OPERATING UNIT FOR A VEHICLE

Abstract

The invention relates to an operating unit for a vehicle, comprising a touchscreen, an actuator for mechanically exciting the touchscreen upon detection of a valid manual actuation of the touchscreen when an operating command is input, and a counterweight. The actuator is designed as a drive unit with a stator and a translator which move in opposite directions either away from each other or towards each other, namely into an end position, starting from a rest position when the drive unit is actuated and which move back into the rest position from the end position after the actuation has ended, in particular in an automatic manner. The stator is coupled to the touchscreen, and the translator is coupled to the counterweight or vice versa.

Claims

1-7. (canceled)

8. An operating unit for a vehicle, comprising a touchscreen, an actuator for mechanically exciting the touchscreen upon detection of a valid manual actuation of the touchscreen when an operating command is input, and a counterweight, wherein the actuator as a drive unit is configured with a stator and a translator which, upon actuation of the drive unit, move in opposite directions either away from each other or towards each other starting from a rest position, namely into an end position, and which in particular automatically move back from the end position into the rest position when the actuation has been ended, and wherein the stator is coupled to the touchscreen and the translator is coupled to the counterweight, or vice versa.

9. The operating unit according to claim 8, wherein the drive unit is configured as an electromagnet, in particular an armature-type electromagnet, wherein either the stator or the translator comprises an excitation coil, and that portion of the electromagnet which is provided with the excitation coil is coupled to the counterweight.

10. The operating unit according to claim 8, wherein the drive unit is configured as a plunger-coil-type drive having an excitation coil, and that portion of the plunger-coil-type drive which comprises the excitation coil is coupled to the counterweight.

11. The operating unit according to claim 8, wherein the translator and the stator each have connected thereto a coupling element assembly, wherein the one coupling element assembly is coupled to the touchscreen and the other coupling element assembly is coupled to the counterweight.

12. The operating unit according to claim 11, wherein the counterweight is arranged behind the touchscreen, the actuator is arranged behind the counterweight and thus the counterweight is arranged between the touchscreen and the actuator, and the counterweight has a through-going opening through which the coupling element assembly connected to the touchscreen extends.

13. The operating unit according to claim 8, comprising a supporting element on which the touchscreen and/or the counterweight is/are supported, wherein either the touchscreen or the counterweight or both is/are spring-elastically supported on the supporting element.

14. The operating unit according to claim 12, wherein the two coupling element assemblies rest upon the supporting element and are in particular movably connected thereto, and the coupling element assemblies each comprise at least one connecting element which is deformed when a stroke force is applied to the touchscreen for absorbing kinetic energy.

Description

[0019] Hereunder an exemplary embodiment of the invention will be explained in detail with reference to the drawing in which:

[0020] FIG. 1 shows a view of the rear side of an operating unit according to an exemplary embodiment of the invention,

[0021] FIG. 2 shows a side view of the operating unit of FIG. 1, and

[0022] FIG. 3 shows the situation (in a side view) in which a stroke force acts upon the operating element.

[0023] FIG. 1 shows the rear side of an operating unit 10 which includes a touchscreen 12 that is adapted to be mechanically excited in a pulsated manner by an actuator for generating a tactile haptic feedback upon entry by a person. In the case of a pulsated excitation of the touchscreen 12, a counterweight 16 is also mechanically excited, namely in a manner phase-shifted by 180 with respect to the mechanical excitation of the touchscreen. The actuator comprises a stator 18 and a translator 20 which are mechanically coupled to the counterweight 16 and the touchscreen 12. Actuation of the actuator is performed by feeding current to an excitation coil 22. The mechanical coupling is realized via a coupling element or a coupling element assembly 24, respectively, and a coupling element assembly or a coupling element 26, respectively, wherein, according to this exemplary embodiment, the coupling element 24 serves for coupling between the translator 20 and a supporting element 30, while the stator 18 is coupled to the touchscreen 12. A through-going opening 28 in the supporting element 30 serves for a mechanical connection between the stator 18 and the touchscreen 12 via the coupling element 26.

[0024] FIG. 2 shows a side view of the operating unit of FIG. 1, and FIG. 3 shows a side view of the operating unit when simulating a stroke test.

LIST OF REFERENCE NUMERALS

[0025] 10 Operating unit [0026] 12 Touchscreen [0027] 14 Actuator [0028] 16 Counterweight [0029] 18 Stator [0030] 20 Translator [0031] 22 Excitation coil [0032] 24 Coupling element assembly [0033] 26 Coupling element assembly [0034] 28 Through-going opening [0035] 30 Supporting element