DE102014017572A1 - Operating device for controlling functional units of a motor vehicle and motor vehicle - Google Patents

Abstract

The invention relates to an operating device (10) for controlling functional units of a motor vehicle. The operating device (10) comprises at least one operating element (12), which can be moved by an operator from a starting position into an actuating position, in which the operating element (12 ') is deformed. The operating device (10) comprises a printed circuit board (20) which has a surface (22) facing the operating element (12). The printed circuit board (20) is coupled to a circuit element (24) which is designed to detect an actuation of the operating element (12) in the actuation position and to output a switching signal which effects the actuation of a functional unit. A rigidity of the operating element (12) is dimensioned such that it causes a return movement of the operating element (12 '), which has been brought into the actuating position, into the starting position. Furthermore, the invention relates to a motor vehicle with at least one such operating device (10).

Description

The invention relates to an operating device for controlling functional units of a motor vehicle. The operating device comprises at least one operating element which can be moved by an operator from an initial position into an actuating position. In the operating position, the operating element is deformed. Furthermore, the invention relates to a motor vehicle with at least one such operating device.

From the prior art it is known to use a spring or an elastic component to reset the operating element. However, this is relatively expensive and expensive.

The DE 90 12 407 U1 describes a pressure switching element with two spaced apart carrier material layers, which are coated on one side electrically conductive. One of the substrate layers consists of a thin glass cover plate and the other substrate layer of a thick glass support plate. A spacer arranged between the two carrier material layers is designed as an intermediate layer of elastic plastic. The intermediate layer leaves a contact area between the cover disk and the carrier disk. At a pressure load of the cover plate, the electrically conductive layers of the cover plate and the carrier disc in the contact area touch. Due to the natural resilience of the cover plate of relatively thin glass, no further, elastic spacer or spacer is needed on the intermediate layer of the elastic plastic addition.

The DE 199 23 683 A1 describes a glass keyboard with a keyboard surface, which is formed from a flexible thin-glass disc, and with a carrier disc, which is arranged below the thin glass plate. On the mutually facing surfaces, the thin glass pane and the substrate disc have electrically conductive layers. By means of a holder, the electrically conductive layers are kept at a distance from each other. During a pressure load, the thin glass pane and the carrier disc touch each other at a pressure loading point. The holder has a flexible area, and under pressure of the thin glass pane, the holder is deformed in the flexible area. A restoring moment of the thin glass pane results from the deformation of the same under the pressure load and the deformation of the flexible portion of the holder.

The US 5,243,162 A describes an optically transparent touch switch in which electrodes are disposed on opposite surfaces of glass sheets. Between the glass panes a spacer is arranged. When the electrodes touch, this causes the switch to turn on. When the pressing force is removed, the upper glass pane returns to its original position, in which the switch is turned off. The spacer is made of a dispersion comprising a resin, transparent resin particles, and glass fiber particles.

Object of the present invention is to provide a particularly simple design of the control device of the type mentioned and a motor vehicle with such a control device.

This object is achieved by an operating device having the features of patent claim 1 and by a motor vehicle having the features of patent claim 9. Advantageous embodiments with expedient developments of the invention are specified in the dependent claims.

The operating device according to the invention comprises a printed circuit board which has a surface facing the operating element. The printed circuit board is coupled to a circuit element which is designed to detect an actuation of the operating element in the actuation position and to output a switching signal effecting the actuation of a functional unit. In this case, the operating element has a rigidity which is dimensioned to bring about a backward movement of the operating element which has been brought into the actuating position into the starting position. Thus, the deflection of the operating element is used to bring about the resetting or the return movement of the operating element into the starting position.

Due to the fact that the rigidity of the operating element provides for the return to the zero position or initial position, it is possible to dispense with a separate return element such as a spring, a soft component or the like. This results in a reduction of costs, since no separate return element is needed. Furthermore, a particularly simple construction of the operating device is realized. In addition, the operating device can be deployed using particularly fewer components, so that the possibility of errors is reduced.

Although the control element has the required elasticity to allow a certain self-deforming or sagging. However, the rigidity of the operating element is dimensioned such that the operating element automatically moves back or returns to the starting position or starting position. This is done as soon as the Operator no longer exerts a deformation of the control effecting pressure on the control.

In the present case, therefore, the own rigidity of the control element ensures that the control element returns to the zero position or initial position, and there is no need for a separate return element.

In addition, the rigidity of the operating element is dimensioned such that there is no change in the starting position or starting position over the lifetime or lifetime of the operating device. This has a positive effect on the visual appearance of the operating device. In addition, the detection of the actuation of the operating element and the outputting of the switching signal over the lifetime or lifetime of the operating device remain unimpaired in terms of functionality. It is thus possible to permanently and reliably control the desired functional unit by the operator deforming the operating element.

It has proven to be advantageous if a gap between the circuit board and the operating element is free of elastically deformable elements. Then a particularly simple, low-cost construction of the operating device is achieved.

A wall thickness of the control element can be about 1 mm to 2 mm. Such a wall thickness has proven to be particularly suitable for effecting an automatic retraction of the operating element into the starting position.

The control element may be formed at least partially made of aluminum. By using such a material, it is particularly easy to give the desired rigidity to the operating element. In addition, such a visually appealing surface of the control element is provided. This applies analogously if the operating element comprises a composite material in which an aluminum layer is arranged on a plastic body.

However, the control element can also be formed at least partially of a plastic, which gives the control element the desired stiffness. In this case, in particular a polycarbonate in question. Additionally or alternatively, however, the operating element may also comprise a composite material comprising at least two plastics. In this case, in particular a composite material can be used, which comprises polycarbonate and an acrylonitrile-butadiene-styrene copolymer (ABS).

Furthermore, one of the plastics may be formed as a film, which is arranged on a plastic body. An operating device with a visually appealing and the required stiffness having control element can therefore be about provide by the plastic body such as a polycarbonate coated with a plastic film. Depending on the design of the film, a plurality of control elements, each having a different appearance, can thus be provided in a particularly easy and low-effort manner.

As a further advantage, it has been shown that the control is at least partially formed of a wood. Thus, namely, an operating device with a particularly noble-looking control element can be provided.

Additionally or alternatively, the operating element may comprise a composite material in which a layer of wood is arranged on a plastic body. Through the use of the composite material comprising the wood layer, the control element, which looks particularly noble, can be provided comparatively inexpensively. The wood or the wood layer may further be provided with a varnish or the like.

The circuit element may be configured to detect a reduction in a distance between the operating element and the surface of the printed circuit board. Accordingly, then an operating device is provided with an acting in the manner of a capacitive sensor structure.

Additionally or alternatively, by means of the circuit element, a contact between the operating element and the surface of the circuit board can be detected. Then, touching the surface of the circuit board with the operating element triggers the outputting of the switching signal.

The motor vehicle according to the invention comprises at least one operating device according to the invention. The advantages described for the control device according to the invention and preferred embodiments and also apply to the motor vehicle according to the invention.

The features and feature combinations mentioned above in the description as well as the features and feature combinations mentioned below in the figure description and / or shown alone in the figure can be used not only in the respectively specified combination but also in other combinations or alone, without the scope of To leave invention. Thus, embodiments are also included and disclosed by the invention, which are not explicitly shown or explained in the figure, However, emerge by separate feature combinations of the described embodiments and can be generated.

Further advantages, features and details of the invention will become apparent from the claims, the following description of preferred embodiments and from the drawing.

This shows schematically an operating device for driving functional units of a motor vehicle; in which an operating element has a rigidity which causes an automatic reset of the operating element in its non-deformed starting position, as soon as an operator no longer exerts pressure on the operating element.

An operating device shown schematically in the figure 10 serves to control functional units of a motor vehicle. For example, by means of the operating device 10 A hazard warning lights or a disc heater on or off. Also, the operating device 10 be used to set a driving style such as a sporty driving style, a defensive driving style or a fuel-saving driving style, a driver assistance system and other comfort features and / or security features such as an electronic stability program to activate or deactivate.

For this purpose, the operating device 10 a plurality of keypads or controls 12 one of which is shown schematically in the figure. Such controls 12 can be arranged in particular in a switch panel in a row. The at least one switch panel can be arranged in an instrument panel, in a center console, in the region of a door trim or on another interior trim part of the motor vehicle.

In the present case, the operating element 12 be actuated by an operator, for example with a finger 14 a force on a surface 16 of the operating element 12 exercises and the operating element 12 deformed here. The force is in the figure by an arrow 18 illustrated. Furthermore, in the figure, the operating element 12 ' shown in its deformed, bent position. By applying the force to the surface 16 of the operating element 12 becomes the operating element 12 thus partially deformed or bent. This reduces a distance between a printed circuit board 20 which one the operating element 12 facing surface 22 has, and the operating element 12 ' ,

This change in distance or travel is detected by a circuit element, such as an integrated circuit 24 can be trained. The circuit 24 can at the PCB 20 be arranged approximately on the operating element 12 facing surface 22 , The circuit 24 But it can also be done from the PCB 20 arranged remotely and in a suitable manner with the circuit board 20 be coupled.

The circuit 24 outputs a switching signal if it has a corresponding deformation of the operating element 12 detected, if so the operating element 12 in its operating position (control element 12 ' ) is spent. The switching signal then causes the activation of the functional unit of the motor vehicle.

In the present case, the rigidity of the operating element 12 such that the operating element 12 automatically moved back from the operating position to the starting position as soon as the operator no longer with his finger 14 or the like body part or with another object, a force on the operating element 12 which leads to a deformation of the operating element 12 leads. This allows for a separate return element such as a spring or a soft component in a space 26 between the surface 22 the circuit board 20 and a bottom 28 of the operating element 12 be waived.

When measuring the stiffness of the control 12 In the present case, care is taken that the operating element 12 Although it has the necessary elasticity to allow a certain deflection. However, the control is 12 sufficiently stiff, and return by itself to the starting position or starting position. Depending on the properties of the control 12 provided materials or the for the operating element 12 provided material may have a wall thickness 30 or thickness of the control 12 for example, be 1 mm to 2 mm.

The operating element 12 may be formed for example of a plastic such as a polycarbonate or aluminum or an aluminum alloy. To form the operating element 12 However, material combinations, ie composite materials can also be used. For example, the composite may include two plastics such as a polycarbonate and an acrylonitrile-butadiene-styrene copolymer (ABS). Also may be applied to a plastic body, in particular of polycarbonate and / or ABS, a film, or it may be a plastic body, in particular a plastic body of polycarbonate and / or ABS, provided with a layer of aluminum or wood.

The rigidity of the control 12 is further dimensioned such that an actuation of the operating device 10 over the lifetime of operating device 10 no changes with regard to the starting position or starting position of the operating element 12 brings with it. So remains an attractive visual appearance of the control 12 permanently received, and also the electrical signal detection by means of the circuit 24 will not be affected.

The circuit 24 may be configured to reduce a distance between the operating element 12 and the surface 22 the circuit board 20 capture. Furthermore, additionally or alternatively by means of the circuit 24 forming a contact between the deflected operating element 12 ' and the surface 22 the circuit board 20 be recorded.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 9012407 U1 [0003]
• DE 19923683 A1 [0004]
• US 5243162 A [0005]

Claims (9)

Operating device for controlling functional units of a motor vehicle, with at least one control element ( 12 ), which is movable by an operator from a starting position into an actuating position, in which the operating element ( 12 ' ) is deformed, characterized in that the operating device ( 10 ) a printed circuit board ( 20 ), which one the operating element ( 12 ) facing surface ( 22 ) and with a circuit element ( 24 ), which is designed to be actuated in the actuation position ( 12 ) and to output a switching signal effecting the activation of a functional unit, wherein the operating element ( 12 ) has a rigidity which is dimensioned, a return movement of the spent in the operating position control element ( 12 ' ) to bring into the starting position. Operating device according to claim 1, characterized in that a gap ( 26 ) between the printed circuit board ( 20 ) and the operating element ( 12 ) is free of elastically deformable elements. Operating device according to claim 1 or 2, characterized in that a wall thickness ( 30 ) of the operating element ( 12 ) is about 1 mm to 2 mm. Operating device according to one of claims 1 to 3, characterized in that the operating element ( 12 ) is at least partially formed of aluminum and / or comprises a composite material comprising an aluminum layer on a plastic body. Operating device according to one of claims 1 to 4, characterized in that the operating element ( 12 ) is at least partially made of a plastic, in particular of a polycarbonate, and / or comprises a composite material comprising at least two plastics. Operating device according to claim 5, characterized in that one of the plastics is designed as a film, which is arranged on a plastic body. Operating device according to one of claims 1 to 6, characterized in that the operating element ( 12 ) is at least partially formed from a wood and / or comprises a composite material, which comprises a layer of wood on a plastic body. Operating device according to one of claims 1 to 7, characterized in that by means of the circuit element ( 24 ) a reduction of a distance between the operating element ( 12 ) and the surface ( 22 ) of the printed circuit board ( 20 ) and / or a contact between the control element ( 12 ) and the surface ( 22 ) of the printed circuit board ( 20 ) is detectable. Motor vehicle with at least one operating device ( 10 ) according to one of claims 1 to 8.

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