TOP GEARBOX INDUSTRY CO., LTD. Patent applications |
Patent application number | Title | Published |
20130072341 | MULTI-SPEED GEAR SYSTEM FOR POWER TOOL - A multi-speed gear system for a power tool includes a case, a lever, a gear disk, a movable member, a ring gear, a planet gear unit and an idle gear unit. The movable member is axially moved to be engaged with the ring gear, the planet gear unit or the idle gear unit to change the gear ratios and output different speeds. The parts that are engaged with the movable member are located outside of the area where the gears are located, so that the switching between the speeds is smooth and has less friction. | 03-21-2013 |
20120037388 | OUTPUT DEVICE FOR POWER TOOL HAVING PROTECTION MECHANISM - An output device for a power tool includes an output unit, a stationary ratchet gear unit, a spring disposed between the output shaft unit and the stationary ratchet gear unit, a locking member having pawls, a case accommodating the aforementioned parts and a control device threadedly connected to the case. The output unit includes an output shaft with a first bearing and a movable ratchet gear which have movable ratchet teeth facing stationary ratchet teeth of a stationary ratchet gear. The stationary ratchet gear includes ribs and each rib has an inclined surface. When the pawls are not engaged with the ribs, the output shaft can outputs power in a form of rotation in both directions. When the pawls are engaged with the ribs, the output shaft outputs power in a form of rotation in a forward direction combined with vibration or rotation in a reverse direction without vibration. | 02-16-2012 |
20120031637 | DEVICE FOR POWER TOOL PREVENTING AXIAL VIBRATION IN REVERSE ROTATION - A non-vibration output device in reverse rotation includes a movable ratchet gear, a stationary ratchet gear having ribs and a locking member having pawls. Each rib has an inclined surface. The locking member is move to control the engagement or disengagement between the pawls and the ribs. When the pawls are not engaged with the ribs, the stationary ratchet gear is rotatable. The output shaft can rotate in two directions. When the pawls are engaged with the ribs, the stationary ratchet gear is fixed. The movable ratchet gear rotates in the forward direction and interference happens between the movable ratchet gear and the stationary ratchet gear to generate axial vibration. When the movable ratchet gear rotates in the reverse direction, the stationary ratchet gear is disengaged from the movable ratchet gear so that no axial vibration is generated. | 02-09-2012 |
20120018181 | Output Mode Switching Device For Power Tool - An output mode switching device includes an output unit, a stationary ratchet gear unit, a spring, at least one block, a case for accommodating the parts mentioned above, and a control device threadedly connected to the case. The output unit includes an output shaft and a first bearing and a movable ratchet gear connected thereto. Movable ratchet teeth of the movable ratchet gear face stationary ratchet teeth of the stationary ratchet gear. The stationary ratchet gear has circumferential ribs and the block has an inner protrusion and an outer protrusion. Two ends of the spring respectively contact with the first bearing and the inner protrusion of the block. The control device is operated to allow the inner protrusion to be engaged with or separated from the rib of the stationary ratchet gear. Therefore the output shaft outputs torque without axial vibration or with axial vibration. | 01-26-2012 |
20110278133 | GAPLESS MAIN SHAFT LOCKING APPARATUS - A gapless main shaft locking apparatus includes a fastening ring, an elastic retaining device, a plurality of detent pins, a driving plate and an output shaft. The elastic retaining device is installed in the fastening ring and has an inner space in which elastic portions and cylinder portions are disposed. Each of the detent pins is disposed between one of the elastic portions and one of the cylinder portions. The driving plate has a central hole, and the periphery of the central hole includes fan-shaped convex portions. A side of the driving plate has a plurality of concave slots for receiving the elastic retaining device. The output shaft includes a polygonal shaft having a regular polygonal cross section. The polygonal shaft passes through the central hole of the driving plate, and each side of the polygonal shaft is contacted with one of the detent pins. | 11-17-2011 |
20110030984 | MAIN SHAFT LOCKING MECHANISM - A main shaft locking mechanism includes a fixing ring, a main shaft and detents. The main shaft includes an equilateral portion that has an equilateral cross section. A number of the corners of the equilateral portion is equal to that of the detents. The detent has an exterior side and an interior side opposite to the exterior side. The interior side includes two corner protrusions protruded out from two ends thereof and a concave portion defined between the two corner protrusions. The corners of the main shaft are received in the concave portions of the detents. When the main shaft is manually driven to rotate, the corners of the main shaft drive the detents to deviate. Therefore, the exterior sides of the detents interfere against the fixing ring. Then the detents prevent the main shaft from further rotating, thus locking up the main shaft. | 02-10-2011 |
20100319945 | OUTPUT MODE SWITCHING APPARATUS - An output mode switching apparatus including a power unit, a hammering unit, an output shaft, a housing, and a shifting member is provided. The hammering unit includes a gasket cup, a switching ring, a spring member, a hammering seat, and a main shaft. When the power unit is not in operation, the switching ring is restricted so as to be positioned against and secured to the gasket cup. When the mains shaft is driven by the power unit to rotate, the hammering seat is carried to rotate and is applied with a restriction for restricting the hammering seat from axial movement, thus configuring an output mode of electric drill. When the shifting member is turned, the restriction applied to the hammering seat is released. The hammering blocks repetitively hammers the protrusion blocks and axially returns back to the original position, thus configuring an impact output mode. | 12-23-2010 |