A seat 100 moveable between a seat configuration and a bed configuration, the seat 100 comprising a squab 120 including upper and lower cushions 126, 124, a conversion mechanism configured to move the squab 120, for converting the seat 100 between the seat and bed configurations, and a backrest 122 connected to the squab 120 or conversion mechanism, for moving with the squab 120, the squab 120 being laterally displaceable by the conversion mechanism between a first position in the seat configuration and a second position in the bed configuration, and the backrest 122 being configured to occupy a space at an end of the squab 120 which is made available by lateral displacement of the squab 120 into the second position, and the upper cushion 126 of the squab 120 being movable relative to the lower cushion 124 for covering the backrest 122 in the bed configuration.

Disclosed is a modular seat for aircraft. The system has a frame that is able to be interconnected with other frames laterally. Since each lateral frame has the same pivot points (when viewed from the side), the linked seats rotate together. The seats also include buckle lugs which enable a particular seat to be used on either side of the aircraft.

Disclosed is a modular seat for aircraft. The system has a frame that is able to be interconnected with other frames laterally. Since each lateral frame has the same pivot points (when viewed from the side), the linked seats rotate together. The seats also include buckle lugs which enable a particular seat to be used on either side of the aircraft.

Disclosed is a modular furniture system such as a modular sofa assembly in the present invention. The modular sofa assembly includes a square or rectangular base that can be attached to different modules such as a side rest, a back rest, legs, cushions, and other bases to obtain various furniture items such as a single seater couch, a two seater couch, a three seater couch, or a multi-seater couch with chaise or ottomans. Further, by performing appropriate connections of the various components of the modular furniture system, a user can create tables, beds, lazy lounges, or the like. The modular sofa can be easily assembled and disassembled to obtain the various formations.

Disclosed is a modular furniture system such as a modular sofa assembly in the present invention. The modular sofa assembly includes a square or rectangular base that can be attached to different modules such as a side rest, a back rest, legs, cushions, and other bases to obtain various furniture items such as a single seater couch, a two seater couch, a three seater couch, or a multi-seater couch with chaise or ottomans. Further, by performing appropriate connections of the various components of the modular furniture system, a user can create tables, beds, lazy lounges, or the like. The modular sofa can be easily assembled and disassembled to obtain the various formations.

The present invention includes a rotating driver or passenger seat adjacent to a front dash of a car, truck, van or similar automotive vehicle having a first set/row of car seats facing forward in the position where a driver and passenger would typically sit and a second row of car seats (or a bench type) immediately behind the backs of the first row of car seats. The driver and/or passenger as seat of the first row of car seats can be adapted to rotate substantially 180 degrees and optionally be moved apart from the second row of car seats, thereby providing face-to-face interaction between the occupants of front row car seat and an occupant of the second row of car seats. Further, the face-to-face car seats are transformed into a horizontal bed surface adapted to provide a user with a flat surface upon which a user may lie on their back, side or stomach.

In one embodiment, the digital bed system is comprised of an array of support cells. Each support cell is capable of communicating with a controller and increasing and decreasing in firmness in response to commands issued by a controller. The support cells are operatively connected to a communication channel that is also connected to a controller. The controller is capable of receiving data from the support cells and is also capable of issuing commands to each of the support cells. The controller is programmed issue commands to increase or decrease the firmness of individual support cells within the support cells.

In one embodiment, the digital bed system is comprised of an array of support cells. Each support cell is capable of communicating with a controller and increasing and decreasing in firmness in response to commands issued by a controller. The support cells are operatively connected to a communication channel that is also connected to a controller. The controller is capable of receiving data from the support cells and is also capable of issuing commands to each of the support cells. The controller is programmed issue commands to increase or decrease the firmness of individual support cells within the support cells.

In one embodiment, the digital bed system is comprised of an array of support cells. Each support cell is capable of communicating with a controller and increasing and decreasing in firmness in response to commands issued by a controller. The support cells are operatively connected to a communication channel that is also connected to a controller. The controller is capable of receiving data from the support cells and is also capable of issuing commands to each of the support cells. The controller is programmed issue commands to increase or decrease the firmness of individual support cells within the support cells.

In one embodiment, the digital bed system is comprised of an array of support cells. Each support cell is capable of communicating with a controller and increasing and decreasing in firmness in response to commands issued by a controller. The support cells are operatively connected to a communication channel that is also connected to a controller. The controller is capable of receiving data from the support cells and is also capable of issuing commands to each of the support cells. The controller is programmed issue commands to increase or decrease the firmness of individual support cells within the support cells.