The invention comprises a hands-free, adjustable telescoping magnifying mirror. The mirror may have a first reflective surface and a second reflective surface and can be secured to a horizontal or vertical surface using a suction cup base or can be hung over a door or ledge using a retractable hanger bracket. A multi-stage telescoping rod is attached to the suction cup base and a swivel joint may be used to connect the telescoping rod to the mirror housing. The mirror may be extended from the base by extending the telescoping rod and the mirror assembly can stand freely without falling over, whether the suction cup base is engaged or not. Additionally, one or more light sources with diffuser screen may be disposed at a periphery of the first reflective surface or second reflective surface.

The present specification discloses a mirror assembly having an image viewing surface which resists fogging caused by condensation of water vapor on the viewing surface and a fogless mirror system comprising such a mirror assembly and an attachment system as well as methods and uses for such mirror assembly and fogless mirror system.

The present specification discloses a mirror assembly having an image viewing surface which resists fogging caused by condensation of water vapor on the viewing surface and a fogless mirror system comprising such a mirror assembly and an attachment system as well as methods and uses for such mirror assembly and fogless mirror system.

The present invention is directed to improvements in mirror apparatus. In one embodiment, a lighted mirror apparatus is disclosed that comprises a mirror with first and second light assemblies positioned along opposing first and second sides of the mirror, each transmitting light to the center plane along a primary light path. In another embodiment, a lighted mirror apparatus is disclosed that comprises a mirror and a light assembly having a light source mounted to the mirror, the light assembly includes an illumination element that receives light from the light source and emits at least a portion of that light from its front light emitting surface. In a further embodiment, a cabinet apparatus is disclosed having a door that can be raised or lowered and altered between open and closed angular orientations when raised or lowered.

A mirror assembly is configured to hold a communication device and has a mirror with a back panel and an opposite reflective front surface. The reflective front surface vertically extends between a top surface and an opposite bottom surface. An arm is coupled to the back panel and has a first end vertically above the top surface of the mirror. A clamp is coupled to the first end of the arm and configured to hold the communication device vertically above the top surface of the mirror such that the reflective front surface is unobstructed by the arm and the communication device.

A mirror assembly can include a housing, a mirror, and a light source. In certain embodiments, the mirror is rotatable within a support portion of the mirror assembly. In some embodiments, the mirror assembly includes a light pipe configured to emit a substantially constant amount of light along a periphery of the mirror. In some embodiments, the mirror assembly includes a sensor assembly. The sensor assembly can be configured to adjust the amount of emitted light based on the position of a user in relation to the mirror.

A mirror assembly can include a housing, a mirror, and a light source. In certain embodiments, the mirror is rotatable within a support portion of the mirror assembly. In some embodiments, the mirror assembly includes a light pipe configured to emit a substantially constant amount of light along a periphery of the mirror. In some embodiments, the mirror assembly includes a sensor assembly. The sensor assembly can be configured to adjust the amount of emitted light based on the position of a user in relation to the mirror.

The invention comprises a hands-free, adjustable telescoping magnifying mirror. The mirror may have a first reflective surface and a second reflective surface and can be secured to a horizontal or vertical surface using a suction cup base or can be hung over a door or ledge using a retractable hanger bracket. A multi-stage telescoping rod is attached to the suction cup base and a swivel joint may be used to connect the telescoping rod to the mirror housing. The mirror may be extended from the base by extending the telescoping rod and the mirror assembly can stand freely without falling over, whether the suction cup base is engaged or not. Additionally, one or more light sources with diffuser screen may be disposed at a periphery of the first reflective surface or second reflective surface.

The present invention involves the use a mirror for vanities, such as maintenance of personal care. The mirror includes an arm attaching it to a base member, a flexible arm attaching the base member with a light source, and a base extension attaching to the base member. A user of the mirror of the present invention is able to adaptively light surfaces, such as the face or scalp, to better maintain their personal image.

A mirror assembly can include a housing, a mirror, and a light source. In some embodiments, the mirror comprises one or more adjustable sections. In certain embodiments, the mirror includes a light column configured to emit a substantially constant amount of light along a periphery of a mirror section. In some embodiments, the light column can produce various color temperatures. In some embodiments, the mirror assembly comprises a capacitive touch sensor that allows control of one or more features of the light emitted from the light source. In some embodiments, the mirror assembly includes a sensor assembly. The sensor assembly can be configured control on/off settings and other features of the emitted light.