The embodiments of the Remote Video Inspection System comprise a remote video inspection hardware assembly and a video inspection software system. The remote video inspection hardware assembly is comprised of a camera and a stage assembly. The stage assembly is comprised of a horizontal gimbal, an outer gimbal, and an inner gimbal, a base plate, and a component table. The video inspection software system is comprised of both a local and remote component. The local component is operated by a technician who oversees the remote inspection, and allows for setup, manual positioning, and manual camera adjustment. The remote component is operated by an inspector, and provides video feed to them, as well as a system to control the viewing angle and position of the component/camera.
F16M 11/12 - Moyens pour la fixation des appareilsMoyens permettant le réglage des appareils par rapport au banc permettant la rotation dans plus d'une direction
H04N 23/66 - Commande à distance de caméras ou de parties de caméra, p. ex. par des dispositifs de commande à distance
H04N 23/54 - Montage de tubes analyseurs, de capteurs d'images électroniques, de bobines de déviation ou de focalisation
H04N 23/69 - Commande de moyens permettant de modifier l'angle du champ de vision, p. ex. des objectifs de zoom optique ou un zoom électronique
H04N 23/661 - Transmission des signaux de commande de la caméra par le biais de réseaux, p. ex. la commande via Internet
The embodiments of the embodiments of the Nanostructure Lithium Ion Battery are comprised of a multi-layer coaxial assembly formed over a cylindrical core. The multilayers are each comprised of sublayers in order as follows: a copper sublayer with nano “chicken wire” embedded in the copper sublayer for current collection, a nanostructured aluminum substrate sublayer, a nanostructured cathode sublayer, an electrolyte sublayer, a nanostructured anode sublayer, and a copper interlayer sublayer. The nanobatteries are arranged in layered stacks of nanocells. The nanocells stacks are comprised of a plurality of individual octagonal shaped multilayer nanocells. Each nanocell stack is electrically connected to an array of other nanocells stacks via electrode contacts. A lower copper bus serves as the anode current collector and an upper copper bus serves as the cathode current collector. Pass-throughs connect to the appropriate cathode layers in the multilayer nanocell stacks.
C23C 14/22 - Revêtement par évaporation sous vide, pulvérisation cathodique ou implantation d'ions du matériau composant le revêtement caractérisé par le procédé de revêtement
H01M 10/0525 - Batteries du type "rocking chair" ou "fauteuil à bascule", p. ex. batteries à insertion ou intercalation de lithium dans les deux électrodesBatteries à l'ion lithium
A lightweight electronic rack system is disclosed, comprising inner and outer chassis; one or more top and bottom vibration isolators and fasteners for affixing the vibration isolators to the chassis, the inner and outer chassis are comprised of subcomponents manufactured from carbon fiber-reinforced polymer, and are assembled by mating the appropriate components via an adhesive means. These structural reinforcing components strengthen the outer and inner chassis to accommodate stress modes that the components experience and to provide surfaces to which adhesives can be applied to assemble the outer and inner chassis, wherein the stress modes comprise elongational, compression, flexural and torsional stresses of various frequencies and amplitudes. The structural reinforcing components are attached to the inside of the assemblies and are comprised of hollow tubes manufactured from CFRP. The cross-sectional geometries of the hollow CFRP tubes are circular, square, triangular or rectangular.
A lightweight electronic rack system is disclosed, comprising inner and outer chassis; one or more top and bottom vibration isolators and fasteners for affixing the vibration isolators to the chassis, the inner and outer chassis are comprised of subcomponents manufactured from carbon fiber-reinforced polymer, and are assembled by mating the appropriate components via an adhesive means. These structural reinforcing components strengthen the outer and inner chassis to accommodate stress modes that the components experience and to provide surfaces to which adhesives can be applied to assemble the outer and inner chassis, wherein the stress modes comprise elongational, compression, flexural and torsional stresses of various frequencies and amplitudes. The structural reinforcing components are attached to the inside of the assemblies and are comprised of hollow tubes manufactured from CFRP. The cross-sectional geometries of the hollow CFRP tubes are circular, square, triangular or rectangular.
The embodiments of the instant invention comprise a lightweight, robust electronic rack enclosure. The embodiments are comprised of an outer chassis, an inner chassis, bottom vibration isolators, and top vibration isolators. The outer chassis is comprised of an outer chassis door, two outer chassis side assemblies, an outer chassis top panel, an outer chassis bottom panel, and an outer chassis back panel. The inner chassis is comprised of two inner chassis side assemblies, an inner chassis top panel, and an inner chassis bottom panel. Each outer chassis side assembly is comprised of a flat outer chassis side panel, one or more diagonal reinforcing members, one or more horizontal reinforcing members, and one or more vertical reinforcing members. Each inner chassis side assembly is comprised of an inner chassis flat side panel, and one or more inner chassis side panel horizontal supports.
A47B 47/05 - Meubles à tiroirs, étagères ou rayonnages caractérisés par la possibilité de les démonter ou de les monter à partir d'éléments séparés principalement en bois ou en matière plastique avec des panneaux à carcasse séparée, p. ex. une carcasse métallique
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