A low profile actuating window lock for casement windows having a longitudinal slot in a sidewall of the casing for the lock, wherein an actuator including a fork component translates within the slot in a direction opposite movement of the handle, the handle pivotable about a restrictor arm that pivots relative to the casing, allowing the handle to rotate from the locked position to the unlocked position with low clearance from the window frame. The pivot points of the handle and restrictor arm configuration allow for an over center linkage that prevents back driving the casement window lock.

A locking system is installed inside a truck work body such as a service body. A linear actuator drives a sliding member longitudinally between locked and unlocked positions. The sliding member is supported by slide bearings. A spring may bias the sliding member toward the unlocked position. Locking catches are secured on the compartment doors of storage compartments of the truck work body. Locking members protruding from the sliding member engage the locking catches in the locked position, and disengage from the locking catches in the unlocked position. The actuator may be wirelessly activated by a transmitter key fob. The actuator is mounted by tamper-resistant fasteners that are accessible and removable from the exterior of the work body, to release the actuator and unlock the system in the event of an actuator failure. A single actuator locks all compartments on one side of the work body.

A locking system is installed inside a truck work body such as a service body. A linear actuator drives a sliding member longitudinally between locked and unlocked positions. The sliding member is supported by slide bearings. A spring may bias the sliding member toward the unlocked position. Locking catches are secured on the compartment doors of storage compartments of the truck work body. Locking members protruding from the sliding member engage the locking catches in the locked position, and disengage from the locking catches in the unlocked position. The actuator may be wirelessly activated by a transmitter key fob. The actuator is mounted by tamper-resistant fasteners that are accessible and removable from the exterior of the work body, to release the actuator and unlock the system in the event of an actuator failure. A single actuator locks all compartments on one side of the work body.

Disclosed is a closure for a door of a shipping container. The closure includes a housing, an outside handle pivotally mounted relative to the housing, an inside handle pivotally mounted relative to the housing, and a catch connected to the inside handle. The closure is configured so that movement of the inside handle between a first position and a second position causes corresponding movement of the catch. A locking mechanism can releasably fix the inside handle relative to the outside handle, such that when in a locked position rotation of the outside handle causes corresponding rotation of the inside handle and when in an unlocked position the inside handle can be rotated independently of the outside handle.

Disclosed is a closure for a door of a shipping container. The closure includes a housing, an outside handle pivotally mounted relative to the housing, an inside handle pivotally mounted relative to the housing, and a catch connected to the inside handle. The closure is configured so that movement of the inside handle between a first position and a second position causes corresponding movement of the catch. A locking mechanism can releasably fix the inside handle relative to the outside handle, such that when in a locked position rotation of the outside handle causes corresponding rotation of the inside handle and when in an unlocked position the inside handle can be rotated independently of the outside handle.

A retention bracket configured for use with a latch mechanism including a laterally extending housing. The retention bracket includes a first wall, a second wall, a collar, and a deformable section. The first and second walls are longitudinally offset from one another and are structured to receive the housing therebetween. The collar extends longitudinally outward from one of the walls and defines an opening having an effective diameter. The deformable section has a natural state in which the effective diameter is a first diameter, and a deformed state in which the effective diameter is a second diameter greater than the first diameter.

A latch assembly comprises an exterior housing, a door latch, a plunger, a resilient member, and an external lever pivotally mounted on an outer face of the exterior housing. The external lever comprises a first leg, a second leg disposed at an angle relative to the first leg, and a pivot mount disposed between the first leg and the second leg. The plunger is maintained in the latched position when the external lever is in a latched position by the resilient member, whereby an entry door cannot be unintentionally shifted from the closed position. The plunger is displaced from the latched position to the unlatched position when the external lever is rotated from the latched position to the unlatched position by the second leg bearing against the plunger, whereby the entry door is free to be shifted from the closed position to the open position.

A latch assembly comprises an exterior housing, a door latch, a plunger, a resilient member, and an external lever pivotally mounted on an outer face of the exterior housing. The external lever comprises a first leg, a second leg disposed at an angle relative to the first leg, and a pivot mount disposed between the first leg and the second leg. The plunger is maintained in the latched position when the external lever is in a latched position by the resilient member, whereby an entry door cannot be unintentionally shifted from the closed position. The plunger is displaced from the latched position to the unlatched position when the external lever is rotated from the latched position to the unlatched position by the second leg bearing against the plunger, whereby the entry door is free to be shifted from the closed position to the open position.

A latching system for securing a door to a panel includes a pawl having a first end that is configured to releasably engage a striker on the panel, and a second end opposite the first end having a connector. A pawl connector is connected to the connector on the second end of the pawl. The pawl connector includes a hollow cylindrical body having a longitudinal axis, a revolved outer side wall extending about the longitudinal axis, an open end through which the connector of the pawl is positioned, an opening defined on the revolved side wall of the cylindrical body, and a deformable portion formed on the revolved outer side wall. The deformable portion extends between the open end and the opening. The deformable portion is configured to elastically deform upon inserting the connector through the open end until the connector is non-removably seated within the opening.

A latching system for securing a door to a panel includes a pawl having a first end that is configured to releasably engage a striker on the panel, and a second end opposite the first end having a connector. A pawl connector is connected to the connector on the second end of the pawl. The pawl connector includes a hollow cylindrical body having a longitudinal axis, a revolved outer side wall extending about the longitudinal axis, an open end through which the connector of the pawl is positioned, an opening defined on the revolved side wall of the cylindrical body, and a deformable portion formed on the revolved outer side wall. The deformable portion extends between the open end and the opening. The deformable portion is configured to elastically deform upon inserting the connector through the open end until the connector is non-removably seated within the opening.