Patent application number | Description | Published |
20080315060 | Fastening Device for an Internal Rear View Mirror of Motor Vehicles on an Inner Side of a Windshield - A fastening device for an internal rear view mirror of motor vehicles to be installed on an inner side of a windshield contains a holding part which is held in position on the windshield by adhesive bonding, to which holding part is detachably fastened a mirror foot of the internal rear view mirror. In order to obtain a statically precisely defined, highly rigid connection between the holding part and mirror foot, it is provided that the mirror foot, in its mounted operating position, is supported directly on the holding part merely by a six-point support and is fastened to the holding part by a separate retaining device. | 12-25-2008 |
20090015955 | Exterior Rearview Mirror for Vehicles, in Particular Passenger Vehicles - An exterior rearview mirror for vehicles, in particular for passenger vehicles, has a mirror foot which can be fixed on a front door below a vehicle belt line. The vehicle has a door formed of an outer panel which is provided with an opening, and an inner reinforcement. An extremely rigid, play-free and simply configured connection of the mirror foot to the inner reinforcement of the door is obtained in that a lower end region of a supporting part of the mirror foot is guided through the opening in the outer panel and is connected within the door directly to the inner reinforcement of the door via a self-centering mounting and a central fastening screw. | 01-15-2009 |
20090134304 | Fastening system - A system for fastening an exterior mirror to a vehicle door has a reinforcement which is disposed fixedly in the vehicle door. The reinforcement has an insertion channel which receives an exterior mirror foot and a clamping device which can be actuated by at least one screw. A passage opening which is aligned with the insertion channel and is intended for the exterior mirror foot is provided in a door outer skin, and the at least one screw of the clamping device is accessible via an upwardly open door channel of the vehicle door. | 05-28-2009 |
Patent application number | Description | Published |
20080299353 | Methods and compositions for forming patterns with isolated or discrete features using block copolymer materials - Methods of directing the self assembly of block copolymers on chemically patterned surfaces to pattern discrete or isolated features needed for applications including patterning integrated circuit layouts are described. According to various embodiments, these features include lines, t-junctions, bends, spots and jogs. In certain embodiments a uniform field surrounds the discrete feature or features. In certain embodiments, a layer contains two or more distinct regions, the regions differing in one or more of type of feature, size, and/or pitch. An example is an isolated spot at one area of the substrate, and a t-junction at another area of the substrate. These features or regions of features may be separated by unpatterned or uniform fields, or may be adjacent to one another. Applications include masks for nanoscale pattern transfer as well as the fabrication of integrated circuit device structures. | 12-04-2008 |
20090087653 | Fabrication of complex three-dimensional structures based on directed assembly of self-assembling materials on activated two-dimensional templates - Methods of fabricating complex three-dimensional structures on patterned substrates and related compositions are provided. The methods involve depositing on the substrate a block copolymer material that is “mismatched” to the substrate pattern, and then ordering the material to form a complex three-dimensional structure. According to various embodiments, the copolymer material mismatches the substrate pattern in that the symmetry and/or length scale of its bulk morphology differs from that of the pattern. When ordered, a balance between the physics that determines the bulk block copolymer morphology and the physics that determines the substrate surface interfacial interactions results in a thermodynamically stable complex three-dimensional film that varies in a direction perpendicular to the substrate and has a morphology that differs from its bulk morphology. | 04-02-2009 |
20120164392 | METHODS AND COMPOSITIONS FOR FORMING PATTERNS WITH ISOLATED OR DISCRETE FEATURES USING BLOCK COPOLYMER MATERIALS - Methods of directing the self assembly of block copolymers on chemically patterned surfaces to pattern discrete or isolated features needed for applications including patterning integrated circuit layouts are described. According to various embodiments, these features include lines, t-junctions, bends, spots and jogs. In certain embodiments a uniform field surrounds the discrete feature or features. In certain embodiments, a layer contains two or more distinct regions, the regions differing in one or more of type of feature, size, and/or pitch. An example is an isolated spot at one area of the substrate, and a t-junction at another area of the substrate. These features or regions of features may be separated by unpatterned or uniform fields, or may be adjacent to one another. Applications include masks for nanoscale pattern transfer as well as the fabrication of integrated circuit device structures. | 06-28-2012 |
20120189824 | FABRICATION OF COMPLEX THREE-DIMENSIONAL STRUCTURES BASED ON DIRECTED ASSEMBLY OF SELF-ASSEMBLING MATERIALS ON ACTIVATED TWO-DIMENSIONAL TEMPLATES - Methods of fabricating complex three-dimensional structures on patterned substrates and related compositions are provided. The methods involve depositing on the substrate a block copolymer material that is “mismatched” to the substrate pattern, and then ordering the material to form a complex three-dimensional structure. According to various embodiments, the copolymer material mismatches the substrate pattern in that the symmetry and/or length scale of its bulk morphology differs from that of the pattern. When ordered, a balance between the physics that determines the bulk block copolymer morphology and the physics that determines the substrate surface interfacial interactions results in a thermodynamically stable complex three-dimensional film that varies in a direction perpendicular to the substrate and has a morphology that differs from its bulk morphology. | 07-26-2012 |