A vehicular rear slider window assembly includes a movable window panel that is movable along upper and lower rails of a fixed window panel. A first heater grid is disposed at a first fixed panel, a second heater grid is disposed at a second fixed panel, and a third heater grid disposed at the movable window panel. A jumper electrical connector electrically connects between the first and second fixed panels, and a flexible electrical connector electrically connects between the first or second fixed panel and the movable window panel. The first fixed panel has positive and negative terminals configured to electrically connect to at least one electrical connector of a vehicle wire harness when the vehicular rear slider window assembly is installed at a vehicle. When the positive and negative terminals are electrically powered, electrical current may flow in a single direction across the first and second heater grids.

A door latch assembly configured to be used in an aircraft lavatory door. The door latch assembly includes a housing that includes a housing interior, a switch member operatively associated with the housing that is rotatable between a first position and a second position, and a locking bolt that is movable linearly between an unlocked position and a locked position. Rotation of the switch member from the first position to the second position moves the locking bolt from the unlocked position to the locked position.

A door latch assembly configured to be used in an aircraft lavatory door. The door latch assembly includes a housing that includes a housing interior, a switch member operatively associated with the housing that is rotatable between a first position and a second position, and a locking bolt that is movable linearly between an unlocked position and a locked position. Rotation of the switch member from the first position to the second position moves the locking bolt from the unlocked position to the locked position.

An autonomous vehicle includes an autonomously driven vehicle frame with a retractable pivot mechanism disposed on a platform surface of the vehicle frame. Changeable utility pods are configured to attach to and be removed from the vehicle frame by way of the retractable pivot mechanism onboard the frame, and autonomously change the vehicle from a passenger transport to a logistics transport by changing utility pods. A processor provides autonomous vehicle operations that include extending the retractable pivot mechanism from a retracted position recessed in the platform surface of the vehicle frame to an extended position that engages a utility pod conveyor channel. The retractable pivot mechanism engages a conveyor channel disposed on a mating surface of a utility pod, and conveys the utility pod along the conveyor channel to a centered and laterally-aligned position on the vehicle frame by rotating the pod into position once centered over the pivot mechanism.

An autonomous vehicle includes an autonomously driven vehicle frame with a retractable pivot mechanism disposed on a platform surface of the vehicle frame. Changeable utility pods are configured to attach to and be removed from the vehicle frame by way of the retractable pivot mechanism onboard the frame, and autonomously change the vehicle from a passenger transport to a logistics transport by changing utility pods. A processor provides autonomous vehicle operations that include extending the retractable pivot mechanism from a retracted position recessed in the platform surface of the vehicle frame to an extended position that engages a utility pod conveyor channel. The retractable pivot mechanism engages a conveyor channel disposed on a mating surface of a utility pod, and conveys the utility pod along the conveyor channel to a centered and laterally-aligned position on the vehicle frame by rotating the pod into position once centered over the pivot mechanism.

The subject matter of this specification can be embodied in, among other things, a lock apparatus that includes a latch hook having a catch at a first latch end, a first pivotal mount at a second latch end opposite the first latch end, and a second pivotal mount, a rotary actuator configured to selectably rotate a rotor shaft in a first rotary direction and in a second rotary direction opposite the first rotary direction, a rotor arm coupled to the rotor shaft at a first arm end and extending radially outward from the rotor shaft to a second arm end opposite the first arm end, and a link arm pivotably connected to the second arm end at a first link end, and pivotably connected to the second pivotal mount at a second link end opposite the first link end.

The subject matter of this specification can be embodied in, among other things, a lock apparatus that includes a latch hook having a catch at a first latch end, a first pivotal mount at a second latch end opposite the first latch end, and a second pivotal mount, a rotary actuator configured to selectably rotate a rotor shaft in a first rotary direction and in a second rotary direction opposite the first rotary direction, a rotor arm coupled to the rotor shaft at a first arm end and extending radially outward from the rotor shaft to a second arm end opposite the first arm end, and a link arm pivotably connected to the second arm end at a first link end, and pivotably connected to the second pivotal mount at a second link end opposite the first link end.

The invention is related to a locking mechanism (A) which enables the attachment of the covers (B) on military vehicles having different thicknesses to the body (C) of the vehicles. The invention is characterized in comprising a locking pin (10) having a partial or complete screw structure; a lock bolt (70) which is coupled to the locking pin (10) and whose tightening distance is determined depending on the length of the locking pin (10) screw length thereon, which transfers the motion at the rotation direction (W) of said locking pin (10) as a vertical motion and which locks the cover (B) to the body (C) and then releases said cover (B) by means of the rotation motion received from the locking pin (10), a lock body (40) which forms a border to the lock bolt (70) and allows the required tightening force to be applied to the locking pin (10), which limits the motion of the stop surface (41) and the lock bolt (70) at the rotation axis (W), having the opposite stop surface (42) thereon and on which all of the components of the locking mechanism (A) is positioned, and a pressure spring (50) which is positioned on the locking pin (10) and creates pressure between the locking pin (10) and he lock bolt (70) and allows that lock bolt (70) to rotate at the same time when the locking pin (10) is rotated.

A rear slider window assembly for a vehicle includes a movable window panel that is movable along upper and lower rails of a fixed window panel. The lower rail includes a water drainage element having (i) a hole established through the lower rail and (ii) a drainage receiving conduit attached at the fixed window panel beneath the hole of the lower rail and spaced from the lower rail. The drainage receiving conduit includes a receiving portion disposed below the opening to receive water from the opening and a guiding portion to guide received water toward an exit of the drainage receiving conduit. The drainage receiving conduit provides a passageway for water to flow from the lower rail, through the hole of the lower rail, and into the drainage receiving conduit, which drains the water exterior the rear slider window assembly.

A rear slider window assembly for a vehicle includes a movable window panel that is movable along upper and lower rails of a fixed window panel. The lower rail includes a water drainage element having (i) a hole established through the lower rail and (ii) a drainage receiving conduit attached at the fixed window panel beneath the hole of the lower rail and spaced from the lower rail. The drainage receiving conduit includes a receiving portion disposed below the opening to receive water from the opening and a guiding portion to guide received water toward an exit of the drainage receiving conduit. The drainage receiving conduit provides a passageway for water to flow from the lower rail, through the hole of the lower rail, and into the drainage receiving conduit, which drains the water exterior the rear slider window assembly.