An electronic grinder powered by a smartphone has an electronics housing removably attached to a container section. The electronics housing has a motor and a microcontroller powered by a smartphone connected by a universal serial bus connector. The container section is sealed at the top by an openable, swivel-mounted cap. The motor has a blade that extends into the container section. The blade connected to the motor by a magnetic connection and the blade is configured to grind material disposed in the container section when the container section is closed.

An electric grinding machine tool comprises a grip body, a grinding disc and a battery, the grip body is arranged with a tool shaft connected with the grinding disc, a driving component capable of rotating the tool shaft when receiving power, and a circuit board electrically connected with the driving component and the battery, and the grip body has a battery mount exposed to an outer surface. The board surface of the circuit board is not perpendicular to the tool shaft, the circuit board and the battery mount are respectively positioned on opposite sides of the tool shaft, and a line passes through the circuit board, the battery mount, and the tool shaft. By changing the position of the circuit board, the height of the grip body is reduced, so that the gravity center of the grip body is reduced to improve stability of a grinding operation.

The invention refers to a functional unit (27) for a hand-guided power tool (1), in particular in the form of a polisher or a sander. The functional unit (27) comprises a base element (28), a first attachment member (29) for releasable attachment of the base element (28) to a motor driven tool shaft (23) of the power tool (1), a working element (11) adapted for working a surface of a workpiece during use of the power tool (1), and a second attachment member (30) for attachment of the working element (11) to the base element (28). In order to provide for a fast and easy replacement of a functional unit (27) against another functional unit (27) it is suggested that the first attachment member (29) is adapted to releasably attach the base element (28) of the functional unit (27) to the tool shaft (23) of the power tool (1) by means of magnetic force.

The invention refers to a functional unit (27) for a hand-guided power tool (1), in particular in the form of a polisher or a sander. The functional unit (27) comprises a base element (28), a first attachment member (29) for releasable attachment of the base element (28) to a motor driven tool shaft (23) of the power tool (1), a working element (11) adapted for working a surface of a workpiece during use of the power tool (1), and a second attachment member (30) for attachment of the working element (11) to the base element (28). In order to provide for a fast and easy replacement of a functional unit (27) against another functional unit (27) it is suggested that the first attachment member (29) is adapted to releasably attach the base element (28) of the functional unit (27) to the tool shaft (23) of the power tool (1) by means of magnetic force.

A grinding machine tool with random eccentric orbital motion speed detection, the grinding machine tool comprises a body and a grinding disc, the body comprises a driving shaft and a tool holder connecting the grinding disc and having an eccentric distance relative to the driving shaft, and the grinding disc performs grinding in a random eccentric orbital motion when the driving shaft rotates. The grinding disc comprises at least one detected member on a side of the grinding disc facing the body for detecting a speed of the random eccentric orbital motion, and the at least one detected member defines a detection area with a range greater than or equal to twice the eccentric distance. Thereby, an accurate speed of the grinding disc performing the random eccentric orbital motion is obtained, so that the grinding operation of precision grinding which is gradually performed by automation is more precisely controlled.

A grinding machine tool with random eccentric orbital motion speed detection, the grinding machine tool comprises a body and a grinding disc, the body comprises a driving shaft and a tool holder connecting the grinding disc and having an eccentric distance relative to the driving shaft, and the grinding disc performs grinding in a random eccentric orbital motion when the driving shaft rotates. The grinding disc comprises at least one detected member on a side of the grinding disc facing the body for detecting a speed of the random eccentric orbital motion, and the at least one detected member defines a detection area with a range greater than or equal to twice the eccentric distance. Thereby, an accurate speed of the grinding disc performing the random eccentric orbital motion is obtained, so that the grinding operation of precision grinding which is gradually performed by automation is more precisely controlled.

In an angle electric power tool 1 in which an output axis P intersects and is orthogonal to a motor axis J, a battery attachment portion 40 is provided to the rear of a grip 30 so as to extend in the rearward direction and a battery pack 50 is configured to be attached to an upper surface of said battery attachment portion 40. Because of this configuration, the battery pack 50 does not directly come into contact with a working surface W, thereby preventing flaws and scratches on the working surface W.

In an angle electric power tool 1 in which an output axis P intersects and is orthogonal to a motor axis J, a battery attachment portion 40 is provided to the rear of a grip 30 so as to extend in the rearward direction and a battery pack 50 is configured to be attached to an upper surface of said battery attachment portion 40. Because of this configuration, the battery pack 50 does not directly come into contact with a working surface W, thereby preventing flaws and scratches on the working surface W.

A handheld pole sander is provided including an elongate body having two ends, the elongate body including a first pole and a second pole made partially of electrically conductive material and capable of sliding in and out of each other in a telescopic manner the first pole and second pole are made from electrically conductive material. An electric motor electrically controlled by control electronics is provided, and a sanding head is attached via a pivot mechanism to a first end of the elongate body. At least one seal is located between overlapping parts of the first pole and second pole. The seal includes an electrically conductive material and provides an electrical connection between the first pole and second pole. Alternatively, at least one electrical contact is provided between the first pole and second pole to provide an electrical connection between the first pole and second pole.

A cooling device for a rotating machine has a fan assembly coupled with a backing plate. A hub, on the backing plate, secures the cooling device with a shaft. The backing plate includes one or more vents to enable air to exit the cooling device. The fan includes an opening to enable air to enter the cooling device. A chamber is formed between the fan assembly and the backing plate. During rotation, air is drawn into the opening. The air is passed into the chamber and exits through the vents to cool a work surface or working pad attached to the backing plate.