A fastener post assembly for securing an emergency cot to a fastener of an emergency vehicle includes a rear plate, a front plate, a post body comprising a post and a pair of arms, a first locking tab and a second locking tab, each of the first locking tab comprising a hook at a first end, and an actuator body. The rear plate is secured to the front plate such that the pair of arms, the first locking tab, the second locking tab, and the actuator body are disposed between the rear plate and the front plate. The first locking tab and the second locking tab are pivotally coupled to the rear plate such that they are inwardly biased toward each other. Movement of the actuator body in a direction toward the post body outwardly pivots the first locking tab and the second locking tab away from each other.

A charging assembly for a patient support device includes an upper body having a mounting portion operable to be coupled to a fastener assembly of the patient support device, an actuator portion coupled to the upper body and operable to translate in a direction toward the upper body, and a pair of charging pins coupled to the actuator portion such that the pair of charging pins translate in a direction toward the mounting portion of the upper body when the actuator portion translates toward the upper body.

A rapid water ambulance for transport of patients, comprising a sick bay solidly constrained to a structure of the water ambulance and support apparatus (10) for a stretcher, the support apparatus (10) comprises: a support column (20), a carriage (30) slidable along the column (20) in the direction of the axis (A) thereof, a support plane (11) for a stretcher, borne projectingly by the carriage (30) and solidly constrained thereto, a damped suspension device (33), constrained to the carriage (30) and to the column (20), which supports the support plane (11) at an operating height, wherein the axis (A) of the support column (20) is inclined with respect to the perpendicular direction to a floor (P) plane of the sick bay and lies in a vertical plane parallel to the motion direction of the water ambulance.

A multi-purpose emergency services strap for facilitating lifting, transporting or carrying an individual has a strap body with a plurality of independent loops formed in the strap body. The independent loops include at least two adjacent, proximal leg loops formed in the strap body on either side of the midline, end loops on each end of the multi-purpose emergency services strap, and a plurality of adjacent handles formed in the strap body positioned distal to each of the at least two adjacent, leg loops and proximal to the end loops. The multi-purpose emergency services strap also includes a back strap and attachment loops that can be variously configured for many rescue and transport applications for humans and animals.

The present invention relates to a lying and transport device for an infant comprising a hammock and methods of monitoring the well-being and/or vital signals of an infant.

The present invention relates to a lying and transport device for an infant comprising a hammock and methods of monitoring the well-being and/or vital signals of an infant.

Load control apparatuses, systems and methods to control a location, orientation, or rotation of a suspended load by imparting thrust vectors to the suspended load or to a structure that holds the load. The load control apparatuses, systems and method may be integrated into a structure that holds a load, such as a rescue litter. The load control apparatuses, systems, and methods may be modular. The modular load control apparatuses, systems, and methods may be secured to a load or to a structure that holds the load.

Load control apparatuses, systems and methods to control a location, orientation, or rotation of a suspended load by imparting thrust vectors to the suspended load or to a structure that holds the load. The load control apparatuses, systems and method may be integrated into a structure that holds a load, such as a rescue litter. The load control apparatuses, systems, and methods may be modular. The modular load control apparatuses, systems, and methods may be secured to a load or to a structure that holds the load.

A lift system 100 may comprise two sets of two pistons with each set of pistons attached to an upper cross bar 210 and a lower cross bar 275, with the lower cross bar having distal ends comprising distal insertion areas 276 with the distal insertion areas passing through a first void 241 defined within a wheelie bar 240 and the distal insertion areas 276 reaching further to move a wedge bar 270. To lift a patient from a lowered position, a piston moves a lower cross bar 275 which in turn moves a wedge bar 270 into a wedge 280, causing the lower cross bar to break out of plane with a top bar 205. The use of two wheelie gears 220 ensures that the lift remains horizontal even if piston forces are not uniform.

A lift system 100 may comprise two sets of two pistons with each set of pistons attached to an upper cross bar 210 and a lower cross bar 275, with the lower cross bar having distal ends comprising distal insertion areas 276 with the distal insertion areas passing through a first void 241 defined within a wheelie bar 240 and the distal insertion areas 276 reaching further to move a wedge bar 270. To lift a patient from a lowered position, a piston moves a lower cross bar 275 which in turn moves a wedge bar 270 into a wedge 280, causing the lower cross bar to break out of plane with a top bar 205. The use of two wheelie gears 220 ensures that the lift remains horizontal even if piston forces are not uniform.