A tool for installing a door striker pin includes: a latch engagement section having a first surface, a striker pin extending from the first surface, and an abutment surface that extends generally orthogonal to the first surface; and a pin positioning section coupled to the latch engagement section and including a positioning surface with a striker pin slot formed therethrough that extends in parallel with the striker pin. The striker pin slot is positioned in the positioning surface such that the striker pin slot is aligned with a striker pin installation location when the striker pin of the latch engagement section is engaged with a latch of a door and the abutment surface rests against a frame to which the door is pivotably coupled.

A door latch assembly is positionable between an unlatched position, an intermediate position, and a latched position. The door latch assembly includes a housing, a drive mechanism disposed within the housing, a rotor pivotally coupled to the housing and disposed therein, and a catch assembly pivotally coupled to the housing and disposed therein. The rotor has an outer surface which forms at least two notches. A bearing is rotatably coupled to the catch assembly. In the unlatched position, the bearing is located in contact with the outer surface but not within either of the at least two notches. In the intermediate position, the bearing is located in a first notch and in the latched position the bearing is located in a second notch.

A vehicle door lock release mechanism includes a plate assembly coupled with a vehicle, sliding plates that slide in opposite directions, an elastic member coupled with the plate assembly, and electromagnets coupled with the plate assembly. One electromagnet may be energized to prevent movement of a first sliding plate while a second sliding plate may move responsive to a release cable being pulled. The second electromagnet may be energized to magnetically couple with and prevent movement of the second sliding plate once the second sliding plate reaches the second electromagnet. The elastic member may be stretched and store energy from the release cable being pulled while both the first and second electromagnets remain energized. The first electromagnet may be de-energized to permit movement of the first sliding plate and release the energy stored in the elastic member for opening a door of the vehicle.

An apparatus for actuating a door on a vehicle, the door including a first panel and a second panel both movable between an open position and a completely closed position. A first motor is operatively connected with the first pane for moving the first panel and a second motor operatively connected with the second panel for moving the second panel. A first striker/latch assembly is disposed adjacent the first panel, and a second striker/latch assembly disposed adjacent the second panel. A computer is electrically connected with the first motor, the second motor, the first striker/latch assembly and the second striker/latch assembly.

Disclosed is a door locking device for manually/physically locking a vehicle door from inside a vehicle, especially a cab door of a truck, comprising a housing including locking members movable between an unlocked position and a locked position. A first lever arm is partly rotatable connected to the housing and a second lever arm is partly rotatable connected to the other end of the first lever arms. A first spring is striving to keep the first lever arm onto or in the housing and a second spring is striving to keep the second lever arm against or in level with the first lever arm and/or in the housing. The second lever arm is provided with a recess by which the first and second lever arms may be pulled out, operated, from their folded position on/in the housing and/or door, by the user/driver, and hooked on/around a rigid locking element/handle.

Disclosed is a door locking device for manually/physically locking a vehicle door from inside a vehicle, especially a cab door of a truck, comprising a housing including locking members movable between an unlocked position and a locked position. A first lever arm is partly rotatable connected to the housing and a second lever arm is partly rotatable connected to the other end of the first lever arms. A first spring is striving to keep the first lever arm onto or in the housing and a second spring is striving to keep the second lever arm against or in level with the first lever arm and/or in the housing. The second lever arm is provided with a recess by which the first and second lever arms may be pulled out, operated, from their folded position on/in the housing and/or door, by the user/driver, and hooked on/around a rigid locking element/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.

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 self-aligning locking device for a vehicle sliding door assembly includes a sliding door threshold configured to be mounted on a door panel. The threshold is configured to slide along a sliding axis. The threshold includes a latch and a tongue at a car body-engaging end of the latch. The locking device also includes a groove block and a hook plate both configured to be coupled to the car body. Optionally, the locking device can include a switch sensor. The tongue of the threshold is configured to engage the groove to maintain alignment of the hook plate to mate with the latch to lock the threshold to the car body. The optional switch sensor can be configured to generate a signal indicating a locked state of the hook with the latch responsive to actuation of the switch sensor by the latch.

The present invention provides a resistant lock for locking doors, having a locking mechanism that enable locking the door in any direction without any modification or adjustment thereof, and that provide improved security.