Image information from a region of a rectangular flat-panel device is made to appear round or nearly round by routing light from a region of the flat panel display device into the narrow end of a bundle of tapered fiber optic cables. Each cable in the bundle is tapered over its length. The taper effectively causes an image input into the narrow end to be enlarged or magnified at the opposing wider end.

A vehicle display device pointer includes a translucent pointer that has a pointer main body disposed on a front side of a dial plate having a penetration hole and extending along the dial plate, a shaft protruding toward the penetration hole, and a light guide connecting the pointer main body and the shaft; a lightproof first shielding member that covers a proximal end portion of the pointer main body and the light guide from a front side and a lateral side; and a lightproof second shielding member that covers the proximal end portion of the pointer main body and the light guide from the back side. The pointer main body emits light by light emitted from a light source and incident on the shaft, and the second shielding member has protrusions that protrude toward the front side, and close gaps.

A window for a motor vehicle includes an inner glass pane, an outer glass pane, and a first display module having a first light source, a first light guide disposed between the inner glass pane and the outer glass pane and configured to receive light from the first light source, a second light source, and a second light guide disposed between the inner glass pane and the outer glass pane and configured to receive light from the second light source. When the first light source is activated a first signal is displayed through the first light guide, when the second light source is activated a second signal is displayed through the second light guide, and when the first light source and the second light source are activated a third signal is displayed through the first light guide and the second light guide.

A steering wheel includes a gripping portion that is gripped by a driver when a conveyance is steered, a light source that is disposed inside the gripping portion and is configured to emit light, a light guide body that is disposed inside the gripping portion such that an end portion of the light guide body faces the light source, the light guide body including an emission surface that is configured to emit light from the light source and incident on the end portion and that is formed on a surface on a driver side, and a covering portion that surrounds the light guide body and forms an outer layer portion of at least a part of the gripping portion around the light guide body. The covering portion is formed with a hole, through which light emitted from the emission surface passes.

A display screen operable on at least a partial area A in two operating modes, free-viewing mode B1, and restricted-viewing mode B2, with the residual display area of the screen outside the area A maintaining a free viewing mode; comprising a first backlight arranged below the residual display area; a second backlight arranged below the area A; a transmissive image generator in front of the backlights; a plate-shaped transparent light guide arranged between the image generator and the backlights that outcouples, through one of its large surfaces, light coupled in through one of its edges; light sources arranged laterally an edge of the light guide, wherein the light guide is transparent to at least 70% of the light emitted by the backlights, and wherein in the B1 mode, the light sources are switched on, and in the B2 mode, the backlights are on and the light sources are off.

A display device includes a liquid crystal panel providing a display surface where an image is displayed, a backlight emitting light to the liquid crystal panel from behind, a real object placed between the liquid crystal panel and the backlight and visible through the liquid crystal panel, and a controller controlling the liquid crystal panel such that a specific pixel region of the display surface behind which the real object is positioned is higher in light transmittance than another pixel region of the display surface.

A display panel is attached to an appliance that includes first and second light sources, in which one of the first and second light sources is capable of being turned off when the other is turned on. The display panel basically includes a molded body, a front-side decorative layer, and a sheet-like member. The display panel is capable of individually illuminating a plurality of graphics, which is simultaneously molded and decorated, with light passing through a molded resin. In particular, a first graphic is illuminated in a first window by turning on the first light source, while a first back-side light-shielding region and a second front-side light-shielding region prevent a second graphic from being illuminated. The second graphic is illuminated in a second window by turning on the second light source, while a second back-side light-shielding region and a first front-side light-shielding region prevent the first graphic from being illuminated.

A charging port cover and/or fuel cap module for a motor vehicle for receiving or attaching at least one interface, which is used for charging and/or refueling a motor vehicle-side energy accumulator. The charging port cover and/or fuel cap module also serves to fasten at least one device having light sources. The device illuminates both the charging port cover and/or fuel cap module and the current charge level and/or fuel level of the energy accumulator. The cover and/or module has at least one first opening and a second opening adjacent thereto. The openings are oriented such that emitted or deliverable light of the assembled device can emerge from the first opening in the direction of the operator and from the second opening in the direction of the interface for charging and/or refueling the energy accumulator.

The present invention relates to a display gauge, particularly used in a cab of a motor vehicle. The display gauge comprises a display unit and a control unit, the display unit having a stationary warning zone, the control unit being connectable with different types of sensors to receive sensor signals, wherein the display gauge further comprises a coded selector that can be operated by a user, the selector being electrically connected to the control unit to transmit to the control unit a signal indicative of a type of a current sensor signal selected by the user, and the control unit controls display of the display unit according to a value of the current sensor signal, so that a state in which the value of the current sensor signal reaches a warning value range can be displayed through the warning zone regardless of the type of the sensor. The present invention allows to display multiple types of sensor signals by a single display gauge, and to exhibit different functions or sensor signal types with different symbols or icons.

A display includes a light-guide optical element (LOE) (20) and a projector arrangement (10a) for injecting an image into the LOE so as to propagate within the LOE by internal reflection at a pair of major faces. The image is coupled out from the LOE by a coupling-out arrangement, exemplified here as internal partially-reflecting surfaces (22b). The image is coupled out from the LOE in a direction away from the eye of the observer (24b), and a reflector (30) reflects the coupled-out image back through the LOE (32), towards the eye of the observer (26). Reflector (30) is preferably a selective partial reflector, and may be convex to provide a desired apparent image distance.