A hand tool device has a tool spindle and a hammer mechanism which includes a hammer and at least one curve guide driving the hammer at least during a hammer drilling operation. The tool spindle has at least one bearing surface on which the hammer is movably supported in at least one operating state.

A tool bit assembly can include a housing comprising a channel at least partially extending into the housing, one or more interacting features in the channel, and a shaft configured to fit within a drill chuck to allow a drill to turn the shaft. The shaft can be at least partially disposed within the channel to rotate and slide relative to the housing. The shaft can include a striking structure configured to interact with the one or more interacting features in the channel to cause the housing to actuate linearly relative to the shaft if the shaft is rotated relative to the housing and the striking structure is positioned to interact with the one or more interacting features.

In order to provide an impact tool which is capable of increasing a striking force in a rotational direction of being applied from a hammer to an anvil, the impact tool includes: an electric motor; an anvil which supports a work tool and is driven by the electric motor; and a hammer which applies the striking force in the rotational direction to the anvil. The impact tool is provided with: a spindle which is arranged to be concentric with the anvil, supports the hammer to be movable in an axial direction and the rotational direction with respect to the anvil, and transmits motive power of the electric motor to the anvil; and a control unit which controls rotation speed of the electric motor. The number of strokes of the anvil due to one rotation of the hammer differs in response to rotation speed of the electric motor.

A hand-held power tool device is described which includes an output unit, a striker, and a rotary percussion receiver which is designed for establishing a transfer of rotary percussions between the striker and the output unit, at least during a rotary percussion operation. It is provided that the hand-held power tool device includes a rotary percussion switch-off device which is designed for interrupting the transfer of rotary percussions from the striker to the rotary percussion receiver, at least during a hammer percussion operation.

According to one implementation, a tool driving device includes a drill chuck, a motor, a casing and a vibrating mechanism. The drill chuck holds a drill. The motor is configured to rotate the drill chuck. The casing houses the motor. The vibrating mechanism is configured to periodically reciprocate the drill chuck relatively to the casing in a tool axis direction during rotation of the drill chuck. The vibrating mechanism is configured to distance the drill chuck from the casing at a first speed smaller than a second speed for bringing the drill chuck close to the casing.

A rotary hammer includes a motor, a spindle coupled to the motor for receiving torque, a piston received within the spindle for reciprocation, a striker received within the spindle for reciprocation in response to reciprocation of the piston, and an anvil received within the spindle and positioned between the striker and the tool bit. The anvil imparts axial impacts to the tool bit in response to reciprocation of the striker. A reciprocation mechanism is coupled to the motor to reciprocate the piston along a reciprocation axis. The reciprocation mechanism includes a camshaft fixedly coupled to the piston, a cam groove in the camshaft, a cam ball received by the cam groove, and a rotatable hub on which the cam ball is carried. The rotatable hub is configured to receive torque from the motor and reciprocate the camshaft in response to relative rotation between the cam ball and the camshaft.

The rotary torque boosting device includes a main body with an inertia flange to be assembled or made as one piece structure with the main body, an input member having an input recess for receiving the anvil of the impact wrench, an output recess for receiving a detachable driving anvil made to accommodate the impact socket with the same driving head type and dimension which to be secured with a retaining device for easy replacement, such as a magnet unit adhered at the bottom of the recess or an inner retaining groove by the side for receiving the ball retainer or a retaining ring on the driving anvil. The rotary torque boosting device will solve the drawback of the prior art especially the driving anvil will not be held durable enough under the magnified torque induced by the inertia effect during operation.

A power tool includes a motor housing and a motor supported within the motor housing. The motor includes an output shaft defining an axis. The power tool also includes a bearing configured to support the output shaft for rotation about the axis, an end cap removably coupled to the motor housing, and a bearing retainer integrally formed with the end cap. The bearing retainer is configured to axially and radially secure the bearing to the end cap.

A handheld tool apparatus comprising a spindle blocking apparatus and a torque limiting unit that includes at least one limiting spring and a stop arrangement that is supported movably against the limiting spring. It is provided that the stop arrangement of the torque limiting unit nonrotatably secure a wedging arrangement of the spindle blocking apparatus.

An electric hammer comprising an electric motor, a spindle coupled to the electric motor and adapted to be driven by the electric motor, an impacting member adapted to be coupled to the spindle and driven by the spindle, and a direction changing device adapted to be coupled with the impacting member. The direction changing device changes the direction of movement of the impacting member such that the kinetic energy of the impacting member is provided to an energy storage device for accumulation after the change in the direction of movement. The energy storage device is adapted to return the accumulated energy to the impacting member such that the latter generates an impacting force to an output member.