Patent application number | Description | Published |
20080290131 | Main Valve Driving Air Passage of Nail Gun - An air passage of a nail gun includes a fixed cylinder disposed in a gun body, and a main valve disposed at a top portion of the fixed cylinder, a trigger valve between an air collecting chamber and a main passage, an air-in passage formed in the trigger valve connecting between the air collecting chamber and the main passage, an air-out passage formed in the trigger valve connecting between the main passage and external atmosphere, and a disc-shaped valve stopper forming a main chamber. The main chamber collects the high pressure air via the air-in passage to actuate the valve stopper to move up while the valve bar is pressed, and exhausts the high pressure air in the main chamber via the air-out passage to actuate the high pressure air in the air collecting chamber to drive the valve stopper and the main valve to move down to reposit while the valve bar is released. | 11-27-2008 |
20080290132 | Main Air Valve for Pneumatic Nail Gun - A nail gun includes a cylinder, a main chamber, a piston slidably disposed in the cylinder, and a trigger valve disposed in the nail gun. The piston divides the cylinder into a top air chamber and a bottom air chamber, and the trigger valve can actuate the high pressure air in the main chamber to drive the main air valve to open or close the fluid communication between the main chamber and the top air chamber. A main air valve is disposed at a top portion of the cylinder, which includes a valve port, a top and bottom air tight rings disposed on the piston. The valve port is disposed between the top and bottom air tight rings when it is closed, and moves to a place away from the top air tight ring when it is opened. | 11-27-2008 |
20090032566 | Transmission Mechanism for Electrical Nail Gun - A transmission mechanism for an electrical nail gun includes a rotary transmission unit and a linear transmission unit in a housing of the electrical nail gun. The rotary transmission unit includes a motor driven by electricity, a flywheel driven by the motor and extending to form a cylinder thereon, a solenoid activated by electricity, and a moveable driving wheel adjacent to an end side of the cylinder. A clutch is formed between the cylinder and the driving wheel. The solenoid is buried in the cylinder so that a magnetic conductivity loop is constructed around the solenoid to produce the magnetic field when the solenoid is activated. The driving wheel is attracted to move to an engagement position to be driven by the flywheel, thereby driving the linear transmission unit to impact a nail when the solenoid is activated by electricity, and the driving wheel returns to a disengagement position to disengage from the flywheel, thereby stopping driving the linear transmission unit when the solenoid is demagnetized. | 02-05-2009 |
20090032567 | Clutch Mechanism for Electrical Nail Gun - A clutch mechanism arranged in a housing of an electrical nail gun includes a sliding base, a driver driven by electricity, a swing base pivotally mounted on the housing, and an electric driver attached to the housing and being adjacent to an end side of the swing base. The sliding base is slidably disposed on an end of a free roller positioned in the housing, and the sliding base loads a spring and forms a hitting nail bar thereon. The driver has a motor and a flywheel driven by the motor, and the flywheel is configured to engage or disengage with/from the sliding base. The swing base is adjacent to the sliding base and the free roller and receives the driver therein. The electric driver has a rod member driven by electricity, and the rod member drives the swing base to swing to a first position where the flywheel meshes with the sliding base to thereby drive the sliding base to move downwards, and a second position where the flywheel disengages from the sliding base to thereby cause the sliding base to reposit. Thus, it is an advantage to improve service life and stability of the electrical nail gun. | 02-05-2009 |
20090302087 | Adjusting Mechanism for Control Valve of Nail Guns - A nail gun includes a housing defining a group of receiving grooves and a safety rod. The control valve includes a body and a valve stem slidably received in the body. The body is movably mounted in the receiving grooves and one end of the valve stem is arranged to sustain the safety rod at a predetermined height. The predetermined height can be adjusted by moving the body relative to the receiving grooves. | 12-10-2009 |
20100006619 | Fastener Positioning Assembly for Nail Gun - A nail gun includes a fastener drive track capable of receiving fasteners having different length. A faster positioning assembly includes at least one swinging member and a stop portion. The swinging member is elastically and pivotably disposed at a side of the fastener drive track. The stop portion is formed at an end of the swinging member and received in the fastener drive track. The stop portion is configured for positioning fasteners prior to the fasteners are hit, and the stop portion retractably exits from the fastener drive track when a long fastener is received in the fastener drive track. The fastener positioning assembly enables the nail gun to drive fasteners having different length, as such, it is very convenient to use such nail gun to join different workpiece having different thickness on an object. | 01-14-2010 |
20100012698 | Control mechanism for Pneumatic Nail Guns - In a controlling mechanism for pneumatic nailer, the pneumatic nailer includes a leaf spring, a trigger, a trigger valve and a safety rod attached to a main body of the nailer. The control mechanism includes a control valve and the control valve includes a valve plug connected to the safety rod. The leaf spring is mounted between the trigger valve and the trigger for receiving actuation from the trigger, and one end of thereof being extended to a position for pushing the valve plug so that through pressing the trigger, the leaf spring is driven to push the valve plug and the safety rod to move downwardly, thereby controlling the pressurized air to drive the nail gun. As such, the valve plug can move in to a position that can to control the nail hitting action of the nail gun in advance so the stability of control increases. | 01-21-2010 |
20100019015 | Bushing for Nail Guns - A bushing for conducting air in a nail gun is arranged between an air chamber and a cylinder received in a housing of the nail gun. The bushing is adjacent to a bottom of a main valve for driving hitting motion of the nail gun. A number of main valve holes that are adjacent to the main valve are formed in a sidewall of the cylinder. At least one air inlet is formed in a bottom of a sidewall of the cylinder. An air flow passage is defined in the housing and is in communication with the main valve and the air hole. A valve plug which is configured for opening or closing the air flow passage is received in the air flow passage. The valve plug divides the air flow passage into an upper portion and a lower portion. The lower portion is formed in the housing. An annular end surface is formed on a top of the bushing. The annular end surface defines a main air inlet for the main valve. An end portion extends from the bushing and having the upper portion of the air flow passage formed therein. The bushing further includes at least one upper air hole in communication with the air chamber, the main inlet and the upper portion of the air flow passage. | 01-28-2010 |
20100038398 | Linkage Mechanism for Control Valve in Pneumatic Nail Guns - A linkage mechanism for a control valve in a nail gun is provided. The control valve is disposed on a main body of the nail gun. A valve plug of the control valve adjoins to a safety rod of the nail gun. A trigger valve is mounted on the main body and an outer trigger is disposed adjacent to the trigger valve. An inner trigger is pivotably disposed in the outer trigger. An end of a rod member is slidably disposed at a side of the outer trigger and another end of the rod member is connected between the valve plug and the safety rod with an arm. A stopping portion is formed at a middle portion of the rod member. The stopping portion is configured for pressing the outer trigger so as to drive the inner trigger to push the rod member, the arm, the valve plug and the safety rod to move along a nail driving direction of the nail gun. The present linkage mechanism can improve a stability of controlling of nail shooting action and a durability of the nail gun. | 02-18-2010 |
20100301091 | Linkage Mechanism between Trigger Valve and Control Valve in Pneumatic Nail Guns - In a linkage mechanism between a trigger valve and a control valve in a nail gun, the control valve is disposed on a main body of the nail gun. A valve plug of the control valve adjoins to a safety rod of the nail gun. A trigger valve is mounted on the main body and an outer trigger is disposed adjacent to the trigger valve. A valve stem of the trigger valve is extended in the outer trigger. An inner trigger is pivotably connected to a bottom end of the valve stem. An end of a rod member is slidably disposed at a side of the outer trigger and another end of the rod member is connected between the valve plug and the safety rod with an arm. A stopping portion is formed at a middle portion of the rod member. The stopping portion is configured for pressing the outer trigger so as to drive the inner trigger to push the rod member, the arm, the valve plug and the safety rod to move along a nail driving direction of the nail gun. The present linkage mechanism can improve a stability of controlling of nail shooting action and a durability of the nail gun. | 12-02-2010 |
20110180581 | Resetting and Driving Mechanism for Nail Driving Rod in Pneumatic Nailer having Embedded Air Compressor - A pneumatic nailer includes a main compressed air reservoir, a bottom cylinder chamber, a nail driving rod, an air compressor, a safety rod, and a trigger valve. A resetting and driving mechanism includes a main passage, a first valve member, a startup switch, a power off switch, and an auxiliary passage. The main passage is connected between the main compresses air reservoir and the bottom cylinder chamber. The first valve member is slidably disposed in the main passage and includes an inner end portion for driving the compressed air and an outer end portion for pushing the safety rod. The startup switch is capable of starting the air compressor when the safety rod moves to trigger the startup switch. The power off switch can shut down the air compressor. The auxiliary passage communicates with the main compressed air reservoir and extends to a proximal side of the power off switch. | 07-28-2011 |
20110297728 | NAILING DEPTH ADJUSTING DEVICE OF A PALM-TYPE NAIL GUN - A nailing depth adjusting device of a palm-type nail gun, installed in a containing recess, which is for the hammer rod to go through, at the bottom of the nail gun body. In side of the containing recess is provided with at least one guiding indentation and an adjusting sleeve. One end of the adjusting sleeve adjacent to the guiding indentation is slidably engaged in an outside wall of a guiding piece by threads. The guiding piece includes at least one guiding pillar slidably engaged in the guiding indentation. Users may rotate the adjusting sleeve to control the position of the guiding piece. Inside the adjusting sleeve is provided with an telescopic conduit. One end of the conduit is exposed outside of the adjusting sleeve. The conduit can touch the surface of the work piece, which causes the conduit to move until touching the guiding piece and thereby, adjust the nailing depth of the hammer rod. | 12-08-2011 |
20120251229 | LATCHING MECHANISM FOR BATTERY PACK OF ELECTRICAL TOOL - A latching mechanism for a battery pack of an electrical tool includes a button slidingly positioned in the battery pack, and the battery pack can be received in a groove formed on an end of the handle of the electrical tool. The button has a latching element positioned on each side of the path, and a pushing element is positioned between the button and the latching element; the pushing element can move back and forth along the button to further drive the latching element to move back and forth, and enable the latching element to buckle to the inner sidewall of the groove outside the two sides of the base and release from the inner sidewall of the groove thereby, as well to position and release the battery pack in the groove. | 10-04-2012 |
20120251861 | SHOCK PROOF STRUCTURE OF BATTERY PACK FOR RECEIVING BATTERY CELL - A shock proof structure of a battery pack for receiving a battery cell is formed in an electrical tool. The battery pack includes a base having a space for receiving the battery cell and a lid for opening or closing the space. The space has a plurality of first buckling portions separated by a gap disposed at a bottom side thereof. A plurality of second buckling portions with shock absorbance is formed at an inner sidewall of the lid. The plate sets include two plates separated by a gap are symmetrically positioned. The plates of each plate set have a second buckling portion with a stretching gap formed in between. The second buckling portion is positioned at the opposite end of the first buckling portion to provide the battery cell to be steadily buckled between the first and the second buckling portions. | 10-04-2012 |
20130153254 | DYNAMIC CLUTCH APPARATUS FOR ELECTRICAL NAIL GUN - A dynamic clutch apparatus for an electrical nail gun is disclosed and includes a pair of symmetric direct stroke apertures formed on a gun body support; a firing pin set slidably installed on a side of the gun body support; a guiding base movably installed inside the gun body support; a pair of symmetric oblique stroke apertures formed on the guiding base. Aperture walls of the oblique and direct stroke apertures encircle and form an interconnected through aperture. Two pivot bearings are slidably installed inside the through aperture. A flywheel for accumulating kinetic energy is installed between the pivot bearings coaxially. An electromagnetic driver drives the guiding base to move, causing the through aperture to restrict the pivot bearings and the flywheel to move and press the firing pin set. Then, the firing pin set passes nail-percussion kinetic energy along a nail-percussion axial direction. | 06-20-2013 |