A mount for a mobile electronic device is configured to secure around a water bottle or similar structural support. The mount includes a magnetic ball sleeve that attaches around a water-bottle allowing the consumer to mount their phone magnetically to the mount. The invention allows one to increase the functionality of their existing tools and in so doing, eliminates the need to carry additional items to achieve the same level of functionality. The mount includes an elongate elastic sleeve with a slot at one end and cooperating fasteners at a second end. The sleeve is configured to cinch about the supporting structural element. A ball and socket are attached to the sleeve. The socket and a device plate are magnetically attracted. The device plate is attached to the mobile electronic device, such that the mobile electronic device may be removably attached to the mount.

The invention relates to a transfer system for transporting objects. It includes a guide rail, which has a light-metal main body and at least one guide element, which is connected to the light-metal main body and has a guide surface. A slide for accommodating at least one object and a bearing, which interacts with the guide element and supports the slide on the guide rail in such a way that the slide can move linearly is also included. The guide rail has at least one magnetic fastening means, which makes it possible to temporarily fasten the guide rail by means of a magnetic clamping device, in particular in order to process the guide surface.

A support structure associated with a nacelle of a wind turbine, wherein the support structure includes a bearing having an outer ring and an inner ring is provided. The bearing is surrounded by a bearing housing and a bearing cover. The bearing cover is coupled to the bearing magnetically. In some embodiments, the bearing cover may be coupled to the outer ring of the bearing by bolting. The thickness of the outer ring of the bearing may be increased to accommodate one or more protrusions. The protrusions are composed of a magnetic material and configured to receive a bearing cover.

The subject of this invention is a laterally unconstrained magnetic joint and application of said joint in tip-tilt and piston-tip-tilt optical mounts. The laterally unconstrained magnetic joint in its basic embodiment comprises two interfacing parts: one having a flat surface interfacing a convex surface of the other, wherein one or both parts are made from permanent magnets that are magnetized along the axis of the joint, and the other of the said parts is made from a ferromagnetic material thus creating magnetic force attraction between the two parts. The resulting lack of lateral mechanical constraint between the two parts of the joint is utilized in tip-tilt mounts by decoupling an adjustor and/or actuator from the payload resulting in a simple, uniform design, while magnetic force provides retention sufficient for a wide variety of applications.

An encoder system mounted on a large diameter bearing, the large diameter bearing having an inner ring and an outer ring, the encoder system providing a tensioning assembly mounted in a pre-machined portion of the inner ring, the tensioning assembly including a first tensioning part having a first machined recess and a first groove, and a second tensioning part having a second groove, the second tensioning part conforming in size and shape to the first recess and disposed within the first machined recess. The tensioning assembly is centered and fixed on to the inner ring. An encoder assembly mounted on the outer ring, the encoder assembly including a first encoder part fixed to the outer ring, and a second encoder part fixed to the first encoder part and aligned in front of the encoder band. A method of assembling an encoder system to a large diameter bearing is also provided.

The current disclosure presents embodiments directed to, among others, a support and/or clamp (60) for receiving a cylindrical element (e.g., a bearing (90)), which can include a base (62), a pair of opposed receiving members (64) projecting from the base (62) and spaced apart from one other to establish a receiving area (66) configured with a size and shape to removably receive at least one of a circular, cylindrical and spherical object therein, and at least one of a detent (24) and magnet (40) arranged within at least a portion of the receiving area (66), the detent (24) and/or magnet (40) configured to at least one of temporarily retain the object within the receiving area (66) and establish a sound associated with the receiving of the object.

A support structure associated with a nacelle of a wind turbine, wherein the support structure includes a bearing having an outer ring and an inner ring is provided. The bearing is surrounded by a bearing housing and a bearing cover. The bearing cover is coupled to the bearing magnetically. In some embodiments, the bearing cover may be coupled to the outer ring of the bearing by bolting. The thickness of the outer ring of the bearing may be increased to accommodate one or more protrusions. The protrusions are composed of a magnetic material and configured to receive a bearing cover.

The subject of this invention is a laterally unconstrained magnetic joint and application of said joint in tip-tilt and piston-tip-tilt optical mounts. The laterally unconstrained magnetic joint in its basic embodiment comprises two interfacing parts: one having a flat surface interfacing a convex surface of the other, wherein one or both parts are made from permanent magnets that are magnetized along the axis of the joint, and the other of the said parts is made from a ferromagnetic material thus creating magnetic force attraction between the two parts. The resulting lack of lateral mechanical constraint between the two parts of the joint is utilized in tip-tilt mounts by decoupling an adjustor and/or actuator from the payload resulting in a simple, uniform design, while magnetic force provides retention sufficient for a wide variety of applications.

A transfer system for transporting objects is disclosed. It includes a guide rail, which has a light-metal main body and at least one guide element, which is connected to the light-metal main body and has a guide surface. A slide for accommodating at least one object and a bearing, which interacts with the guide element and supports the slide on the guide rail in such a way that the slide can move linearly is also included. The guide rail has at least one magnetic fastening means, which makes it possible to temporarily fasten the guide rail by magnetic clamping, in particular in order to process the guide surface.

The current disclosure presents embodiments directed to, among others, a support and/or clamp (60) for receiving a cylindrical element (e.g., a bearing (90)), which can include a base (62), a pair of opposed receiving members (64) projecting from the base (62) and spaced apart from one other to establish a receiving area (66) configured with a size and shape to removably receive at least one of a circular, cylindrical and spherical object therein, and at least one of a detent (24) and magnet (40) arranged within at least a portion of the receiving area (66), the detent (24) and/or magnet (40) configured to at least one of temporarily retain the object within the receiving area (66) and establish a sound associated with the receiving of the object.