A powered fastening device is capable of driving a fastener into a work piece and automatically preventing the device from firing until a fastener is located in an appropriate position within the device.

A powered fastener driver includes a magazine in which fasteners of a first length or fasteners of a second length greater than the first length are receivable. The magazine includes a shear block located at a first end of the magazine, a loading portion located at a second end of the magazine, and a feed channel extending lengthwise through the magazine between. The loading portion of the magazine includes first and second slots configured to receive fasteners of the corresponding first and second lengths for entry into the feed channel, and a feed channel access gate configured to prevent fasteners of the first length from being loaded into the second slot. The feed channel access gate is configured as a pivot member pivotable about an axis between a first, blocking position, and a second, bypass position. A spring biases the feed channel access gate toward the blocking position.

Frangible connectors can extend between and can alone couple adjacent insulator bodies together. The insulator bodies can also include counteracting frangible connectors that can be spaced from and coupled solely to a single one of the plurality of insulator bodies. The counteracting frangible connectors provide a counteracting shearing operation, which can help counteract the counterclockwise rotational movement that the frangible connectors tend to impart as they are sheared. The insulator bodies can be mounted on staples. The insulator bodies can have an upper bridge profile and the staples can have a lower crown profile opposing the upper bridge profile. The lower crown profile and the upper bridge profile can have opposite end portions that engage each other and can have central portions that are simultaneously spaced from each other to provide a central space between corresponding central portions of the insulator bridge and the staple crown.

A staple insertion device includes a staple drive chamber, staple reservoir, staple feed mechanism, and staple drive member. The staple drive chamber is formed between a backing plate and a jam plate removably attached to the backing plate. The staple reservoir is configured to receive and hold a plurality of staples and extends from the backing plate to a staple reservoir terminal plate. The staple feed mechanism is operatively connected to the staple reservoir and is configured to feed the plurality of staples from the staple reservoir into the staple drive chamber through the backing plate. The staple drive member is configured to advance downwardly through the staple drive chamber so as to drive a staple out of the staple drive chamber.

The invention provides a pneumatic nail gun, comprising a gun body, a nail box, a fork and a nail forming device. The gun body comprises a sliding groove, a nail outlet adjacent to the sliding groove and a push block. The nail box and the fork are fixed on the gun body. The nail box is configured to place a plurality of strip nails to be sequentially exposed from the nail outlet. The formed fork comprises two forming surfaces with unequal heights, and the two forming surfaces are adjacent to the nail outlet. The nail forming device comprises two jaw arms, two control arms and a push seat, and the push block drives the two control arms to drive the two jaw arms to rotate and close the two forming jaws, and to drive the push seat to slide on the sliding groove.

The invention provides a pneumatic nail gun, comprising a gun body, a nail box, a fork and a nail forming device. The gun body comprises a sliding groove, a nail outlet adjacent to the sliding groove and a push block. The nail box and the fork are fixed on the gun body. The nail box is configured to place a plurality of strip nails to be sequentially exposed from the nail outlet. The formed fork comprises two forming surfaces with unequal heights, and the two forming surfaces are adjacent to the nail outlet. The nail forming device comprises two jaw arms, two control arms and a push seat, and the push block drives the two control arms to drive the two jaw arms to rotate and close the two forming jaws, and to drive the push seat to slide on the sliding groove.

An accessory for a fastening gun includes a magazine assembly with a feed end and a discharge end and configured to support a series of staples in a pre-discharge orientation and with a feed mechanism for feeding the staples from the feed end to the discharge end. A drive member guide assembly is mounted on the magazine assembly and is configured so that a staple drive member can be mounted in the drive member guide assembly and can be driven and retracted along a predetermined path with respect to the magazine assembly, so that, when driven, the drive member can engage a staple to drive legs of the staple into respective components, the drive member guide assembly being configured for mounting on the fastening gun with the drive member connected to a piston or the like of the fastening gun.

A stapler includes a main body, a magazine, a striker, and a driving portion. The main body encloses a receiving space and has an opening at the bottom of the front end thereof. The opening communicates with the receiving space. The magazine is arranged in the main body for receiving staples. The striker is arranged at the front end of the main body and is linearly slidable above the opening vertically. The driving portion is disposed on the main body and is connected to the striker to drive it to move downward to strike the staple out. The striker has a bottom face oriented frontward and downward so that an angle ranged from 3-15 degrees is defined between the bottom face and the horizontal plane.

Frangible connectors can extend between and can alone couple adjacent insulator bodies together. The insulator bodies can also include counteracting frangible connectors that can be spaced from and coupled solely to a single one of the plurality of insulator bodies. The counteracting frangible connectors provide a counteracting shearing operation, which can help counteract the counterclockwise rotational movement that the frangible connectors tend to impart as they are sheared. The insulator bodies can be mounted on staples. The insulator bodies can have an upper bridge profile and the staples can have a lower crown profile opposing the upper bridge profile. The lower crown profile and the upper bridge profile can have opposite end portions that engage each other and can have central portions that are simultaneously spaced from each other to provide a central space between corresponding central portions of the insulator bridge and the staple crown.

A grip strength trainer with an integrated stapler uses a finger grip and a grip-engagement mechanism to enable a user to selectively staple documents or train grip strength. The stapler has a base and a top cover that are hingedly, and terminally, connected about a pin. So that the stapler can perform stapling and strength training operations by pivoting the top cover toward the base. The finger grip is mounted onto the base, opposite to the top cover so that the user is able to establish a stable grip. The grip-engagement mechanism is a spring-loaded actuation system that enables the user to select between performing stapling and strength training operations. The grip-engagement mechanism has a mode-switching slot that passes through the finger grip and forms the track along which a mode-control lever travels. The mode control lever enables the user to selectively perform stapling or strength training operations.