small compared to a dimension of the operating pages, such as a diameter or a diagonal. As a result, the gaps for a user are hardly tangible in an operation of the operating unit, which also makes the user experience pleasant. Just by the combination of the larger training of the operating pages and the reduction of the distances of the controls to each other and the planar design of the operating pages much more ease of use is provided for a user.

In an advantageous embodiment of the invention, an area between all operating elements in at least one area of the operating unit in a vertical projection on a plane which is parallel to at least part of the user interface, defined as an open space, wherein in the at least one area of the operating unit, the sum the areas of the operating pages of the controls is greater than the free space.

This is to be understood that the operating pages are formed over a large area compared to the spaces between the controls, in particular compared to the intermediate surfaces, resulting from the distance of the individual controls to each other. Ie. in a plan view of the operating unit, in particular on the flat surfaces of the operating sides of the controls, ie in a vertical projection on a plane which is parallel to at least a part of the user interface, the free surface is the sum of the intermediate surfaces between the spaced controls.

In particular, in this case the at least one region is delimited by a closed boundary line such that an integer plurality of located in the at least one region Control elements is enclosed by the boundary line, and that a length of the boundary line is minimal. The at least one area can in this case also comprise all the operating elements, in which case the course of the boundary line of the at least one area is to be understood so that free areas, such as at edge areas of the operating unit, do not fall under the definition of the free area.

With such a large-scale design of the operating pages in comparison to the free space, it is possible in a particularly advantageous manner that the gap between the individual controls for a user in an operation of the operating unit in a range by applying pressure on operating pages of the controls in this area not or hardly are noticeable. Another advantage is that due to the larger-scale training in contrast to the Braille pins fewer controls per unit area are required, which simplifies the production of an operating element according to the invention and lowers the manufacturing cost. At the same time, however, there is still a sufficiently good resolving power, even given the use of fewer operating elements, since very fine structures can not be sensed by a user, or can be recognized by sensing, and thus the provision of a resolution capacity that exceeds the resolution of the sense of touch of a user would be ineffective.

Preferably, the operating unit may be formed so that the distance of two adjacent control elements measures a maximum of 2 mm, in particular 1 mm. Furthermore, the maximum length of the operating side of each operating element can measure at least 2.5 mm, in particular 4 mm. In a very advantageous manner, a particularly high operating comfort while simultaneously providing good resolution of the operating unit is made possible with these dimensions.

In a preferred embodiment of the invention, the operating side is polygonal, in particular rectangular, formed.

Preferably, the operating side of each operating element has side edges, wherein at least one side edge of the operating side of each operating element is parallel to one of the side edges of the operating side of an adjacently arranged operating element.

Due to the polygonal design of the operating pages of the controls and in particular by the parallel arrangement of the controls, a compact arrangement of the controls can be accomplished. Advantageously, it can also be made possible that the spaces between the individual control elements are as small as possible, so that the most pleasant possible user experience is provided. Preferably, the operating pages are square in shape with side edges with a preferred length of 4 mm. Just by this rectangular, in particular square design of the control surfaces and their parallel arrangement with each other, it is possible in a very simple and advantageous manner by means of the controls, for example, rectangular keys form as a three-dimensional structure.

According to a second aspect of the invention, the operating unit comprises a user interface and a plurality of operating elements, which are variable between a first position and a second position, wherein the first position is a retracted position and the second position is an extended position and wherein by means of the operating elements the user interface can be formed as a three-dimensional structure. The controls each have an operating page, wherein the respective operating side of the controls is the side to which the user can apply pressure to exercise the control unit. Furthermore, the controls are arranged such that each two adjacently arranged controls have a distance from each other. According to the second aspect of the invention, the operating elements can be coupled in such a way that upon pressure by a user on a first area of the operating surface, a second area of the operating surface is reversibly spatially displaceable at least partially in the direction of the pressure, the second area of the operating surface being larger than the first area of the user interface and the first area of the user interface comprises.

This design is also particularly advantageous in terms of increasing the ease of use, because it is possible that the pressing of the operating unit not by depressing individual actuators, but by depressing the entire user interface of the control unit or at least a contiguous area, such as a three-dimensional button trained area, is realized. Upon actuation of the operating unit by a user, a feeling is thus produced, as in the case of an actuation of a key. Especially due to the reversibility of the spatial offset, d. H. In addition, the "snapping back" of the user interface, a better feedback for a user when operating the control unit is generated. Overall, a pleasant user experience and an increase in the ease of use is made possible by this design of the control unit.

Of course, an embodiment of the operating unit according to the second aspect of the invention with a design of the operating unit according to the first aspect of the invention and its design options combined.

Furthermore, the second area of the user interface may include the entire user interface. Thus, it is possible to provide a particularly comfortable user experience with a particularly simple design of the operating unit with only one arranged under the coupled controls button to register an operation of the control unit.

Furthermore, the user interface of the operating unit can be arranged on the operating pages of the operating elements. In particular, the user interface can be designed as a thin and flexible cover for protection against contamination. Furthermore, such a cover has the advantage that the small spaces between the controls by a user are no longer or hardly felt, which also increases the ease of use.

In a further refinement of the invention, the three-dimensional structure of a user interface designed as a three-dimensional structure can be locked in such a way that the three-dimensional structure is obtained by a user for at least the duration of an operation by applying pressure to a region of the user interface.

In particular, while the locking of the controls is designed such that a depression of the entire user interface of the control unit is made possible and not only the depression of a single area is exerted on the actuation of the control unit by a user pressure. In particular, the locking of the controls is again releasable, so that after performing an operation that causes a reversible spatial displacement of the entire rigidly coupled controls, the controls can be decoupled to form a new three-dimensional structure of the user interface.

Furthermore, it can be provided that the operating elements can be varied in each case by means of at least one adjusting element, in particular by means of two piezo bending transducers, between the first and the second position.

In an advantageous embodiment variant of the invention, the operating unit comprises at least two areas, each of which is assigned a current operating function, wherein each of the operating functions can be activated by applying pressure to the assigned area by a user. In particular, these areas may be formed as three-dimensional keys by the extension of a plurality of actuators, wherein the actuation of a respective key has a respective operating function. These areas can, for example, emulate a three-dimensional display shown on a display, wherein after activation of an operating functions and after changing the display shown an adaptation of the three-dimensional structure to the new display can be done so that new operating functions can be assigned to newly formed areas of the control unit.

In a further advantageous embodiment of the invention, the operating unit comprises a capacitive position detection system, by means of which a location of the at least one area can be detected in at least one area when the operating surface is touched. Thus, it is possible that the actuation of the operating unit can be registered, for example, coupled and locked controls by a button, yet different operating functions can be performed, depending on the area in which the user interface, the operation is done, as detected by the position detection system can.

Furthermore, the operating unit may comprise a capacitive position recognition system, by means of which gestures of a user on the operating surface are detectable, wherein a gesture is a moving touch of the user interface. A multi-touch function as well as a direct input of text via the operating unit can also be accomplished by means of the position recognition system. This provides, in a particularly advantageous manner, a multiplicity of additional operating functions and user options for a user.

The method according to the invention serves to provide operating functions by means of an operating unit with a plurality of operating elements which can be varied between a first position and a second position, wherein the first position is a retracted position and the second position is an extended position. In the method according to the invention, at least a part of the plurality of operating elements is extended to the second position, thereby forming a three-dimensional structure of a user interface of the operating unit. Furthermore, the three-dimensional structure is locked by locking the controls in their current position, wherein the locking takes place in such a way that at a pressure to activate an operating function by a user on a first area of a user interface of the operating unit, a second area of the user interface at least partially reversibly spatially displaced in the direction of the pressure, wherein the second area of the user interface is larger than the first area of the user interface and includes the first area of the user interface. Furthermore, the lock is released after activation of the operating function by a user.

The locking of the three-dimensional structure of the user interface is made possible by a coupling of the individual controls. Thus, when pressing a region, not only the pressed region, i. H. the control elements to which pressure is exerted when pressed, depressed, but a larger area, which preferably comprises the entire user interface. As a result, an actuation of the operating unit is not realized by pressing individual actuators but by depressing the entire user interface. This is an actuation of the operating unit as an operation of a single rigid key, which causes a very pleasant and comfortable user experience. Particularly pleasant and advantageous is that a user receives feedback by the reversibility of the spatial offset, d. H. by snapping back the second area of the user interface after the operation of the operating unit, as after pressing a button.

In particular, a new formation of a three-dimensional structure can take place after releasing the locking, for example in adaptation to a new representation of a display on a display. Following this new training, the three-dimensional structure can be locked again. In addition, to form a three-dimensional structure, the corresponding controls are extended only insofar as they are in the first position, the retracted position. Furthermore, operating elements which are in the extended position can also be retracted to form a specific three-dimensional structure.

For carrying out the method, a control unit according to the first or second aspect of the invention or a variant embodiment thereof is preferably used.

In addition, all described advantages of the operating unit according to the invention and their Ausgestatungsvarianten apply as far as applicable for the inventive method.

Hereinafter, preferred embodiments of the invention will be described with reference to the drawings. Showing:

1a a schematic representation of a display device and a control unit according to an embodiment of the invention;

1b a schematic representation of a cross section through the in 1a illustrated operating unit along the line L;

2 a schematic and perspective view of an operating unit according to an embodiment of the invention; and

3 a schematic representation of an integrated into a housing control unit according to another embodiment of the invention.

1a shows a schematic representation of a control unit 10 according to an embodiment of the invention and a display device, such as a display 12 , The operating unit 10 is trained one on the display 12 , Display displayed as a three-dimensional structure, so that the on the display 12 shown display by means of the control unit 10 becomes tangible to a user. Exemplary is here on the display 12 , such as that of a display device in a motor vehicle, a menu with four menu items 14a . 14b 14c and 14d shown. These menu items 14a . 14b 14c and 14d For example, you can navigate 14a , Media 14b , Phone 14c and settings 14d be. By means of the control unit 10 can these areas of menu items 14a . 14b 14c and 14d be formed as raised surfaces. This includes the operating unit 10 a plurality of controls 16a and 16b , which are adjustable in height by means of adjusting elements, in particular retractable and extendable. These adjusting elements may be formed, for example, as a piezo bending transducer. In particular, these control elements with the associated controls 16a and 16b be arranged on a board. In the open spaces between the controls 16a and 16b For example, the tracks may be for capacitive position detection to provide multi-touch, multi-touch, gesture recognition, and direct font input as additional controls.

On the control unit 10 can be the areas of each menu items 14a . 14b 14c and 14d on the display 12 represented by areas where the controls 16a are extended. In all other areas, the areas of the menu items presented 14a . 14b 14c and 14d around, are the controls 16b retracted. For example, via the operating unit 10 a menu item 14a . 14b 14c or 14d selects and thereby changes the on the display 12 Display shown, the three-dimensional structure of the user interface is adapted to the newly displayed display, in particular by retracting and extending the corresponding controls 16a and 16b ,

In 1b is a cross section of the control unit 10 through in the 1a drawn Line L shown schematically. This cross section runs through two areas of the operating unit 10 , each one menu item 14a and 14b represent and are therefore raised above the surrounding areas. The raised areas are thereby extended by operating elements 16a formed while the surrounding areas by retracted controls 16b be formed. Furthermore, schematically are fingers 18 of a user. By applying pressure to the raised areas of the control unit 10 this can be operated. The individual areas containing the respective menu items 14a . 14b 14c and 14d emulate, can be very easily and comfortably felt by a user through the three-dimensional design of the user interface.

The controls 16a and 16b have operating pages 14 on, which are formed as a flat rectangular surfaces, in particular square with side edges of a preferred length of 4 mm, as in 1a is shown schematically. Furthermore, the controls 16a and 16b arranged such that the side edges of their operating pages 14 are aligned parallel to each other. The controls 16a and 16b have a distance to each other, which measures preferably 1 mm or less. Due to the planar design of the controls 16a and 16b combined with the dimensions of such a flat operator side 14 are larger compared to the distances of the controls 16a and 16b a particularly pleasant operating experience for a user is provided.

In addition, the control unit 10 be configured so that upon actuation of the operating unit 10 by applying pressure in an area not only the actuated area is depressed but the entire user interface or at least an area of the user interface which is larger than the actuated area. In particular, the user interface is reversibly displaceable, ie after pressing down the user interface, this snaps back, so that a user when operating the control unit 10 has the same feeling as pressing a rigid button. It is particularly advantageous that a user receives feedback by snapping back the user interface, which relates to the actuation of a function of the operating unit. This also increases the ease of use enormously.

This functionality of the control unit 10 in that an actuation such as the pressing of a rigid key is carried out, can be accomplished in that the three-dimensional structure can be locked, in particular by the fact that this locking is effected by the locking of the individual operating elements. Thus, the three-dimensional structure of the user interface can be made rigid and can be depressed by pressing in an area as a whole. The lock can after pressing the control unit 10 again solve the three-dimensional structure to a new ad on the display 12 adapt. After this adjustment, a new lock can be done.

In order to be able to simultaneously accomplish that different areas of the user interface different operating functions, such as the selection of different menu items 14a . 14b 14c and 14d on the display 12 displayed menus can be assigned, a capacitive position detection can be provided. so may when operating the control unit 10 the user interface can be depressed as a whole and at the same time can be detected by means of the capacitive position detection, in which area of the user interface the actuation has taken place to perform the corresponding function associated with this area. This combines in a particularly comfortable way the multi-functionality of a touchscreen with the haptic perception possibility of a display and a very pleasant operating feeling by the rigid formation of the three-dimensional structure.

2 shows a schematic and perspective view of a control unit 10 according to an embodiment of the invention. the operating unit 10 is rectangular in shape with a plurality of controls 16 , These have a square operating page 14 on, which is also designed as a flat surface. The distances between the controls 16 are small compared to the dimensions of the controls 16 , Thereby and by the extensive training of the operating pages 14 can the ease of use for a user of such a trained control unit 10 be increased.

In addition, the control unit 10 also be integrated in a housing, as in 3 is shown according to a further embodiment of the invention. In the case can buttons 22 and / or buttons 20 be integrated with other operating functions of the operating unit 10 provide.

Overall, an operating unit is thus provided, which on the one hand by the flat, rectangular design of the controls causes a significant increase in comfort in the operation and on the other hand by the coupling of the controls a pleasant user experience as when pressing a rigid button with a feedback after actuation allows ,

Claims (18)

Control unit ( 10 ), comprising a user interface and a plurality of operating elements ( 16 ), which are variable between a first position and a second position, wherein the first position is a retracted position and the second position is an extended position, wherein by means of the operating elements ( 16 ) the user interface can be formed as a three-dimensional structure, wherein the operating elements ( 16 ) one operating page each ( 14 ), wherein the respective operating side ( 14 ) of the controls ( 16 ) is the side to which the control unit ( 10 ) is exercisable by a user pressure, wherein the operating elements ( 16 ) are arranged such that in each case two adjacently arranged operating elements ( 16 ) have a distance from each other, characterized in that the operating side ( 14 ) of each control element ( 16 ) is formed as a flat surface and that a maximum length of the respective operating side ( 14 ) of each control element ( 16 ) is greater than the distance to an adjacently arranged control element ( 16 ), whereby the maximum length of the operating side ( 14 ) the distance between two points on the operator side ( 14 ) of the respective control element ( 16 ) with the greatest distance to each other. Control unit ( 10 ) according to claim 1, characterized in that an area between all operating elements ( 16 ) in at least one area of the operating unit ( 10 ) in a vertical projection on a plane that is parallel to at least a part of the user interface, is defined as an open space, wherein in the at least one area of the operating unit ( 10 ) the sum of the areas of the operating pages ( 14 ) of the controls ( 16 ) is larger than the open space. Control unit ( 10 ) according to claim 2, characterized in that the at least one region is delimited by a closed boundary line such that an integer plurality of operating elements located in the at least one region ( 16 ) is enclosed by the boundary line, and that a length of the boundary line is minimal. Control unit ( 10 ) according to one of the preceding claims, characterized in that the distance between two adjacent operating elements ( 16 ) measures a maximum of 2 mm, in particular a maximum of 1 mm. Control unit ( 10 ) according to one of the preceding claims, characterized in that the maximum length of the operating side ( 14 ) of each control element ( 16 ) measures at least 2.5 mm, in particular at least 4 mm. Control unit ( 10 ) according to one of the preceding claims, characterized in that the operating side ( 14 ) polygonal, in particular rectangular, is formed. Control unit ( 10 ) according to one of the preceding claims, characterized in that the operating side ( 14 ) of each control element ( 16 ) Has side edges, wherein at least one side edge of the operating side ( 14 ) of each control element ( 16 ) parallel to one of the side edges of the operating side ( 14 ) of a neighboring control element ( 16 ). Control unit ( 10 ), comprising a user interface and a plurality of operating elements ( 16 ), which are variable between a first position and a second position, wherein the first position is a retracted position and the second position is an extended position, wherein by means of the operating elements ( 16 ) the user interface can be formed as a three-dimensional structure, wherein the operating elements ( 16 ) one operating page each ( 14 ), wherein the respective operating side ( 14 ) of the controls ( 16 ) is the side to which the control unit ( 10 ) is exercisable by a user pressure, wherein the operating elements ( 16 ) are arranged such that in each case two adjacently arranged operating elements ( 16 ) are at a distance from one another, characterized in that the operating elements ( 16 ) are coupled such that upon pressure by a user on a first area of the user interface, a second area of the user interface is at least partially reversibly spatially displaceable in the direction of pressure, wherein the second area of the user interface is greater than the first area of the user interface and the includes the first area of the user interface. Control unit ( 10 ) according to one of claims 1 to 7, characterized in that upon pressure by a user on a first area of the user interface, a second area of the user interface is reversibly spatially displaceable at least partially in the direction of the pressure, wherein the second area of the user interface is greater than the first area of the user interface and the first area of the user interface comprises. Control unit ( 10 ) according to one of claims 8 or 9, characterized in that the second region of the user interface comprises the entire user interface. Control unit ( 10 ) according to one of the preceding claims, characterized in that the user interface of the operating unit ( 10 ) on the operating pages ( 14 ) of the controls ( 16 ) is arranged. Control unit ( 10 ) according to one of the preceding claims, characterized in that the three-dimensional structure of a control surface designed as a three-dimensional structure user interface ( 10 ) by means of a locking of the operating elements ( 16 ) is lockable such that at least for the duration of an operation by applying pressure to a region of the user interface by a user, the three-dimensional structure is obtained. Control unit ( 10 ) according to one of the preceding claims, characterized in that the operating elements ( 16 ) in each case by means of at least one adjusting element, in particular by means of two piezo bending transducers, between the first and the second position are variable. Control unit ( 10 ) according to one of the preceding claims, characterized in that the operating unit ( 10 ) comprises a capacitive position detection system, by means of which at a touch of the user interface in at least one area, a location of the at least one area can be detected. Control unit ( 10 ) according to one of the preceding claims, characterized in that the operating unit ( 10 ) comprises at least two areas, each associated with an instantaneous operating function, wherein each of the operating functions can be activated by applying pressure to the assigned area by a user. Control unit ( 10 ) according to one of the preceding claims, characterized in that the operating unit ( 10 ) comprises a capacitive position detection system by means of which gestures of a user can be detected on the user interface, wherein a gesture is a moving touch of the user interface. Method for providing operating functions by means of a control unit ( 10 ) with a plurality of operating elements ( 16 ) which are variable between a first position and a second position, wherein the first position is a retracted position and the second position is an extended position, comprising the steps of: a) extending at least a portion of the plurality of operating elements ( 16 ) in the second position and thereby forming a three-dimensional structure of a user interface of the operating unit ( 10 ); b) locking the three-dimensional structure by locking the operating elements ( 16 ) in its current position, wherein the locking takes place in such a way that upon a pressure action for activating an operating function by a user on a first region of a user interface of the operating unit ( 10 ) a second area of the user interface is reversibly spatially offset at least partially in the direction of the pressure effect, the second area of the user interface being larger than the first area of the user interface and comprising the first area of the user interface; and c) releasing the lock after activating the operation function by a user. Method according to claim 17, characterized in that the operating unit ( 10 ) an operating unit ( 10 ) according to one of claims 1 to 16.

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