An orbital sander includes a housing, a motor within housing, the motor including a motor shaft defining a motor axis, an eccentric drive unit coupled to the motor shaft to convert rotation of the motor shaft to an orbit motion around the motor axis, a battery receptacle for receiving a battery pack, a backing pad coupled to the eccentric drive unit for orbital motion about the motor axis, and a dust collection assembly adjacent the backing pad for directing dust away from the backing pad. The orbital sander, including the housing, the motor, the eccentric drive unit, the battery receptacle, the backing pad, and the dust collection assembly, defines a center of gravity CG.sub.ROS located on a first side of the motor axis adjacent the battery receptacle. The dust collection assembly defines a center of gravity CG.sub.DCA on a second side of the motor axis opposite the first side.

A sanding tool includes a machine body, a power supply, a base plate assembly, a drive mechanism, and a control mechanism. The machine body includes a casing. The base plate assembly includes a base plate. The drive mechanism is disposed in the casing and includes a motor and an output shaft, the motor has a motor shaft rotating around a first axis, the output shaft rotates around a second axis, and the output shaft transmits power to the base plate assembly. The control mechanism is electrically connected to the motor and configured to control the sanding tool to operate. The first axis and the second axis form an included angle and are not in the same plane. A battery pack and the motor are disposed on two sides of the output shaft.

A random orbit sander includes a housing having a motor housing portion and a handle portion extending from the motor housing portion, a motor disposed within the motor housing portion, a random orbit mechanism driven by the motor and having an output shaft, a backing pad removably engaged with the output shaft; and a spindle lock assembly adjacent the backing pad, wherein the spindle lock assembly includes a support ring and a wrench rotatably disposed on the support ring between a stowed position, in which the wrench is disengaged from a nut on the output shaft, and a deployed position, in which the wrench is engaged with the nut to lock rotation of the output shaft.

A random orbit sander includes a housing having a motor housing portion and a handle portion extending from the motor housing portion, a motor disposed within the motor housing portion, a random orbit mechanism driven by the motor and having an output shaft, a backing pad removably engaged with the output shaft; and a spindle lock assembly adjacent the backing pad, wherein the spindle lock assembly includes a support ring and a wrench rotatably disposed on the support ring between a stowed position, in which the wrench is disengaged from a nut on the output shaft, and a deployed position, in which the wrench is engaged with the nut to lock rotation of the output shaft.

A sander is provided and includes a housing, a power supply, a motor, a switch, and a switch actuation mechanism. The housing extends from a proximal end to a distal end and includes a first convex upper surface having a surface area A1. The power supply is coupled to the distal end of the housing. The motor is disposed within the housing and is powered by the power supply to drive an output member. The switch is in electrical communication with the power supply and is operable to selectively power the motor. The switch actuation mechanism is pivotably coupled to the proximal end of the housing and operable to actuate the switch. The switch actuation mechanism includes a second convex upper surface having a surface area A2.

A sander is provided and includes a housing, a power supply, a motor, a switch, and a switch actuation mechanism. The housing extends from a proximal end to a distal end and includes a first convex upper surface having a surface area A1. The power supply is coupled to the distal end of the housing. The motor is disposed within the housing and is powered by the power supply to drive an output member. The switch is in electrical communication with the power supply and is operable to selectively power the motor. The switch actuation mechanism is pivotably coupled to the proximal end of the housing and operable to actuate the switch. The switch actuation mechanism includes a second convex upper surface having a surface area A2.

A cutting tool mechanism 11 for providing a cutting, abrading or grinding action is disclosed. The mechanism 11 has an inner circular part 17 having teeth 19 extending radially outwardly, a surrounding circular part 25 having inner teeth 27 extending radially inwardly. The circular parts 17 and 25 co-operate by engagement their teeth 19 and 27. Rotation of one circular part causes the other to move constrained by the engagement of the teeth in an orbital, oscillatory or impact motion. An input coupling 81 is provided for transmission of rotary motion, and an output coupling 37 is provided to transmit said orbital, oscillatory or impact motion to a blade 13. In further embodiments, the surrounding circular part 25 can be provided with outwardly extending teeth and surrounded by a further outer circular part with inwardly extending teeth, to cooperate with the outwardly extending teeth, to provide more complex orbital, oscillatory or impact motion.

A cutting tool mechanism 11 for providing a cutting, abrading or grinding action is disclosed. The mechanism 11 has an inner circular part 17 having teeth 19 extending radially outwardly, a surrounding circular part 25 having inner teeth 27 extending radially inwardly. The circular parts 17 and 25 co-operate by engagement their teeth 19 and 27. Rotation of one circular part causes the other to move constrained by the engagement of the teeth in an orbital, oscillatory or impact motion. An input coupling 81 is provided for transmission of rotary motion, and an output coupling 37 is provided to transmit said orbital, oscillatory or impact motion to a blade 13. In further embodiments, the surrounding circular part 25 can be provided with outwardly extending teeth and surrounded by a further outer circular part with inwardly extending teeth, to cooperate with the outwardly extending teeth, to provide more complex orbital, oscillatory or impact motion.

A sander is provided and includes a housing, a power supply, a motor, a switch, and a switch actuation mechanism. The housing extends from a proximal end to a distal end and includes a first convex upper surface having a surface area A1. The power supply is coupled to the distal end of the housing. The motor is disposed within the housing and is powered by the power supply to drive an output member. The switch is in electrical communication with the power supply and is operable to selectively power the motor. The switch actuation mechanism is pivotably coupled to the proximal end of the housing and operable to actuate the switch. The switch actuation mechanism includes a second convex upper surface having a surface area A2.

A sander is provided and includes a housing, a power supply, a motor, a switch, and a switch actuation mechanism. The housing extends from a proximal end to a distal end and includes a first convex upper surface having a surface area A1. The power supply is coupled to the distal end of the housing. The motor is disposed within the housing and is powered by the power supply to drive an output member. The switch is in electrical communication with the power supply and is operable to selectively power the motor. The switch actuation mechanism is pivotably coupled to the proximal end of the housing and operable to actuate the switch. The switch actuation mechanism includes a second convex upper surface having a surface area A2.