A reconfigurable compartment for a military vehicle. The reconfigurable compartment includes a floor, a front, a rear, a roof, and sides. The floor, the front, the rear, the roof, and the sides are removably coupled with each other to define the reconfigurable compartment. At least one of the floor, the front, the rear, the roof, or the sides are function-specific and replaceable with a different function-specific at least one of the floor, the front, the rear, the roof, or the sides and thereby facilitate transitioning an overall function of the military vehicle to accommodate a variety of different vehicle applications.

Arrangement for mounting a plane (2) on a wall (1). The arrangement comprises said plane (2) and, supporting said plane (2), a first support arm (4) and a second support arm (5), the support arms (4, 5) are connectable to the wall (1) by their first end (4′,5′) by means of a first joint arrangement (6, 7) so that the support arms (4, 5) are turnable in a substantially horizontal plane in relation to the wall (1). The support arms (4, 5) are mounted in connection with the plane (2) by their second ends (4″,5″) by means of a second joint arrangement (10, 11) connected the second end (4″,5″) of the support arm (4, 5). The second joint arrangement (10, 11) comprises a joint (14, 15) provided with a substantially horizontal turning axis, whereby said plane (2) is turnable to a substantially horizontal usage position and a substantially vertical storage position by means of said joints (14, 15) provided with a substantially horizontal turning axis.

A litter lift system includes a motor-driven winch and a lifting strap. The motor-driven winch includes a rotatable spool. The lifting strap has one end coupled to the rotatable spool and is movable in response to rotation of the rotatable spool. The lifting strap has a first lifting segment and a second lifting segment positioned away from the end of the lifting strap coupled to the rotatable spool. The first lifting segment and the second lifting segment are each forked to define two separate lifting loops. Rotation of the rotatable spool in a first direction raises the first lifting segment and the second lifting segment. Rotation of the rotatable spool in a second direction different from the first direction lowers the first lifting segment and the second lifting segment.

The present disclosure includes litter platform support and positioning systems described generally comprising at least one lift column mounted to an interior floor in an emergency vehicle or structure. The lift column is connected to at least one support assembly, the at least one support assembly adapted to receive and position a litter assembly. In some implementations, the support assembly is connected to the lift column and adapted to independently adjust the litter assembly vertically, laterally, longitudinally, and rotate 360°. The litter platform support and positioning system further includes at least one individual motor associated with each lift column which is operatively connected to a drive screw to independently adjust and control the location of each support assembly to individually position a corresponding litter platform assembly.

Arrangement for mounting a plane (2) on a wall (1). The arrangement comprises said plane (2) and, supporting said plane (2), a first support arm (4) and a second support arm (5), the support arms (4, 5) are connectable to the wall (1) by their first end (4′, 5′) by means of a first joint arrangement (6, 7) so that the support arms (4, 5) are turnable in a substantially horizontal plane in relation to the wall (1). The support arms (4, 5) are mounted in connection with the plane (2) by their second ends (4″, 5″) by means of a second joint arrangement (10, 11) connected the second end (4″, 5″) of the support arm (4, 5). The second joint arrangement (10, 11) comprises a joint (14, 15) provided with a substantially horizontal turning axis, whereby said plane (2) is turnable to a substantially horizontal usage position and a substantially vertical storage position by means of said joints (14, 15) provided with a substantially horizontal turning axis.

A reconfigurable compartment for a military vehicle. The reconfigurable compartment includes a floor, a front, a rear, a roof, and sides. The floor, the front, the rear, the roof, and the sides are removably coupled with each other to define the reconfigurable compartment. At least one of the floor, the front, the rear, the roof, or the sides are function-specific and replaceable with a different function-specific at least one of the floor, the front, the rear, the roof, or the sides and thereby facilitate transitioning an overall function of the military vehicle to accommodate a variety of different vehicle applications.

A reconfigurable compartment for a military vehicle. The reconfigurable compartment includes a floor, a front, a rear, a roof, and sides. The floor, the front, the rear, the roof, and the sides are removably coupled with each other to define the reconfigurable compartment. At least one of the floor, the front, the rear, the roof, or the sides are function-specific and replaceable with a different function-specific at least one of the floor, the front, the rear, the roof, or the sides and thereby facilitate transitioning an overall function of the military vehicle to accommodate a variety of different vehicle applications.

A litter lift system includes a winch and a lifting strap. The winch includes a rotatable spool. The lifting strap has one end coupled to the rotatable spool and is movable due to rotation of the rotatable spool. The lifting strap has a first lifting segment and a second lifting segment positioned away from the end of the lifting strap coupled to the rotatable spool. The first lifting segment and the second lifting segment are each forked to interface with a frame of a litter at first lifting segment and second lifting segment distal ends, wherein a coupling is attached to the first lifting segment. Rotation of the rotatable spool in a first direction raises the first lifting segment and the second lifting segment. Rotation of the rotatable spool in a second direction different from the first direction lowers the first lifting segment and the second lifting segment.

A litter lift system includes a motor-driven winch and a lifting strap. The motor-driven winch includes a rotatable spool. The lifting strap has one end coupled to the rotatable spool and is movable in response to rotation of the rotatable spool. The lifting strap has a first lifting segment and a second lifting segment positioned away from the end of the lifting strap coupled to the rotatable spool. The first lifting segment and the second lifting segment are each forked to define two separate lifting loops. Rotation of the rotatable spool in a first direction raises the first lifting segment and the second lifting segment. Rotation of the rotatable spool in a second direction different from the first direction lowers the first lifting segment and the second lifting segment.

A litter lift system includes a winch system and a lifting strap. The winch system includes a rotatable spool. The lifting strap has a first end, a second end, and an intermediate segment extending away from the lifting strap between the first end and the second end. The first end is coupled to the rotatable spool such that rotation of the spool in a first direction winds the lifting strap about the spool and rotation of the spool in a second direction unwinds the lifting strap from the spool. The second end defines a first lifting segment and the intermediate segment defines a second lifting segment. The first lifting segment and the second lifting segment are each forked to define two separate lifting loops.