A clamp apparatus includes a mounting module, a clamp module, and an actuator. The clamp module includes two facing arms and a cam clamped between the two arms. Each arm is rotatably mounted to the mounting module and has a clamp end. The clamp module is configured to have a clamped configuration in which each clamp end is engaged with the object and an open configuration in which the object is free from each of the clamp ends, and further configured to operate between the clamped configuration and the open configuration. The actuator is configured to drive the cam thereby imparting motive force to the two arms during the operation between the clamped configuration and the open configuration.

A clamp apparatus includes a mounting module, a clamp module, and an actuator. The clamp module includes two facing arms and a cam clamped between the two arms. Each arm is rotatably mounted to the mounting module and has a clamp end. The clamp module is configured to have a clamped configuration in which each clamp end is engaged with the object and an open configuration in which the object is free from each of the clamp ends, and further configured to operate between the clamped configuration and the open configuration. The actuator is configured to drive the cam thereby imparting motive force to the two arms during the operation between the clamped configuration and the open configuration.

A method for tightening a screw for fastening a construction panel to a support of the construction panel, in which the fastening screw is screwed through the construction panel and then through at least part of the support, includes a monitoring of a change over time of a tightening torque of the fastening screw, with determination of a first maximum torque value and then of a second minimum torque value, and after determination of the second minimum torque value, a stoppage of the tightening of the fastening screw for a torque value, termed stoppage value, corresponding to a third maximum torque value or being determined after an occurrence of a third maximum torque value.

A hydraulic tensioning apparatus for tensioning a threaded member (2) having a thread, comprising: a hydraulic tensioner (1), having a body (4) and a pressure space (13) for hydraulic fluid and having a thread engaging member (7) arranged to engage the thread of the threaded member (2) and to be urged away from the body (4) on introduction of hydraulic fluid into the pressure space (13) so as to tension the threaded member (2); a displacement sensor (11, 12) arranged to measure a linear displacement of the thread engaging member (7) relative to the base (4) and to provide an output indicative of the linear displacement; a rotation sensor (65, 66) arranged to determine a rotation of a nut (3) rotating on the threaded member (2) and arranged to produce output indicative of a rotation angle of the nut (3); and a control unit (80) arranged to take as inputs the outputs of the displacement sensor (11, 12) and the rotation sensor (65, 66), and to determine from the output of the displacement sensor (11, 12) a required angle of rotation of the nut (3) which accommodates for extension of the threaded member (2) due to being tensioned by the hydraulic tensioner (1).

A self-attaching fastener includes a substantially polyhedral head portion defining a longitudinal axis. The head portion is circumscribable by a first cylinder having a head diameter. The first cylinder is coaxial to the longitudinal axis. A central pilot portion substantially defines a pilot polyhedron extending from the head portion along the longitudinal axis. The central pilot portion is circumscribable by a second cylinder having a pilot diameter smaller than the head diameter. The second cylinder is coaxial to the longitudinal axis. The central pilot portion has a perimetric wall with rectangular faces of the pilot polyhedron. The rectangular faces are defined in respective planes that are parallel to the longitudinal axis. A planar panel support surface is defined on the head portion. The planar panel support surface defines a closed substantially polygonal planar margin at a perimeter of the planar panel support surface.

A tightening device for a wind turbine configured to fasten and/or tighten a plurality of fastening means to a fastening target object, wherein the fastening means are arranged in a fastening means circle is provided. The tightening device includes a center bearing unit for allowing the rotation of the tightening device about a center axis, a torque unit for applying torque on the fastening means to fasten and/or tighten the fastening means to the fastening target object, and a first arm extending in a radial direction from the center bearing unit and supporting the torque unit.

A machine for making screwdriver bit sockets includes a feeing unit and a rotary unit located beside the feeding unit. The rotary unit includes a feeding area, a put-in area, a pressing area and a ready area. The rotary unit includes a disk rotatably connected to a base. Multiple holding units are connected to the disk and moved to one of the feeding area, the put-in area, the pressing area and the ready area when the disk rotates. A feeding arm is located beside the pick-up area and the feeding area to move the sockets from the pick-up area to the holding units. A pressing unit located above the pressing area to press a screwdriver to a socket. A pick-up arm picks up the sockets from the holding units. A control unit electrically controls the rotary unit, the feeding arm, the pressing unit and the pick-up arm.

A machine for making screwdriver bit sockets includes a feeing unit and a rotary unit located beside the feeding unit. The rotary unit includes a feeding area, a put-in area, a pressing area and a ready area. The rotary unit includes a disk rotatably connected to a base. Multiple holding units are connected to the disk and moved to one of the feeding area, the put-in area, the pressing area and the ready area when the disk rotates. A feeding arm is located beside the pick-up area and the feeding area to move the sockets from the pick-up area to the holding units. A pressing unit located above the pressing area to press a screwdriver to a socket. A pick-up arm picks up the sockets from the holding units. A control unit electrically controls the rotary unit, the feeding arm, the pressing unit and the pick-up arm.

A fastener delivery apparatus includes a nose assembly to releasably hold a fastener. The nose assembly includes a plurality of balls or rollers and associated biasing members to provide a biasing force which biases the balls or rollers such that they engage with the fastener. Each biasing member exerts force in a first direction and an associated ball or roller moves in a second direction which is different from the first direction. A force transfer surface is provided between the ball or roller and the biasing member, the force transfer surface acting to convert at least a component of the force exerted by the biasing member in the first direction into force exerted on the balls or rollers in the second direction.

A torque wrench is disclosed for use in rotating a range of different sized fasteners. The torque wrench may include an input end configured to receive a torsional input, and a gear train operatively driven to rotate by the torsional input. The torque wrench may also include an adjustable adapter connected to the gear train at an output end and configured to adjustably engage the range of different sized fasteners, and a housing configured to enclose the gear train and the adjustable adapter.