An apparatus for abrading a surface is provided. The apparatus includes: a framework with a motor housed therein; a chassis housing a drivetrain, the drivetrain including a drive pulley operative connected to the motor, a plurality of tool assembly pulleys, a belt operatively connecting the drive pulley and the plurality of tool assembly pulleys; a plurality of tool assemblies operatively connected to the drive pulley and the plurality of tool assembly pulleys, each tool assembly including: a tool holder, a tool plate comprising a tool segment with an abrading surface, wherein the tool holder and tool plate are detachably connected by a plurality of equidistantly spaced pins, wherein the number of pins is a multiple of three.

An electric tool grinding machine with static electricity dissipation, the electric tool grinding machine includes a machine tool body, a motor disposed in the machine tool body, a power supply unit disposed in the machine tool body and connected to the motor, a grinding disc rotating with the motor, and a dust collecting element facing the grinding disc and assembled with the machine tool body. The power supply unit includes a power ground wire. The machine tool body includes a charge conducting element contacting the dust collecting element, and the charge conducting element is electrically connected to the power ground wire by one of the following: direct connection and indirect connection, when an electrostatic charge is generated on the dust collecting element, the charge conducting element conducts the electrostatic charge to the power ground wire.

A hand-held power tool includes a housing unit which has at least one handle housing and a drive housing which is coupled to the handle housing, and a central web on a surface of an upper side of the drive housing, and raised relative to the surface.

A material collection device for a machine tool, in particular for a sanding machine, includes at least one filter element, having a support element arranged in a mounted state within the filter element for clamping the filter element and having a, in particular rigid, filter protective cover, which has at least one air outlet opening. The filter element is arranged in the filter protective cover in the mounted state.

The present invention provides a sander vacuum nozzle attachment also known as a dust wing adapter that captures dust while sanding by attaching to a sander and a vacuum system. It comprises of a hollow body with a central intake aperture that attaches to the dust bag mount of the sander and an outlet aperture that attaches to the suction hose of the vacuum system. The device also features a pair of wings that are placed adjacent to the sanding head and to the work surface, each wing has multiple wing intake apertures which allow dust to be drawn into the hollow body by the vacuum system. The design is efficient and compatible with orbital sander and mouse sander, and the shop vac is used as vacuum system.

A device for automatically removing a grinding wheel from a grinding machine mounted on a manipulator is described. According to one embodiment, the device has the following: a support plate with a surface for depositing a grinding wheel; a movable clamping element that is raised in a first position with respect to the support plate; an actuator that is coupled to the clamping element and is configured to move the clamping element into a second position in which the clamping element is pressed against the support plate such that the grinding wheel is clamped between the support plate and clamping element; and a release element that is arranged in such a way relative to the support plate that the release element is actuated when the grinding wheel is placed on the surface of the support plate and is pressed against the latter. The release element and the actuator are coupled (directly or indirectly, electrically or mechanically) such that, when the release element is actuated, the actuator moves the clamping element from the first position into the second position.

The present disclosure provides for a skate sharpening system comprising an operative unit and a base, the operative unit comprising a central body, the central body comprising a skate receiving slot, a skate clamp being positioned adjacent to the skate receiving slot such that a skate can be secured within the skate receiving slot for a sharpening operation, the operative unit further comprising a grinding unit, the grinding unit being configured to translate along a length of the slot such that the grinding unit can conduct the sharpening operation on the skate that is secured within the skate receiving slot, the operative unit being positioned over at least a portion of the base, the base comprising a swarf-receiving cavity, the operative unit and the base being pivotably connected.

A rotary sanding system for retro fitting a Rotozip sanding disk to an air tool includes a first disk that may be removably coupled to an air tool thereby facilitating the air tool to rotate the first disk. The first disk has a plurality of openings extending therethrough and air may pass through the openings. A mating unit is coupled to the first disk. The mating unit engages the air tool thereby facilitating the first disk to be removably coupled to the air tool. A sanding disk is removably coupled to the first disk. The sanding disk may abrade a surface when the air tool rotates the first disk.

A battery-operated hand power tool, in particular an eccentric sander, includes at least one electronically commutated electric motor that acts upon an output shaft and that is configured to drive a working tool. The hand power tool further includes at least one motor housing part that accommodates the electronically commutated electric motor. The electronically commutated electric motor and the output shaft define a common first axis that is coaxial with the output shaft. At least one handle region of the hand power tool accommodates at least one set of electronics configured to energize the electronically commutated electric motor. The motor housing part and the handle region are disposed at an angle to each other. The working tool has a diameter that is between 75 and 150 mm, but preferably is between 115 and 125 mm.

A dust-resistant structure for a tooling machine is disclosed. The tooling machine includes a front plate including an accommodation member and a shaft supporter disposed inside the accommodation member. The dust-resistant structure comprises a bridging ring, a dust-resistant rubber ring and a dust-resistant sealing cover. The bridging ring is disposed corresponding to the front plate, and includes a ring body, an inside-ring region corresponding to the accommodation member, and at least one pressure release member formed in the ring body and interconnecting with the inside-ring region for releasing pressure. The dust-resistant rubber ring is assembled to the ring body and disposed in the inside-region region with an inner rim contacting the accommodation member to block dust. The dust-resistant sealing cover includes a cover body assembled to and shielding the accommodation member for blocking dust; and an assembling hole formed in the cover body and penetrated by the dynamic module.