MOTORCYCLE WITH A MULTIFUNCTIONAL DEVICE

Abstract

A motorcycle includes a display unit for representing information on the driving state and operating parameters of the motorcycle, an operating unit to generate control commands for controlling the display unit, and a multifunctional device with a screen. An application can be installed on the multifunctional device to allow other applications installed on the multifunctional device to be opened. The selection of further applications to be opened by the application can be represented on the screen in the form of pictograms. A control unit uses control commands for controlling the application, and the further applications to be opened by the application can be transmitted to the multifunctional device. The control commands for controlling the application, and the further applications to be opened by the application, can be generated by the operating unit, and a switching device can switch between control of the display unit and control of the multifunctional device.

Claims

1. A motorcycle, comprising a display unit for representing information on the driving state and on operating parameters of the motorcycle, an operating unit, which may generate control commands for controlling the display unit, a multifunctional device, releasably attachable in a holder, comprising a screen, wherein an application can be installed on the multifunctional device, using which further applications installed on the multifunctional device can be opened, wherein the selection of further applications, which can be opened by the application, can be represented on the screen in the form of pictograms, a control unit, using which control commands for controlling the application and the further applications, which can be opened by the application, can be transmitted to the multifunctional device, wherein the control commands for controlling the application and the further applications, which can be opened by the application, can be generated by the operating unit, wherein a switching device for switching between control of the display unit and control of the multifunctional device is provided.

2. The motorcycle according to claim 1, wherein the operating unit is designed as a grip switch at the handlebar.

3. The motorcycle according to claim 1, wherein the switching device is designed as an actuating element, preferably as a switch, of the operating unit.

4. The motorcycle according to claim 1, wherein a sending unit is provided, using which the control commands for controlling the application and the further applications, which can be opened by the application, can be wirelessly transmitted to the multifunctional device.

5. The motorcycle according claim 4, wherein the sending unit is designed to send radio commands, in particular according to the Bluetooth® standard.

6. The motorcycle according to claim 1, wherein the control unit and/or the sending unit can transmit information on the driving state and/or on operating parameters of the motorcycle to the multifunctional device, preferably in a wireless manner.

7. The motorcycle according to claim 6, wherein the information on the driving state and on operating parameters of the motorcycle can be represented on the screen of the multifunctional device.

8. The motorcycle according to claim 7, wherein at least one of the further applications, which can be opened by the application, has a navigation function.

9. The motorcycle according to claim 1, wherein the multifunctional device is designed as a smartphone.

10. The motorcycle according to claim 1, wherein the operating unit comprises arrow keys and/or a multi-way switch, preferably a four-, five-, or six-way switch.

11. The motorcycle according to claim 1, wherein the multifunctional device has a receiving device, which may receive control commands for controlling the application and the further applications, which can be opened by the application, which commands are generated and transmitted by an external device.

12. The motorcycle according to claim 1, wherein at least one of the further applications, which can be opened by the application, has a control function for an external device.

13. The motorcycle according to claim 12, wherein the multifunctional device has a sending device, which may wirelessly transmit control commands, which are generated by the application(s) with a control function for external devices, to the external device(s).

14. The motorcycle according to claim 13, wherein the sending device is designed for sending radio commands, in particular according to the Bluetooth® standard.

15. The motorcycle according to claim 1, wherein the holder includes a charging device of the multifunctional device.

16. A computer program product for operating the motorcycle according to claim 1, comprising commands, which upon execution of the program by a computer cause the computer to: operate the operating unit of the motorcycle in two operating modes, wherein in one operating mode, upon actuation of the operating unit, control commands for controlling a display unit for representing information on the driving state and on operating parameters of the motorcycle are generated, while in the other operating mode, upon actuation of the operating unit, control commands for controlling an application installed on a multifunctional device as well as further applications installed on the multifunctional device, which can be opened by the application, are generated and transmitted, preferably in a wireless manner, to the multifunctional device, and monitor a switching device for actuation and, upon actuation of the switching device, switch the operating mode.

17. The computer program product, comprising commands, which upon execution of the program by a multifunctional device cause the same to accept control commands generated by the operating unit of a motorcycle according to claim 1 and to open and control applications installed on the multifunctional device.

18. A computer-readable data carrier, on which the computer program product according to claim 16 is stored.

19. A data carrier signal, which transfers the computer program product according to claim 16.

20. A motorcycle with a computer-readable data carrier, on which the computer program product according to claim 16 is stored.

21. A multifunctional device with a computer-readable data carrier, on which the computer program product according to claim 17 is stored.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0045] In the following, further details and advantages of the present invention are explained in more detail based on the description with reference to the drawings, in which:

[0046] FIG. 1 is a representation of an operating unit with an additional operating unit according to the state of the art,

[0047] FIG. 2 illustrates an operating unit according to the invention,

[0048] FIG. 3 is a schematic representation of an embodiment of the invention,

[0049] FIG. 4a, 4b are two schematic representations of further embodiments of the invention,

[0050] FIG. 5 is a schematic representation for a further embodiment of the invention,

[0051] FIG. 6 is a schematic representation of a holder, and

[0052] FIG. 7 is a schematic representation of a multifunctional device arranged in the holder.

DETAILED DESCRIPTION OF THE INVENTION

[0053] FIG. 1 illustrates a motorcycle 10 of the state of the art, where two operating units 1, 1′ are attached to the handlebar 11, in a perspective, schematic representation. The display unit 3 includes the instruments, using which information on the driving state, such as, e.g., velocity, speed of the engine, outside temperature, temperature of the cooling fluid, daily kilometres, etc., can be represented. The display unit 3 is controlled via the operating unit 1, which for this purpose has actuating elements in the form of push switches. Further switches arranged on the operating unit 1 serve, e.g., activating and deactivating of the direction indicators or actuating of a horn.

[0054] An additional operating unit 1′ is arranged adjacent to the operating unit 1 and serves controlling of a multifunctional device 2 in the form of a smartphone attached in a holder 12. This can be a subsequently attached holder. By operating the operating unit 1 as well as the additional operating unit 1′, the rider of the motorcycle 10 is unduly distracted from the traffic situation, which represents a high safety risk.

[0055] FIG. 2 illustrates an operating unit 1 in the form of a grip switch assembled at the handlebar 11. The operating unit 1 comprises a four-way switch, which includes two arrow keys 17a, 17b. On the right-hand side of the four-way switch, a selection key is arranged, which also acts as the switching device 16. On the left-hand side, a backspace key 18 is arranged. Below the four-way switch, there are further push or setting switches, resp., which contrary to the four-way switch do not serve controlling of the display unit 3, but, for example, for actuating the horn or for switching on the high beam.

[0056] If the operating unit 1 is in that operating mode, in which the display unit 3 is controlled by actuating the actuating elements, a control command is generated by actuating the arrow key 17a, which effects returning to the previous menu item on the display unit 3. Actuating the arrow key 17b effects accessing of the next following menu item of the operating unit 1. The key 16a effects selecting of a respective menu item. Actuating the backspace key 18 effects selecting of the next higher menu level. Switching into that mode, in which actuating of the operating unit 1 generates control commands for the multifunctional device 2, is undertaken by pressing the selection key acting as the switching device 16 for more than 500 ms.

[0057] After actuating the switching device 16, control commands for the application are generated, using which the applications 7 installed on the multifunctional device 2 can be opened. On the one hand, the application serves representing of a reduced selection of applications 7 by means of pictograms on the screen 14 of the multifunctional device 2 and providing them for selection. Using the arrow keys 17a, 17b, the application switches between the various applications 7, which can be opened. Actuation of the selection key, which upon long pressing serves as a switching device 16, opens a concretely selected application 7. Actuation of the backspace key 18 effects returning to the next higher menu level. Pressing the switching device 16 long again, the operating mode of the operating unit 1 is switched again, and control commands for controlling the display unit 3 are generated.

[0058] The keys of the four-way switch can have a second function allocated. Thus, for example, it can be provided that long continuous pressing, i.e., for more than 500 ms, of the key 17a, opens the application 7 with a navigation function. Long actuating of the arrow key 17b effects opening of the application 7 with a music function. Long actuating of the backspace key 18 effects returning to the main menu, where the applications 7, which can be opened, are represented by means of pictograms again.

[0059] Based on the example of an application 7 with a music function, it is represented, how, using the operating unit 1, control commands for controlling the application 7 are generated and transmitted. Actuating the arrow key 17a effects selecting of the previous song, actuating the arrow key 17b effects selecting of the next song in the selected playlist. Briefly actuating the selection key 16 effects stopping of the playback. Briefly actuating the key again effects continuing the playback. Actuating the backspace key 18 effects playing back of the selected song again from the start.

[0060] The keys of the four-way switch can also have a second function allocated for controlling the applications 7, which can be opened. Thus, for example, it can be provided that long pressing of the key 17a increases the volume of the song being played back. Longer actuating of the arrow key 17b effects reducing of the volume. Longer actuating of the backspace key 18 effects returning to the main menu. Longer actuating of the selection key 16, which also acts as a switching device 16, effects terminating of the operating mode of the operating unit 1, in which the multifunctional device 2 is controlled.

[0061] In this embodiment, the selection key 16 serves as a switching device. It would also be perceivable to provide a separate switch for the switching device 16 or to provide a select option in the display unit 3 in order to activate control of the multifunctional device 2.

[0062] FIG. 3 illustrates an embodiment of the invention in a schematic representation, in which an operating unit 1 comprising a six-way switch can transmit control commands to a multifunctional device 2 designed as a smartphone via a bus line 9, for example a CAN bus line. The multifunctional device 2 is arranged in a holder 12. The bus line 9 can be connected with the multifunctional device 2 via a suitable plug. It is, however, also possible that the holder 12 includes a sending unit 6, from which the control commands can be wirelessly transmitted to the multifunctional device 2. In this embodiment, this is an NFC sending unit, which can be used as an alternative to a Bluetooth® module. The multifunctional device 2 includes a receiving device. Thereby, control commands generated by a headset 5, which are transmitted via Bluetooth®, can be received. Thus, the applications 7 can be controlled by means of voice commands. The symbol represented next to the symbol for the NFC sending unit indicates that the holder 12 includes an inductive charging device 13.

[0063] In the embodiment represented here, the operating unit 1 is designed as a 6-way switch, which is connected with the holder 12, and thus with the sending unit 6, via a CAN bus 9. The 6-way switch includes a control crown having left and right keys as well as up and down keys. The push switch arranged in the centre of the control crown acts as the switching device 16. The push switch arranged to the left above the control crown acts as the backspace key 18. Next to this switch, a setting switch 19 is arranged, which serves adjusting of the cruise control function. A toggle switch is arranged in the rear upper area, which serves switching on and off of the high beam. Below the control crown, a setting switch for the direction indicators is arranged. Below this setting switch, a push switch for the horn is arranged. On the left-hand side, two further push switches are arranged, which, for example, serve switching on and off of the cruise control function.

[0064] FIG. 4a illustrates a further embodiment of the invention in a schematic representation. In that, the operating unit 1 is connected with a sending unit 6 via a wireline 8. In turn, the sending unit 6 is connected with the display unit 3 via a wireline 8. The sending unit 6 includes a microcontroller and a Bluetooth® module, using which control commands generated by the operating unit 1 can be transmitted to a multifunctional device 2 via Bluetooth®.

[0065] The multifunctional device 2 is likewise coupled to a headset 5 via Bluetooth®. In that, the multifunctional device 2 includes a sending device, using which control commands as well as data can be transmitted to the headset 5. Simultaneously, the multifunctional device 2 also includes a receiving device, using which control commands from the headset 5 can be received for controlling the installed applications 7.

[0066] FIG. 4b illustrates a further embodiment of the invention in a schematic representation. This embodiment differs from the embodiment shown in FIG. 4a by the sending unit 6 being an integral component of the display unit 3.

[0067] The computer program product according to the invention, using which the operating modes are switched, is stored on a computer-readable storage medium in the motorcycle, e.g., in the control unit, the sending unit, the communications unit, the display unit, or directly in the operating unit.

[0068] FIG. 5 illustrates a further embodiment of the invention in a schematic representation. The operating unit 1 is again connected with the display unit 3 by means of a wireline 8. Via a bus line 9, for example, in the form of a CAN bus line, the display unit 3 is connected with a communications unit 15. The communications unit 15 serves communicating with various components of the motorcycle 10. In particular, the communications unit 15 includes a sending unit 6, from which control commands can be wirelessly transmitted, preferably according to the Bluetooth® standard, to the multifunctional device 2. The multifunctional device 2 includes a sending device, using which data and/or control commands can be wirelessly transmitted, again preferably according to the Bluetooth® standard, to external devices 4, such as, e.g., a smartwatch or a camera or a headset 5. Furthermore, the sending device can also transmit data, for example songs, to the external devices 4, in particular to the headset 5.

[0069] Furthermore, the multifunctional device 2 includes a receiving device, which can receive data and/or control commands from the external devices 4 and/or from the headset 5.

[0070] FIG. 6 illustrates the holder 12, which in this case is designed for receiving a smartphone. The holder 12 includes an inductive charging device 13, consisting of a charging cradle and a charging cable connected thereto, which is connected with the power supply of the motorcycle 10.

[0071] FIG. 7 illustrates a representation of a multifunctional device 2 in the form of a smartphone arranged in a holder 12. Represented is the screen 14 with the pictograms for the further applications 7, which can be opened by the application according to the invention. As an example, some applications 7 shall be mentioned here, which can be operated via the operating unit 1 while riding.

[0072] An application 7, which can be opened, includes a navigation function. This can be, for example, the application Google® Maps, especially popular with drivers, because it is well-structured and easy to operate, and additionally offers excellent real-time traffic information. In that, it can be provided that not the entire functionality of this application is being offered, but a reduced functionality adapted to operation during the ride. The Google® Maps application furthermore offers a comprehensive interface, using which route guidance from another application, in particular from the application according to the invention (interface application), can be started. In addition, navigation targets can be searched, and locations in the vicinity, such as, e.g., petrol stations, offered.

[0073] A further application 7, which can be opened, which can be controlled by the operating unit 1, includes a music function. This can, for example, be a music player accessing songs stored on the multifunctional device 2. However, it can also be a streaming service provider.

[0074] A further application 7, which can be opened by the application according to the invention, includes a messaging function. It can be used to receive or send messages. This application 7 can be controlled via wirelessly received voice commands from a headset 5. In addition, messages received can be converted into audio by the multifunctional device 2 and transmitted to a headset 5.

[0075] A further application 7 includes a telephone function. Phone calls can be made, again, via a headset 5. In that, persons to be called can be selected from a contacts list via the headset 5 and/or via the operating unit 1.

[0076] A further application 7, which can be opened by the application according to the invention, includes a weather function. Selecting this application 7 provides a weather forecast, possibly issued as audio, wherein the application 7 can fall back on location data.

[0077] Furthermore, an application 7 can be opened and controlled, which activates an external camera, which, for example, is assembled at the helmet or at the motorcycle 10.

[0078] A further application 7, which can be opened and controlled, represents information on the driving state and/or on operating parameters of the motorcycle 10. Upon failure of this application 7, the screen 14 of the multifunctional device 2 serves as an additional screen besides the display unit 3.

LIST OF REFERENCE SIGNS

[0079] 1 Operating unit [0080] 2 Multifunctional device [0081] 3 Display unit [0082] 4 External device [0083] 5 Headset [0084] 6 Sending unit [0085] 7 Applications, which can be opened [0086] 8 Wireline [0087] 9 Bus line [0088] 10 Motorcycle [0089] 11 Handlebar [0090] 12 Holder [0091] 13 Charging device [0092] 14 Screen [0093] 15 Communications unit [0094] 16 Switching device [0095] 17a, 17b Arrow keys [0096] 18 Backspace key [0097] 19 Setting switch