Abstract: A battery-powered tool includes a barrel and a handle connected to the barrel. A battery pack has a body and a pivotal tube extending from a top of the battery pack. The pivotal tube is inserted in a space defined axially in the handle so as to provide electric power to the tool. The pivotal tube can be pivoted between a first position and a second position relative to the handle. A limitation portion is located between the pivotal tube and an inner periphery of the space so as to limit a movement of the pivotal tube in the handle along an axial direction. An angle restriction portion is located between the pivotal tube and an inner periphery of the space so as to restrict the body to be rotated an angle less than 360 degrees between the first and second positions.
Abstract: A double-ram striker assembly including a shaft anvil having a shaft body on which two jaw blocks are disposed and two ring-shaped ram bodies coaxially fitted on the shaft body. The inner circumferences of the ram bodies serve to respectively ram lateral faces of the corresponding jaw blocks. A predetermined gap is defined between opposite end faces of the two ram bodies along the axis of the shaft body. The striker assembly further includes at least three rolling sections arranged in the gas. Two opposite ends of each rolling section respectively abut against the opposite end faces of the two ram bodies.
Abstract: Muffling structure for pneumatic tool, which is mounted at an opening of an exhaust end of gas exhaust passage of the pneumatic tool. The muffling structure includes a cock body having a body section. One end face of the body section is recessed to form a receptacle communicating with the gas exhaust passage of the pneumatic tool. At least one through hole is formed through a close end of the receptacle to the other end face of the body section to communicate the receptacle with outer side of the pneumatic tool. The muffling structure further includes at least one muffling fiber body plugged in the receptacle. The muffling fiber body is formed with multiple fine voids for the gas to pass through the muffling fiber body.
Abstract: Muffling structure for pneumatic tool, which is mounted at an opening of an exhaust end of gas exhaust passage of the pneumatic tool. The muffling structure includes a cock body having a body section. One end face of the body section is recessed to form a receptacle communicating with the gas exhaust passage of the pneumatic tool. At least one through hole is formed through a close end of the receptacle to the other end face of the body section to communicate the receptacle with outer side of the pneumatic tool. The muffling structure further includes at least one muffling fiber body plugged in the receptacle. The muffling fiber body is formed with multiple fine voids for the gas to pass through the muffling fiber body.
Abstract: Check mechanism for rotary shaft of pneumatic tool, including: a ratchet section having a ratchet wheel coaxially fixedly connected with the rotary shaft and synchronously rotatable with the rotary shaft, multiple ratchets being arranged on a circumference of the ratchet wheel; a click section having a click stem movable between an acting position and a releasing position, when the click stem is positioned in the acting position, one end of the click stem resiliently engaging with the ratchets of the ratchet section to restrict the ratchet wheel to one-way rotate and prevent the rotary shaft from rotating backward, when the click stem is positioned in the releasing position, click stem being disengaged from the ratchets of the ratchet section, whereby the ratchet section is released from the checking of the click stem; and a locating section for locating the click stem in the acting position or releasing position.
Abstract: Torque restricting structure of pin hammer-type hammering: mechanism, including: an anvil having a shaft body, two symmetrical arched jaws projecting from the middle of the shaft body opposite to each other; two hammering pins each having a column body parallel to the shaft body of the anvil, the hammering pins being axially movable between a hammering position and a separating position, whereby when in the hammering position, a lateral face of each hammering pin hammers a lateral face of a corresponding projecting jaw and when in the separating position, the hammering pins are separated from the projecting jaws; a locating guide section; and a cam having a ridge section for abutting against the locating guide section. When the cam and the locating guide section are moved relative to each other, the cam is pushed to drive the hammering pins to move between the hammering position and the separating position.