A display is provided for an aerosol-generating device, the display including: a notification window; and a nano-photonic material extending over a front surface of the notification window, the nano-photonic material being configured to, in response to a light wave comprising at least one predetermined wavelength backlighting the notification window and being incident on the nano-photonic material, increase an amplitude of the at least one predetermined wavelength and emit therefrom a light wave comprising the at least one predetermined wavelength with the increased amplitude. An aerosol-generating device including the display is also provided.

A control knob includes a control rod assembly including a base plate, a control rod, and an electronic circuit board, a display connected to receive an electrical signal from the electronic circuit board and including a display front face that displays a device status, a knob including a knob aperture wall, and a cover mounted between the knob and the base plate and including a cover sidewall that mounts to the base plate, a cover front wall mounted to the cover sidewall to cover an interior of the cover sidewall, and a display aperture wall formed in a portion of the cover sidewall and a portion of the cover front wall. The display aperture wall allows insertion of the display housing. The control rod assembly, the display, and the cover rotate with the knob when the knob is rotated. The display front face is visible through the knob aperture wall.

The present disclosure relates to the technical field of rotary screen, and provides a rotary screen device and a method for controlling the rotary screen device. The rotary screen device includes a transparent window, a display panel, a panel support frame, a rotating housing, a main board, and a base, the main board is provided with a Hall sensor, a magnet, and a roller. The rotary screen device of the present disclosure is compact, easy to operate, and responsive.

There is described a motor vehicle control device (10) for an interior space of a motor vehicle, comprising a trim (12) and a printed circuit board (34), wherein the trim (12) comprises a control surface (14) on which at least one switching symbol (16) to be actuated is shown, which can be backlit by a light source, wherein the light source is associated to a light duct (22) which leads to the control surface (14), wherein the light emitted by the light source (44, 60) extends along the light duct (22) and backlights the at least one switching symbol (16) to be actuated. Furthermore, there is described a method for manufacturing a motor vehicle control device (10).

The invention is an illumination system for a logo (20) on the front of an electronic device (1) such as a set top box. The logo (20) is part of a light pipe (23) and the logo (20) is illuminated by projecting light on the front surface (24) of the light pipe (23). The front surface (24) is textured or tinted to evenly distribute the light to a viewer. The light source (11) for illuminating the logo (20) is positioned at an entrance end of the light pipe (23) as shown in the figure. The shape of the light pipe (23) is substantially uniform throughout the length of the light pipe (23) and the shape is substantially the shape of the logo (20). The light pipe (23) can have a cut away region near the front surface to create localized lighting contrasts.

A control device includes a plurality of buttons having a backlight or indicia indicating a function of the buttons. Each button has a button body that is translucent and configured to be backlit by a lighting element. A front surface of the button body is opaque outside of the area of the indicia. The button body has a post that extends from a rear surface of the button body and is aligned with an actuator. Selection of a button by a user, such as by pressing the button, results in the selected button displaying a greater illumination intensity than the other buttons.

Disclosed are a switch display apparatus and an assembling method thereof. The apparatus includes a display unit (1), a support unit (2), and a base unit (3) that are arranged sequentially from top to bottom. The display unit (1) includes a display device (4), a combined lens (5), and a display device and combined lens support component (6). The combined lens (5) is located above the display device (4). Both the display device (4) and the combined lens (5) are located inside the display device and combined lens support component (6). The display device and combined lens support component (6) includes a first support part (9) used for providing structural support for the combined lens (5), and a second support part (10) used for providing structural support for the display device (4).

The control device includes a button having a backlit indicium (or indicia) indicating a function of the button. The button may comprise a button body that is translucent and configured to be backlit by a lighting element. A front surface of the button body may be opaque outside of the area of the indicium (or indicia). The button body may have a post that extends from a rear surface of the button body and is aligned with an actuator. The control device may have a plurality of such buttons. Selection of a button by a user, such as by pressing the button, results in the selected button displaying a greater illumination intensity than a button that is not selected.

A miniature backlight kit includes a covering member, a light-shading element, a light guide element, a housing and a light-emitting unit. The light-emitting unit is disposed within a first concave structure of the light-shading element. The light-shading element is disposed within a second concave structure of the light guide element. The light guide element is covered by the lateral wall of the housing. The light-emitting unit emits a light beam. The light beam is reflected to the lateral wall of the housing by the light guide element. Consequently, a luminance gradient region is formed on the surface of the lateral wall of the housing.

A veneer may be configured to be secured to a backlit button of a control device. A plate portion of the veneer may have one or more indicia machined therethrough. The indicia may define an open portion, a floating portion, and one or more ribs that suspend the floating portion. The one or more ribs may be configured to create an optical illusion that conceals the ribs from view relative to a user of the control device. The rib may define an upper surface that is recessed relative to a front surface of the veneer, and may define opposed sides that extend from a base of the rib to the upper surface. The sides may be tapered between the base and the upper surface, such that the upper surface is narrower than the base. The sides and the upper surface of the rib may be unfinished.