A seat assembly for an emergency vehicle can include an adjustable base seat and backrest, a tank support assembly configured to selectively secure tanks of different sizes, and a tank clamp assembly configured to selectively secure tanks having bottom tank ends of different configurations. Slidably adjusting the base seat can cause adjustment of a recline angle of the backrest. One or more pads on the seat can be removable. The tank support assembly can include first and second tank securements and a locking member configured to rotate to selectively dispose the first or second tank securement to secure a tank. The tank clamp assembly can include a fixed foot clamp, a movable foot clamp, and an adjustment device configured to slide the movable foot clamp to selectively clamp the bottom tank ends of different sizes between the movable foot clamp and the fixed foot clamp.

A seat sensor array for use in an aircraft or the like, including: a passenger presence sensor operable for determining if a passenger is present in/absent from a seat; a seat back position sensor operable for determining if a seat back of the seat is in a reclined/upright position; a seat cushion engagement sensor operable for determining if a seat cushion of the seat is dislodged/removed from the seat; and a controller in communication with the passenger presence sensor, the seat back position sensor, and the seat cushion engagement sensor operable for receiving passenger presence information from the passenger presence sensor, seat back position information from the seat back position sensor, and seat cushion engagement information from the seat cushion engagement sensor and communicating this passenger presence information, seat back position information, and seat cushion engagement information to a crew member via wired or wireless means.

A seat (1) comprises: a seat member (3(2)) that includes a cushioning material (4); and a fastening member (5) that allows a trim cover (7) to be detachably attached to a predetermined position on the seat member (3). The fastening member (5) is constituted by a slide fastener that includes: a fastener part (51) constituted by one fastener half (511) and another fastener half (512); and a slider part. At least part of a base part (6) provided in the one fastener half (511) is embedded in the cushioning material (4), and part of the other fastener half (512) is fixed to the trim cover (7).

A seat assembly includes a seat with a hip/thigh support, a back support and at least one gap between the hip/thigh support and the back support. A seating pad assembly is positioned removably on the seat and has a foam cushion made at least partly of a viscoelastic foam and having a dimensionally stable woven fabric cover. Pelvic and upper back areas of a person sitting on the seat deform the viscoelastic foam significantly to provide a comfortable support and to define anchors for the seating pad assembly. The outer cover extends between those anchors for effectively supporting and cradling the lumbar back area of the person in the seat.

A seat includes one or more cushions secured to a shell. The cushions include a 3D printed lattice of repeating cells. The cells may include nodes interconnected by branches. The nodes may be arranged in a cubic, parallelepiped, diamond, or other arrangement. The branches may extend directly between nodes or may be bent. The branches may extend from each node to an adjacent node that is closest to its point of attachment to the each node or the branches may be curved or bent to secure to a different adjacent node. The 3D printed lattice may include 3D printed barbs formed thereon that engage receptacles in the seat shell. The 3D printed lattice may be printed with a groove that engages a fastening structure on a cover or a separate fastening element. The cover may be a perforated sheet of material or fabric.

A seat includes one or more cushions secured to a shell. The cushions include a 3D printed lattice of repeating cells. The cells may include nodes interconnected by branches. The nodes may be arranged in a cubic, parallelepiped, diamond, or other arrangement. The branches may extend directly between nodes or may be bent. The branches may extend from each node to an adjacent node that is closest to its point of attachment to the each node or the branches may be curved or bent to secure to a different adjacent node. The 3D printed lattice may include 3D printed barbs formed thereon that engage receptacles in the seat shell. The 3D printed lattice may be printed with a groove that engages a fastening structure on a cover or a separate fastening element. The cover may be a perforated sheet of material or fabric.

A molded surface fastener, in which many magnetic particles can be contained in a closer part with respect to a magnet of a molding die, and further a front surface and a rear surface can be easily identified, is provided. In the molded surface fastener of the invention, a magnetic region containing magnetic particles is formed on at least a part between right and left resin intrusion barrier portions, and a magnetic raised portion which is lower than engaging elements and contains the magnetic particles therein is disposed between the engaging elements adjacent in a length direction within the magnetic region.

A vehicle seating assembly includes a seatback frame. A bolster insert is positioned on a side bolster of the seatback frame. A foam layer is positioned over the seatback frame. A trim cover is positioned over the foam layer. The foam layer and the trim cover are contoured to expose the bolster insert.

A comfort pad having a visco-elastic body encased in a film and fabric adapted to transfer the long term energy distribution properties of the visco-elastic body to the user is provided. A bottom surface of the visco-elastic body may provide frictional resistance so that neither film nor fabric is required, yet the comfort pad may removably secure to a harder structure, providing comfort to the user at this pressure point. The present invention may include an attachment assembly for mechanically and removably attaching the comfort pad between the harder structure and the user.

A vehicle seat assembly includes a seat base, a seat back rotatably connected to the seat base, a seat bottom mounted on the seat base, and at least one of the following mounted to one of the seat base, seat back, and seat bottom: a resistance mechanism structured to exert a biasing force on at least one exercise arm operatively connected to the resistance mechanism; a bicycle seat receptacle structured for detachably mounting a bicycle seat to the seat base; and a docking mechanism structured for detachably mounting a pedal mechanism to the seat base.