The present invention relates to a bidirectionally operating warfare lock mechanism (C) that prevents external interference (opening/unlocking) to hatches in military vehicles (A) during combat. The present invention particularly relates to a bidirectionally operating warfare lock mechanism (C) comprising a lock operating mechanism (100) that is connected to the vehicle (A) and that allows for opening and locking the hatch (B) when the user moves the lock lever (110) to P1 (161) and P2 (162) receptacles, and further comprising a lock bolt mechanism (200) that can be easily mounted by being rotated 180° around its axis without making any changes in the design, thereby allowing for being used in always-open or always-closed (locked) configurations according to the desired scenario.

The subject matter of the present invention is a motor vehicle door lock, in particular tailgate lock, which is provided with a locking mechanism (1, 2) essentially consisting of a rotary latch (1) and a pawl (2). Furthermore, as required, an unlocking/opening actuator (6) as well as a locking actuator (7) may be realised. In addition at least one sensor (12, 13) assigned to the locking actuator (7) is provided. According to the invention the sensor (12, 13) is arranged at a distance from a locking mechanism plane protected in the lock interior, and is impacted by means of an actuating element (14) following the locking actuator (7).

The subject matter of the present invention is a motor vehicle door lock, in particular tailgate lock, which is provided with a locking mechanism (1, 2) essentially consisting of a rotary latch (1) and a pawl (2). Furthermore, as required, an unlocking/opening actuator (6) as well as a locking actuator (7) may be realised. In addition at least one sensor (12, 13) assigned to the locking actuator (7) is provided. According to the invention the sensor (12, 13) is arranged at a distance from a locking mechanism plane protected in the lock interior, and is impacted by means of an actuating element (14) following the locking actuator (7).

A steering lock device includes a trigger that is displaced as a frame cover drops from a frame, an auxiliary lock device that holds a lock member in a locked position as the trigger is displaced under condition that the lock member is positioned in the locked position, a housed component that is arranged in a housing chamber defined by the frame cover and the frame or in a guide hole, and a trigger coupling member that couples the housed component and the trigger. When the housed component is displaced, the trigger is displaced via the trigger coupling member.

A steering lock device includes a trigger that is displaced as a frame cover drops from a frame, an auxiliary lock device that holds a lock member in a locked position as the trigger is displaced under condition that the lock member is positioned in the locked position, a housed component that is arranged in a housing chamber defined by the frame cover and the frame or in a guide hole, and a trigger coupling member that couples the housed component and the trigger. When the housed component is displaced, the trigger is displaced via the trigger coupling member.

A service latch assembly for a vehicle is disclosed. The latch assembly includes a striker member and a latch mechanism configured to selectively engage and release the strike member. The latch mechanism includes a frame plate defining a guideway configured to receive the striker member, a striker guard inserted into the guideway, a latch member pivotally connected to the frame plate, a stop tab extending from a closed end of the guideway, a stop bumper inserted onto the stop tab, and an over-mold fitted over the latch member. The over-mold includes a pivot limiter bumper configured to cooperate with the stop bumper to limit the pivot of the latch member in an open position and a striker retention feature nested onto an edge retention surface of a first lever arm of the latch member.

A service latch assembly for a vehicle is disclosed. The latch assembly includes a striker member and a latch mechanism configured to selectively engage and release the strike member. The latch mechanism includes a frame plate defining a guideway configured to receive the striker member, a striker guard inserted into the guideway, a latch member pivotally connected to the frame plate, a stop tab extending from a closed end of the guideway, a stop bumper inserted onto the stop tab, and an over-mold fitted over the latch member. The over-mold includes a pivot limiter bumper configured to cooperate with the stop bumper to limit the pivot of the latch member in an open position and a striker retention feature nested onto an edge retention surface of a first lever arm of the latch member.

A lavatory door system for a vehicle, in particular an aircraft, with a lavatory door; a pneumatic actuator configured to open and close the lavatory door based on a differential pressure, wherein the pneumatic actuator is coupled to a vacuum toilet system of the vehicle to generate the differential pressure; and an operating interface configured to receive a user control operation and to selectively release the differential pressure from the vacuum toilet system for operation of the pneumatic actuator based on the received user control operation.

A lavatory door system for a vehicle, in particular an aircraft, with a lavatory door; a pneumatic actuator configured to open and close the lavatory door based on a differential pressure, wherein the pneumatic actuator is coupled to a vacuum toilet system of the vehicle to generate the differential pressure; and an operating interface configured to receive a user control operation and to selectively release the differential pressure from the vacuum toilet system for operation of the pneumatic actuator based on the received user control operation.

A refuse vehicle includes a chassis, a body, a tailgate, a tailgate actuator, and a tailgate locking assembly. The body supports the chassis and defines a receptacle configured to store refuse therein. The tailgate is positioned at an end of the receptacle and is rotatably coupled to the body. The tailgate actuator coupled to the tailgate and is configured to move the tailgate relative to the body between an open position and a closed position. The tailgate locking assembly is coupled to the body and the tailgate actuator and is configured to couple the tailgate to the body in response to the movement of the tailgate actuator.