A powered hammer includes a housing, a tool holder coupled to the housing and configured to hold a tool, a motor within the housing, a cylinder disposed within the housing, and a piston slideably mounted within the cylinder. A drive mechanism converts rotary output of the motor into a reciprocating
A powered hammer includes a housing, a tool holder coupled to the housing and configured to hold a tool, a motor within the housing, a cylinder disposed within the housing, and a piston slideably mounted within the cylinder. A drive mechanism converts rotary output of the motor into a reciprocating motion of the piston. The drive mechanism includes a crank shaft rotationally driven by the motor, a drive pin eccentrically mounted on the crank shaft, and a con rod with a first end connected to the drive pin and a second end connected to the piston. A ram is slideably mounted forward of the piston that is reciprocatingly driven by the piston. A beat piece is slideably mounted forward of the ram. The beat piece is repetitively struck by the reciprocating ram, which in turn repetitively strikes an end of the tool when held in the tool holder to transfer the momentum of the ram to the tool. Lubrication fluid covers at least part of the drive mechanism. A rear piston chamber is formed within an end of the cylinder, rearward of the piston, the volume of which repetitively changes as the piston moves within the cylinder, causing air within the housing to be at least one of drawn into and blown out of the rear piston chamber. The movement of air causes the lubrication fluid to move within the housing. A longitudinal passageway defined in at least one of the crank shaft and the drive pin enables passage of air and the lubricating fluid to assist in movement of the lubrication fluid within the housing.
대표청구항▼
The invention claimed is: 1. A powered hammer comprising: a housing; a tool holder coupled to the housing and configured to hold a tool; a motor within the housing; a cylinder disposed within the housing; a piston slideably mounted within the cylinder; a drive mechanism that converts rotary output
The invention claimed is: 1. A powered hammer comprising: a housing; a tool holder coupled to the housing and configured to hold a tool; a motor within the housing; a cylinder disposed within the housing; a piston slideably mounted within the cylinder; a drive mechanism that converts rotary output of the motor into a reciprocating motion of the piston, the drive mechanism including a crank shaft rotationally driven by the motor, a drive pin eccentrically mounted on the crank shaft, and a connecting rod with a first end connected to the drive pin and a second end connected to the piston; a ram slideably mounted forward of the piston that is reciprocatingly driven by the piston; a beat piece slideably mounted forward of the ram, the beat piece being repetitively struck by the reciprocating ram and which in turn repetitively strikes an end of the tool when held in the tool holder to transfer the momentum of the ram to the tool, lubrication fluid covering at least part of the drive mechanism, a rear piston chamber formed within an end of the cylinder, rearward of the piston, the volume of which repetitively changes as the piston moves within the cylinder, causing air within the housing to be at least one of drawn into and blown out of the rear piston chamber, the movement of air causing the lubrication fluid to move within the housing; and a longitudinal passageway defined in at least one of the crank shaft and the drive pin to enable passage of air and the lubricating fluid to assist in movement of the lubrication fluid within the housing. 2. The powered hammer of claim 1 wherein, as air is drawn into the rear piston chamber, air and lubrication fluid move through the longitudinal passageway in one direction, and as air is blown out of the rear piston chamber, air and lubrication fluid move through the longitudinal passageway in an opposite direction. 3. The powered hammer of claim 1 wherein the con rod is connected to the drive pin via a bearing, and further comprising a crank shaft fluid guide connected to an end of the longitudinal passageway to direct the lubricating fluid towards the bearing when the lubricating fluid exits the longitudinal passageway. 4. The powered hammer of claim 3 further comprising a guide mechanism, wherein the crank shaft fluid guide directs lubricating fluid toward the guide mechanism. 5. The powered hammer of claim 4 wherein the movement of the lubricating fluid from the crank shaft fluid guide to the guide mechanism is at least partially due to the movement of air within the housing. 6. The powered hammer of claim 4 wherein the movement of the lubricating fluid from the crank shaft guide to the guide mechanism is at least partially due to a centrifugal force acting on that lubrication fluid generated by the rotation of the crank shaft. 7. The powered hammer of claim 6 wherein the guide mechanism directs the lubricating fluid towards the bearing, the movement of that lubrication fluid being caused by the centrifugal force. 8. The powered hammer of claim 4 wherein the guide mechanism comprises a groove formed in a support structure. 9. The powered hammer of claim 8 wherein the groove extends away from a base of the drive pin toward an axis of rotation of the crank shaft. 10. The powered hammer of claim 3 wherein the crank shaft fluid guide comprises a plastic cap that clips into an end of the longitudinal passageway. 11. A powered hammer comprising: a housing; a tool holder coupled to the housing and configured to hold a tool; a motor within the housing; a cylinder disposed within the housing; a piston slideably mounted within the cylinder; a drive mechanism that converts rotary output of the motor into a reciprocating motion of the piston, the drive mechanism including a crank shaft rotationally driven by the motor, a drive pin eccentrically mounted on the crank shaft via a support structure, and a connecting rod with a first end connected to the drive pin via a bearing and a second end connected to the piston; a ram slideably mounted forward of the piston that is reciprocatingly driven by the piston; a beat piece slideably mounted forward of the ram, the beat piece being repetitively struck by the reciprocating ram and which in turn repetitively strikes an end of the tool when held in the tool holder to transfer the momentum of the ram to the tool, lubrication fluid covering at least part of the drive mechanism, wherein movement of the lubrication fluid is at least in part caused by a centrifugal force generated by rotation of the crank shaft; and a guide mechanism configured to direct the movement at least a portion of the lubrication fluid toward the bearing. 12. The powered hammer of claim 11 wherein the guide mechanism comprises a groove formed in the support structure. 13. The powered hammer of claim 12 wherein the groove extends away from a base of the drive pin toward an axis of rotation of the crank shaft. 14. The powered hammer of claim 11, further comprising a rear piston chamber formed within an end of the cylinder, rearward of the piston, the volume of which repetitively changes as the piston moves within the cylinder, causing air within the housing to be at least one of drawn into and blown out of the rear piston chamber, the movement of air causing the lubrication fluid to move within the housing. 15. The powered hammer of claim 14, further comprising a passageway defined in at least one of the crank shaft and the drive pin to enable passage of air and the lubricating fluid to assist in movement of the lubrication fluid within the housing. 16. The powered hammer of claim 15, wherein the movement of the lubricating fluid from the crank shaft fluid guide to the guide mechanism is at least partially due to the movement of air within the housing.
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