Patent ID: 7856693
Filing Date: 2010-12-28
Classification: B60R,B60S

Abstract:
1. A self-cleaning vehicle mirror system for removing water, snow and debris from a surface of the vehicle mirror while the user remains positioned within an interior of the vehicle, said self-cleaning vehicle mirror system comprising: a rigid mounting bracket provided with axially opposed first and second ends respectively, said bracket being provided with monolithically formed first, second, and third sections respectively; a plurality of coupling plates integrally attached to said first and second ends of said bracket respectively; a substantially rectangular shaped frame pivotally connected to said third section of said bracket; a mirror attached directly to said frame; means for remotely cleaning said mirror, said means being attached to said frame; wherein said third section of said bracket is located intermediate of said respective first and second sections of said bracket and equidistantly offset from said coupling plates, said third section further having a longitudinal length oriented perpendicular to respective longitudinal lengths of each of said respective first and second sections, said longitudinal length of said third section being greater than said respective longitudinal lengths of said first and second sections respectively while said respective longitudinal lengths of said first and second sections are equal; wherein each of said coupling plates comprises: a substantially square-shaped and planar base member, said base member being provided with upper and lower surfaces respectively; a plurality of threaded apertures formed in opposed corners of said base member and penetrating therethrough, each of said apertures having a centrally registered axis oriented perpendicular to said upper surface of said base member; a hollow cylindrical tube integrally attached to said upper surface of said base member, said tube being located in a center region of said base member and extending outwardly and away therefrom, said tube having a longitudinal length registered parallel to said centrally registered axis of each of said apertures of said base member, said tube having a diameter that is greater than a diameter of said first and second ends of said bracket respectively such that said respective first and second ends of said bracket statically interfit within an associated one of said tubes during operating conditions; wherein said tubes prohibit said respective first and second ends of said bracket from prematurely and undesirably separating from said tubes during operating conditions; wherein said frame comprises: a planar base having a rear wall and an open front face; said base including monolithically formed first, second, third, and fourth walls, said walls being located along an outer perimeter of said base and extending away from said base such that a compartment is formed therebetween; a plurality of linear slots monolithically formed in said first and second walls respectively, said first and second walls being located at opposed longitudinal ends of said base and further having respective longitudinal lengths registered parallel with each other, each of said slots having a longitudinal length registered parallel to said rear wall of said base, each of said slots having a longitudinal length that is less than a lateral width of said base; a plurality of anchors monolithically formed in said rear wall of said base and extending outwardly therefrom, each of said anchors having a central opening formed therein, each of said anchors having a centrally registered axis oriented parallel with a longitudinal length of said base, each of said anchors being attached to said rear wall of said base at a lateral midpoint thereof, each of said anchors being disposed adjacent to said respective opposed ends of said base and spaced from each other; wherein said third section of said bracket is pivotally interfitted within each of said anchors such that said third section penetrates said anchors simultaneously and independently during operating conditions; wherein said base is pivotal about said third section along a fulcrum axis defined along said longitudinal length of said base and about said lateral midpoint of said base; wherein said mirror interfits within said open front face of said frame, said mirror having an outer perimeter statically abutted against inner surfaces of each of said first, second, third, and fourth walls respectively, said mirror being spaced from said base such that a hollow chamber is formed within a region defined between said mirror and said first, second, third, and fourth walls and said base respectively; wherein said self-cleaning means comprises: a reversible power motor housed within said hollow chamber, said motor being directly attached to said inner surface of said fourth wall; first and second gear wheels, each of said gear wheels having outer circumferences formed in a saw tooth pattern, said first gear wheel being directly and rotatably attached to a bottom end of said motor, said first gear wheel having a bottom surface registered perpendicular to said inner surface of said fourth wall, said second gear wheel being directly and rotatably attached to said inner surface of said third wall and oppositely spaced from said first gear wheel; a flexible cable looped about each of said first and second gear wheels simultaneously, said cable having a longitudinal length registered parallel to said respective longitudinal lengths of said first and second walls during operating conditions, said cable having an inner surface formed in a saw tooth pattern such that said saw tooth pattern of said cable interfits within said respective saw tooth patterns of each of said first and second gear wheels respectively during operating conditions in such a manner that a rotational force applied to said first gear wheel via said motor is transferred to said second gear wheel via said cable; a squeegee including: a planar blade provided with axially opposed upper and lower ends respectively, said blade having a longitudinal length registered parallel with said longitudinal length of said base, said longitudinal length of said blade being equal to said longitudinal length of said base, each of said respective upper and lower ends having a hole monolithically formed therein, each of said holes having a longitudinal length registered parallel with said longitudinal length of said blade, said blade contacting an outer surface of said mirror; a driven rod provided with axially opposed first and second ends respectively, said rod simultaneously penetrating through said slots of said first and second walls respectively, said first end of said rod being removably attached directly to said upper end of said blade while said second end of said rod is removably attached directly to said lower end of said blade during operating conditions, said rod having a longitudinal axis oriented parallel to said longitudinal length of said blade, said cable being directly attached to a medial portion of said rod and spaced from said blade; wherein said cable moves said rod along a bi-directional linear path defined by said first and second slots such that said blade is alternately pushed and pulled along a major portion of said outer surface of said mirror during operating conditions; a switch electrically coupled to said motor, said switch being located within the interior portion of the existing vehicle such that the user can actuate said system from the interior of the existing vehicle; and wherein said motor is electrically coupled to said switch and an existing power source of the vehicle respectively.