A shield subassembly for fastener driving tools is provided that is operable to prevent an interference condition. The shield subassembly includes a rotary-to-linear lifter with lifter pins and a driver with protrusions, and the lifter pins are individually biased so as to be individually retractable and extendable. The lifter is operable to perform a lift stroke in order to raise the driver to a ready position, and then begin a drive stroke to force a fastener into a substrate. The shield subassembly includes a ramp that forces each lifter pin to partially retract so as not cause an interference condition upon contact with a driver protrusion. Once the lifter pin is rotated past the shield and contact ceases, that lifter pin extends and can then slide under a misaligned driver protrusion, or make contact and begin the lift stroke.
A shield subassembly for fastener driving tools is provided that is operable to prevent an interference condition. The shield subassembly includes a rotary-to-linear lifter with lifter pins and a driver with protrusions, and the lifter pins are individually biased so as to be individually retractable and extendable. The lifter is operable to perform a lift stroke in order to raise the driver to a ready position, and then begin a drive stroke to force a fastener into a substrate. The shield subassembly includes a ramp that forces each lifter pin to partially retract so as not cause an interference condition upon contact with a driver protrusion. Once the lifter pin is rotated past the shield and contact ceases, that lifter pin extends and can then slide under a misaligned driver protrusion, or make contact and begin the lift stroke.
A fastener magazine for a fastener driving tool has a movable guide that allows fasteners of various lengths to be loaded in the magazine. When engaged, the movable guide sequentially directs each fastener's movement during a drive stroke. When disengaged, the movable guide does not interfere with each fastener's movement during a drive stroke. In the engaged position, the movable guide prevents a fastener from complete “backtracking” back into the magazine during a drive stoke, which otherwise could potentially cause a jam condition.
A fastener driving tool that uses pressurized gas to drive a piston that causes a driver blade to force a fastener into a workpiece, and then uses an induction coil to “lift” the piston (as an armature) back toward the top, pre-drive position. The pressurized gas is not vented to atmosphere, but is instead re-used for multiple drive cycles. An optional induction coil can have multiple stages. A more preferred induction coil includes multiple stages, in which some of those coil stages extend beyond the end stroke of the piston, past a “ready” position for that piston.
A fastener driving tool that uses pressurized gas to drive a piston that causes a driver blade to force a fastener into a workpiece, and then uses an induction coil to "lift" the piston (as an armature) back toward the top, pre-drive position. The pressurized gas is not vented to atmosphere, but is instead re-used for multiple drive cycles. An optional induction coil can have multiple stages. A more preferred induction coil includes multiple stages, in which some of those coil stages extend beyond the end stroke of the piston, past a "ready" position for that piston.
A fastener driving tool has a movable elongated cylindrical portion of a driver that sequentially drives fasteners into a substrate. The elongated cylindrical portion of the driver is designed to drive a fastener into a harder substrate, such as concrete. The elongated cylindrical portion of the driver design is able to handle the force of driving into these harder substrates, compared to prior non-cylindrical driver designs. The fastener driving tool also has a magazine with a cutout portion along the magazine's outer housing between a user grip portion and an upper portion of the magazine. This cutout portion allows the tool to be used in a location with limited access, such as a channel.
B25C 1/04 - Outils tenus à la main pour clouerDispositifs d'alimentation en clous pour ces outils utilisant la pression d'un fluide
B25C 1/06 - Outils tenus à la main pour clouerDispositifs d'alimentation en clous pour ces outils actionnés électriquement
B25C 5/13 - Moyens d'entraînement utilisant la pression d'un fluide
B25F 5/00 - Détails ou parties constitutives d'outils portatifs à moteur sans relation spécifique avec les opérations exécutées et non prévus ailleurs
B25F 5/02 - Structure des boîtiers, corps ou poignées
B25C 1/00 - Outils tenus à la main pour clouerDispositifs d'alimentation en clous pour ces outils
B25C 5/00 - Outils portatifs pour agrafer utilisant la force musculaireOutils tenus à la main pour agrafer utilisant un moteurDispositifs d'alimentation en agrafes pour ces outils
A fastener driving tool has a movable elongated cylindrical portion of a driver that sequentially drives fasteners into a substrate. The elongated cylindrical portion of the driver is designed to drive a fastener into a harder substrate, such as concrete. The elongated cylindrical portion of the driver design is able to handle the force of driving into these harder substrates, compared to prior non-cylindrical driver designs. The fastener driving tool also has a magazine with a cutout portion along the magazine's outer housing between a user grip portion and an upper portion of the magazine. This cutout portion allows the tool to be used in a location with limited access, such as a channel.
A portable linear fastener driving tool is provided that drive staples, nails, or other linearly driven fasteners. The tool uses a gas spring principle, in which a cylinder filled with compressed gas is used to quickly force a piston through a driving stroke movement, while a driver also drives a fastener into a workpiece. The piston/driver is then moved back to its starting position by use of a rotary-to-linear lifter, and the piston again compresses the gas above the piston, thereby preparing the tool for another driving stroke. The driver has protrusions along its edges that contact the lifter, which lifts the driver during a return stroke. A pivotable latch is controlled to move into either an interfering position or a non-interfering position with respect to the driver protrusions, and acts as a safety device, by preventing the driver from making a full driving stroke at an improper time.
B65G 1/127 - Dispositifs d'emmagasinage mécaniques avec supports ou porte-objets mobiles en circuit fermé pour faciliter l'insertion ou l'enlèvement des objets le circuit étant entièrement situé dans un plan vertical
B65G 17/12 - Transporteurs comportant un élément de traction sans fin, p. ex. une chaîne transmettant le mouvement à une surface porteuse de charges continue ou sensiblement continue, ou à une série de porte-charges individuelsTransporteurs à chaîne sans fin dans lesquels des chaînes constituent la surface portant la charge comprenant une série de porte-charges individuels fixés ou normalement fixés à l'élément de traction
B65G 17/18 - Transporteurs comportant un élément de traction sans fin, p. ex. une chaîne transmettant le mouvement à une surface porteuse de charges continue ou sensiblement continue, ou à une série de porte-charges individuelsTransporteurs à chaîne sans fin dans lesquels des chaînes constituent la surface portant la charge comportant des porte-charges individuels montés de façon à pouvoir pivoter, p. ex. à oscillation libre et se déplaçant en contact avec une surface de guidage
An automatic fastener driving tool with an automatic side-loading magazine can be automatically loaded with fasteners via a high-capacity automatic loading station. The tool and the magazine are moved proximal to the loading station. The magazine door is automatically opened, and the loading station pushes fasteners into the magazine. The magazine door is automatically closed, and the tool and the magazine are moved back to their original position.
An automatic fastener driving tool with an automatic side-loading magazine can be automatically loaded with fasteners via a high-capacity automatic loading station. The tool and the magazine are moved proximal to the loading station. The magazine door is automatically opened, and the loading station pushes fasteners into the magazine. The magazine door is automatically closed, and the tool and the magazine are moved back to their original position.
B65G 1/127 - Dispositifs d'emmagasinage mécaniques avec supports ou porte-objets mobiles en circuit fermé pour faciliter l'insertion ou l'enlèvement des objets le circuit étant entièrement situé dans un plan vertical
B65G 17/12 - Transporteurs comportant un élément de traction sans fin, p. ex. une chaîne transmettant le mouvement à une surface porteuse de charges continue ou sensiblement continue, ou à une série de porte-charges individuelsTransporteurs à chaîne sans fin dans lesquels des chaînes constituent la surface portant la charge comprenant une série de porte-charges individuels fixés ou normalement fixés à l'élément de traction
B65G 17/18 - Transporteurs comportant un élément de traction sans fin, p. ex. une chaîne transmettant le mouvement à une surface porteuse de charges continue ou sensiblement continue, ou à une série de porte-charges individuelsTransporteurs à chaîne sans fin dans lesquels des chaînes constituent la surface portant la charge comportant des porte-charges individuels montés de façon à pouvoir pivoter, p. ex. à oscillation libre et se déplaçant en contact avec une surface de guidage
A portable linear fastener driving tool is provided that drives staples, nails, pins, or other linearly driven fasteners. The tool uses a gas spring principle, in which a cylinder filled with compressed gas is used to quickly force a piston through a driving stroke movement, while a driver also drives a fastener into a workpiece. The piston/driver is then moved back to its starting position by use of a rotary-to-linear lifter, and the piston further compresses the gas above the piston, thereby preparing the tool for another driving stroke. In an illustrated embodiment, the tool exhibits an inverted U-shape tri-chamber design for the central cylinder, a left-side pressure chamber, and a right-side pressure chamber. In one illustrated embodiment, the lifter motor is configured to have its longitudinal axis substantially parallel to the longitudinal axis of the working cylinder, thereby making this tool more compact. Other embodiments show the angle to be between 0-90 degrees.
A portable linear fastener driving tool is provided that drives staples, nails, pins, or other linearly driven fasteners. The tool uses a gas spring principle, in which a cylinder filled with compressed gas is used to force a piston through a driving stroke movement, while a driver also drives a fastener into a workpiece. The piston/driver is then moved back to its starting position by use of a rotary-to-linear lifter, and the piston further compresses the gas above the piston, thereby preparing the tool for another driving stroke. In an illustrated embodiment, the tool exhibits an inverted U-shape tri-chamber design for the central cylinder, a left-side pressure chamber, and a right-side pressure chamber. In one illustrated embodiment, the lifter motor has its longitudinal axis substantially parallel to the longitudinal axis of the working cylinder, thereby making this tool more compact. Other embodiments show the angle to be between 0-90 degrees.
A battery adapter can be used with an off-brand battery manufacturer to energize a power tool. The battery adapter is configured to monitor the voltage, temperature, and power level of the battery. Monitoring these levels helps prevent the tool from overdischarging the battery, as well as to prevent overheating. The battery adapter has a visible battery power level indicator, actuated by a switch, which visibly displays to a user a general indication of power left in the battery. The battery adapter is able to electrically disconnect the battery if the monitored temperature reaches a certain threshold. The battery adapter is also able to electrically disconnect if the battery adapter and off-brand battery are connected to a recharge station.
H01M 50/247 - MonturesBoîtiers secondaires ou cadresBâtis, modules ou blocsDispositifs de suspensionAmortisseursDispositifs de transport ou de manutentionSupports spécialement adaptés aux dispositifs portatifs, p. ex. aux téléphones portables, aux ordinateurs, aux outils à main ou aux stimulateurs cardiaques
B23B 45/02 - Perceuses tenues à la main ou perceuses analogues portatives, p. ex. en forme de pistoletÉquipement à cet effet entraînées électriquement
B25F 3/00 - Associations d'outils pour différents travaux avec un seul moyen d'entraînement mécanique portatifRaccords appropriés
H01R 31/06 - Pièces intermédiaires pour joindre deux pièces de couplage, p. ex. adaptateur
H02J 7/00 - Circuits pour la charge ou la dépolarisation des batteries ou pour alimenter des charges par des batteries
B25B 21/00 - Outils portatifs à moteur pour serrer ou desserrer les vis ou les écrousAccessoires pour appareils à percer ayant les mêmes buts
B25F 5/00 - Détails ou parties constitutives d'outils portatifs à moteur sans relation spécifique avec les opérations exécutées et non prévus ailleurs
A battery adapter can be used with an off-brand battery manufacturer to energize a power tool. The battery adapter is configured to monitor the voltage, temperature, and power level of the battery. Monitoring these levels helps prevent the tool from overdischarging the battery, as well as to prevent overheating. The battery adapter has a visible battery power level indicator, actuated by a switch, which visibly displays to a user a general indication of power left in the battery. The battery adapter is able to electrically disconnect the battery if the monitored temperature reaches a certain threshold. The battery adapter is also able to electrically disconnect if the battery adapter and off-brand battery are connected to a recharge station.
B23B 45/02 - Perceuses tenues à la main ou perceuses analogues portatives, p. ex. en forme de pistoletÉquipement à cet effet entraînées électriquement
H01M 50/247 - MonturesBoîtiers secondaires ou cadresBâtis, modules ou blocsDispositifs de suspensionAmortisseursDispositifs de transport ou de manutentionSupports spécialement adaptés aux dispositifs portatifs, p. ex. aux téléphones portables, aux ordinateurs, aux outils à main ou aux stimulateurs cardiaques
H01R 31/06 - Pièces intermédiaires pour joindre deux pièces de couplage, p. ex. adaptateur
A battery adapter can be used with an off-brand battery manufacturer to energize a power tool. The battery adapter is configured to monitor the voltage, temperature, and power level of the battery. Monitoring these levels helps prevent the tool from overdischarging the battery, as well as to prevent overheating. The battery adapter has a visible battery power level indicator, actuated by a switch, which visibly displays to a user a general indication of power left in the battery. The battery adapter is able to electrically disconnect the battery if the monitored temperature reaches a certain threshold. The battery adapter is also able to electrically disconnect if the battery adapter and off-brand battery are connected to a recharge station.
A rotary-to-linear lifter for fastener driving tools is provided that has independently movable lifter pins that lift a driver with driver protrusions during a lift stroke. The lifter includes a central lifter shaft that rotates during a lift stroke, a solenoid that actuates, a plurality of lifter pins, and a lifter base. When the solenoid actuates, the lifter pins protrude from the top of the lifter base, and when not actuated, the lifter pins retract inside the lifter base. Each lifter pin has a set of forward and rearward springs that allow for longitudinal pin movements along the lifter's axis of rotation. If there is interference during a lift stroke, individual lifter pin(s) become blocked, and mostly remain inside the lifter base, until the lifter rotates the affected pin away from the interference. Then that lifter pin will again protrude from the lifter base, ready to engage the driver protrusions.
A rotary-to-linear lifter for fastener driving tools is provided that has independently movable lifter pins that lift a driver with driver protrusions during a lift stroke. The lifter includes a central lifter shaft that rotates during a lift stroke, a solenoid that actuates, a plurality of lifter pins, and a lifter base. When the solenoid actuates, the lifter pins protrude from the top of the lifter base, and when not actuated, the lifter pins retract inside the lifter base. Each lifter pin has a set of forward and rearward springs that allow for longitudinal pin movements along the lifter's axis of rotation. If there is interference during a lift stroke, individual lifter pin(s) become blocked, and mostly remain inside the lifter base, until the lifter rotates the affected pin away from the interference. Then that lifter pin will again protrude from the lifter base, ready to engage the driver protrusions.
A rotary-to-linear lifter for fastener driving tools is provided that has independently movable lifter pins that lift a driver with driver protrusions during a lift stroke. The lifter includes a central lifter shaft that rotates during a lift stroke, a solenoid that actuates, a plurality of lifter pins, and a lifter base. When the solenoid actuates, the lifter pins protrude from the top of the lifter base, and when not actuated, the lifter pins retract inside the lifter base. Each lifter pin has a set of forward and rearward springs that allow for longitudinal pin movements along the lifter's axis of rotation. If there is interference during a lift stroke, individual lifter pin(s) become blocked, and mostly remain inside the lifter base, until the lifter rotates the affected pin away from the interference. Then that lifter pin will again protrude from the lifter base, ready to engage the driver protrusions.
A pneumatic fastener driving tool that forces pressurized gas from a gas supply source into a chamber above a piston enclosed in a working cylinder. During an operational cycle, the pressurized gas is released, forcing the piston to fire. The firing valve seals the pressurized gas utilizing two rolling diaphragm seals, thereby providing less breakdown of hardware and removing the need for lubricant within the firing valve. These diaphragm seals exhibit a smaller diameter than prior diaphragms used in similar pneumatic fastener driving tools.
A fastener magazine for a fastener driving tool has a movable guide that allows fasteners of various lengths to be loaded in the magazine. When engaged, the movable guide sequentially directs each fastener's movement during a drive stroke. When disengaged, the movable guide does not interfere with each fastener's movement during a drive stroke. In the engaged position, the movable guide prevents a fastener from complete “backtracking” back into the magazine during a drive stoke, which otherwise could potentially cause a jam condition.
A fastener magazine for a fastener driving tool has a movable guide that allows fasteners of various lengths to be loaded in the magazine. When engaged, the movable guide sequentially directs each fastener's movement during a drive stroke. When disengaged, the movable guide does not interfere with each fastener's movement during a drive stroke. In the engaged position, the movable guide prevents a fastener from complete "backtracking" back into the magazine during a drive stroke, which otherwise could potentially cause a jam condition.
A clamping connector for an autofeed attachment for a screwdriver tool. The connector has a cam action lever that actuates a clamp. The lever moves between an open position and a closed position. In the closed position, the clamp slightly deforms to hold the autofeed attachment onto an extension pole and/or the front end of a screwdriver tool (or electric drill). The connector, while either in its ‘clamped’ or ‘open’ state, includes an open central region that allows a rotatable shaft or drive bit to pass therethrough, unimpeded. The connector includes a washer with a flat portion that prevents improper axial rotation of the lever as the lever is actuated, or at any stable position. The flat extension helps guide the lever into pivoting along a longitudinal axis of the attachment. An adjustable bolt adjusts the clamping force, and secures the lever, washer, and clamp together on the autofeed attachment.
A fastener driving tool that includes a lift mechanism for moving the driver from a driven position to a ready position. In one embodiment, the lift mechanism is mounted to a movable pivot arm, and the pivot arm is slightly rotated to allow the driver to drive a fastener; when the driver is to be lifted in a return stroke, the lifter subassembly is moved back into engagement with the driver, and multiple lifter pins contact protrusions in the driver to lift the driver from the driven position to the ready position. In another embodiment, the pivotable lifter floats along the driver, and “releases” from contact only to prevent a jam or otherwise undesirable operating condition involving the driver; otherwise, the lifter remains nested in the tool's guide body during all operating states. A solenoid-operated latch also is provided to prevent the driver from moving downward (for driving a fastener).
A clamping cormector for an autofeed attachment for a screwdriver tool. The connector has a cam action lever that actuates a clamp. The lever moves between an open position and a closed position. In the closed position, the clamp slightly deforms to hold the autofeed attachment onto an extension pole and/or the front end of a screwdriver tool (or electric drill). The connector, while either in its 'clamped' or 'open' state, includes an open central region that allows a rotatable shaft or drive bit to pass therethrough, unimpeded. The connector includes a washer with a flat portion that prevents improper axial rotation of the lever as the lever is actuated, or at any stable position. The flat extension helps guide the lever into pivoting along a longitudinal axis of the attachment. An adjustable bolt adjusts the clamping force, and secures the lever, washer, and clamp together on the autofeed attachment.
A fastener driving tool with a working cylinder and a piston, the piston outer surface having a lubricant-saturated foam material that stores and dispenses lubricant into the piston-cylinder wall interface, thereby increasing the performance and lifespan of the tool. Another embodiment discloses a two-part piston in which the bottom portion is made of metal and absorbs the main mechanical loading forces of the piston drive and return strokes, and the top portion is made of a non-metallic material that has surfaces that act as sliding bearings against the inner wall of the cylinder.
B25C 1/04 - Outils tenus à la main pour clouerDispositifs d'alimentation en clous pour ces outils utilisant la pression d'un fluide
B25C 7/00 - Accessoires pour outils à clouer ou à agrafer, p. ex. supports
F15B 15/14 - Dispositifs actionnés par fluides pour déplacer un organe d'une position à une autreTransmission associée à ces dispositifs caractérisés par la structure de l'ensemble moteur le moteur étant du type à cylindre droit
F16J 1/08 - Caractéristiques de structure pour assurer la lubrification
B25C 1/06 - Outils tenus à la main pour clouerDispositifs d'alimentation en clous pour ces outils actionnés électriquement
F15B 21/048 - Agencements pour la préparation d’air comprimé, p. ex. comprenant des déshumidificateurs, condenseurs d'air, filtres, lubrificateurs ou régulateurs de pression
F16J 15/16 - Joints d'étanchéité entre deux surfaces mobiles l'une par rapport à l'autre
29.
GAS SPRING FASTENER DRIVING TOOL WITH REMOVABLE END CAP FOR PERFORMING MAINTENANCE OR SERVICE
A cordless, hoseless fastener driver tool with a compressed gas pressure chamber has a removable end cap that is securely attached to the tool via four screws. Removing each screw in succession releases the compressed gas in a controlled manner, which then allows a user to safely remove the end cap to access the interior of the tool. The user can perform a maintenance procedure and service the interior mechanical portions of the tool, such as repairing or replacing a driver, a piston, and/or a piston stop, as well as the cylinder sleeve, or other internal components. Once the end cap is removed, the components listed above can be removed (and replaced) without the use of any further tools.
A cordless, hoseless fastener driver tool with a compressed gas pressure chamber has a removable end cap that is securely attached to the tool via four screws. Removing each screw in succession releases the compressed gas in a controlled manner, which then allows a user to safely remove the end cap to access the interior of the tool. The user can perform a maintenance procedure and service the interior mechanical portions of the tool, such as repairing or replacing a driver, a piston, and/or a piston stop, as well as the cylinder sleeve, or other internal components. Once the end cap is removed, the components listed above can be removed (and replaced) without the use of any further tools.
A cordless, hoseless fastener driver tool with a compressed gas pressure chamber has a removable end cap that is securely attached to the tool via four screws. Removing each screw in succession releases the compressed gas in a controlled manner, which then allows a user to safely remove the end cap to access the interior of the tool. The user can perform a maintenance procedure and service the interior mechanical portions of the tool, such as repairing or replacing a driver, a piston, and/or a piston stop, as well as the cylinder sleeve, or other internal components. Once the end cap is removed, the components listed above can be removed (and replaced) without the use of any further tools.
A portable linear fastener driving tool is provided that drive staples, nails, or other linearly driven fasteners. The tool uses a gas spring principle, in which a cylinder filled with compressed gas is used to quickly force a piston through a driving stroke movement, while a driver also drives a fastener into a workpiece. The piston/driver is then moved back to its starting position by use of a rotary-to-linear lifter, and the piston again compresses the gas above the piston, thereby preparing the tool for another driving stroke. The driver has protrusions along its edges that contact the lifter, which lifts the driver during a return stroke. A pivotable latch is controlled to move into either an interfering position or a non-interfering position with respect to the driver protrusions, and acts as a safety device, by preventing the driver from making a full driving stroke at an improper time.
A pneumatic fastener driving tool is provided with a sensor package. A first portion of the sensor package is mounted in the handle of the tool, with a data cable running to a second portion of the sensor package mounted to an external cylinder wall of the working cylinder. A second portion includes at least one sensor to monitor piston operating cycles and other tool statistics. An antenna exiting the first portion of the sensor package and is threaded through the tool's outer housing to provide a clear radio signal to an external computer. The antenna allows wireless access to download information gathered by the sensors, or to upload new software instructions.
A pneumatic fastener driving tool is provided with a sensor package. A first portion of the sensor package is mounted in the handle of the tool, with a data cable running to a second portion of the sensor package mounted to an external cylinder wall of the working cylinder. A second portion includes at least one sensor to monitor piston operating cycles and other tool statistics. An antenna exiting the first portion of the sensor package and is threaded through the tool's outer housing to provide a clear radio signal to an external computer. The antenna allows wireless access to download information gathered by the sensors, or to upload new software instructions.
A pneumatic fastener driving tool is provided with a sensor package. A first portion of the sensor package is mounted in the handle of the tool, with a data cable running to a second portion of the sensor package mounted to an external cylinder wall of the working cylinder. A second portion includes at least one sensor to monitor piston operating cycles and other tool statistics. An antenna exiting the first portion of the sensor package and is threaded through the tool's outer housing to provide a clear radio signal to an external computer. The antenna allows wireless access to download information gathered by the sensors, or to upload new software instructions.
B25C 1/04 - Outils tenus à la main pour clouerDispositifs d'alimentation en clous pour ces outils utilisant la pression d'un fluide
B25C 1/06 - Outils tenus à la main pour clouerDispositifs d'alimentation en clous pour ces outils actionnés électriquement
H04L 67/12 - Protocoles spécialement adaptés aux environnements propriétaires ou de mise en réseau pour un usage spécial, p. ex. les réseaux médicaux, les réseaux de capteurs, les réseaux dans les véhicules ou les réseaux de mesure à distance
A fastener driving tool with a hanger attachment that is rotatable around the handle of the tool. The hanger is configured to fit a 2x4 rafter or joist on either side of the tool. The rotatable hanger allows for this flexibility in hanging the tool securely on a jobsite. The hanger has a plurality of designed stop positions (detents) around the handle. A user rotating the hanger around the handle will feel the hanger become more secure at one of these designed stop (detent) positions.
A fastener driving tool with a hanger attachment that is rotatable around the handle of the tool. The hanger is configured to fit a 2×4 rafter or joist on either side of the tool. The rotatable hanger allows for this flexibility in hanging the tool securely on a jobsite. The hanger has a plurality of designed stop positions (detents) around the handle. A user rotating the hanger around the handle will feel the hanger become more secure at one of these designed stop (detent) positions.
A fastener driving tool with a hanger attachment that is rotatable around the handle of the tool. The hanger is configured to fit a 2x4 rafter or joist on either side of the tool. The rotatable hanger allows for this flexibility in hanging the tool securely on a jobsite. The hanger has a plurality of designed stop positions (detents) around the handle. A user rotating the hanger around the handle will feel the hanger become more secure at one of these designed stop (detent) positions.
A fastener driving tool that forces air from its variable venting volume beneath the piston of the working cylinder and directs that forced air through passageways and toward an electronic controller and/or an electric motor before being vented to atmosphere, thereby drawing heat away from those components during an operational cycle of the movable piston. When the piston returns to its initial position, environmental air is drawn through the same passageways, again past the electronic controller and/or electric motor, thereby twice cooling these “hot” components during a single operational cycle.
B25C 1/04 - Outils tenus à la main pour clouerDispositifs d'alimentation en clous pour ces outils utilisant la pression d'un fluide
B25C 5/13 - Moyens d'entraînement utilisant la pression d'un fluide
B25C 1/00 - Outils tenus à la main pour clouerDispositifs d'alimentation en clous pour ces outils
H02K 11/30 - Association structurelle à des circuits de commande ou à des circuits d’entraînement
H02K 5/20 - Enveloppes ou enceintes caractérisées par leur configuration, leur forme ou leur construction avec des canaux ou des conduits pour la circulation d'un agent de refroidissement
H02K 7/14 - Association structurelle à des charges mécaniques, p. ex. à des machines-outils portatives ou des ventilateurs
A powered fastener driving tool including a latch with a position sensor, to detect the position of the driver during tool operation. The sensor communicates to the system controller, which determines, based on the position of the latch, if the motor should be energized or the motor braking energized. This latch sensor detection provides an accurate 5 location of the driver to the system controller, helping prevent wear and tear on the lifter and driver, and increasing the life of the tool. The driver includes a plurality of through holes, in which the latch can engage when properly aligned. When the latch is engaged with a through hole, the sensor communicates to the controller that the motor may be energized. However, when the latch is not engaged with a through hole, the sensor communicates to the controller 10 that the motor brake should be energized.
B25C 1/04 - Outils tenus à la main pour clouerDispositifs d'alimentation en clous pour ces outils utilisant la pression d'un fluide
B25C 1/14 - Outils tenus à la main pour clouerDispositifs d'alimentation en clous pour ces outils actionnés par la pression d'une combustion engendrée par l'explosion d'une cartouche agissant sur une masselotte ou une pièce intermédiaire
B25C 5/13 - Moyens d'entraînement utilisant la pression d'un fluide
B25D 11/00 - Outils portatifs à percussion entraînés par moteur électrique
B25D 17/00 - Parties constitutives ou accessoires d'outils portatifs à percussion actionnés mécaniquement
A powered fastener driving tool including a latch with a position sensor, to detect the position of the driver during tool operation. The sensor communicates to the system controller, which determines, based on the position of the latch, if the motor should be energized or the motor braking energized. This latch sensor detection provides an accurate location of the driver to the system controller, helping prevent wear and tear on the lifter and driver, and increasing the life of the tool. The driver includes a plurality of through holes, in which the latch can engage when properly aligned. When the latch is engaged with a through hole, the sensor communicates to the controller than the motor may be energized. However, when the latch is not engaged with a through hole, the sensor communicates to the controller that the motor brake should be energized.
A powered fastener driving tool including a latch with a position sensor, to detect the position of the driver during tool operation. The sensor communicates to the system controller, which determines, based on the position of the latch, if the motor should be energized or the motor braking energized. This latch sensor detection provides an accurate location of the driver to the system controller, helping prevent wear and tear on the lifter and driver, and increasing the life of the tool. The driver includes a plurality of through holes, in which the latch can engage when properly aligned. When the latch is engaged with a through hole, the sensor communicates to the controller than the motor may be energized. However, when the latch is not engaged with a through hole, the sensor communicates to the controller that the motor brake should be energized.
B25C 1/04 - Outils tenus à la main pour clouerDispositifs d'alimentation en clous pour ces outils utilisant la pression d'un fluide
B25C 1/14 - Outils tenus à la main pour clouerDispositifs d'alimentation en clous pour ces outils actionnés par la pression d'une combustion engendrée par l'explosion d'une cartouche agissant sur une masselotte ou une pièce intermédiaire
B25C 5/13 - Moyens d'entraînement utilisant la pression d'un fluide
B25D 11/00 - Outils portatifs à percussion entraînés par moteur électrique
B25D 17/00 - Parties constitutives ou accessoires d'outils portatifs à percussion actionnés mécaniquement
A pneumatic fastener driving tool that forces pressurized gas from a gas supply source into a chamber above a piston enclosed in a working cylinder. During an operational cycle, the pressurized gas is released, forcing the piston to fire. The firing valve seals the pressurized gas utilizing two rolling diaphragm seals, thereby providing less breakdown of hardware and removing the need for lubricant within the firing valve. These diaphragm seals exhibit a smaller diameter than prior diaphragms used in similar pneumatic fastener driving tools.
B25C 1/04 - Outils tenus à la main pour clouerDispositifs d'alimentation en clous pour ces outils utilisant la pression d'un fluide
B25C 5/13 - Moyens d'entraînement utilisant la pression d'un fluide
B25D 9/00 - Outils portatifs à percussion entraînés par la pression d'un fluide, p. ex. ayant plusieurs têtes d'outils à percussion actionnées simultanément
A pneumatic fastener driving tool that forces pressurized gas from a gas supply source into a chamber above a piston enclosed in a working cylinder. During an operational cycle, the pressurized gas is released, forcing the piston to fire. The firing valve seals the pressurized gas utilizing two rolling diaphragm seals, thereby providing less breakdown of hardware and removing the need for lubricant within the firing valve. These diaphragm seals exhibit a smaller diameter than prior diaphragms used in similar pneumatic fastener driving tools.
A gas-spring fastener driving tool has a working cylinder and a pressurized main storage chamber to hold the gases that will drive the cylinder's piston and driver combination. An end cap is placed on the upper (back) end of the pressure chamber, above the cylinder, with a set of seals and a set of fasteners; the fasteners can be removed by a user ? one at a time ? to safely release the stored gas pressure from the tool, for maintenance or repair of the interior parts. The end cap includes a fill valve positioned along the side of the working cylinder which allows 'refilling' gases to flow through passageways in the end cap, then into the working cylinder and pressure chamber, thereby bringing the tool up to its nominal working pressure. In some embodiments, the fill valve can also act as a pressure release valve.
A gas-spring fastener driving tool has a working cylinder and a pressurized main storage chamber to hold the gases that will drive the cylinder's piston and driver combination. An end cap is placed on the upper (back) end of the pressure chamber, above the cylinder, with a set of seals and a set of fasteners; the fasteners can be removed by a user — one at a time — to safely release the stored gas pressure from the tool, for maintenance or repair of the interior parts. The end cap includes a fill valve positioned along the side of the working cylinder which allows 'refilling' gases to flow through passageways in the end cap, then into the working cylinder and pressure chamber, thereby bringing the tool up to its nominal working pressure. In some embodiments, the fill valve can also act as a pressure release valve.
A gas-spring fastener driving tool has a working cylinder and a pressurized main storage chamber to hold the gases that will drive the cylinder's piston and driver combination. An end cap is placed on the upper (back) end of the pressure chamber, above the cylinder, with a set of seals and a set of fasteners; the fasteners can be removed by a user—one at a time—to safely release the stored gas pressure from the tool, for maintenance or repair of the interior parts. The end cap includes a fill valve positioned along the side of the working cylinder which allows ‘refilling’ gases to flow through passageways in the end cap, then into the working cylinder and pressure chamber, thereby bringing the tool up to its nominal working pressure. In some embodiments, the fill valve can also act as a pressure release valve.
A portable linear fastener driving tool is provided that drive staples, nails, or other linearly driven fasteners. The tool uses a gas spring principle, in which a cylinder filled with compressed gas is used to quickly force a piston through a driving stroke movement, while a driver also drives a fastener into a workpiece. The piston/driver is then moved back to its starting position by use of a rotary-to-linear lifter, and the piston again compresses the gas above the piston, thereby preparing the tool for another driving stroke. The driver has protrusions along its edges that contact the lifter, which lifts the driver during a return stroke. A pivotable latch is controlled to move into either an interfering position or a non-interfering position with respect to the driver protrusions, and acts as a safety device, by preventing the driver from making a full driving stroke at an improper time.
A gas spring fastener driving tool, having a cylinder filled with compressed gas that forces a piston/driver through a driving stroke movement; a rotary-to-linear lifter, then moves the piston/driver back to its ready position, preparing the tool for another driving stroke. The driver has protrusions (teeth) along its edges to contact extending pins of the lifter member, for lifting the driver during a return stroke. The driver's movements are detected by position sensors, and the information provided by those position sensors is used to prevent the lifter from impacting against the driver in situations where the driver did not finish its driving stroke in a correct (“in specification”) position. The use of two position sensors allows a Dry Fire diagnostic test to determine if gas pressure in the gas storage chamber is too high, or has become too low.
An autofeed attachment designed for mounting to a manual-feed screwgun that has a recessed channel on the exterior surface near a protruding flange. The autofeed attachment has at least one movable plate that is forced inward by a ramp structure on the interior surface of a rotatable collar. When the collar is rotated in a predetermined direction, the ramp surface acts to force the movable plate toward the interior, until that movable plate comes into contact into the recessed channel on the screwgun. Once that has occurred, the autofeed attachment will now be locked into place into that recessed channel and behind a protruding flange of the screwgun. The movable plate(s) is positioned between two retainer structures that are spaced-apart from one another, and create a gap through with the at least one movable plate can move during the locking, and later unlocking operations, by twisting the rotatable collar.
An autofeed attachment designed for mounting to a manual-feed screwgun that has a recessed channel on the exterior surface near a protruding flange. The autofeed attachment has at least one movable plate that is forced inward by a ramp structure on the interior surface of a rotatable collar. When the collar is rotated in a predetermined direction, the ramp surface acts to force the movable plate toward the interior, until that movable plate comes into contact into the recessed channel on the screwgun. Once that has occurred, the autofeed attachment will now be locked into place into that recessed channel and behind a protruding flange of the screwgun. The movable plate(s) is positioned between two retainer structures that are spaced-apart from one another, and create a gap through with the at least one movable plate can move during the locking, and later unlocking operations, by twisting the rotatable collar.
An autofeed attachment designed for mounting to a manual-feed screwgun that has a recessed channel on the exterior surface near a protruding flange. The autofeed attachment has at least one movable plate that is forced inward by a ramp structure on the interior surface of a rotatable collar. When the collar is rotated in a predetermined direction, the ramp surface acts to force the movable plate toward the interior, until that movable plate comes into contact into the recessed channel on the screwgun. Once that has occurred, the autofeed attachment will now be locked into place into that recessed channel and behind a protruding flange of the screwgun. The movable plate(s) is positioned between two retainer structures that are spaced-apart from one another, and create a gap through with the at least one movable plate can move during the locking, and later unlocking operations, by twisting the rotatable collar.
A fastener driving tool that includes a lift mechanism for moving the driver from a driven position to a ready position. In one embodiment, the lift mechanism is mounted to a movable pivot arm, and the pivot arm is slightly rotated to allow the driver to drive a fastener; when the driver is to be lifted in a return stroke, the lifter subassembly is moved back into engagement with the driver, and multiple lifter pins contact protrusions in the driver to lift the driver from the driven position to the ready position. In another embodiment, the pivotable lifter floats along the driver, and “releases” from contact only to prevent a jam or otherwise undesirable operating condition involving the driver; otherwise, the lifter remains nested in the tool's guide body during all operating states. A solenoid-operated latch also is provided to prevent the driver from moving downward (for driving a fastener).
A fastener driving tool with a working cylinder and a piston, the piston outer surface having a lubricant-saturated foam material that stores and dispenses lubricant into the piston-cylinder wall interface, thereby increasing the performance and lifespan of the tool. Another embodiment discloses a two-part piston in which the bottom portion is made of metal and absorbs the main mechanical loading forces of the piston drive and return strokes, and the top portion is made of a non-metallic material that has surfaces that act as sliding bearings against the inner wall of the cylinder.
B25C 1/04 - Outils tenus à la main pour clouerDispositifs d'alimentation en clous pour ces outils utilisant la pression d'un fluide
B25C 7/00 - Accessoires pour outils à clouer ou à agrafer, p. ex. supports
F15B 15/14 - Dispositifs actionnés par fluides pour déplacer un organe d'une position à une autreTransmission associée à ces dispositifs caractérisés par la structure de l'ensemble moteur le moteur étant du type à cylindre droit
F16J 1/08 - Caractéristiques de structure pour assurer la lubrification
B25C 1/06 - Outils tenus à la main pour clouerDispositifs d'alimentation en clous pour ces outils actionnés électriquement
F15B 21/048 - Agencements pour la préparation d’air comprimé, p. ex. comprenant des déshumidificateurs, condenseurs d'air, filtres, lubrificateurs ou régulateurs de pression
55.
WORKING CYLINDER FOR POWER TOOL WITH PISTON LUBRICATING SYSTEM
A fastener driving tool with a working cylinder and a piston, the piston outer surface having a lubricant-saturated foam material that stores and dispenses lubricant into the piston-cylinder wall interface, thereby increasing the performance and lifespan of the tool. Another embodiment discloses a two-part piston in which the bottom portion is made of metal and absorbs the main mechanical loading forces of the piston drive and return strokes, and the top portion is made of a non-metallic material that has surfaces that act as sliding bearings against the inner wall of the cylinder.
B25C 1/04 - Outils tenus à la main pour clouerDispositifs d'alimentation en clous pour ces outils utilisant la pression d'un fluide
F15B 15/14 - Dispositifs actionnés par fluides pour déplacer un organe d'une position à une autreTransmission associée à ces dispositifs caractérisés par la structure de l'ensemble moteur le moteur étant du type à cylindre droit
56.
WORKING CYLINDER FOR POWER TOOL WITH PISTON LUBRICATING SYSTEM
A fastener driving tool with a working cylinder and a piston, the piston outer surface having a lubricant-saturated foam material that stores and dispenses lubricant into the piston-cylinder wall interface, thereby increasing the performance and lifespan of the tool. Another embodiment discloses a two-part piston in which the bottom portion is made of metal and absorbs the main mechanical loading forces of the piston drive and return strokes, and the top portion is made of a non-metallic material that has surfaces that act as sliding bearings against the inner wall of the cylinder.
B25C 1/04 - Outils tenus à la main pour clouerDispositifs d'alimentation en clous pour ces outils utilisant la pression d'un fluide
B25C 5/13 - Moyens d'entraînement utilisant la pression d'un fluide
F15B 15/14 - Dispositifs actionnés par fluides pour déplacer un organe d'une position à une autreTransmission associée à ces dispositifs caractérisés par la structure de l'ensemble moteur le moteur étant du type à cylindre droit
F16J 1/08 - Caractéristiques de structure pour assurer la lubrification
F16J 15/16 - Joints d'étanchéité entre deux surfaces mobiles l'une par rapport à l'autre
57.
WORKING CYLINDER FOR POWER TOOL WITH PISTON LUBRICATING SYSTEM
A fastener driving tool with a working cylinder and a piston, the piston outer surface having a lubricant-saturated foam material that stores and dispenses lubricant into the piston-cylinder wall interface, thereby increasing the performance and lifespan of the tool. Another embodiment discloses a two-part piston in which the bottom portion is made of metal and absorbs the main mechanical loading forces of the piston drive and return strokes, and the top portion is made of a non-metallic material that has surfaces that act as sliding bearings against the inner wall of the cylinder.
B25C 1/00 - Outils tenus à la main pour clouerDispositifs d'alimentation en clous pour ces outils
B25F 5/00 - Détails ou parties constitutives d'outils portatifs à moteur sans relation spécifique avec les opérations exécutées et non prévus ailleurs
B25D 9/00 - Outils portatifs à percussion entraînés par la pression d'un fluide, p. ex. ayant plusieurs têtes d'outils à percussion actionnées simultanément
B25D 17/00 - Parties constitutives ou accessoires d'outils portatifs à percussion actionnés mécaniquement
An automated lift machine that feeds strips of staples into an automated stapling machine that can be used in a production line. The lift machine includes a lifter subassembly and a pusher subassembly, and a magazine for holding multiple strips of staples that are stacked on top of one another. A lift fork extends under of the legs of the second staple strip from the bottom, then lifts up all of the stacked staples in the magazine except for the bottom-most staple strip. After that occurs, the pusher forces the bottom-most staple strip from beneath the stacked staples in the magazine, then pushes that strip toward an exit position, into the feeder for the automated stapling machine. The pusher retracts and the lift fork gently lowers the stacked staples in the magazine until they bottom out, after which the lift fork retracts from the stack.
An automated lift machine that feeds strips of staples into an automated stapling machine that can be used in a production line. The lift machine includes a lifter subassembly and a pusher subassembly, and a magazine for holding multiple strips of staples that are stacked on top of one another. A lift fork extends under of the legs of the second staple strip from the bottom, then lifts up all of the stacked staples in the magazine except for the bottom-most staple strip. After that occurs, the pusher forces the bottom-most staple strip from beneath the stacked staples in the magazine, then pushes that strip toward an exit position, into the feeder for the automated stapling machine. The pusher retracts and the lift fork gently lowers the stacked staples in the magazine until they bottom out, after which the lift fork retracts from the stack.
An automated lift machine that feeds strips of staples into an automated stapling machine that can be used in a production line. The lift machine includes a lifter subassembly and a pusher subassembly, and a magazine for holding multiple strips of staples that are stacked on top of one another. A lift fork extends under of the legs of the second staple strip from the bottom, then lifts up all of the stacked staples in the magazine except for the bottom-most staple strip. After that occurs, the pusher forces the bottom-most staple strip from beneath the stacked staples in the magazine, then pushes that strip toward an exit position, into the feeder for the automated stapling machine. The pusher retracts and the lift fork gently lowers the stacked staples in the magazine until they bottom out, after which the lift fork retracts from the stack.
A fastener driving tool that forces air from its variable venting volume beneath the piston of the working cylinder and directs that forced air through passageways and toward an electronic controller and/or an electric motor before being vented to atmosphere, thereby drawing heat away from those components during an operational cycle of the movable piston. When the piston returns to its initial position, environmental air is drawn through the same passageways, again past the electronic controller and/or electric motor, thereby twice cooling these "hot" components during a single operational cycle.
A fastener driving tool that forces air from its variable venting volume beneath the piston of the working cylinder and directs that forced air through passageways and toward an electronic controller and/or an electric motor before being vented to atmosphere, thereby drawing heat away from those components during an operational cycle of the movable piston. When the piston returns to its initial position, environmental air is drawn through the same passageways, again past the electronic controller and/or electric motor, thereby twice cooling these "hot" components during a single operational cycle.
A fastener driving tool that forces air from its variable venting volume beneath the piston of the working cylinder and directs that forced air through passageways and toward an electronic controller and/or an electric motor before being vented to atmosphere, thereby drawing heat away from those components during an operational cycle of the movable piston. When the piston returns to its initial position, environmental air is drawn through the same passageways, again past the electronic controller and/or electric motor, thereby twice cooling these “hot” components during a single operational cycle.
A fastener driving tool that includes a lifter subassembly for moving the driver from a driven position to a ready position. In one embodiment, the lifter is mounted to a movable pivot arm, and if the driver is mispositioned at the beginning of a lifting phase, the lifter can displace a small distance to allow the lifter to move over the driver's protrusions, thereby allowing the lifting phase to continue without causing a jam. A retainer (or "cam follower") is positioned along a rounded cam profile surface of at least one lifter disk to prevent the lifter from displacing during later portions of the lifting phase, or during a transition phase. The lifter includes at least two rotating disks with extending pins to engage driver protrusions. One of the lifter disks can have gear teeth on its perimeter, instead of a cam profile surface.
A fastener driving tool that includes a lifter subassembly for moving the driver from a driven position to a ready position. In one embodiment, the lifter is mounted to a movable pivot arm, and if the driver is mispositioned at the beginning of a lifting phase, the lifter can displace a small distance to allow the lifter to move over the driver's protrusions, thereby allowing the lifting phase to continue without causing a jam. A retainer (or “cam follower”) is positioned along a rounded cam profile surface of at least one lifter disk to prevent the lifter from displacing during later portions of the lifting phase, or during a transition phase. The lifter includes at least two rotating disks with extending pins to engage driver protrusions. One of the lifter disks can have gear teeth on its perimeter, instead of a cam profile surface.
A fastener driving tool that includes a lifter subassembly for moving the driver from a driven position to a ready position. In one embodiment, the lifter is mounted to a movable pivot arm, and if the driver is mispositioned at the beginning of a lifting phase, the lifter can displace a small distance to allow the lifter to move over the driver's protrusions, thereby allowing the lifting phase to continue without causing a jam. A retainer (or "cam follower") is positioned along a rounded cam profile surface of at least one lifter disk to prevent the lifter from displacing during later portions of the lifting phase, or during a transition phase. The lifter includes at least two rotating disks with extending pins to engage driver protrusions. One of the lifter disks can have gear teeth on its perimeter, instead of a cam profile surface.
A portable linear fastener driving tool is provided that drive staples, nails, or other linearly driven fasteners. The tool uses a gas spring principle, in which a cylinder filled with compressed gas is used to quickly force a piston through a driving stroke movement, while a driver also drives a fastener into a workpiece. The piston/driver is then moved back to its starting position by use of a rotary-to-linear lifter, and the piston again compresses the gas above the piston, thereby preparing the tool for another driving stroke. The driver has protrusions along its edges that contact the lifter, which lifts the driver during a return stroke. A pivotable latch is controlled to move into either an interfering position or a non-interfering position with respect to the driver protrusions, and acts as a safety device, by preventing the driver from making a full driving stroke at an improper time.
An adapter converts a fastener driving tool into an automatic (multiple shots per second) pneumatic fastener driving tool. The adapter has a control valve that automatically moves to direct pressurized air to different passageways in the tool body in a repetitive cyclic manner. More specifically, the adapter has a housing having a plurality of passageways to allow gas flows to pass therethrough, including a speed control passageway, a trigger control passageway, a firing valve control passageway, and a gas pressure source passageway; a control valve movable within a sleeve in said housing, said sleeve including a left and a right gas passageway; at least two of said plurality of passageways being in fluidic communication with said control valve at all times, each of said plurality of passageways extending to predetermined positions along a mating surface of said housing; and a spring positioned within the sleeve.
B25C 1/04 - Outils tenus à la main pour clouerDispositifs d'alimentation en clous pour ces outils utilisant la pression d'un fluide
F15B 11/15 - Systèmes de servomoteurs dépourvus d'asservissement avec un seul servomoteur avec possibilité particulière de retour automatique
F15B 13/042 - Dispositifs de distribution ou d'alimentation du fluide caractérisés par leur adaptation à la commande de servomoteurs pour utilisation avec un servomoteur unique actionnés par la pression du fluide
F16K 11/16 - Soupapes ou clapets à voies multiples, p. ex. clapets mélangeursRaccords de tuyauteries comportant de tels clapets ou soupapesAménagement d'obturateurs et de voies d'écoulement spécialement conçu pour mélanger les fluides dont plusieurs éléments de fermeture ne se déplacent pas comme un tout actionnés par un seul organe de commande, p. ex. une clé lequel glisse uniquement, ou tourne uniquement, ou oscille uniquement dans un seul plan
An adapter converts a fastener driving tool into an automatic (multiple shots per second) pneumatic fastener driving tool. The adapter is mounted to the top of the frame body of a pneumatic fastener driving tool, in which the adapter has a control valve that automatically moves to direct pressurized air to different passageways in the tool body in a repetitive cyclic manner. The speed of actuation can be adjusted by the user.
A gas spring fastener driving tool, having a cylinder filled with compressed gas that forces a piston/driver through a driving stroke movement; a rotary-to-linear lifter, then moves the piston/driver back to its ready position, preparing the tool for another driving stroke. The driver has protrusions (teeth) along its edges to contact extending pins of the lifter member, for lifting the driver during a return stroke. The driver's movements are detected by position sensors, and the information provided by those position sensors is used to prevent the lifter from impacting against the driver in situations where the driver did not finish its driving stroke in a correct ("in specification") position. The use of two position sensors allows a Dry Fire diagnostic test to determine if gas pressure in the gas storage chamber is too high, or has become too low.
A gas spring fastener driving tool, having a cylinder filled with compressed gas that forces a piston/driver through a driving stroke movement; a rotary-to-linear lifter, then moves the piston/driver back to its ready position, preparing the tool for another driving stroke. The driver has protrusions (teeth) along its edges to contact extending pins of the lifter member, for lifting the driver during a return stroke. The driver's movements are detected by position sensors, and the information provided by those position sensors is used to prevent the lifter from impacting against the driver in situations where the driver did not finish its driving stroke in a correct (“in specification”) position. The use of two position sensors allows a Dry Fire diagnostic test to determine if gas pressure in the gas storage chamber is too high, or has become too low.
A portable linear fastener driving tool is provided that drive staples, nails, or other linearly driven fasteners. The tool uses a gas spring principle, in which a cylinder filled with compressed gas is used to quickly force a piston through a driving stroke movement, while a driver also drives a fastener into a workpiece. The piston/driver is then moved back to its starting position by use of a rotary-to-linear lifter, and the piston again compresses the gas above the piston, thereby preparing the tool for another driving stroke. The driver has protrusions along its edges that contact the lifter, which lifts the driver during a return stroke. A pivotable latch is controlled to move into either an interfering position or a non-interfering position with respect to the driver protrusions, and acts as a safety device, by preventing the driver from making a full driving stroke at an improper time.
A fastener driving tool that includes a lift mechanism for moving the driver from a driven position to a ready position. In one embodiment, the lift mechanism is mounted to a movable pivot arm, and the pivot arm is slightly rotated to allow the driver to drive a fastener; when the driver is to be lifted in a return stroke, the lifter subassembly is moved back into engagement with the driver, and multiple lifter pins contact protrusions in the driver to lift the driver from the driven position to the ready position. In another embodiment, the pivotable lifter floats along the driver, and "releases" from contact only to prevent a jam or otherwise undesirable operating condition involving the driver; otherwise, the lifter remains nested in the tool's guide body during all operating states. A solenoid- operated latch also is provided to prevent the driver from moving downward (for driving a fastener).
A fastener driving tool that includes a lift mechanism for moving the driver from a driven position to a ready position. In one embodiment, the lift mechanism is mounted to a movable pivot arm, and the pivot arm is slightly rotated to allow the driver to drive a fastener; when the driver is to be lifted in a return stroke, the lifter subassembly is moved back into engagement with the driver, and multiple lifter pins contact protrusions in the driver to lift the driver from the driven position to the ready position. In another embodiment, the pivotable lifter floats along the driver, and "releases" from contact only to prevent a jam or otherwise undesirable operating condition involving the driver; otherwise, the lifter remains nested in the tool's guide body during all operating states. A solenoid- operated latch also is provided to prevent the driver from moving downward (for driving a fastener).
A fastener driving tool that includes a lift mechanism for moving the driver from a driven position to a ready position. In one embodiment, the lift mechanism is mounted to a movable pivot arm, and the pivot arm is slightly rotated to allow the driver to drive a fastener; when the driver is to be lifted in a return stroke, the lifter subassembly is moved back into engagement with the driver, and multiple lifter pins contact protrusions in the driver to lift the driver from the driven position to the ready position. In another embodiment, the pivotable lifter floats along the driver, and “releases” from contact only to prevent a jam or otherwise undesirable operating condition involving the driver; otherwise, the lifter remains nested in the tool's guide body during all operating states. A solenoid-operated latch also is provided to prevent the driver from moving downward (for driving a fastener).
A portable hand-held fastener driving tool of the type which tends to keep the driver element better aligned with the head of the fastener while it's being driven. A biasing spring in the fastener track skews the directional path of the fastener as it is being driven, but the biasing spring does not noticeably affect the path of the driver element, thereby compensating for the slight movement of the tool (and driver) due to the tool's recoil. In an alternative embodiment, a magnet is used rather than a biasing spring, to skew the direction of the fastener as it is being shot by the tool.
A clenching adapter for use with automatic nailers tools is provided, which mounts to a nailer tool, and which extends behind a two-layer workpiece and curls the tip of a driven nail on the opposite side of the multiple-layer workpiece. The adapter includes a movable extension link that pivots on a proximal end, due to the action of an air cylinder actuator, and that pivoting motion causes an anvil mounted on its distal end to grasp the opposite (bottom) side of the workpiece, while also positioning the anvil to a location where it intercepts the nail that will be fired through the workpiece by the nailer tool. The anvil mechanism rotates from a “relaxed” position that fits within a gap in the boards of a workpiece, to an actuated “ready” position that receives and curls the nail, for clenching a multi-substrate workpiece. The actuations are automatically sequenced, in one embodiment.
B25C 7/00 - Accessoires pour outils à clouer ou à agrafer, p. ex. supports
B25C 5/02 - Outils portatifs pour agrafer utilisant la force musculaireOutils tenus à la main pour agrafer utilisant un moteurDispositifs d'alimentation en agrafes pour ces outils avec possibilité de plier les extrémités des agrafes dans les objets
A portable linear fastener driving tool is provided that drive staples, nails, or other linearly driven fasteners. The tool uses a gas spring principle, in which a cylinder filled with compressed gas is used to quickly force a piston through a driving stroke movement, while a driver also drives a fastener into a workpiece. The piston/driver is then moved back to its starting position by use of a rotary-to-linear lifter, and the piston again compresses the gas above the piston, thereby preparing the tool for another driving stroke. The driver has protrusions along its edges that contact the lifter, which lifts the driver during a return stroke. A pivotable latch is controlled to move into either an interfering position or a non-interfering position with respect to the driver protrusions, and acts as a safety device, by preventing the driver from making a full driving stroke at an improper time.
A portable linear fastener driving tool is provided that drive staples, nails, or other linearly driven fasteners. The tool uses a gas spring principle, in which a cylinder filled with compressed gas is used to quickly force a piston through a driving stroke movement, while a driver also drives a fastener into a workpiece. The piston/driver is then moved back to its starting position by use of a rotary-to-linear lifter, and the piston again compresses the gas above the piston, thereby preparing the tool for another driving stroke. The driver has protrusions along its edges that contact the lifter, which lifts the driver during a return stroke. A pivotable latch is controlled to move into either an interfering position or a non-interfering position with respect to the driver protrusions, and acts as a safety device, by preventing the driver from making a full driving stroke at an improper time.
An automatic fastener driving tool, or an attachment, has a narrow front-end profile so that it is capable of driving screws that are in hard-to-reach positions, such as corners or channel members. The slide body subassembly has an extending mechanism, so that the fastener drive elements extend farther away from the main body structure of the tool/attachment, while still providing a stable and rugged overall tool structure to drive larger screws. The "lick-out" dimension is increased without also increasing the length and width of the feed tube.
An automatic fastener driving tool, or an attachment, has a narrow front-end profile so that it is capable of driving screws that are in hard-to-reach positions, such as corners or channel members. The slide body subassembly has an extending mechanism, so that the fastener drive elements extend farther away from the main body structure of the tool/attachment, while still providing a stable and rugged overall tool structure to drive larger screws. The “lick-out” dimension is increased without also increasing the length and width of the feed tube.
An automatic fastener driving tool, or an attachment, has a narrow front-end profile so that it is capable of driving screws that are in hard-to-reach positions, such as corners or channel members. The slide body subassembly has an extending mechanism, so that the fastener drive elements extend farther away from the main body structure of the tool/attachment, while still providing a stable and rugged overall tool structure to drive larger screws. The “lick-out” dimension is increased without also increasing the length and width of the feed tube.
An automatic fastener driving tool, or an attachment, has an external depth of drive adjustment subassembly that is mounted external to the feed tube housing, yet has a simple adjustment that does not lose its setpoint easily. By placing the depth of drive mechanism outside of the interior areas of the feed tube, the slide body subassembly can be lengthened without increasing the overall length of the feed system. Certain surfaces of slide body subassembly exhibit a dovetail shape, which allows the slide body subassembly to be robustly mounted so that it is capable of operating with long fasteners while also having the nosepiece mounted in an extended position for use with those fasteners.
An attachment is mated to a power screwdriver by use of an adapter that is first fixed onto the screwdriver. The attachment includes an automatic fastener driver that receives a collated strip of fasteners, and drives them into a working surface. The attachment is mated to the adapter; the attachment contains a radial type of mechanical coupling that can be rotated without dismounting the attachment from the power screwdriver. In this manner, the angular orientation between the attachment and the power screwdriver can be changed “on the fly” by the user. This combination allows the user to keep his or her hands at their operating positions throughout this procedure, thereby allowing the user to re-commence using the combination tool quickly after readjusting the operating angle.
A portable linear fastener driving tool is provided that drive staples, nails, or other linearly driven fasteners. The tool uses a gas spring principle, in which a cylinder filled with compressed gas is used to quickly force a piston through a driving stroke movement, while a driver also drives a fastener into a workpiece. The piston/driver is then moved back to its starting position by use of a rotary-to-linear lifter, and the piston again compresses the gas above the piston, thereby preparing the tool for another driving stroke. The driver has protrusions along its edges that contact the lifter, which lifts the driver during a return stroke. A pivotable latch is controlled to move into either an interfering position or a non-interfering position with respect to the driver protrusions, and acts as a safety device, by preventing the driver from making a full driving stroke at an improper time.
A portable linear fastener driving tool is provided that drive staples, nails, or other linearly driven fasteners. The tool uses a gas spring principle, in which a cylinder filled with compressed gas is used to quickly force a piston through a driving stroke movement, while a driver also drives a fastener into a workpiece. The piston/driver is then moved back to its starting position by use of a rotary-to-linear lifter, and the piston again compresses the gas above the piston, thereby preparing the tool for another driving stroke. The driver has protrusions along its edges that contact the lifter, which lifts the driver during a return stroke. A pivotable latch is controlled to move into either an interfering position or a non-interfering position with respect to the driver protrusions, and acts as a safety device, by preventing the driver from making a full driving stroke at an improper time.
A portable linear fastener driving tool is provided that drive staples, nails, or other linearly driven fasteners. The tool uses a gas spring principle, in which a cylinder filled with compressed gas is used to quickly force a piston through a driving stroke movement, while a driver also drives a fastener into a workpiece. The piston/driver is then moved back to its starting position by use of a rotary-to-linear lifter, and the piston again compresses the gas above the piston, thereby preparing the tool for another driving stroke. The driver has protrusions along its edges that contact the lifter, which lifts the driver during a return stroke. A pivotable latch is controlled to move into either an interfering position or a non-interfering position with respect to the driver protrusions, and acts as a safety device, by preventing the driver from making a full driving stroke at an improper time.
A portable linear fastener driving tool is provided that drive staples, nails, or other linearly driven fasteners. The tool uses a gas spring principle, in which a cylinder filled with compressed gas is used to quickly force a piston through a driving stroke movement, while a driver also drives a fastener into a workpiece. The piston/driver is then moved back to its starting position by use of a rotary-to-linear lifter, and the piston again compresses the gas above the piston, thereby preparing the tool for another driving stroke. An improved lifter design has modified lifting pins that reduce the side-forces on the driver. A pivotable latch acts as a safety device, by preventing the driver from making a full driving stroke at an improper time. An improved latch design has a more durable catching surface.
