Apparatus and associated methods relate to an access control system having a planar interlocking mechanism including two reflectively symmetric rotating moon gears mechanically coupled by a linear slide configured to respond to rotation of the moon gears. In an illustrative example, the moon gears are mechanically coupled by the linear slide via respective actuating cams. The moon gears may be provided, for example, with locking cams configured to releasably secure the linear slide via a corresponding follower on the linear slide. Rotation of one moon gear into a first mode may, for example, place the other moon gear in a second mode, and vice versa. Each moon gear may be configured, for example, to be operated by a removable peg. Various embodiments may advantageously be configured such that release of a removable peg from one moon gear captures a peg in a corresponding moon gear.

An animal enclosure including a plurality of members defining an interior of the enclosure. One of the plurality of members includes a first member having a frame structure and door assembly formed by a plurality of interconnected horizontal and vertical wires. At least two of the horizontal wires of the frame structure form a hook positioned inside the defined opening. The door assembly is coupled to the frame and moves between open and closed positions. The door assembly includes a first door and a second door removably coupled to one another. The enclosure also includes a latch assembly for releasing the door assembly from the frame structure. In the closed position, at least one horizontal wire of the first door and at least one horizontal wire of the second door are coupled to the hooks formed by the at least two horizontal wires of the frame structure.

Firearm associated electronic devices are provided. In one aspect a firearm associated device has a housing having a holding area and an opening through which a removable component may be positioned in the holding area, a door movable relative to the housing and having a door latch that moves along a path as the door moves and a housing latch movable between a first latch position where the housing latch is not in the path to a second latch position where the housing latch blocks movement of the door latch from a first range of positions where the door prevents the removable component from passing through the opening to a second range of positions where the door does not prevent the removable component from passing through the opening. A housing latch biasing member biases the housing latch into the second latch position. When the door latch is in the first range of positions and the housing latch is in the second latch position the door latch is movable along the path but is blocked by the housing latch from passing to the second range of positions.

Apparatus and associated methods relate to an access control system having a planar interlocking mechanism including two reflectively symmetric rotating moon gears mechanically coupled by a linear slide configured to respond to rotation of the moon gears. In an illustrative example, the moon gears are mechanically coupled by the linear slide via respective actuating cams. The moon gears may be provided, for example, with locking cams configured to releasably secure the linear slide via a corresponding follower on the linear slide. Rotation of one moon gear into a first mode may, for example, place the other moon gear in a second mode, and vice versa. Each moon gear may be configured, for example, to be operated by a removable peg. Various embodiments may advantageously be configured such that release of a removable peg from one moon gear captures a peg in a corresponding moon gear.

A latch and catch assembly including a catch attachable to a first structure such as a door, and a latch mechanism attachable to a second structure such as a cabinet, the latch mechanism and the catch cooperating to secure the first structure relative to the second structure. The latch mechanism includes first and second hooks mounted for pivoting movement between an engagement position for engaging with the catch and a disengagement position for disengaging from the catch, a translating gear rail positioned between the first and second hooks coordinating pivoting movement of the first and second hooks, and an actuator mechanism for driving movement of the translating gear rail to drive the first and second hooks toward their disengagement position.

Firearm associated electronic devices are provided. In one aspect a firearm associated device has a housing having a holding area and an opening through which a removable component may be positioned in the holding area, a door movable relative to the housing and having a door latch that moves along a path as the door moves and a housing latch movable between a first latch position where the housing latch is not in the path to a second latch position where the housing latch blocks movement of the door latch from a first range of positions where the door prevents the removable component from passing through the opening to a second range of positions where the door does not prevent the removable component from passing through the opening. A housing latch biasing member biases the housing latch into the second latch position. When the door latch is in the first range of positions and the housing latch is in the second latch position the door latch is movable along the path but is blocked by the housing latch from passing to the second range of positions.

Firearm associated electronic devices are provided. In one aspect a firearm associated device has a housing having a holding area and an opening through which a removable component may be positioned in the holding area, a door movable relative to the housing and having a door latch that moves along a path as the door moves and a housing latch movable between a first latch position where the housing latch is not in the path to a second latch position where the housing latch blocks movement of the door latch from a first range of positions where the door prevents the removable component from passing through the opening to a second range of positions where the door does not prevent the removable component from passing through the opening. A housing latch biasing member biases the housing latch into the second latch position. When the door latch is in the first range of positions and the housing latch is in the second latch position the door latch is movable along the path but is blocked by the housing latch from passing to the second range of positions.

A latch and catch assembly including a catch attachable to a first structure such as a door, and a latch mechanism attachable to a second structure such as a cabinet, the latch mechanism and the catch cooperating to secure the first structure relative to the second structure. The latch mechanism includes first and second hooks mounted for pivoting movement between an engagement position for engaging with the catch and a disengagement position for disengaging from the catch, a translating gear rail positioned between the first and second hooks coordinating pivoting movement of the first and second hooks, and an actuator mechanism for driving movement of the translating gear rail to drive the first and second hooks toward their disengagement position.

The present invention relates to a box fastener anchor that is removably connectable or permanently attached to a fastener and that has a tooth that can pierce a box. The anchor can have a base with two lips in one embodiment. The base has a hole between the lips with a securing ring with distally located rims that combine to form a ring. The rims and lips can be used to connect the anchor to a box fastener. The base further has a base flange at one end. The anchor also has an arm with a tooth at the distal end of the arm. The tooth has a piercing element at one end. The tooth can have a curved or straight body. The arm can mate with the base to lock the arm in a closed position. A release is provided for unlocking the arm from the base.

Firearm associated electronic devices are provided. In one aspect a firearm associated device has a housing having a holding area and an opening through which a removable component may be positioned in the holding area, a door movable relative to the housing and having a door latch that moves along a path as the door moves and a housing latch movable between a first latch position where the housing latch is not in the path to a second latch position where the housing latch blocks movement of the door latch from a first range of positions where the door prevents the removable component from passing through the opening to a second range of positions where the door does not prevent the removable component from passing through the opening. A housing latch biasing member biases the housing latch into the second latch position. When the door latch is in the first range of positions and the housing latch is in the second latch position the door latch is movable along the path but is blocked by the housing latch from passing to the second range of positions.