The dial structure includes a dial base having an optical transparency, on which a carbon pattern is formed, and an uneven portion formed on a front surface of the dial base. The uneven portion has a convex and concave form representing a convex and concave form of the carbon pattern. A background print layer is formed on a back surface of the dial base excluding a portion to be an indicator portion, and has a color tone of the carbon pattern.

A motor vehicle display device is provided with information on vehicle operating states which can be displayed in an analog and/or digital manner by display elements, wherein in the direction of viewing of the motor vehicle display device, the display elements are disposed at least in two superimposed planes or plane regions. At least one first plane or one first plane region is provided, in which at least one active display element is disposed, and at least one further plane or one further plane region is provided, which is positioned before the first plane or the first plane region in a viewing direction, wherein only passive display elements are disposed therein, with at least one passive display element being disposed there. In this way the motor vehicle display device is given an appearance with a special 3D effect.

A motor vehicle display device is provided with information on vehicle operating states which can be displayed in an analog and/or digital manner by display elements, wherein in the direction of viewing of the motor vehicle display device, the display elements are disposed at least in two superimposed planes or plane regions. At least one first plane or one first plane region is provided, in which at least one active display element is disposed, and at least one further plane or one further plane region is provided, which is positioned before the first plane or the first plane region in a viewing direction, wherein only passive display elements are disposed therein, with at least one passive display element being disposed there. In this way the motor vehicle display device is given an appearance with a special 3D effect.

A dial plate being nonopaque is in a disc shape. A slit member has slits each extending through the slit member in a thickness direction. A light source is located on an opposite side of the slit member from the dial plate. The light source is configured to emit light through the slits of the slit member toward the dial plate to project images on the dial plate.

A dial plate being nonopaque is in a disc shape. A slit member has slits each extending through the slit member in a thickness direction. A light source is located on an opposite side of the slit member from the dial plate. The light source is configured to emit light through the slits of the slit member toward the dial plate to project images on the dial plate.

A drum shell for enhancing the sound and tone qualities of a drum is provided. The drum shell has an outer band, an inner band, and an aerated core interposed therebetween. In one aspect, the core defines a plurality of spaces each providing a sound tube for vibrating air contained within the spaces.

A drum shell for enhancing the sound and tone qualities of a drum is provided. The drum shell has an outer band, an inner band, and an aerated core interposed therebetween. In one aspect, the core defines a plurality of spaces each providing a sound tube for vibrating air contained within the spaces.

A display panel provided with a protective film includes a display panel and the protective film that is provided on a display surface of the display panel, in which the display panel is provided with a first through-hole passing through the display panel in a thickness direction, the protective film includes a first protective film, the first protective film is provided with a second through-hole passing through the first protective film in the thickness direction, the first through-hole and the second through-hole are in communication with each other and form a through-hole, the first protective film includes a first grip portion at a peripheral edge portion of the first protective film, and the first protective film includes a dividing portion that continues from the second through-hole to an end side of the first grip portion.

An IC unit includes a scale increment reading module that is configured to: detect, when an indicator in an instrument rotates, rotation of the indicator, and convert the rotation into rotation data; and an antenna that is configured to transmit the rotation data wirelessly from the IC tag unit to a reader. The instrument includes a scale plate, scale increments on the scale plate remain viewable when the IC tag unit is affixed to the instrument. The instrument includes a transparent cover plate, the IC tag unit is affixed to the transparent cover plate when the IC tag unit is affixed to an instrument. The IC tag unit is calibrated by rotating the IC tag unit until an indicating portion of the indicator overlaps a first pointer on the scale plate.

Methods and systems are provided for adjusting a dynamic scale indicator on a flight display of an aircraft. The method comprises receiving an operational status parameter for the aircraft and generating the dynamic scale indicator located on the flight display of the aircraft. The dynamic scale indicator includes a positive value range that represents operational status parameter values greater than a selected setting value and a negative value range that represents operational status parameter values less than the selected setting value. The operational status parameter is translated into a value that is represented on the dynamic scale indicator. The value ranges shown on the dynamic scale indicator are adjusted by fading the negative value range when the operational status parameter value is positive, fading the positive value range when the operational status parameter value is negative, and fading the value range to the extent that the value range exceeds the operational status parameter value.