A fuel type identifying gas cap that is configured to being operably coupled to an opening of a gas can and provide identification of the fuel type and a fuel to oil ratio of the fuel disposed in the gas can. The present invention includes a body wherein the body includes a top portion. The top portion includes an inner dial member being configured to display the fuel to oil ratio of the fuel disposed in the gas can. An outer dial member is present and is configured to display the fuel type, specifically indicating the octane level. A center portion is present in the body that is releasably secured thereto. The center portion is configured to display the month and year of the fuel deposit into the gas can. Additionally, the center portion is releasably secured in order to facilitate an operable coupling with a spout.

A transparent display device using rotation-based persistence of vision includes: an opaque display unit that displays first images; a transparent display unit that includes image display bars, which are positioned outside the opaque display unit and on each of which a plurality of light emitting elements are mounted, and a display bar driving unit which rotates the image display bars, the transparent display unit displaying second images which are viewed to overlap the first images by persistence of vision based on rotation of the image display bars; and a display casing that accommodates both the opaque and transparent display units in a state where the transparent display unit is positioned outside the opaque display unit, the display casing having a sight window through which the first images and the second images are viewed at a preset region.

A transparent display device using rotation-based persistence of vision includes: an opaque display unit that displays first images; a transparent display unit that includes image display bars, which are positioned outside the opaque display unit and on each of which a plurality of light emitting elements are mounted, and a display bar driving unit which rotates the image display bars, the transparent display unit displaying second images which are viewed to overlap the first images by persistence of vision based on rotation of the image display bars; and a display casing that accommodates both the opaque and transparent display units in a state where the transparent display unit is positioned outside the opaque display unit, the display casing having a sight window through which the first images and the second images are viewed at a preset region.

An article of clothing wear indicator and/or use counter for tracking the number of times an article of clothing has been worn. The clothing wear tracker includes an intermediate portion or body, an upper portion or body, and a lower portion or body. Preferably, the clothing wear tracker is configured to allow both the upper portion or body and the lower portion or body to rotate about the intermediate portion or body independently. The clothing wear tracker is designed to fit or secure to a hanger and to provide a mechanism for tracking the number of times a user wears an article of clothing, such as a shirt, a blouse, pants, or a dress, and is easily attachable or securable to a clothing hanger.

This disclosure describes a sign having a reconfigurable display face. In one example, the sign includes a sign body having a first display face and an opposed face, and a rotatable display member connected to the sign body and having a second display face. The reconfigurable display face includes the first display face and the second display face, and the display member is reconfigurable between a plurality of display orientations by rotation about a rotation axis.

A self-rotating display device (1) includes and outer light transmissive container (2) containing a light transmissive fluid (6) and a body (4) containing an electric motor (14) for rotating the body with respect to the outer container. The body also carries a compass magnet (18) as a source of counter-torque for the motor to operate against. A magnetic positioning structure (20) made of ferromagnetic material secured to the container interacts with the magnetic field of the compass magnet to cause the body to migrate toward a location minimizing the distance between the magnetic positioning structure and compass magnet, so that the body can remain centered within the display while rotating.

A self-rotating display device (1) includes and outer light transmissive container (2) containing a light transmissive fluid (6) and a body (4) containing an electric motor (14) for rotating the body with respect to the outer container. The body also carries a compass magnet (18) as a source of counter-torque for the motor to operate against. A magnetic positioning structure (20) made of ferromagnetic material secured to the container interacts with the magnetic field of the compass magnet to cause the body to migrate toward a location minimizing the distance between the magnetic positioning structure and compass magnet, so that the body can remain centered within the display while rotating.

A self-rotating display device (1) includes and outer light transmissive container (2) containing a light transmissive fluid (6) and a body (4) containing an electric motor (14) for rotating the body with respect to the outer container. The body also carries a compass magnet (18) as a source of counter-torque for the motor to operate against. A magnetic positioning structure (20) made of ferromagnetic material secured to the container interacts with the magnetic field of the compass magnet to cause the body to migrate toward a location minimizing the distance between the magnetic positioning structure and compass magnet, so that the body can remain centered within the display while rotating.

A self-rotating display device (1) includes and outer light transmissive container (2) containing a light transmissive fluid (6) and a body (4) containing an electric motor (14) for rotating the body with respect to the outer container. The body also carries a compass magnet (18) as a source of counter-torque for the motor to operate against. A magnetic positioning structure (20) made of ferromagnetic material secured to the container interacts with the magnetic field of the compass magnet to cause the body to migrate toward a location minimizing the distance between the magnetic positioning structure and compass magnet, so that the body can remain centered within the display while rotating.

This disclosure describes a sign having a reconfigurable display face. In one example, the sign includes a sign body having a first display face and an opposed face, and a rotatable display member connected to the sign body and having a second display face. The reconfigurable display face includes the first display face and the second display face, and the display member is reconfigurable between a plurality of display orientations by rotation about a rotation axis.