Dual-viewing mode motor vehicle display system

Abstract

Disclosure relates to a dual-viewing mode motor vehicle display system. The display system may comprise at least one displaying portion operable to display contents and a processor having a memory. The processor may have a set of instructions stored thereon, retrievable from the memory. The at least one displaying portion may further comprise at least one illumination unit. The at least one illumination unit may comprise a plurality of micro fin structures. The plurality of micro fin structures may be configured to provide a wide viewing mode and a narrow viewing mode. The processor may be operable to kinematically change a position of the at least one displaying portion about a rotation axis. In response to the kinematically changed position, the at least one displaying portion may switch between a public mode position to display public mode contents and a private mode position to display private mode contents.

Claims

1. A dual-viewing mode motor vehicle display system comprising: at least one displaying portion operable to display contents; and a processor having a memory, the processor having a set of instructions stored thereon, the set of instructions retrievable from the memory, wherein the at least one displaying portion further comprises at least one illumination unit, the at least one illumination unit comprises a plurality of micro fin structures, the plurality of micro fin structures configured to provide a wide viewing mode and a narrow viewing mode; wherein the processor is operable to kinematically change a position of the at least one displaying portion about a rotation axis; and wherein, in response to the kinematically changed position, the at least one displaying portion switches between a public mode position to display public mode contents, and a private mode position to display private mode contents, wherein each of the plurality of micro fin structures is arranged to tilt between 10 degrees to 49 degrees along an axis to provide the narrow angle arrangement.

2. The system according to claim 1, wherein the plurality of micro fin structures further comprises at least one of a wide-angle arrangement to reflect light rays supplied by the at least one illumination unit to provide the wide viewing mode, and a narrow angle arrangement to reflect light rays supplied by the at least one illumination unit to provide the narrow viewing mode.

3. The display system according to claim 1, wherein the at least one displaying portion is mounted to a central portion of a cockpit of a motor vehicle, the central portion relative to a width of the motor vehicle.

4. A dual-viewing mode motor vehicle display system, comprising: at least one displaying portion operable to display contents; and a processor having a memory, the processor having a set of instructions stored thereon, the set of instructions retrievable from the memory, wherein the at least one displaying portion further comprises at least one illumination unit, the at least one illumination unit comprises a plurality of micro fin structures, the plurality of micro fin structures configured to provide a wide viewing mode and a narrow viewing mode; wherein the processor is operable to kinematically change a position of the at least one displaying portion about a rotation axis; and wherein, in response to the kinematically changed position, the at least one displaying portion switches between a public mode position to display public mode contents, and a private mode position to display private mode contents, wherein each of the plurality of micro fin structures is configured to tilt substantially between 50 degrees to 70 degrees along an axis to provide the wide-angle arrangement.

5. The display system according to claim 1, wherein the processor is operable to rotate about the at least one displaying portion about the rotation axis between 10 degrees to 40 degrees.

6. The display system according to claim 1, wherein the processor is operable to rotate about the at least one displaying portion about the rotation axis between 15 degrees to 35 degrees.

7. The display system according to claim 1, wherein the processor is operable to rotate about the at least one displaying portion about the rotation axis at 20 degrees.

8. The display system according to claim 1, the display system further comprising at least one second displaying portion.

9. The display system according to claim 8, wherein the at least one second displaying portion is disposed adjacent to the at least one displaying portion.

10. The display system according to claim 1, wherein the processor is operable to kinematically change position of the at least one displaying portion to the private mode position, and switch the at least one displaying portion to the private mode display content.

11. The display system according to claim 8, wherein the processor is operable to kinematically change position of the at least one displaying portion to private mode position, switch the at least one displaying portion to the private mode display content, and switch to the at least one second displaying portion to the private mode display content in the public mode position.

12. The display system according to claim 1, wherein, in response to the at least one displaying portion switching to a public mode position, the processor is operable to cause the at least one displaying portion to display public mode contents comprising at least one of a welcome note, motor vehicle operating information, and a digital decorative content.

13. The display system according to claim 1, wherein, in response to the at least one displaying portion switching to the private mode position, the processor is operable to cause the at least one displaying portion to display private mode contents comprising at least one of gaming content, and video streaming.

14. A dual-viewing mode motor vehicle display system, comprising: at least one displaying portion operable to display contents; and a processor having a memory, the processor having a set of instructions stored thereon, the set of instructions retrievable from the memory, wherein the at least one displaying portion further comprises at least one illumination unit, the at least one illumination unit comprises a plurality of micro fin structures, the plurality of micro fin structures configured to provide a wide viewing mode and a narrow viewing mode; wherein the processor is operable to kinematically change a position of the at least one displaying portion about a rotation axis; and wherein, in response to the kinematically changed position, the at least one displaying portion switches between a public mode position to display public mode contents, and a private mode position to display private mode contents, wherein, at public mode position, the at least one displaying portion has a viewing angle between 20 degrees to 80 degrees.

15. The display system according to claim 1, wherein, at public mode position, the at least one displaying portion has a viewing angle at 50 degrees.

16. The display system according to claim 1, wherein the at least one displaying portion is mounted to at least a portion of a surface of a cockpit of a motor vehicle.

Description

BRIEF DESCRIPTION OF DRAWINGS

(1) The present disclosure will become more fully understood from the detailed description and the accompanying drawings, wherein:

(2) FIG. 1 shows a block diagram of a display system in accordance with this disclosure;

(3) FIG. 2 shows an illumination unit in accordance with this disclosure;

(4) FIG. 3 shows an exploded view of a displaying portion apparatus in accordance with this disclosure;

(5) FIG. 4a shows an exploded view of a displaying portion assembly with a mounting device in accordance with this disclosure;

(6) FIG. 4b shows a top view of a displaying portion assembly with a mounting device in accordance with this disclosure;

(7) FIG. 5a shows a top view of a vehicle display system in a motor vehicle in accordance with this disclosure; and

(8) FIG. 5b shows a top view of a vehicle display system in a motor vehicle in accordance with this disclosure.

(9) In various embodiments described by reference to the above figures, like reference signs refer to like components in several perspective views and/or configurations.

DETAILED DESCRIPTION

(10) It should be understood that like reference numerals identify corresponding or similar elements throughout the several drawings. It should be understood that although a particular component arrangement is disclosed and illustrated in these exemplary embodiments, other arrangements could also benefit from the teachings of this disclosure.

(11) Hereinafter term processor used herein may broadly encompass a general-purpose processor, a central processor (CPU), a microprocessor, a digital signal processor (DSP), a controller, a microcontroller, a state machine, and so forth. Under some circumstances, a processor may refer to an application specific integrated circuit (ASIC), a programmable logic device (PLD), a field programmable gate array (FPGA), etc. The term processor may refer to a combination of processing devices, e.g., a combination of a DSP and a microprocessor, a plurality of microprocessors, one or more microprocessors in conjunction with a DSP core, or any other such configuration. The processor may include a memory, for loading a sequence of instruction, causing the processor to perform steps of actions. The term memory should be interpreted broadly to encompass any electronic component capable of storing electronic information. The term memory may refer to various types of processor-readable media such as random access memory (RAM), read-only memory (ROM), non-volatile random access memory (NVRAM), programmable read-only memory (PROM), erasable programmable read only memory (EPROM), electrically erasable PROM (EEPROM), flash memory, magnetic or optical data storage, registers, etc. Memory is said to be in electronic communication with a processor if the processor can read information from and/or write information to the memory. Memory that is integral to a processor is in electronic communication with the processor. Henceforth, the term processor may also be taken to encompass system on chip (SoC) which uses a single integrated circuit (IC) chip that contains multiple resources, computational units, processors and/or cores integrated on a single substrate. A single SOC may contain circuitry for digital, analog, mixed-signal, and radio-frequency functions, as well as any number of general purpose and/or specialized processors (digital signal processors, modem processors, video processors, etc.), memory blocks (e.g., ROM, RAM, Flash, etc.). Unless otherwise specifically stated, the processor is not limited to any specific combination of hardware circuitry and software, nor to any particular source for the instructions executed by the processor.

(12) Referring to FIG. 1 which shows a block diagram of a dual-viewing mode display system 100 in accordance with this disclosure, the system 100 may comprise at at least one displaying portion 102 and a processor 104 having a memory 110. The memory 110 may include a set of instructions stored thereon, of which the set of instructions may be retrievable from the memory 110 and cause a sequence of steps to be executed.

(13) In some embodiments, the system 100 may include at least a second displaying portion 102, the at least a second displaying portion 102 may further include the illumination unit 112 as described above.

(14) In some embodiment, the at least a first displaying portion 102 and the at least a second displaying portion 102 may be operable by one processor 104 having a memory 110. In some embodiment an auxiliary processor similar to processor 104 may be required.

(15) The at least one display 102 may further comprises at least one illumination unit 112. The at least one illumination unit 112 may further comprise a plurality of micro fin structures 108, the plurality of micro fin structures configured to provide a wide viewing mode and a narrow viewing mode. The viewing mode is achieve by reflecting light rays propagating or supplied by a light source 106. In some embodiment, the light source 106 may be a matrix backlight unit, with multiple light sources, each of the light sources operable by a controller or processor, to switch on and/or switch off independently, to achieve local dimming effect.

(16) In some embodiment, the plurality of micro fin structures 108 may be made of material having optical properties. In some embodiment, the plurality of micro fin structures 108 may an optical film with micro fin structures operable to reflect light rays supplied by the plurality of light sources 106. As shown in FIG. 2 is an illumination unit 112 in accordance with this disclosure, as described above. In both embodiments as discussed above, the plurality of plurality of micro fin structures 108 are integrated with the plurality of light sources 106 or the matrix backlight unit to provide a single piece of illumination unit 112.

(17) Each of the fin structure 110, 110, 110 is configured to reflect light rays from the light source 106 towards a display layer, of which display contents are shown in an active displaying zone for viewing when the light rays propagate through the display layer.

(18) In some embodiment, the plurality of micro fins structures may be a wide-angle arrangement to reflect light rays supplied by the at least one illumination unit 112, 112 to provide the wide viewing mode. In some embodiment, a narrow angle arrangement to reflect light rays supplied by the at least one illumination unit 112, 112 to provide the narrow viewing mode.

(19) For the narrow angle arrangement, each of the plurality of micro fin structures 110, 110, 110 may be arranged to tilt between 10 degrees to 49 degrees along an axis, A, to provide the narrow angle arrangement.

(20) For the wide-angle arrangement, each of the plurality of micro fin structures 110, 110, 110 may be configured to tilt substantially between 50 degrees to 70 degrees along an axis, A, to provide the wide-angle arrangement.

(21) FIG. 3 shows an exploded view of a displaying portion apparatus 116 in accordance with this disclosure. The at least one displaying portion 102, 102 may include a backlight unit comprising multiple light sources as shown in FIG. 3, with a plurality of micro fin structure 108 displaced adjacent to the light source 106. In some embodiment, the at least one displaying portion 102, 102 may further include an auxiliary light source 118 with multiple light sources, each of the light sources operable by a controller or processor. A suitable auxiliary light source 118 may be an edge-lit backlight unit operable to supply light rays from a length of the display apparatus, through a display layer 114.

(22) In some embodiment, the at least a first displaying portion 102 may be one as disclosed herein and at least a second displaying portion may be a conventional display apparatus, without the plurality of micro fin structure 108.

(23) FIG. 4a shows an exploded view of a displaying portion assembly 120 with a mounting device in accordance with this disclosure.

(24) The displaying portion assembly 120 comprises a displaying portion apparatus 116 such as one shown in FIG. 3, a circuitry 124, rotating means 130. The rotating means 130 may be mounted on a surface 132 of a mounting means. Optionally, the displaying portion assembly 120 may further include a cover glass 122 for covering the displaying portion apparatus 116, a rotating means 126, such as a motor, and a cover 128 for covering the rotating means. The rotating means 130 is operable to rotate the displaying portion assembly 120 about a rotation axis, B, thus changing a position of the displaying portion apparatus 116. A human user 134 be able to view contents displayed on the displaying portion when the displaying portion apparatus 116 is in operation.

(25) FIG. 5a shows a top view of a vehicle display system 200 in a motor vehicle 202. As shown in FIG. 5A, the vehicle display system 200 may comprises at least one displaying portion 102 and at least a second displaying portion 102. The at least one displaying portion 102, 102 may be mounted to at least a portion of a surface of a cockpit of a motor vehicle. In some embodiment, at least one displaying portion 102 is mounted on to at least a portion of a surface 132 of a cockpit of a motor vehicle 202. The surface 204 may be a cockpit of a motor vehicle 202. Referring to FIG. 5a, the at least one displaying portion 102, 102 is at a public mode position, with the displaying portion facing vehicle occupant 206, 206. The vehicle occupant 206, 206 may be a vehicle operator, a co-vehicle operator, and/or a front motor vehicle passenger. In some embodiment, when at public mode position, the at least one displaying portion has a viewing angle between 20 degrees to 80 degrees. In some embodiment, when at public mode position, the at least one displaying portion has a viewing angle at 50 degrees.

(26) In some embodiment, the at least one displaying portion 102, 102 may be mounted to a central portion of a cockpit of a motor vehicle 202, the central portion relative to a width, W, of the motor vehicle 202.

(27) The vehicle display system 200 may further comprises a processor such as one described in FIG. 1. The processor 104 may be operable to kinematically change a position of the at least one displaying portion 102, 102 about a rotation axis, B, as shown in FIG. 4b of the accompanying drawings illustrating a top view of the displaying portion assembly 120. In response to the kinematically changed position, the at least one displaying portion 102, 102 switches between a public mode position to display public mode contents to a private mode position to display private mode contents as shown in FIG. 5b.

(28) The kinematic motion of the at least one displaying portion 102, 102 may be controlled by the processor 104 to automate the change of position between a public mode position and a private mode position. In some embodiment, the processor 104 may be operable to rotate about the at least one displaying portion 102, 102 about the rotation axis, B, between 10 degrees to 40 degrees. In some embodiment, the processor 104 may be operable to rotate about the at least one displaying portion 102, 102 about the rotation axis, B, between 15 degrees to 35 degrees. In some embodiment, the processor 104 is operable to rotate about the at least one displaying portion 102, 102 about the rotation axis at 20 degrees. As already explained above, the system 200 may further comprising at least a second displaying portion 102, 102. The at least a second displaying portion 102, 102 may be displaced adjacent to the at least one displaying portion 102, 102 as shown in both FIG. 5a and FIG. 5b.

(29) In some embodiment, the processor 104 may be operable to kinematically change position of the at least one displaying portion 102, 102 to the private mode position and switch the at least one displaying portion 102, 102 to the private mode display content.

(30) In some embodiment, the processor 104 may be operable to kinematically change position of the at least one displaying portion 102, 102 to private mode position. The processor 104 may be further operable to switch the at least one displaying portion 102, 102 to the private mode display content and switch to the at least a second displaying portion 102, 102 to the private mode display content public mode position.

(31) In all of the embodiments, in response to the at least one displaying portion 102, 102 switching to a public mode position. The processor 104 may be operable to cause the at least one displaying portion 102, 102 to display public mode contents. The public mode contents may comprise a welcome note, motor vehicle operating information, and/or digital decorative content.

(32) In all of the embodiments, in response to the at least one displaying portion 102, 102 switching to a private mode position, the processor 104 may be operable to cause the at least one displaying portion 102, 102 to display private mode contents. The private mode contents may comprise entertainment or multi-media content such as gaming content and/or video streaming, for example television broadcast.

(33) As can be seen from the above description and the accompanying drawings, when the at least one displaying portion 102, 102 is switched from a public mode position displaying contents for all vehicle occupants to a private mode position displaying entertainment or multi-media content, only public mode contents will be displayed to the vehicle operator, while the co-vehicle operator or front vehicle passenger may enjoy entertainment or multi-media content without distracting the vehicle operator. The crosstalk between the at least one displaying portion 102 and the at least a second displaying portion 102 is at one percent or less than one percent of light rays.

(34) The foregoing description shall be interpreted as illustrative and not be limited thereto. One of ordinary skill in the art would understand that certain modifications may come within the scope of this disclosure. Although the different non-limiting embodiments are illustrated as having specific components or steps, the embodiments of this disclosure are not limited to those combinations. Some of the components or features from any of the non-limiting embodiments may be used in combination with features or components from any of the other non-limiting embodiments. For these reasons, the appended claims should be studied to determine the true scope and content of this disclosure.