DE102009030592A1 - Operating device for integration in spokes of steering wheel of motor vehicle to operate multifunctional device, has two switching elements that are activatable from initial position by shifting actuating element - Google Patents

Abstract

The device (20) has an actuating element (30) that comprises a contact-sensitive operating surface. A support is arranged at the actuating element and allows resettable shifting of the actuating element in a degree of freedom in an initial position. Two switching elements (40) are activatable from the initial position by shifting the actuating element. The contact-sensitive operating surface is provided with capacitive or optical sensors. The switching elements are assigned to each rotation degree of freedom.

Description

Field of the invention

The The invention relates to an operating device for a multifunction device in a motor vehicle having the features of the preamble of claim 1.

Background of the invention

An operating device for a multifunction device for a motor vehicle is for example from the DE 10 2006 046 325 A1 known. The operating device comprises an actuating element with a capacitive touch-sensitive operating surface. By touching this touch-sensitive control surface, functions of the multifunction device can be activated. A touch-sensitive control surface is also called a touchpad (English, touchpad). If the touch-sensitive control surface simultaneously serves as a display device, it is also called a touch screen (English, touch screen).

Summary of the invention

task The present invention is a generic Control device to further develop that a user Haptic feedback when operating the multifunction device is given.

The Task is performed by an operating device with the features of Claim 1 solved.

The causes the arranged on the actuator storage, that the actuating element from a starting position shift back out to at least one degree of freedom leaves. The shift takes place for example by a noticeable mechanical pressure with a user's finger on the actuator. Will the actuator pressed against the at least one switching element is the at least one switching element in the installed and connected State activates and triggers an evaluable electrical Signal off. By this pressure on the actuator the user receives a haptic feedback via the activation effected by means of the actuating element of the at least one switching element. The inventive Operating device thus allows the benefits of gestural operation graphical Objects via a touch-sensitive control surface with the advantages of a haptic palpable operation of a Combining switching element. The touch sensitivity the control surface can be, for example, by achieve a capacitive or optical sensor.

In One embodiment is the actuating element displaceable in two mutually perpendicular rotational degrees of freedom is. Rotational degrees of freedom are defined by axes of rotation, about which the actuating element is pivotally mounted. Is the actuator arranged so that it respect each axis of rotation in two opposite directions from the Starting position can be pivoted out, can be so realize a so-called four-way rocker. Are each rotational degree of freedom associated with two switching elements by opposite pivoting movements of the actuating element can be activated about a rotation axis are, with the help of the four-way rocker four functions operate the multifunction device associated with the four switching elements are.

In a further embodiment, the storage is formed, at least a portion of the actuating element in a translational degree of freedom relocate. This makes it possible, the entire actuator or a part of the actuator without a rotational movement to move along a translation axis. Is the translation axis perpendicular to the surface (actuating surface) of the Actuator arranged, can be so Realize pressure point on the actuator. provides the translation axis an axis of symmetry of the actuating element can be spoken by a central pressure point. Becomes the translational degree of freedom associated with a switching element, the by a movement of the at least one part of the actuating element can be activated along the translation axis, can be a function of the multifunction device over this Operate switching element. In one development this is the degree of translational freedom associated switching element in a view in the direction of the translation axis arranged in a region of the touch-sensitive control surface. Thus, a touch (without translation) of the actuating element or a Detectable approach to the actuator already before activating the translational degree of freedom assigned Switching element is a function of the multifunction device trigger. For example, a preview of the through this switching element triggerable function on a display device appears.

In a further embodiment, the actuating element comprises a non-touch-sensitive edge surface which is arranged wholly or partly around the touch-sensitive control surface, that the non-touch-sensitive edge surface is mechanically decoupled from the touch-sensitive control surface and that the switching elements associated with one or more rotational degrees of freedom a view in the direction of the translation axis in a region of the non-touch-sensitive edge surface are arranged. The touch-sensitive control surface can in this Ausfüh On the other hand, it has the impression of a large total operating area due to a nearly flowing integration of the touch-sensitive operating surface with the non-touch-sensitive edge surface. In a further development, the touch-sensitive operating surface is designed to be elastic, as a result of which it permits deformation during its movement (translation, rotation). If, for example, a central pressure point is realized, the touch-sensitive control surface in the middle allows a mechanical pressure without (essentially) moving the edge regions. In particular, the actuating element can be embodied with an elastic touch-sensitive operating surface in such a way that a movement of the touch-sensitive operating surface along the translational degree of freedom can be carried out in such a way that none of the switching elements assigned to the rotational freedom or degrees are activated when the switching element associated with the translational degree of freedom is activated.

In Another embodiment is the touch-sensitive Control surface in several electrically decoupled from each other divided into touch-sensitive zones, each touch-sensitive Zone assigned its own control unit and each control unit trained, a touch or approach position in the zone associated with this control unit. there the control units work together in such a way that a touch or approach position over the entire touch-sensitive Control surface is detectable. This interaction control units can be referred to as a handover method. Allows an interaction of the different zones such that the zoned touch-sensitive control surface in the Essentially how a single contiguous zone behaves. The subdivision of the touch-sensitive control surface in several electrically decoupled from each other zones can be particularly at deformable touch-sensitive control surfaces or with curved touch-sensitive control surfaces prove beneficial. In an elastic deformation of the touch-sensitive Control surfaces will be essentially just the material between the zones stretched while the geometric relationships remain stable within the zones.

In Another embodiment is a wiping movement at or near the touch-sensitive control surface detectable. The wiping movement can be a function of the multifunction device be assigned. The direction, the Curve course and / or the speed of the wiping movement are taken into account.

In a further embodiment, the actuating element at least in the area of the touch-sensitive control surface a curved surface on, resulting in the integration the operating device in other components, such as steering wheel spokes, may be advantageous.

In a further embodiment, the actuating element a touch aid that facilitates the user's orientation on the actuator, without having to look at the actuator. Especially for the driver of a motor vehicle, this is very safety-related. The help is for example in the form of Joints, hollows or variations of the surface of the actuator educated.

In Another embodiment is the operating device integrated into a steering wheel for a motor vehicle. The operating device can be due to their haptic feedback operate without eye contact by the driver of the motor vehicle, who continue to focus on traffic during operation can.

Short description of the drawing

The Invention is illustrated by the in the following figures Embodiments explained in more detail.

It demonstrate

1 a steering wheel with two operating devices according to the invention,

2 a top and side view of an embodiment of the control device according to the invention,

3 a top and side view of another embodiment of the operating device according to the invention,

4 a steering wheel with a further embodiment of the operating device according to the invention,

5 a top view of another embodiment of the operating device according to the invention,

6 a top view of another embodiment of the operating device according to the invention,

7 a perspective view of another Ausführuhgsform the operating device according to the invention,

8th a side view of another embodiment of the control device according to the invention and

9 a side view of another embodiment of the control device according to the invention.

Detailed description the drawing

In The figures are the same or similar features in the rule provided with the same reference numerals.

1 shows simplified a steering wheel 10 , on which two operating devices according to the invention 20 are arranged. They can be integrated into steering wheel spokes (not shown).

2 shows a further embodiment of the operating device according to the invention 20 , In the upper part is an actuator 30 shown in plan view. The actuator 30 is designed as a touch-sensitive control surface - as a touchpad - with a substantially square structure. The actuator 30 is thus able, together with a suitable control unit (not shown), to detect a contact or approach (for example a finger of a user) in a spatially resolved manner. Spatially resolved means that it is detected, at which point on the surface of the actuating element 30 the touch or approach takes place.

It is also conceivable that a wiping movement over or above the surface of the actuating element 30 is detected. A swipe is represented by a time and space resolved curve of touch or approximation points. For this purpose, the control unit has a suitable memory in which a plurality of time and location coordinates are stored. The stored time and location coordinates are then evaluated in the control unit.

Of the detected location or the evaluated swipe movement can to be used, a multifunction device depending to control these values. For this purpose, appropriate control signals generated.

In the lower part of the 2 is a side view of the operating device 20 shown. Below the actuating element 30 are a total of five switching elements 40 arranged, of which, however, only three can be seen. Four switching elements 40 are below arrows 50 and the fifth switching element centrally below the actuating element 30 arranged. The touch or approach to the actuator 30 takes place at the top 60 of the actuating element 30 , The actuator 30 is just trained.

On the actuator 30 a storage (not shown) is arranged, one in one in the lower part of the 2 illustrated initial position resettable displacement of the actuating element 30 allows. The actuator 30 is displaceable in two rotational degrees of freedom and a translational degree of freedom. A first rotational degree of freedom is achieved by a first axis of rotation 70 Are defined. A second rotational degree of freedom is achieved by a second axis of rotation 80 Are defined. The actuator 30 can be around the first and second axis of rotation 70 . 80 be panned. This is conveniently done by pressing on one of the four arrows 50 , The translational degree of freedom is determined by a translation axis 90 Are defined. By applying pressure to the center of the actuator 30 becomes the central switching element 40 activated, without the actuator 30 around the axes of rotation 70 . 80 to tilt.

3 shows a further embodiment of the operating device according to the invention 20 , The actuator 30 includes a touch-sensitive control surface 100 (hereinafter referred to only control surface) and a non-touch-sensitive edge surface 110 (hereinafter referred to as edge area only). The edge surface 110 is around the control surface 100 arranged around. The edge surface 110 and the control surface 100 are mechanically decoupled from each other. This is in the lower part of the 3 through a circumferential gap 120 clearly visible. The gap 120 is in the upper part of the 3 through a line 130 indicated. In the lower part of the 3 it can be seen that the edge surface 110 and the control surface 100 in a plane 140 lie. Four of the five switching elements 40 are below the arrows 50 the edge surface 80 and the fifth switching element 40 centrally below the operating area 100 arranged. Activating the switching elements 40 is similar to the embodiment of 2 , Differences arise, however, in that the actuator 30 from a control surface 100 and one of the control panel 100 mechanically decoupled edge surface 110 consists. The below the edge surface 110 arranged switching elements 40 be by tilting the edge surface 110 around the rotational degrees of freedom 70 . 80 activated. The below the control surface 100 arranged switching element 40 is by pressing the control surface 100 along the translation axis 90 activated.

4 shows a steering wheel 10 with a steering wheel rim 150 and three steering wheel spokes 160 , In the two substantially diagonally opposite steering wheel spokes 160 is in each case an operating device according to the invention 20 integrated. It can be seen that the operating device 20 an actuator supply element 170 having a curved surface. The surface extends approximately cratered into the steering wheel spoke 160 into it. In the center is a push button 180 arranged under the one of the switching elements 40 is arranged activatable. From the push button 180 From the curved surface of the actuator extends out towards the top of the steering wheel spoke 160 , It can be seen that the curved surface of the actuating element 170 four substantially trapezoidal segments 190 includes. Each trapezoidal segment 190 is one of the switching elements 40 assigned. The entire surface of the actuator 170 is touch-sensitive according to the invention and also pivotable.

5 schematically shows a plan view of an operating device according to the invention 20 , Below an actuating element 200 are five switching elements 40 arranged, of which four switching elements 40 can be seen, which are assigned to the rotational degrees of freedom. The fifth switching element 40 is under the central square push button 210 arranged, which is assigned to the translational degree of freedom. The four switching elements associated with rotational degrees of freedom 40 are in corner areas 220 the square in plan view actuator 200 arranged.

6 time schematically a plan view of another operating device according to the invention 20 , Unlike the embodiment according to 5 are the four switching degrees associated with rotational degrees of freedom 40 not in corner areas 220 but in side edge areas 230 arranged.

7 shows a schematic perspective view of a part of another embodiment of the control device according to the invention 240 , The operating device 240 has a plate-shaped carrier 250 , a capacitive layer 260 , an actuator 270 and a control unit 280 on.

Switching elements (in 7 not shown) are below the carrier 250 arranged, so in the area 290 ,

The capacitive layer 260 has a grid of electrical traces, their capacity changes by an approach of a finger 300 can be detected spatially resolved. The evaluation of the capacity changes takes place in the control unit 280 ,

The actuator 270 has a flat bottom 310 and a concave top 320 on. On the top 320 or at the top 320 the touch or approach is done with the finger 300 , which reduces the capacity of the actuator 270 arranged capacitive layer 260 changes. The top 320 is arched down.

In 8th schematically is a central sectional view of another embodiment of the operating device according to the invention 20 shown.

The operating device 20 has as the embodiment in 7 a horizontally oriented carrier 250 , a capacitive layer 260 and an actuator 270 on.

The actuator 270 has a central passage 330 on. In the passage 330 extends a central push button 340 that is over a vertical axis 350 with a switching element 360 connected is. By a vertical downward pressure (in the direction of the arrow 370 ), the switching element is activated and generates an electrical signal that can be used for a control of a multifunction device. For example, such an input is confirmed (so-called Enter key). The diameter of the passage 330 must be at least large enough so that the actuator can be tilted so far that a rotational degree of freedom (the axis of rotation is directed perpendicular to the plane of the paper and lies in a plane that the axis 350 contains) associated switching element 380 can be activated. This is by a curved arrow 390 indicated.

In 9 schematically is a central sectional view of another embodiment of the operating device according to the invention 20 shown.

Unlike the embodiment in 8th is the top of the actuator 270 with an elastic coating 400 provided, which is also on the central push button 340 extends. This ensures that the user perceives the entire surface of the actuating element and the push button essentially as a uniform surface.

In the embodiments of the 8th and 9 have the capacitive layers 260 central holes through which the axes 350 or push buttons 340 are guided. However, it is possible to interpolate motion through the hole through surrounding sensitive points and areas. Such imperfections in sensitive areas are also known as diamond structures.

10

steering wheel

20

operating device

 30

actuator

40

switching elements

50

arrow

60

top

70

axis of rotation

80

axis of rotation

90

translation axis

100

operating surface

110

edge surface

120

gap

130

line

140

level

150

steering wheel rim

160

steering wheel spoke

170

actuator

180

push-button

190

segment

200

actuating element

210

push-button

220

corners

230

Side edge regions

240

operating device

250

carrier

260

capacitive layer

270

actuator

280

control unit

290

Area

300

finger

310

bottom

320

top

330

passage

340

push-button

350

axis

360

switching element

370

arrow

380

switching element

390

arrow

400

coating

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 102006046325 A1 [0002]

Claims (15)

Operating device for a multifunction device in a motor vehicle, wherein the operating device ( 20 . 240 ) an actuating element ( 30 . 170 . 270 ), which has a touch-sensitive control surface ( 100 ), characterized by a on the actuating element ( 30 . 170 . 270 ) arranged storage, which can be restored to a starting position displacement of the actuating element ( 30 . 170 . 270 ) in at least one degree of freedom, and by at least one switching element ( 360 . 380 ), which by the displacement of the actuating element ( 30 . 170 . 270 ) can be activated from the starting position. Operating device according to one of the preceding claims, characterized in that the touch-sensitive operating surface ( 100 ) is touch-sensitive due to a capacitive or optical sensor. Operating device according to claim 1 or 2, characterized in that the bearing is formed, the actuating element ( 30 . 170 . 270 ) to shift in two mutually perpendicular rotational degrees of freedom. Operating device according to claim 3, characterized by four switching elements, each rotation degree of freedom having two switching elements ( 380 ) are assigned by opposite pivoting movements of the actuating element ( 30 . 170 . 270 ) about a rotation axis ( 70 . 80 ) are activated. Operating device according to one of the preceding claims, characterized in that the bearing is formed, at least part of the actuating element ( 30 . 170 . 270 ) in a translational degree of freedom. Operating device according to claim 5, characterized by a translational degree of freedom associated switching element, which by a movement of at least a portion of the actuating element ( 30 . 170 . 270 ) along a translation axis ( 90 ) is activated. Operating device according to claim 6, characterized in that the translational degree of freedom associated switching element in a view in the direction of the translation axis ( 90 ) in an area of the touch-sensitive control surface ( 100 ) is arranged. Operating device according to one of the preceding claims, characterized in that the actuating element ( 30 . 170 . 270 ) a non-touch-sensitive edge surface ( 110 ), all or part of the touch-sensitive control surface ( 100 ) is arranged around, and that the non-touch-sensitive edge surface ( 110 ) mechanically from the touch-sensitive control surface ( 100 ) is decoupled and that the switching elements ( 360 . 380 ) associated with one or more rotational degrees of freedom, viewed in the direction of the translation axis ( 90 ) in a region of the non-touch-sensitive edge surface ( 110 ) are arranged. Operating device according to claim 8, characterized in that the touch-sensitive operating surface ( 100 ) is elastic. Operating device according to claim 9, characterized in that a movement of the touch-sensitive operating surface ( 100 ) along the translational degree of freedom can be carried out in such a way that upon activation of the switching element associated with the degree of translational freedom ( 360 ) none of the one or more rotational degrees of freedom associated switching elements are activated. Operating device according to one of the preceding claims, characterized in that the touch-sensitive operating surface ( 100 ) is divided into a plurality of electrically decoupled touch-sensitive zones, that each touch-sensitive zone has its own control unit ( 280 ) is assigned to each control unit ( 280 ), a touch or approach position in the this control unit ( 280 ) and that the control units ( 280 ) cooperate such that a touch or approach position over the entire touch-sensitive control surface ( 100 ) is detectable. Operating device according to one of the preceding claims, characterized in that a wiping movement on or close to the touch-sensitive control surface ( 100 ) is detectable. Operating device according to one of the preceding claims, characterized in that the actuating element ( 30 . 170 . 270 ) has a curved surface at least in the area of the touch-sensitive control surface. Operating device according to one of the preceding claims, characterized in that the actuating element ( 30 . 170 . 270 ) has a touch aid. Operating device according to one of the preceding claims, characterized in that the operating device ( 20 ) in a steering wheel ( 10 ) is integrated for a motor vehicle.