WO2016074768A1 - Input device for a motor vehicle, motor vehicle comprising an input device and method for operating an input device - Google Patents

Abstract

The invention relates to an input device (10) for a motor vehicle, comprising: an operator unit (12) and a support (14) arranged beneath the operator unit (12); multiple sensors (16), each having a first sensor part (18) and a second sensor part (20) which lie opposite one another, the respective sensors (16) being designed to detect the distance (A) between their sensor parts (18, 20); a control unit designed to determine a deflection of the operator unit (12) using the detected distances (A) between the first and the second sensor parts (18, 20) and depending on the deflection determined, to determine an actuating position (P), at which the surface (22) of the operator unit is touched, in addition to an actuating force (F) applied to the surface (22) of the operator unit. The invention also relates to a motor vehicle comprising an input device (10), and to a method for operating an input device (10) of a motor vehicle.

Description

 Input device for a motor vehicle, motor vehicle with an input device and method for operating an input device

DESCRIPTION:

The invention relates to an input device for a motor vehicle, a motor vehicle with such an input device and a method for operating an input device of a motor vehicle. In motor vehicles increasingly touch-sensitive controls are used by means of which various functions of a motor vehicle can be controlled or operated. Such operating parts are designed, for example, in the form of elongate and planar sensor strips which have a plurality of symbols for different controllable vehicle functions. One of the challenges of such keypads is to determine which vehicle functions should be selected and controlled in response to a corresponding actuation of such a keypad. US 2010050784 A1 shows a method for determining an actuation force and an actuation position by detecting a change in distance between a deformable surface and respective sensors.

US 2004227736 A1 shows a capacitance-based force sensor. The detection of an actuation force and an actuation position is effected by determining an impedance change between respective electrodes.

US 2013076375 A1 shows a circuit for capacitive sensing. The detection of a contact exerted by an object is effected by sensing a change in a distance between an electrically conductive and deformable surface and a sensor surface.

It is the object of the present invention to provide a solution by means of which a simplified operating position, at which a control panel surface is touched, as well as an actuating force, with which the control panel surface is acted upon, can be determined.

This object is achieved by an input device for a motor vehicle, a motor vehicle with an input device and a method for operating an input device of a motor vehicle having the features of the independent patent claims. Advantageous embodiments with expedient and non-trivial developments of the invention are specified in the dependent claims.

The input device according to the invention for a motor vehicle comprises an operating part and a carrier part arranged below the operating part. Furthermore, the input device comprises a plurality of sensors, each of which has a first sensor part and a second sensor part, which are arranged opposite one another, wherein the respective first sensor part remote from a control panel surface of the control panel control panel underside of the control panel and the respective second sensor part on one of the control panel underside facing carrier part top of the support member is arranged, wherein the sensors are adapted to detect a respective distance between their respective sensor parts. Furthermore, the input device comprises a control device, which is designed to determine a deflection of the operating part on the basis of the respectively detected distances between the first and second sensor parts and, depending on the determined deflection, an actuation position, at which the operating part surface is touched, as well as a Actuating force, with which the control panel surface is acted to determine.

In other words, the input device according to the invention comprises a single sensor unit, which has the sensors, with the aid of the sensors deflection of the operating part can be detected when a vehicle occupant exerts a corresponding force on the operating part, for example with a finger. Based on the detected deflection can be determined by means of the input device according to the invention, both the actuation force that exerts a vehicle occupant on the control panel, so a position on the control panel surface on which a vehicle occupant, for example, with his finger exerts a corresponding force.

By the input device according to the invention, a particularly simple technical solution can be provided, since only one single sensor unit in the form of multiple sensors for both force and position detection is necessary. Thus, the input device has a particularly simple structure, whereby the error possibilities when operating the input device can be significantly reduced, since the input device according to the invention for force and position detection requires very few components.

In an advantageous embodiment of the invention, it is provided that the control surface has a plurality of, respective functions of the motor vehicle characterizing symbols, wherein the control device is adapted to select one of the respective functions in dependence on the determined operating position and to control. For example, the icons may include a hazard warning function, the activation and deactivation of a parking assistant, the activation and deactivation of an electronic stability control, and the like. Depending on where, for example, a driver actuates the control panel, the corresponding functions of the motor vehicle are selected and controlled according to the operation. The control unit itself is preferably formed in one piece, for example in the form of a flexible strip, which may be arranged for example in the region of a center console of the motor vehicle. Preferably, the input device comprises as many sensors as the control panel surface has symbols. Below the symbols, for example, each one of the sensors is arranged with the two sensor parts. As a result, it can be detected in a particularly exact manner at which point of the operating-surface surface a vehicle occupant touches the operating-part surface and accordingly has acted upon an actuating force.

In a further advantageous embodiment of the invention, it is provided that the control device is designed to control the respective selected function also depending on the determined operating force accordingly. For example, different force values can be predetermined, upon reaching or exceeding of which the corresponding function of the motor vehicle is controlled differently. For example, an electronic stability control of the motor vehicle depending on the detected operating force can be controlled differently, for example, a slight pressure only causes the mode of the electronic stability program is changed from a default setting to a sport setting, in which the electronic stability control only intervenes later. Should a vehicle occupant but exceed a certain threshold force, it may be provided, for example, that the electronic stability control is completely disabled. Essentially, different functions of the motor vehicle can thereby be activated or deactivated in different stages.

In a further advantageous embodiment of the invention, it is provided that the input device comprises a memory unit in which a map is stored, which characterizes the deflection of the control panel in response to respective actuation forces and actuation positions, wherein the control device is adapted to, using the determined deflection and the map to determine the respective corresponding operating position and operating force. To generate this map, for example, several series of tests can be carried out, wherein the control panel is acted upon at each predetermined actuating positions with different actuating forces, in each case a corresponding deflection of the control panel is measured. However, it is also possible to deposit a function in the memory device by means of which, taking into account the bending stiffness and in particular also the type of mounting of the operating part, respective actuating positions and actuating forces can be determined as a function of respective values for the detected deflections of the operating part. Influencing factors such as the material properties and the geometry of the control panel can also be taken into account by the function. By means of the map stored in the memory unit or by means of the function stored in the memory unit, the corresponding actuating positions and actuating forces can thus be determined by the control device in a particularly simple and reliable manner.

In a further advantageous embodiment of the invention, it is provided that the carrier plate is a printed circuit board. The sensors can thus be contacted directly with the printed circuit board, so that corresponding signals provided by the sensors can be made available to the printed circuit board and by means of these in turn to the control device.

According to a further advantageous embodiment of the invention, it is provided that the sensors are resistive, capacitive or inductive sensors are. Alternatively, it is also possible that the sensors are strain gauges.

The motor vehicle according to the invention comprises the input device according to the invention or an advantageous embodiment of the input device according to the invention.

The method according to the invention for operating an input device of a motor vehicle, which comprises an operating part and a carrier part arranged below the operating part, comprises the following steps:

 - Detecting distances between respective oppositely disposed first and second sensor parts of respective sensors, wherein the respective first sensor part is disposed on a remote from a control panel surface of the control panel operating part of the Be part and the respective second sensor part on one of the control panel underside facing carrier top of the carrier part;

- Determining a deflection of the control panel on the basis of the respectively detected distances between the first and second sensor parts by means of a control device of the input device;

 - Determining an operating position at which the control panel surface is touched, in dependence on the determined deflection by means of the control device;

 - Determining an actuating force with which the control panel surface is acted upon, depending on the determined deflection by means of the control device.

Advantageous embodiments of the input device according to the invention are to be regarded as advantageous embodiments of the method according to the invention, wherein the input device has in particular means for performing the method steps.

Further advantages, features and details of the invention will become apparent from the following description of preferred embodiments and from the drawing. The features and feature combinations mentioned above in the description as well as the features and combinations of features shown below alone in the description of the figures and / or in the figure can be used not only in the respectively indicated combination but also in other combinations or alone, without the scope of the invention to leave. The drawing shows in the single FIGURE is a schematic side view of an input device for a motor vehicle, which has a control panel and arranged under the control panel support member.

A total of 10 designated input device for a motor vehicle, not shown, comprises a control panel 12 and a arranged under the control panel 12 support member 14. In the present case, it is at the support member 14 to a circuit board. The input device 10 comprises a plurality of sensors 16, which each have a first sensor part 18 and a second sensor part 20, which are arranged in pairs opposite one another. The first sensor parts 18 are arranged on a remote from a control panel surface 22 of the control panel 12 control panel bottom 24 of the control panel 12. The second sensor parts 20 are arranged on a carrier sub-top 24 facing the carrier part top side 26. The sensors 16 are designed to detect a respective distance A between their respective sensor parts 8, 20.

The input device 10 further comprises a control device, not shown here, which is designed to determine a deflection of the operating part 12 on the basis of the respective detected distances A between the first and second sensor parts 18, 20 and an operating position P depending on the determined deflection, at which the control panel surface 22 is touched, for example, with a finger 28 of a vehicle occupant, as well as an actuating force F, with which the control panel surface 22 is acted upon to determine.

The control panel 12 may be formed, for example, metal, plastic or wood, wherein the control panel 12 is preferably strip-shaped and integrally formed and arranged for example in the region of a center console of the motor vehicle. When exerting the actuating force F on the control panel surface 22, the control panel 12 is partially deformed, so bent. As a result, the distance A between the respective sensor parts 18, 20 is changed. This change can be detected by means of the sensors 16 and the actuation force F can be calculated accordingly. Furthermore, the position P on the operating-part surface 22 at which a vehicle occupant has applied the actuating force F, for example with his finger 28, can be determined by the sensor parts 18, 20 arranged at different positions. The control panel surface 22 preferably has a plurality of respective functions of the motor vehicle characterizing symbols. For example, the symbols may relate to a hazard warning function, the deactivation and activation of an electronic driver assistance system, and the like. The control device is designed to select and control one of the respective functions as a function of the determined actuation position P. In the present case, the input device 10 includes as many sensors 16 as the control panel surface 22 has different symbols. Thus, the control unit 12 on its control panel surface 22 so seven different symbols not shown here, which characterize different controllable by actuation of the control panel 12 functions of the motor vehicle. A vehicle occupant can therefore by the finger 28, for example, the control panel surface 22 applied at the point with a corresponding force to which one of the symbols is arranged to control the symbol assigned to the function of the motor vehicle. The control device is also designed to control the respectively selected function as a function of the determined actuating force F. In other words, a vehicle occupant can actuate or influence the respective functions of the motor vehicle which can be activated by the operating part 12 differently by depressing the operating part 12 differently at corresponding points.

The sensors 16 may be resistive, capacitive or inductive sensors. Alternatively, it is also possible that the sensors 16 are strain gauges.

The input device 10 further includes a memory unit, not shown here, in which a map is stored, which characterizes the deflection of the control panel 12 in response to respective Actuate forces F and actuation positions P, wherein the control means is adapted to, using the determined deflection and the map to determine the corresponding operating position P and operating force F. The characteristic map can be determined, for example, by appropriate test series on the input device 10. in that the control unit 12 is acted upon by predetermined forces at different predetermined positions, and corresponding deflections of the control unit 12 are measured. Alternatively, for example, a mathematical function may also be stored in the storage unit, by means of which, taking into account the flexural rigidity, the material properties and the geometry of the operating part 12, respective actuation positions P and actuation forces F as a function of respective values for the detected deflections of the operating part 12 can be determined.

By means of the illustrated input device 10, respective actuation forces F and actuation positions P can thus be determined in a particularly simple manner as a function of a detected deflection of the operating part 12 and converted into corresponding control commands for activating various vehicle functions of a motor vehicle.

Claims

CLAIMS: Input device (10) for a motor vehicle, with  a control part (12) and a support part (14) arranged under the control part (12);  a plurality of sensors (16) which each have a first sensor part (18) and a second sensor part (20), which are arranged opposite one another, wherein the respective first sensor part (18) at one of a control panel surface (22) of the control unit (12). remote from the control unit lower side (24) of the control unit (12) and the respective second sensor part (20) on one of the control part underside (24) facing the carrier part top side (26) of the carrier part (14) is arranged, wherein the sensors (16) are adapted to a respective Distance (A) between their respective sensor parts (18, 20) to detect;  a control device which is designed to determine a deflection of the operating part (12) on the basis of the respectively detected distances (A) between the first and second sensor parts (18, 20) and an actuating position (P) in dependence on the determined deflection which the touch panel surface (22) is touched, and an actuating force (F), with which the control panel surface (22) is acted upon to determine. 2. Input device (10) according to claim 1,  characterized in that  the control panel surface (22) has a plurality of symbols characterizing respective functions of the motor vehicle, wherein the control unit is designed to select and control one of the respective functions as a function of the determined actuating position (P). 3.. Input device (10) according to claim 2,  characterized in that  the control device is designed to also the respectively selected function in dependence on the determined operating force (F) to control accordingly. 4. input device (10) according to one of the preceding claims, characterized in that the input device (10) has a memory unit in which a characteristic field is stored which characterizes deflection of the operating part (12) as a function of respective actuating forces (F) and actuating positions (P), the control device being designed using the determined values Deflection and the map to determine the appropriate operating position (P) and actuating force (F). Input device (10) according to one of the preceding claims, characterized in that the carrier plate (14) is a printed circuit board. Input device (10) according to one of the preceding claims, characterized in that the sensors (16) are resistive, capacitive or inductive sensors. Motor vehicle with an input device (10) according to one of the preceding claims. Method for operating an input device (10) of a motor vehicle, which comprises a servant (12) and a carrier part (14) arranged under the operating part (12), with the steps:  Detecting distances (A) between respective oppositely arranged first and second sensor parts (18, 20) of respective sensors (16), the respective first sensor part (18) being remote from an operating part surface (22) of the operating part (12). 24) of the operating part (12) and the respective second sensor part (20) on one of the control part underside (24) facing the carrier part top (26) of the support part (14) is arranged;  - Determining a deflection of the operating part (12) based on the respectively detected distances (A) between the first and second sensor parts (18, 20) by means of a control device of the input device (10);  - Determining an operating position (P) at which the control panel surface (22) is touched, in dependence on the determined deflection by means of the control device; Determining an actuating force (F), with which the operating-part surface (22) is acted upon, as a function of the detected bent deflection by means of the control device.