A quick grip pocket hole jig system is presented having a support section having a clamp support, an end stop and a back stop. A clamping assembly is connected to the support section having a clamping rod that extends through the clamp support. A drill guide carrier having a drill guide assembly is connected to the clamping rod on a forward side of the clamp support. A clamp body having a trigger and a release mechanism is connected to the clamping rod on a rearward side of the clamp support. The clamp body is a quick grip clamp body that facilitates quick gripping of a workpiece positioned within the support section. The clamping assembly includes a return spring and a release mechanism such that when the release mechanism is actuated the drill guide carrier and the drill guide assembly are automatically moved to a non-clamping position.

A handheld guide for advancing and installing a decking fastener with an elongate track with a rail and an advancement member. The advancement member carries a pivoting pawl with an engagement surface for advancing fasteners forward through the track to an installation position with a frontmost fastener aligned with a screw guide for driving a screw through the frontmost fastener. The rail has a ramp transitioning to a cliff and a lower ledge such that the frontmost fastener is maintained forward of the cliff above the ledge in the installation position. The pawl pivots to disengage from the fasteners when the advancement member moves rearwardly along the track.

A handheld guide for advancing and installing a decking fastener with an elongate track with a rail and an advancement member. The advancement member carries a pivoting pawl with an engagement surface for advancing fasteners forward through the track to an installation position with a frontmost fastener aligned with a screw guide for driving a screw through the frontmost fastener. The rail has a ramp transitioning to a cliff and a lower ledge such that the frontmost fastener is maintained forward of the cliff above the ledge in the installation position. The pawl pivots to disengage from the fasteners when the advancement member moves rearwardly along the track.

A drywall screw gun multitool (10) incorporates a screw gun on a first end and a cutter assembly (60) tool on an opposing end. A user can turn the tool around to switch from the screw gun tool to the cutter assembly (60) tool. The drywall screw gun multitool (10) comprises an electric motor (50) that spins both the screw gun and the cutter assembly (60). A drywall screw gun multitool (10) may also include a dust collector assembly (80) that draws air in from the cutter end (26) of the tool and through a filter (84). A drywall screw gun multitool (10) may also include a light 33 to aid the user in low light conditions and a stud finder (39). The cutter assembly (60) tool and dust collector may be detachably attachable to the housing (20) of the multitool.

A drywall screw gun multitool (10) incorporates a screw gun on a first end and a cutter assembly (60) tool on an opposing end. A user can turn the tool around to switch from the screw gun tool to the cutter assembly (60) tool. The drywall screw gun multitool (10) comprises an electric motor (50) that spins both the screw gun and the cutter assembly (60). A drywall screw gun multitool (10) may also include a dust collector assembly (80) that draws air in from the cutter end (26) of the tool and through a filter (84). A drywall screw gun multitool (10) may also include a light 33 to aid the user in low light conditions and a stud finder (39). The cutter assembly (60) tool and dust collector may be detachably attachable to the housing (20) of the multitool.

A staple advance device includes a receptacle having a guide pathway formed by a low level surface, a high level surface, a tilted surface located between the low and the high level surfaces, and an inclined surface formed and located beside the low level surface and communicating with the low level surface, a barrel is slidably engaged in the receptacle, a guide plate is attached to the barrel for supporting the fasteners, an actuating lever is pivotally attached to the barrel with a pivot axle and includes a guide pin slidably engaged in the guide pathway of the receptacle, and a guide rod for feeding the fastener into the barrel selectively, a guide device includes a gate for engaging with the tilted surface and for forming an endless guide pathway for the receptacle selectively.

[Problem] To provide a screw cutting mechanism that can stably feed screws to a driver bit by stabilizing the position of the screws, and that has an accurate and smooth cutting action. [Solution] Provided is a screw cutting mechanism for cutting screws one at a time from a screw feeder, wherein: the cutting mechanism is equipped with a rotating disk that rotates horizontally; the outer circumference of the rotating disk comprises a recessed section that opens toward the axis of rotation and holds the screws therein; the rotating disk fits into a circular cavity in the upper section on the frame side; a rotating shaft attaches the rotating disk to the upper section on the frame side, is equipped with a fixed bearing section in the middle section on the frame side, and is equipped with an adjustable bearing section that can be secured to the lower section on the frame body side so that the attachment position is adjustable; a slit disk, which is equipped with a slit that corresponds to the recessed section, and a drive gear are fixed at suitable locations on the rotating shaft between the adjustable bearing section and the rotating disk; a detection mechanism for detecting the slit of the slit disk is provided; a stepping motor is controlled by a detection signal from the detection mechanism to drive the drive gear; and the rotating disk is rotated by a prescribed angle in one direction.

Systems and methods are provided for assembling a magazine for a swage tool. The method includes selecting a cartridge that comprises a first serpentine channel dimensioned for conveying collars, and further comprises an entrance and an exit of the first serpentine channel. The method also includes disposing the cartridge at a swage tool.

The present invention provides a successive screw fastener which enhances a screw fastening function and improves operability and rapidness of each element. A successive screw fastener 1 according to the present invention has: a grip unit 2 including a trigger switch 16 with a direction lever 17 which sets a direction of forward rotation or reverse rotation of a rotary drive section 22 which rotationally drives a bit B; a screw fastener main body unit 3 including a gap adjustment mechanism section 91 which assuredly guides a screw S to a fastening acting position, a screw feed mechanism section 61 which avoids interference of the screw S and the bit B, a screw guide position adjustment mechanism section 101 which can simply adjust a gap between the fastening acting position and a fastening target position, and a magazine mounting mechanism section 111 having rigidity; a magazine unit 4 which can be easily attached to or detached from the screw fastener main body unit 3; and a handle unit 5 having excellent operability of an operator.

A method and a device for separating a fastening element from a fastening element strip having a holder in which the fastening element is received, wherein the fastening element defines a fastening direction in which the fastening element is intended to be driven into a substructure, wherein the fastening element is transported in a transport direction until the fastening element is arranged in a separating portion, and a movement of the fastening element relative to the holder in a separating direction is generated until the fastening element is divided from the holder, and wherein the separating direction is inclined with respect to the fastening direction.