A dust hood for a grinding device equipped with a transmission extension housing for attaching the dust hood, the dust hood comprising a hood body for covering a circular grinding disk and comprising a skirt running around a periphery (U) of the hood body for at least partially sealing the hood body in relation to a surface (UG) which is to be machined by means of the grinding disk, and comprising a suction connection via which removed surface material can be suctioned from the hood body. The dust hood has an adjusting ring, by means of which the hood body can be adjusted relative to the transmission extension housing and/or to the adjusting ring, preferably in an axial direction (A) with respect to the rotational axis (R) of the grinding disk.

An abrasive disc for use with a sanding tool having a plurality of dust collection holes includes a hole pattern consisting of six openings arranged for substantial alignment with the dust collection holes provided in the sanding tool.

A long rod polishing device includes a prismatic or columnar battery, a battery mounting portion, an electric motor, a pad, and a rod portion. The battery is mountable to the battery mounting portion. The electric motor is driven by an electric power from the battery. The pad has a polishing surface and moves by a driving force from the electric motor. The rod portion has an end portion to which the pad is coupled. The battery mounted to the battery mounting portion has a longest side. The longest side has a direction so as to form an angle with respect to a second imaginary straight line. The second imaginary straight line is perpendicular to both of a center axis of the rod portion and a first imaginary straight line. The first imaginary straight line is perpendicular to the center axis and parallel to the polishing surface of the pad.

A random orbit sander includes a housing and a motor enclosed within the housing. The motor includes a motor shaft that is rotatable about a first axis. An eccentric carrier coupled to the motor shaft includes a circular internal bore that defines a second axis that is offset from the motor shaft. A bearing is received within the circular internal bore of the eccentric carrier. A sanding pad is supported by the bearing and is rotatable about the first axis in an eccentrically orbiting manner. The motor shaft and the eccentric carrier are integrally formed as a single piece.

A hand-held machine tool having a, in particular rod-shaped, handle element for an operator to grasp and having a machining head, which is movably mounted on the handle element by means of a joint assembly and which has an electric drive motor for driving a tool holder for holding a machining tool, wherein a bottom side of the handle element and a machining side of the machining head face a workpiece in a base position of the machining head, wherein the joint assembly is connected to the machining head in an articulated-connection region of the machining head, wherein a flexible suction hose for conducting a suction flow from the machining head to the handle element extends between the handle element and the machining head, which suction hose is fastened to an end region of the handle element by means of a first hose end and to a suction connection of the machining head by means of a second hose end.

A sander includes an airflow element rotatable about a central axis along a preset direction of rotation to generate a dust removal airflow; an electric motor for providing a power source for the airflow element; and a battery pack for providing an energy source for the electric motor. When the sander is in a load-free state, the working duration of the sander when the battery pack consumes 10 WH of energy is defined as the functional time T of the sander; and the product of the load-free rotational speed N of the electric motor and the functional time T of the sander is greater than or equal to 63000 rpm.Math.min and less than or equal to 120000 rpm.Math.min.

A sliding ring for a grinding device consisting of a grinding element and a hood covering the grinding element and a sliding ring attachable to the side of the hood facing a surface to be machined, the sliding ring having a sliding surface provided for sliding on the surface to be machined, the sliding ring consisting of at least one elastic component and a sliding component, the sliding surface being formed on the sliding component and the elastic component being arranged on the side of the sliding component opposite the sliding surface.

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.

Systems and apparatus are provided for polishing and grinding glass, stone, or other hard surfaces safely and cleanly. The apparatus presented comprises a mounting plate to be mounted to a rotary grinder, a cowl which may be easily attached to and removed from the mounting plate, and which comprises components to enable safe polishing and grinding of hard surfaces by capturing particulates produced by the grinding. A user may use the apparatus to clean and/or polish hard surfaces without creating a difficult-to-clean and dusty work environment, offering benefits to cleanliness, efficiency of work, and health and safety. The present invention solves problems with the currently available systems and apparatuses for polishing and grinding glass, stone, or other hard surfaces.

In an embodiment, a system includes a tool that includes an exhaust port and a vacuum. The vacuum also includes an exhaust intake port configured to couple to the exhaust port of the tool. The exhaust intake port may be configured to receive exhaust from the exhaust port. The vacuum includes a vacuum intake port, a vacuum exhaust port opposed to the vacuum intake port, and a mixing chamber between the vacuum intake port and the vacuum exhaust port. The vacuum intake port, the vacuum exhaust port, and the mixing chamber may all be on a same centerline.