A deck clip magazine for use with a pneumatic fastener gun and a plurality of generally T-shaped deck clips attached to one another by webbing to form a clip belt. The deck clip magazine has a housing with a channel shaped to receive the clip belt and a front end with an opening to permit egress of the leading clip from the channel. An aperture on the housing is aligned with the barrel of the pneumatic fastener gun and permits fasteners to pass therethrough to secure the generally T-shaped clips in position. The clips are aligned below the aperture by way of an inwardly biased movable stop located adjacent the opening. A cutting mechanism is aligned with the webbing and selectively actuated to sever the webbing between adjacent clips in the clip belt.

An improved tool for installing an explosively driven fastener as well as an improved explosively driven fastener for use therewith are disclosed. The fastener includes a nail having a head with an explosive load attached thereto in a plastic cap that includes a buffer. The tool has a plurality of concentric cylinders and springs including a muzzle for receiving the fastener head and explosive load. A spring actuated firing pin ignites the load causing it to explode and drive the nail out of the tool. The explosion also automatically resets the tool. The tool and the fastener provide many advantages over existing explosively driven fasteners and the tools used to install them.

A driving tool capable of suppressing the increase in the number of components is provided. The driving tool includes an ejection unit 23 to which a fastener is supplied and a striking unit capable of moving with respect to the ejection unit 23 so as to drive the fastener supplied to the ejection unit 23 into a workpiece, and the driving tool further includes a first push lever 74 capable of contacting with and separating from the workpiece and capable of moving with respect to the ejection unit 23, a second push lever 135 capable of moving in conjunction with the first push lever 74, and a blade guide 120 and a cover 30 having a function to guide a movement of the first push lever 74 and the second push lever 135 with respect to the ejection unit 23 in a predetermined direction.

A driving device includes: a main body; a striking part movably supported by the main body; a handle protruding from the main body; and a nose part attached to the main body and holding a fastener before being hit by the striking part, the nose part movably accommodating the striking part and having an injection path for guiding the fastener and an injection port connecting with the injection path and firing the fastener, an opening extending from the injection port toward the handle being provided on a handle side of the injection path, and a width of the opening being larger than an outer diameter of a head of the fastener in a plan view perpendicular to a linear moving direction of the striking part.

A device for nailing cast in place anchors includes a housing, which has an anchor receptacle for receiving a cast in place anchor, a nail gun abutment for abutting against a nail gun, and a ram, which extends into the housing towards the anchor receptacle and which is axially displaceable with respect to the housing. The ram has a striking surface facing the anchor receptacle for striking the cast in place anchor disposed in the anchor receptacle. The ram further has a striker abutment for abutting against a striker of the nail gun that is positioned at the nail gun abutment.

A spring tool for actuating explosive fasteners for driving nails into a substrate is disclosed. For the tool to operate at its maximum potential the firing pin guide should be pushed securely against the rear of the fastener and the tip of the fastener should be pushed securely against the substrate. The action of the operator pushing the tool forward to actuate the tool moves the trigger body forward while compressing the firing spring until the trigger body travels the exact distance needed to release the trigger ball. The trigger body must also be in optimal rotational orientation with the tool and means for accomplishing the alignment is disclosed.

An apparatus for driving a fastening element into a base material, comprising a power unit and a driving element which is provided driven by the power unit in a driving direction from a starting position into a setting position to drive a fastening element into the base material; a braking element with a contact surface which defines the setting position of the driving element and against which the driving element lies in the setting position; a pressing element which has an end surface which can be pressed in the driving direction onto the base material, wherein, in the driving direction, the end surface and the contact surface are at a distance from each other which defines a driving depth of the fastening element into the base material; and, an adjustment device with which the distance between the end surface and the contact surface can be adjusted.

A nail gun for repeatedly driving nails into a substrate includes a drive assembly having a longitudinal axis, a feed head assembly attached to the drive assembly and configured to provide the nails to an output segment, a hammer configured to reciprocate along the longitudinal axis of the drive assembly to drive the nails into the substrate, and a reservoir assembly configured to provide compressed air to the drive assembly to reciprocate the hammer and drive the nail into the substrate. A method drives nails into a substrate with the nail gun.