Abstract: Overhead lift units are disclosed. In one embodiment, an overhead lift unit includes a carriage having wheels engageable with a rail, a lift frame coupled to the carriage such that the lift frame is suspended from the carriage, and a pair of load beams. The lift frame includes a lift strap extending from the lift frame and a pair of connection points extending from the lift frame. Each load beam of the pair of load beams is attached to one connection point of the pair of connection points of the lift frame at an inferior end of the load beam. Each load beam of the pair of load beams is attached to the carriage at a superior end of the load beam. And each load beam of the pair of load beams comprises a strain gauge operable to register a weight supported on the lift strap.

Abstract: The invention relates to a safety link for use in lifting, winching, towing or securing apparatus or similar. The safety link including, a first connection point, a second connection point, and an indicator means positioned substantially between and associated with the first connection point and the second connection point. If an overload force is applied, the forces between the first connection point and the second connection point cause a change in the indicator means, whereby the change indicates the overload to the user so safety checks may be conducted. The invention also relates to a method of use.

Abstract: A force sensor device for determination of a measurement value of a force and generation of an electrical signal based on the measurement value includes a force ring with a force application surface and a support surface for support of a circuit board, on which passive and active electronic components are arranged. The circuit board is mechanically or adhesively fixated on the support surface. At least one force transducer is electrically connected with the circuit board, and arranged and configured at the force ring in such a way that deformations of the force ring, as a result of an axial force applied on the force ring, are measured. A housing lid is connected with the force ring, so that the force ring and the housing lid enclose the circuit board and the force transducer. Also provided is an external connection for picking up an electrical signal.

Abstract: A load suspension and weighing system for a removable reservoir unit of a portable dialysis machine includes a centrally located flexure assembly. The flexure assembly includes magnets and a number of flexure rings which allow for movement of the magnets about a fixed circuit board. Sensors in the circuit board sense changes in the magnetic field as the magnets move in relation to the circuit board. The magnetic field changes produce a voltage output which is used by a processor to generate weight calculations. The top of the flexure assembly is attached to the interior of the dialysis machine. The entirety of the reservoir unit is suspended by a first internal frame that is attached to the bottom of the flexure assembly. Having a single flexure assembly positioned above the reservoir unit provides more accurate weight measurements while also preventing damage to the assembly from water spillage.

Abstract: A force sensor that detects external force includes a sheath, a pressure member configured to be provided on the sheath, a sensor unit configured to detect force applied to the pressure member, and a slip ring unit configured to supply power or transmit signals through a contact between a brush and a ring. The sensor unit and the slip ring unit are stored in the sheath, and power is supplied or signals are transmitted between the slip ring unit and the sensor unit.

Abstract: A WIM (weigh-in-motion) sensor has an oblong hollow profile and includes two force-transmission plates arranged parallel to each other. A tube is arranged between the plates and is integrally formed with the plates and defines a hollow space. Two supports that are arranged opposite one another are formed inside the hollow space, each support extending away from a respective plate and between which a measuring element is received centrally in the tube under preload. The tube includes two tube segments designed to be mirror-symmetrical with respect to each other, which join the plates together and on the inside adjoin the hollow space. The wall thickness of each tube segment has a relatively thick region between at least two relatively thin regions.

Abstract: A force sensor that detects external force includes a sheath, a pressure member configured to be provided on the sheath, a sensor unit configured to detect force applied to the pressure member, and a slip ring unit configured to supply power or transmit signals through a contact between a brush and a ring. The sensor unit and the slip ring unit are stored in the sheath, and power is supplied or signals are transmitted between the slip ring unit and the sensor unit.

Abstract: A linear body drive device capable of safely and reliably operating a linear body is provided. A linear body insertion device includes a drive portion, an operation portion, a sensor portion and a processing portion serving as a measurement portion, and an output portion serving as a notification portion. The drive portion drives a linear body having flexibility. The operation portion includes an input member (an operation lever) operated by an operator for controlling performance of the drive portion. The sensor portion included in the measurement portion detects compressive force in a direction of longitudinal axis applied to the linear body, based on a degree of bending of the linear body driven by the drive portion. The output portion provides notification of data of compressive force detected by the measurement portion.

Abstract: A force sensor that detects external force includes a sheath, a pressure member configured to be provided on the sheath, a sensor unit configured to detect force applied to the pressure member, and a slip ring unit configured to supply power or transmit signals through a contact between a brush and a ring. The sensor unit and the slip ring unit are stored in the sheath, and power is supplied or signals are transmitted between the slip ring unit and the sensor unit.

Abstract: A force-measuring ring includes an annular housing which contains at least one piezoelectric measuring element, and a pressure transmission element which is attached to the housing via inner and outer circular-annular membrane areas. The inner and outer membrane areas of the force measuring ring are situated on opposite sides of a symmetry plane defined by the at least one piezoelectric measuring element.

Abstract: A method and a device for contactless determination of forces and/or moments acting on a hollow cylindrical body (12), in which via a light source (20; 38; 40), light radiation is produced within the hollow cylindrical body (12); measurement signals are recorded by an optoelectronic sensor (22; 34); the measurement signals recorded by the optoelectronic sensor (22; 34) are supplied to the signal processing unit (26); the signal processing unit (26) detects and outputs changes of the measurement signals relative to an initial state determined beforehand by calibration, corresponding to the initial undeformed state of the hollow cylindrical body (12); and when a mechanical deformation of the hollow cylindrical body (12) is present, according to a calibration function or a calculation rule, the signal processing unit (26) outputs an output signal that describes the forces and/or moments that are causing the mechanical deformation of the hollow cylindrical body (12).

Abstract: The invention relates to a method for monitoring the state of a safety bearing (14) of a machine (12), wherein the safety bearing (14) catches a rotor shaft (1) of the machine (12) in case of failure of a magnetic bearing (6) of the machine (12), wherein the safety bearing (14) has an outer ring (3) and an inner ring (2) that is arranged rotatably in relation to the outer ring (3), wherein the magnetic bearing (6) is switched off, wherein the rotor shaft (1) is rotationally moved with a defined course of movement, wherein a physical variable (G) of the safety bearing (14) is measured by means of a sensor (5). The invention further relates to a corresponding machine. The invention allows for monitoring the state of a safety bearing (14) installed in a machine (12).

Abstract: A force-measuring ring includes an annular housing which contains at least one piezoelectric measuring element, and a pressure transmission element which is attached to the housing via inner and outer circular-annular membrane areas. The inner and outer membrane areas of the force-measuring ring are situated on opposite sides of a symmetry plane defined by the at least one piezoelectric measuring element.

Abstract: A shear sensor includes a stator structure, a transformer, and a ferromagnetic core. The stator structure distorts in two perpendicular axes upon application thereto of a shear force. The transformer is coupled to the stator structure, and includes a primary winding and a pair of differentially wound secondary windings. The ferromagnetic core is non-rotationally coupled to the stator structure and is at least partially surrounded by the primary and secondary windings. The core is spaced apart from the transformer stator poles to define an air gap between the core and the stator poles. The air gap varies in the two perpendicular axes upon application of the shear force to the stator structure.

Abstract: Load-bearing devices, each including an overload indicator of the present invention interconnecting load bearing connectors, preferably elongated load bearing connectors are provided. In preferred embodiments, the load bearing connectors are chains, ropes, wire ropes, cables, straps and the like, preferably chain. The wire form overload indicator preferably includes a modified wire form link, preferably either a modified welded link or a modified quick link, generally having a first thickness and first and second elongated sides. The modified link preferably includes two elongated sides, one of which preferably has a portion having a diminished thickness narrower than the first thickness. The diminished thickness preferably has a generally predetermined load bearing capacity or capability and is calibrated to reduce the load bearing capacity or capability of the overload indicator.

Abstract: Standard attachment fittings for wire rope and chain (WR&C) that are enhanced to also perform load weighing functions in lifting/support or pulling assembly applications. The existing unmodified shape of each typical WR&C fitting provides focused linear strain under tensile or compression loading at determinable points on the fitting body. Affixing a strain gauge element to any of these points will enable accurate load weight measurement eliminating the need for a separate weigh scale and a “thin section” typically required in load sensors to focus load strain and achieve accurate load weight readings. The invention addresses increased WR&C fitting assembly simplicity, preserved structural integrity, improved assembly compactness, reduced cost, enhanced safety and maintenance of the original application functions of the standard attachment fittings while enhancing the said fittings with weighing function capability.

Abstract: A method of making a golf club includes making a first determination of the location of the effective seam in a shaft and then more precisely locating the seam before attaching a golf club head with the face of the club head facing in a neutral direction.