Disclosed a screw tightening angle conversion head, including a conversion head body, wherein one end of which is fixedly provided with a mounting groove, a fixed cover plate is fixedly arranged at the upper end of the mounting groove, a transmission worm is rotatably arranged at one end inside the conversion head body close to the mounting groove, one end of the transmission worm penetrates through the conversion head body and extends out from an outer end, a rotating seat is fixedly arranged at a rotational junction between the transmission worm and the inside of the conversion head body, annular worm teeth are fixedly arranged at the outer side of the transmission worm, a rotating shaft is rotatably arranged at one end inside the conversion head body away from the transmission worm, and the outer wall of the rotating shaft is fixedly connected with an intermediate gear.

A hand tool for driving a fastener is provided. The hand tool includes gearing that interconnects a splined socket to a rotatable or trigger actuator and increases a rotational speed of the splined socket relative to the actuator. The hand tool may include a power tool receiver 38 or an independent motor to drive rotation of the splined socket to advance or retract a fastener from a threaded shaft. By increasing the speed and conserving rotational inertia, the hand tool reduces the time to secure a fastener on a threaded shaft. A rotatable nut is provided. The rotatable nut can slideably orient along a first axis and threadedly orient along a second axis to fasten to an adjacent surface.

A hand tool for driving a fastener is provided. The hand tool includes gearing that interconnects a splined socket to a rotatable or trigger actuator and increases a rotational speed of the splined socket relative to the actuator. The hand tool may include a power tool receiver 38 or an independent motor to drive rotation of the splined socket to advance or retract a fastener from a threaded shaft. By increasing the speed and conserving rotational inertia, the hand tool reduces the time to secure a fastener on a threaded shaft. A rotatable nut is provided. The rotatable nut can slideably orient along a first axis and threadedly orient along a second axis to fasten to an adjacent surface.

A hand tool for driving a fastener is provided. The hand tool includes gearing that interconnects a splined socket to a rotatable or trigger actuator and increases a rotational speed of the splined socket relative to the actuator. The hand tool may include a power tool receiver or an independent motor to drive rotation of the splined socket to advance or retract a fastener from a threaded shaft. By increasing the speed and conserving rotational inertia, the hand tool reduces the time to secure a fastener on a threaded shaft. A rotatable nut is provided. The rotatable nut can slideably orient along a first axis and threadedly orient along a second axis to fasten to an adjacent surface.

A hand tool for driving a fastener is provided. The hand tool includes gearing that interconnects a splined socket to a rotatable or trigger actuator and increases a rotational speed of the splined socket relative to the actuator. The hand tool may include a power tool receiver or an independent motor to drive rotation of the splined socket to advance or retract a fastener from a threaded shaft. By increasing the speed and conserving rotational inertia, the hand tool reduces the time to secure a fastener on a threaded shaft. A rotatable nut is provided. The rotatable nut can slideably orient along a first axis and threadedly orient along a second axis to fasten to an adjacent surface.

A wrench includes a main rod, a rotating rod and a head portion. One end of the rotating rod is fixed to the main rod. The head portion includes an accommodating element, a sleeve mount, a driven gear and a driving gear. The accommodating element has a side opening. A periphery of the side opening extends outward to form an engaging portion. The main rod is rotatably mounted through the engaging portion. The sleeve mount is rotatably mounted in the accommodating element. The driven gear is fixed to the sleeve mount and is located in the accommodating element. The driving gear is fixed to the rotating rod and engaged with the driven gear. The sleeve mount is driven to tighten or loosen a nut by rotating the main rod to reduce an operating space for the wrench.

A wrench includes a main rod, a rotating rod and a head portion. One end of the rotating rod is fixed to the main rod. The head portion includes an accommodating element, a sleeve mount, a driven gear and a driving gear. The accommodating element has a side opening. A periphery of the side opening extends outward to form an engaging portion. The main rod is rotatably mounted through the engaging portion. The sleeve mount is rotatably mounted in the accommodating element. The driven gear is fixed to the sleeve mount and is located in the accommodating element. The driving gear is fixed to the rotating rod and engaged with the driven gear. The sleeve mount is driven to tighten or loosen a nut by rotating the main rod to reduce an operating space for the wrench.

A tool assembly designed to couple to a torsion spring and torsion rod to wind and unwind the torsion spring on the torsion rod. The tool assembly includes a variety of components in mechanical communication with one other to rotate the torsion spring. Specifically, the assembly includes a worm gear in mechanical communication with a ring gear and a set of brackets securable to a torsion spring. Between the ring gear and the brackets are a series of plates arranged and assembled on a base, providing a singular device within the assembly that a user can grip to manipulate a torsion spring in a safer manner than possible in the prior art. A drill or other device can couple to attachment points in mechanical communication with the worm gear to rotate the worm gear at a greater rate, thereby reducing the winding and unwinding time of the torsion spring.

A torque capacity expandable device and method for a torque multiplier are introduced. The device includes a connection sleeve and a torque multiplier. The connection sleeve, fitted to a torque wrench and the torque multiplier and fastened, has a force-applied end corresponding in dimensions to a force-applying end of the torque wrench and has another end corresponding in dimensions to the force-applied end of the torque multiplier. An integral fastening mechanism is integrally fitted to or formed with each of the two ends of the torque multiplier. Its force-applied end fastening mechanism has the same dimensions as the force-applying end fastening mechanism of connection sleeve. Its force-applying end fastening mechanism has the same dimensions as the force-applied end fastening mechanism of a reaction arm disposed at the force-applying end fastening mechanism of torque multiplier.

A torque capacity expandable device and method for a torque multiplier are introduced. The device includes a connection sleeve and a torque multiplier. The connection sleeve, fitted to a torque wrench and the torque multiplier and fastened, has a force-applied end corresponding in dimensions to a force-applying end of the torque wrench and has another end corresponding in dimensions to the force-applied end of the torque multiplier. An integral fastening mechanism is integrally fitted to or formed with each of the two ends of the torque multiplier. Its force-applied end fastening mechanism has the same dimensions as the force-applying end fastening mechanism of connection sleeve. Its force-applying end fastening mechanism has the same dimensions as the force-applied end fastening mechanism of a reaction arm disposed at the force-applying end fastening mechanism of torque multiplier.