In a vibrating tool, a body housing and a handle are displaceably interconnected and a large range of vibrations can be effectively absorbed. A vibrating tool is composed of a body housing and a handle. A projection is provided at the rear end of the body housing. By engaging a stop on the handle with a flange on the projection, the handle is positively interconnected with the housing with a clearance therebetween. A rubber ring is located in the clearance between the handle and the body housing. A radially inwardly opening groove is provided in the rubber ring, so that the ring is easily deformed when the handle and the body housing are displaced relative to each other. Since the handle and the body housing are displaceably interconnected with each other and the rubber ring interposed between the handle and the body housing is easily deformed, large amplitude vibrations can be absorbed. The inwardly opening groove is sealed by the outer periphery of the projection of the housing, thereby providing an air cushion effect for absorbing high frequency vibrations.
A coupling between the handle (2) and the machine housing (1) of a hand power tool having the greatest possible vibration damping is produced by the fact that the handle (2) is coupled with the machine housing (1) via two or more parallel levers (4, 5) situated nearly perpendicular to the longitudinal axis (3) of the hand power tool, whereby the levers (4, 5) are hinge-mounted on the machine housing (1) on the one hand and on the handle (2) on the other hand.
Attachments of the present invention are generally attached to a power drill that has a chuck with an axis of rotation. The attachments include a circular sawblade attached perpendicularly to a shaft that is removably interconnected with the chuck and a stabilizing handle rotatably attached to and supporting the shaft between the drill chuck and the sawblade. The stabilizing handle extends substantially transversely to the axis of rotation. The circular sawblade may be a replaceable sawblade or it may be integral with the shaft. The extension of the stabilizing handle may include a pivot and the gripping section if the stabilizing handle may include a hand guard. The stabilizing handle may also include a depth gauge mounted perpendicularly to both the shaft and the stabilizing handle.
An article having a first structure and a second structure. The first structure includes a structural portion and an overmold portion, which is formed from a resilient material and molded onto the structural portion. The overmold portion is configured to perform an auxiliary function, such as creating a seal portion that is configured to sealing engage the second structure, an isolator portion that is configured to contact the second structure and dampen vibrations that are transmitted thereto and/or an auxiliary gripping surface.
A concrete drill for drilling concrete or the like by a diamond bit (5) attached to a front end of a bit drive shaft (4) projected forward from a main body (1) by driving to rotate the bit drive shaft (4) by a drive source (2) contained in the main body (1) in which the main body (1) is provided with a vibrating apparatus (8) for exerting a vibrating force a magnitude which is pulsated to change along the bit drive shaft (4) to the main body (1).
The inventive percussion and/or drill hammer (10) consists essentially of a hammer housing (12) which surrounds a rotor for a percussive tool (11), including the drive mechanism and the holding element, and an outer shell (14) which encompasses the hammer housing (12) at a distance. Said outer shell (14) is connected elastically to the hammer housing (12) at selected coupling points and is connected to a first handle (16) at the end facing away from percussive tool (11) in the direction of impact of said percussive tool (11). The outer shell (14) extends as far as or at least almost as far as the percussive tool (11) where it is provided or can be provided with a second handle (17), said percussive tool projecting out of the hammer housing (12).
