DE102015003204B4 - Operating device for a motor vehicle, motor vehicle and method - Google Patents

Abstract

Operating device (10) for a motor vehicle with an operating element (12) and a touch sensor system (14) for detecting a position at which the operating element (12) is touched by an object, the operating device (10) being designed to be in a deactivated state State to block the detection of the position and / or control of a function of the motor vehicle assigned to the detected position and, in an activated state, to perform the detection of the position and control of the function of the motor vehicle assigned to the detected position, and the operating device (10) has an activation device (18), wherein the operating element (12) is mounted so as to be movable relative to the activation device (18), at least in some areas, and the activation device (18) is designed to transfer the operating device (10) into the activated state as soon as one of a through force (F) r applied to the object when the control element (12) is touched The resulting deflection of the operating element (12) is greater than or equal to a predetermined threshold value, the activation device (18) being designed to convert the operating device (10) into the deactivated state by interrupting an energy supply for the touch sensor system (14) and the operating device ( 10) to be converted into the activated state by the energy supply for the touch sensor system (14).

Description

The invention relates to an operating device for a motor vehicle with an operating element and a touch sensor system for detecting a position at which the operating element is touched with an object, the operating device being designed to detect the position and / or control a in a deactivated state to block the function of the motor vehicle assigned to the detected position and, in an activated state, to perform the detection of the position and the control of the function of the motor vehicle associated with the detected position. The invention also relates to a motor vehicle and a method.

Control devices for motor vehicles are already known from the prior art. A person, for example a driver or another occupant of the motor vehicle, can select, trigger or control functions of the motor vehicle by means of an operating device. Such functions can be provided, for example, by an infotainment system, a window lifter or a light in the motor vehicle.

To trigger and / or control the functions, operating devices can have, for example, touch-sensitive surfaces, so-called touchpads, wherein the operating devices can be operated by touching the touch-sensitive surface, for example by means of a finger. Such an operating device is for example in the US 8 324 910 B2 described.

Several functional principles, for example inductive or capacitive systems, are known from the prior art for implementing touch sensitivity. These inductive or capacitive systems usually react immediately when the finger is touched or when the finger approaches the touch-sensitive surface. This results in restrictions in the arrangement of such operating devices in the motor vehicle. If such an operating device were integrated into an armrest of the motor vehicle, for example, it can happen that functions of the motor vehicle are unintentionally triggered by the person placing their arm or hand on the armrest and thus on the operating device.

In order to avoid such an undesired function triggering, measures are known from the prior art. For example, the DE 10 2012 024 055 A1 a device for operating an electronic device, in which a function of the electronic device is controlled via a control panel with a touch-sensitive surface, the touch-sensitive surface being switchable at least between an inactive and an active state.

Furthermore, from the DE 10 2013 100 355 A1 an operating device for a vehicle steering wheel with a sensor surface and mechanical switching elements arranged under the sensor surface is known. In order to activate and / or deactivate the mechanical switching elements and / or the sensor surface, the operating device has a changeover switch.

the WO 2012/146269 A1 discloses an operating device with a base support on which a touch-sensitive actuation element is arranged, which when pressed by an operator can be moved at least in some areas relative to the base support. When the actuating element reaches an activated position, a function of the operating device can be triggered.

It is the object of the present invention to implement an operating device by means of which operating errors can be avoided particularly well and which can therefore be arranged particularly flexibly in a motor vehicle.

According to the invention, this object is achieved by an operating device, a motor vehicle and a method having the features according to the independent claims. Advantageous embodiments of the invention are the subject of the dependent claims, the description and the figure.

An operating device according to the invention for a motor vehicle comprises an operating element and a touch sensor system for detecting a position at which the operating element is touched by an object. The operating device is designed to block the detection of the position and / or a control of a function of the motor vehicle assigned to the detected position in a deactivated state and, in an activated state, the detection of the position and the control of the function of the motor vehicle associated with the detected position perform. In addition, the operating device has an activation device. The operating element is supported so that it can be moved or displaced relative to the activation device, at least in some areas. The activation device is designed to transfer the operating device to the activated state as soon as a deflection or displacement of the operating element resulting from a force applied by the object when the operating element is touched is greater than or equal to a predetermined threshold value.

By means of the operating device, in the activated state of the operating device For example, functions of the motor vehicle are selected and / or triggered by a user touching the control element with the object, for example with his finger, at a position, the touch sensor system detects the position and a function corresponding to the detected position is selected and / or triggered. The touch sensor system can detect the position capacitively or inductively, for example.

The touch sensor system is in particular covered by the operating element, which is designed, for example, in the form of a plate or a membrane. The touch sensor system can have a sensor matrix, for example. The operating device can thus be operated like a known touchpad, for example. However, it can also be provided that the touch sensor system has, for example, only two touch-sensitive sensor elements, so that the operating device can be operated like a first button at a first position on the operating element that is assigned to a first of the sensor elements, and at a second position which a second of the sensor elements is assigned how a second key can be operated. An operating device configured in this way can, for example, control the functionality of a window lifter, whereby a touch of the first position is detected by the first sensor element and a window of the motor vehicle is then opened as a function, for example, and a touch of the second position is detected by the second sensor element and then as Function the window is closed.

In order to prevent the functions from being triggered unintentionally, for example if the operating element is accidentally touched, the operating device has the activation device. The activation device is designed to activate the operating device when the object exerts such a force or pressure when touching the operating element that the operating element is deflected beyond the predetermined threshold value relative to the stationary activation device. The operating element can be completely deflected, for example lowered, or only deflected in certain areas, for example bent.

In an undeflected state and therefore in the deactivated state of the operating device, the operating element is at a first distance from the stationary activation device. In the state of the operating element deflected beyond the threshold value and thus in the activated state of the operating device, the operating element is at a reduced distance from the activation device. In this case, the operating device, in particular the touch sensor system, is not activated until the operating element is deflected beyond the threshold value, then a position of the object on the operating element is detected and the associated function is triggered.

In the operating device according to the invention, the operating element itself is used to activate and / or deactivate the operating device. Additional switches or buttons, which have to be arranged in a space-consuming manner in the motor vehicle, can thus be dispensed with.

In addition, the operating device has the advantage that inadvertent operating inputs can be avoided and thus undesired function triggering can be prevented. In addition, by pushing in the control element, the user receives haptic feedback before triggering a function.

In addition, the activation device is designed to transfer the operating device to the deactivated state by interrupting an energy supply for the touch sensor system and to transfer the operating device to the activated state by providing the energy supply for the touch sensor system. In other words, this means that the touch sensor system is only supplied with energy and thus can detect a position of the object on the operating element if the activation device allows energy to be supplied to the touch sensor system when the deflection is detected beyond the threshold value. Conversely, the activation device interrupts the supply of energy as soon as the value falls below the threshold value again or the predetermined period of time has expired. The operating device is thus designed to be particularly energy-saving, since the touch sensor system only needs to be supplied with energy when a function of the motor vehicle is to be consciously triggered.

According to one embodiment of the invention, the activation device is designed to operate the operating device in the activated state, only as long as the deflection is greater than or equal to the predetermined threshold value. In other words, this means that the user can only trigger functions by means of the operating device if he actively deflects the operating element by applying a force to the operating element beyond the threshold value. This has the advantage that the operator has control over the activation state of the operating device at all times. Conversely, the operator can also actively terminate the activation state of the operating device again by, for example, moving the finger away from the operating element and then moving the operating element into the undeflected state returns and the operating device is returned to the deactivated state by the activation device.

One embodiment of the invention provides that the activation device is designed to operate the operating device in the activated state for a predetermined period of time after the operating device has been activated, regardless of the deflection of the operating element. In other words, this means that the user deflects the operating element beyond the threshold value, for example by applying the force once, and thus activates the operating device. This activation state is maintained by the activation device for the predetermined period of time. The user can thus operate the functions of the motor vehicle even without applying a force.

The activation device preferably has a switch, the activation device being designed to transfer the operating device into the activated state as soon as the switch is closed by the deflection of the operating element. The switch can be designed, for example, as a mechanical switch, the operating device being transferred to the deactivated state when the switch is in an open state. The switch is open when the control element is in an undeflected state. Only when a force is applied and the resulting deflection of the operating element beyond the threshold value does the operating element actuate the switch and the switch is closed. As soon as the switch is closed, the operating device changes to the activated state. The switch is thus switched by means of the operating element itself and the operating device is thus activated or deactivated. Such an activation device is designed to be particularly simple and energy-efficient.

A further advantageous embodiment of the invention provides that the activation device has a light barrier, the activation device being designed to transfer the operating device into the activated state as soon as the deflection of the operating element is recognized by the light barrier. A light barrier generally comprises a light source emitting a light beam and a sensor which receives the light beam. By deflecting the control element beyond the threshold value, this light beam is interrupted by the control element itself. After the light beam has been interrupted, the activation device transfers the operating device to the activated state. The light barrier provides a particularly simple and precise way of detecting the deflection.

According to one embodiment of the invention, the activation device has a force sensor for detecting the force applied, the activation device being designed to transfer the operating device to the activated state as soon as the force sensor detects that the force applied exceeds a predetermined threshold value for the force exceeds. Such a force sensor can be designed, for example, as a capacitive pressure sensor. When the activation device is designed as a force sensor, not only two discrete states of the operating element, namely “deflection greater than or equal to the threshold value” and “deflection lower threshold value” can be detected, but the deflections can also be specified quantitatively and transmitted to a control device, for example . The operating device can then transfer this to the corresponding state. This results in the advantage that the threshold values can be adapted in a particularly simple manner, for example in a user-specific manner, or that, for example, a hysteresis can be implemented for activating and / or deactivating the operating device. Activation patterns for activating the operating device can also be specified, for example. Such a predetermined activation pattern can be, for example, a two-time short click or a three-time long click. As soon as the force sensor detects that the touch corresponds to the predetermined activation pattern, the control device can activate the operating device. Deactivation patterns for deactivating the operating device can also be specified in the same way.

According to one embodiment, the activation device in the activated state is designed to provide different operating modes for the operating device as a function of the detected force, operating mode-specific functions being assigned to the position on the operating element in the different operating modes. In other words, this means that the operator can select the various operating modes of the operating device in the activated state of the operating device via the amount of force applied. If the operator presses, for example, with a first force value that is detected by the force sensor, the operator can control a first function assigned to the detected position. If the operator now presses on the operating element with a second force value that is greater than the first force value, for example, and which is detected by the force sensor, the operator can control a second function assigned to the same position. The operating device can therefore be used in a particularly flexible manner.

The invention also relates to a motor vehicle with an operating device according to the invention. The motor vehicle is preferably designed as a passenger vehicle.

The invention also includes a method for operating an operating device for a motor vehicle with an operating element and a touch sensor system for detecting a position at which the operating element is touched by an object. In a deactivated state of the operating device, the detection of the position and / or a control of a function of the motor vehicle assigned to the detected position is blocked, and in an activated state the detection of the position and the control of the function of the motor vehicle associated with the detected position are carried out. In addition, an activation device for the operating device is provided. The operating device is activated by the activation device as soon as the operating element, which is movably mounted relative to the activation device, is moved when the operating element is touched such that a deflection of the operating element is greater than or equal to a predetermined threshold value for the deflection. In addition, the activation device transfers the operating device to the deactivated state by interrupting an energy supply for the touch sensor system and to the activated state by supplying energy for the touch sensor system.

The preferred embodiments presented with reference to the operating device according to the invention and their advantages apply accordingly to the motor vehicle according to the invention and to the method according to the invention.

In the following, the invention will now be explained in more detail using a preferred exemplary embodiment and also with reference to the accompanying drawings.

The single figure (FIG. 1) shows a schematic representation of an embodiment of an operating device with an operating element and a touch sensor system.

The exemplary embodiment explained below is a preferred embodiment of the invention. In the exemplary embodiment, the described components of the embodiment each represent individual features of the invention that are to be considered independently of one another, which also develop the invention independently of one another and are therefore also to be regarded as part of the invention individually or in a combination other than the one shown. Furthermore, the described embodiment can also be supplemented by further features of the invention that have already been described.

The figure shows an operating device 10 with one control element 12th and a touch sensor system 14th . The operating device 10 , which can be designed as a touch-down button or button, can for example be arranged in a motor vehicle (not shown here) and serve to control and / or select functions of the motor vehicle.

The control element 12th is designed here as a plate which can be used by a user to operate the operating device 10 can be touched with an object, for example his finger, and which is movably supported. The touch sensors 14th , which is below the control element 12th is arranged or which of the control element 12th is covered, has two sensor elements here 16 on, which for example as capacitive or inductive sensor elements 16 can be designed. The sensor elements 16 are designed to have a position of touch on the control element 12th capture.

In addition, the operating device 10 an activation device 18th on, which is also below the control element 12th is arranged. By applying a force F, for example with your finger, to the operating element 12th can the control element 12th relative to the stationary activation device 18th be moved or deflected. The application of the force F creates a distance between the operating element 12th and the activation device 18th decreased. As soon as the deflection of the control element 12th is greater than or equal to a predetermined threshold value for the deflection, is activated by the activation device 18th the operating device 10 transferred to the activated state. In particular, it is used to transfer the operating device 10 in the activated state the touch sensors 14th activated, for example by supplying it with energy from the deflection beyond the threshold value. This means that only in the activated state of the operating device 10 the detection of the position of the object on the control element 12th is possible.

The activation device 18th can for example have a mechanical switch which, when the operating element is deflected 12th is open below the threshold. When the switch is open, the control device is 10 deactivated. When the deflection of the control element 12th now exceeds the threshold value, actuates the control element 12th the switch and closes it. The operating device will then 10 transferred to the activated state.

The activation device 18th can also have a light barrier, wherein a light beam of the light barrier from the control element 12th is broken as soon as the control element 12th is deflected beyond the threshold value.

The activation device 18th have a force sensor, which the force F and thus the deflection of the control element 12th can grasp continuously. If the threshold value is exceeded, a control device (not shown here) of the activation device can, for example 18th the operating device 10 transfer to the activated state.

The operating device 10 can for example be designed to control a window regulator. The operating device 10 can be arranged in a stationary manner, for example in an armrest of the motor vehicle, with one surface of the operating element 12th in a deactivated state of the operating device 10 and thus in the undeflected state of the control element 12th flush with a panel or a panel 20th , for example a surface material of the armrest.

By pressing the control element 12th , i.e. by applying the force F to the control element 12th , becomes the control element 12th opposite the aperture 20th lowered and relative to the stationary activation device 18th emotional. As soon as the deflection exceeds the threshold value, the sensor elements 16 the control device 10 activated.

Is now in the pressed state of the control element 12th , i.e. in the activated state of the operating device 10 , the finger over the control element 12th moved, the window lifter is activated. If the user is in the activated state, for example, one of the sensor elements shown on the left 16 assigned position on the control element 12th touched, this can be done by the sensor element shown on the left 16 are detected and then, for example, the window of the motor vehicle opened. For example, if the user has one of the sensor elements shown on the right 16 assigned position on the control element 12th touched, this can be done by the sensor element shown on the right 16 are detected and then, for example, the window of the motor vehicle can be closed.

On the other hand, there is no pressure on the control element 12th exercised, the sensor elements remain 16 without reaction. If the user places his arm or hand on the armrest and thus on the control element, for example 12th , so will the control device 10 not activated by mere touch. The arm or hand can easily be on the control element 12th remain without a function of the motor vehicle being activated.

Claims (9)

Operating device (10) for a motor vehicle with an operating element (12) and a touch sensor system (14) for detecting a position at which the operating element (12) is touched by an object, the operating device (10) being designed to be in a deactivated state State to block the detection of the position and / or control of a function of the motor vehicle assigned to the detected position and, in an activated state, to perform the detection of the position and control of the function of the motor vehicle assigned to the detected position, and the operating device (10) has an activation device (18), wherein the operating element (12) is mounted so as to be movable relative to the activation device (18), at least in some areas, and the activation device (18) is designed to transfer the operating device (10) into the activated state as soon as one of a through force (F) r applied to the object when the control element (12) is touched The resulting deflection of the operating element (12) is greater than or equal to a predetermined threshold value, the activation device (18) being designed to convert the operating device (10) into the deactivated state by interrupting an energy supply for the touch sensor system (14) and the operating device ( 10) to be transferred into the activated state by the energy supply for the touch sensor system (14). Control device (10) after Claim 1 , characterized in that the activation device (18) is designed to operate the operating device (10) in the activated state, only as long as the deflection is greater than the threshold value or equal to the threshold value. Control device (10) after Claim 1 , characterized in that the activation device (18) is designed to operate the operating device (10) for a predetermined period of time after activating the operating device (10) regardless of the deflection of the operating element (12) in the activated state. Operating device (10) according to one of the preceding claims, characterized in that the activation device (18) has a switch, the activation device (18) is designed to transfer the operating device (10) into the activated state as soon as the switch is closed by the deflection of the operating element (12). Control device (10) according to one of the preceding claims, characterized in that the activation device (18) has a light barrier, the activation device (18) being designed to transfer the control device (10) into the activated state as soon as the light barrier passes through the Deflection of the control element (12) is recognized. Control device (10) according to one of the preceding claims, characterized in that the activation device (18) has a force sensor for detecting the applied force (F), the activation device (18) being designed to put the control device (10) in the activated state to be transferred as soon as it is detected by the force sensor that the applied force (F) exceeds a predetermined threshold value for the force (F). Control device (10) after Claim 6 , characterized in that the activation device (18) is designed to provide different operating modes for the operating device (10) in the activated state as a function of the detected force (F), the positions on the operating element (12) in the different operating modes Operating mode-specific functions are assigned. Motor vehicle with an operating device (10) according to one of the preceding claims. Method for operating an operating device (10) for a motor vehicle with an operating element (12) and a touch sensor system (14) for detecting a position at which the operating element (12) is touched by an object, with the operating device (10 ) the detection of the position and / or a control of a function of the motor vehicle assigned to the detected position is blocked and, in an activated state, the detection of the position and the control of the function of the motor vehicle assigned to the detected position is carried out and the operating device (10) by a Activation device (18) is activated as soon as the operating element (12) mounted movably relative to the activation device (18) is moved when the operating element (12) is touched in such a way that a deflection of the operating element (12) is greater than or equal to a predetermined threshold value for the deflection is characterized in that the activation is direction (18), the operating device (10) is transferred to the deactivated state by interrupting an energy supply for the touch sensor system (14) and the operating device (10) is transferred to the activated state by the energy supply for the touch sensor system (14).

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