DE102022111040A1 - Operating system for a vehicle - Google Patents

Abstract

The invention relates to an operating system for a vehicle, the operating system having a magnetic track (2) and an operating module (4), the magnetic track (2) being arranged in an interior component of the vehicle and having a plurality of electromagnets (6) arranged next to one another, these are designed to provide a magnetic field that automatically positions the operating module (4) at a designated position on the magnetic track (2).

Description

The invention relates to an operating system for a vehicle and a method for operating an operating system for a vehicle.

An operating system can be operated manually to control a function of a vehicle.

The publication EP 3 789 856 A1 describes an input device for a motor vehicle with a control surface and an input part that can be arranged thereon and is designed as a rotary control.

A control unit for a vehicle component is from the publication DE 10 2015 221 927 A1 known.

From the publication DE 10 2004 010 310 A1 a control element with an integrated display element and a method for issuing commands with a control element are known.

Against this background, it was a task to design a vehicle's operating or input device flexibly.

This task is solved by an operating system and a method with the features of the independent patent claims. Embodiments of the operating system and the method emerge from the dependent claims and the description.

The operating system according to the invention is designed for a vehicle, for example for a motor vehicle and/or an interior of the vehicle. The operating system has a magnetic track and an operating module. The magnetic track is arranged, can be arranged or can be arranged in an interior component of the vehicle. In addition, this magnetic track has several, usually switchable, electromagnets arranged side by side along an at least partially straight and/or curved line, for example a curve and/or straight line. These electromagnets are designed to jointly provide and/or generate a magnetic field that interacts with the operating module, wherein the electromagnets are designed to position the operating module at a position or location intended for this purpose on and/or along the magnetic track, whereby the magnetic field positions or arranges the operating module accordingly.

In one embodiment, the operating system has a control unit which is designed to control at least one electromagnet, i.e. only one electromagnet, several electromagnets or all electromagnets, at a time and to adjust the magnetic field both statically and dynamically, usually quantitatively, for example .to change over time. The control unit is usually designed to provide a current and/or a voltage to the at least one electromagnet, with each electromagnet being designed to generate a single magnetic field. Usually, several individual magnetic fields result from superimposition or superposition into a complete magnetic field of the magnetic track generated by several individual electromagnets. This entire magnetic field can vary and/or be varied, for example in terms of its strength, depending on time and/or position along the magnetic path.

It is also possible for the operating module to have at least one magnetically sensitive element or magnetic element, for example at least one permanent magnet and/or ferromagnet, which is designed to interact with the magnetic field of the electromagnets of the magnetic track. It is possible here that the operating module is or is to be attracted to the electromagnets via the at least one magnetically sensitive element that is integrated therein, with the operating module in the intended position on the magnetic track and thus also on the interior component due to a The force of the magnetic field is held and thus secured and/or fixed to it. Through dynamic position-dependent or location-dependent variation or change of the magnetic field, it is also possible to automatically move the operating module along the magnetic path.

It is possible for the operating module to be designed or referred to as a rotary push button (DDS). In this case, a possible embodiment provides that the operating module has a base and an operating button, for example a rotary push-button component and/or a control button. It is possible for the at least one magnetically sensitive element to be arranged in the base. The control button, which is designed, for example, as a rotary push component, is connected to the base and is movable relative to the base. If a person operates the operating module manually, it is possible to rotate the operating button relative to the base about a common axis of the operating button and the base and also to rotate the operating button, in particular if it is designed or is to be referred to as a rotary push component, along this To move the axis relative to the base, usually pressing. Alternatively or additionally, the operating module has, for example on a surface of the rotary pressing component, a display field or a display for showing display content, although it is also possible for this Display field is designed to be touch-sensitive and can therefore also be referred to as a touch display.

In a further embodiment, the electromagnets are designed to control the operating module, among other things. for example, to supply its display field, via the provided and/or generated magnetic field, inductively and thus contactlessly with electrical energy, for example with an electrical current and/or with an electrical voltage.

Furthermore, the operating module has a second communication module, which is arranged in the operating module and is movable or movable with the operating module relative to the magnetic track and the interior component. A first communication module is permanently arranged in a vehicle component, for example the interior component, of the vehicle in the vehicle. The two communication modules are designed to exchange signals with data wirelessly and/or radio-supported via electromagnetic waves and thus to provide a signal and/or data connection. This applies, for example, to signals for operating or input commands that the person generates by operating the operating module, usually at least by operating the operating button. A radio frequency with a radio frequency range is provided for the electromagnetic waves for transporting the signals. Furthermore, a field frequency with a field frequency range that differs from the radio frequency range is provided for the magnetic field to be generated or generated. It is possible for the two communication modules of the operating system to exchange the signals, for example via near-field communication and/or Bluetooth.

It is possible for the magnetic track to be arranged on, on and/or in a wall, for example an interior wall, and/or interior paneling as an interior component for a door, for example a side door, of the vehicle. It is also possible for the magnetic track to be arranged on, on and/or in a center console as an interior component of the vehicle. In one embodiment, the magnetic track is covered by a cover of the interior component and is therefore separated from the interior. In this case, it is provided that the operating module is movable or movable on the cover parallel to the magnetic track, with the magnetic field passing through the cover made, for example, of an insulating material. It is also conceivable that the cover has a sliding surface along which the operating module, for example its base, slides during a movement. It is possible for the magnetic track and the magnetically sensitive element in the operating module to be designed as a linear motor, which has the electromagnets and the magnetically sensitive element of the operating module as components, due to a linear, i.e. at least partially straight and/or curved, arrangement of the electromagnets next to one another and/or are to be designated. In one embodiment, a respective position of the operating module can be determined via a strength of the magnetic field and/or via a sensor provided for this purpose. Optionally, it is possible for the operating system to have at least one guide rail for guiding and/or for additional mechanical securing or for holding the operating module on the magnetic track, in addition to securing the operating module due to a force of the magnetic field.

The method according to the invention is intended for operating an operating system, for example an embodiment of the operating system presented here, for a vehicle, this operating system having a magnetic track and an operating module. The magnetic track is arranged, can be arranged or can be arranged in an interior component for an interior of the vehicle and has a plurality of electromagnets arranged next to one another, with a magnetic field being provided and/or generated by all of the electromagnets, with this magnetic field automatically driving the operating module to a location provided for this purpose Position is positioned or arranged on and/or along the magnetic track.

In one embodiment, the complete magnetic field is dynamically changed from a superposition of all magnetic fields, usually by control with a control unit or a control device, and the operating module is moved along and/or parallel to the magnetic track. As a rule, a magnetic field with a strength that varies over time and thus also a force for attracting the operating module is generated for each electromagnet. It is possible that individual strengths of magnetic fields of neighboring electromagnets can also differ from one another at a given time.

In an embodiment of the method and/or the operating system, it is provided that the operating system is correlated and/or interacts with a vehicle component of the vehicle. It is possible for the vehicle component to be oriented at least partially parallel to a forward direction of travel of the vehicle and/or to be movable or movable or to be able to be moved automatically. It is possible here for the magnetic track, usually at least a straight instead of curved section of the magnetic track, to also be oriented parallel to the forward direction of travel of the vehicle.

In one embodiment of the method, a position of the vehicle component, for example of the seat, usually a driver's seat or passenger seat, for example along the forward direction of travel. The position of the control element on and/or along the magnetic track is automatically adjusted and/or changed, taking into account the position of the vehicle component, for example designed as a vehicle seat.

It is possible to alternatively or additionally refer to the operating system as an input system and thus also to alternatively or additionally refer to the operating module as an input module for the vehicle. It is intended that the operating module is attracted to the electromagnets of the magnetic track by the magnetic field generated. The magnetic track as a component of the operating system can also be designed or referred to as a magnetic levitation train for the operating module. By rotating and/or pressing the operating module, it is possible to operate and thus control at least one vehicle function and/or at least one vehicle component. It is possible, for example, for the at least one vehicle component to be designed as an air conditioning system, as an entertainment or infotainment system, as a vehicle seat, and/or as a gear shift.

With the method and the operating system, it is possible to automatically adapt the position of the operating module to a position of a person, for example the driver or the passenger, whereby the position of the driver in turn depends on the vehicle seat that she is using. For example, it is possible for the vehicle seat to have a driving position as a first position, for example starting position, and a rest position, relaxation position or relaxation position or lying position as a second position, for example end position. Taking into account the respective position of the vehicle seat, usually along the forward direction of travel, a corresponding position for the operating module along the magnetic track is automatically adopted and the operating module is automatically positioned accordingly at a position intended for this purpose, which is correlated to the position of the vehicle seat continues to be automatically moved between two different positions along the magnetic path if the vehicle seat is moved along the forward direction of travel. If the vehicle seat is moved from the second position to the first position, the operating module is automatically moved into an assigned position or position, for example starting position, along the magnetic track. Due to the individual position-dependent adjustment of the operating module, the operating module can be arranged within reach of the person's hand and operated at any time, for example depending on the position of the vehicle seat. An adjustment of the position of the control element along the magnetic track is also possible, for example, when the vehicle is driven in a piloted manner.

However, it is also possible to manually move and position the operating module along the magnetic track. The magnetic field generated by the electromagnets serves to fix the operating module in a tight fit in an installation position on the magnetic track and thus on the interior component. In addition, the electromagnets also serve as actuators for moving and/or adjusting the operating module. A trigger for a displacement and/or adjustment of the operating module is a change in the position of the vehicle component with which the operating system is or is correlated, with the operating module being automatically moved by the magnetic field. Furthermore, it is possible for an automatic movement of the operating module to be triggered and/or caused by a manual actuation of the operating element, for example by placing a hand on it.

It is understood that the features mentioned above and those to be explained below can be used not only in the combination specified in each case, but also in other combinations or alone, without departing from the scope of the present invention.

The invention is shown schematically using embodiments in the drawing and is described schematically and in detail with reference to the drawing.

1a , 1b show a schematic representation of an embodiment of the operating system according to the invention, which is operated with an embodiment of the method according to the invention.

The characters are described coherently and comprehensively. The same components are assigned to the same reference numbers.

The based on the 1a and 1b Schematically illustrated embodiment of the operating system according to the invention for a vehicle designed here, for example, as a motor vehicle, comprises a magnetic track 2 and an operating module 4. The magnetic track 2 comprises a plurality of electromagnets 6 arranged next to one another along a partially curved line here. It is provided here that this magnetic track 2 is arranged or integrated in an interior wall as an interior component of a door 18 of the vehicle. In the 1a and 1b the operating module 4 is shown at different positions along the magnetic track 2. The operating module 4 is also designed as a rotary push button and can, like 1b shows, operated and/or operated with one hand 20 be, whereby the operating module 4 can also be moved manually along the magnetic track 2.

On a top side, the operating module 4 has a display field 8, on which a ring 22 is shown here, which symbolizes a temperature thermostat of an air conditioning system. There is also a temperature indication on display field 8, here “38°C”. A first communication module 10 and a second communication module 12 are provided here as further components of the operating system, the first communication module 10 being arranged here in the door 18 and thus in the said interior component. The second communication module 12 is arranged in the operating module 4. In addition, the operating system includes a control device or a control unit 14, which is designed to control the electromagnets 6 and to control their magnetic fields with respect to the magnetic track 2 depending on the position and/or time. For this purpose, the resulting magnetic field lines 16 of the magnetic fields are indicated.

Due to a force of the magnetic field, it is possible that the operating module 4, which has a magnetically sensitive element for this purpose, is connected by the electromagnets 6 to the magnetic track 2, i.e. H. here on a surface of the inner wall of the door 18, is pulled and / or tightened. In addition, by dynamically changing the magnetic field, it is possible for the operating module 4 to be moved back and forth along the magnetic track 2 due to a time- and position-dependent change in the magnetic field and to be arranged at different positions.

It is conceivable in this embodiment that the operating system is correlated with a vehicle seat of the vehicle. If an occupant as a person on the vehicle seat moves it back and forth along a forward direction of travel of the vehicle, it is possible for the operating module 4 to be automatically moved back and forth along the magnetic track 2, with the operating module 4 in that position along the magnetic track 2 is automatically arranged, which is correlated with a position of the vehicle seat at which the vehicle seat is arranged. In addition, the two communication modules 10, 12 exchange signals with each other. This includes, for example, input, operating and/or control signals that are entered by the hand 20 and used to control a vehicle component, for example the air conditioning system. In addition, signals, for example information signals, with values for the temperature information 24 can also be transmitted from the vehicle component from the first communication module 10 to the second communication module 12, with the temperature information 24 being displayed accordingly on the display panel 8.

REFERENCE SYMBOLS:

2

Magnetic railway

4

Control module

6

Electromagnet

8th

Display panel

10, 12

Communication module

14

Control unit

16

Magnetic field lines

18

door

20

hand

22

ring

24

Temperature information

QUOTES INCLUDED IN THE DESCRIPTION

This list of documents listed by the applicant was 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

• EP 3789856 A1 [0003]
• DE 102015221927 A1 [0004]
• DE 102004010310 A1 [0005]

Claims (10)

Operating system for a vehicle, the operating system having a magnetic track (2) and an operating module (4), the magnetic track (2) being arranged in an interior component of the vehicle and having a plurality of electromagnets (6) arranged next to one another, these being designed to: to provide a magnetic field that automatically positions the operating module (4) at a designated position on the magnetic track (2). operating system Claim 1 , which has a control unit (14) which is designed to control the electromagnets (6) and adjust the magnetic field. operating system Claim 1 or 2 , in which the operating module (4) has at least one magnetically sensitive element which is designed to interact with the magnetic field of the electromagnets (6). Operating system according to one of the preceding claims, in which the operating module (4) is designed as a rotary push button and/or has a display field (8). Operating system according to one of the preceding claims, in which the electromagnets (6) are designed to inductively supply the operating module (4) with electrical energy via the magnetic field. Operating system according to one of the preceding claims, which has a second communication module (12), which is arranged in the operating module (4), and a first communication module (10), which is arranged in a vehicle component, the two communication modules (10, 12 ) are designed to exchange signals with data via electromagnetic waves. Operating system according to one of the preceding claims, in which the magnetic track (2) is arranged in an interior component designed as the inner wall of a door (18). Method for operating an operating system for a vehicle, wherein the operating system has a magnetic track (2) and an operating module (4), wherein the magnetic track (2) is arranged in an interior component of the vehicle and has a plurality of electromagnets (6) arranged next to one another, wherein from The electromagnet (6) is provided with a magnetic field with which the operating module (4) is automatically positioned at a designated position on the magnetic track (2). Procedure according to Claim 8 , in which the magnetic field is dynamically changed and the operating module (4) is moved along the magnetic track (2). Procedure according to Claim 8 or 9 , in which a position of a seat of the vehicle is detected, the position of the control element on the magnetic track (2) being automatically adjusted taking the position of the seat into account.

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