A cushion has at least one fluid chamber and at least one cushion conduit to enable fluid to be added to or removed from the at least one fluid chamber of the cushion. A management system for the cushion has a pressure sensor to measure a pressure of fluid in the at least one fluid chamber of the cushion and to transmit a sensor report with the measured pressure, a tube having a first end connecting to the cushion conduit, a second end leading to the pressure sensor, and a valve to enable fluid to be added to or removed from the at least one fluid chamber of the cushion through the cushion conduit and a processor to receive the sensor report, determine a pressure value of the at least one fluid chamber of the cushion based on the measured pressure in the sensor report, and generate a status indicative of the pressure value of the fluid chamber of the cushion.

Multi-layer cushion supports are described which may generally comprise a first support having a first contact surface for contacting a portion of a body and a second surface opposite to the first surface, the first support defining a central chamber and a peripheral chamber surrounding the central chamber, wherein the first support is filled with a first gas or liquid and a second support attached to the first support along the first contact surface. The second support may be filled with a second gas or liquid which is relatively more viscous than the first gas or liquid. In particular, the first support may be filled with a volume of air and the second support may be filled with oil which is less than the volume of air.

A posture support system for a person supporting appliance comprising: a module (300), each module (300) comprising: an expandable body (20), means (60) for changing the degree of expansion of the expandable body (20); a sensor (27) configured to produce measurement data corresponding to the degree of expansion of the expandable body (2); a processor (116) arranged to process the measurement data generated from the sensor (27); and a wireless communication unit (114) arranged to transmit the measurement data wirelessly to a controller (320) and receive control data to control the degree of expansion of the expandable body (20).

A dynamic support apparatus. The dynamic support apparatus includes a cushion, at least one actuator wherein the at least one actuator defines an interior volume and wherein the interior volume may be configured to be at least partially filled with a fluid, and a support disposed in the interior volume wherein the support configured to support an occupant when the interior volume is not filled with the fluid such that the support is sufficient to support the occupant.

A user control device for a transporter. The user control device can communicate with the transporter via electrical interface(s) that can facilitate communication and data processing among the user interface device and controllers that can control the movement of the transporter. The user control device can perform automated actions based on the environment in which the transporter operates and the user's desired movement of the transporter. External applications can enable monitoring and control of the transporter.

A sliding arm mechanism for attaching to an arm of a wheelchair is provided herein. One concept of the present disclosure is directed to a sliding arm mechanism that includes a main portion having a top area, a bottom area, first and second opposing end areas, first and second opposing side areas and an inner cavity. The sliding arm mechanism also includes a slide rail, comprising a top side, a bottom side and an elongated aperture located between the top side and the bottom side, which is adapted to be housed within the inner cavity of the main portion. The bottom side of the slide rail is removably coupled to a top part of the arm of the wheelchair. The slide rail and the main portion are slidably coupled to allow the main portion to move laterally over the slide rail in a direction parallel to the top part of the arm of the wheelchair, thus allowing the main portion to move between a first position and a second position. In some embodiments, the first position corresponds to a full-length position and the second position corresponds to a desk-length position, such that a user can adjust the sliding arm mechanism to be able to access a desk or table.

A net-like structure of the present invention is one having a three-dimensional random loop bonded structure constituted of a thermoplastic elastomer continuous linear body, wherein the net-like structure has, in a thickness direction thereof, a thin fiber main region, a thick fiber main and a mixed region that is located between the thin fiber main region and the thick fiber main region and includes the thin fibers and the thick fibers in a mixed state, the fiber size of the thick fibers is greater than that of the thin fibers by greater than or equal to 0.07 mm, and the residual strain after 750 N constant load repeated compression at pressurization from the side of the thin fiber main region of the net-like structure is less than or equal to 15%.

A sliding arm mechanism for attaching to an arm of a wheelchair is provided herein. One concept of the present disclosure is directed to a sliding arm mechanism that includes a main portion having a top area, a bottom area, first and second opposing end areas, first and second opposing side areas and an inner cavity. The sliding arm mechanism also includes a slide rail, comprising a top side, a bottom side and an elongated aperture located between the top side and the bottom side, which is adapted to be housed within the inner cavity of the main portion. The bottom side of the slide rail is removably coupled to a top part of the arm of the wheelchair. The slide rail and the main portion are slidably coupled to allow the main portion to move laterally over the slide rail in a direction parallel to the top part of the arm of the wheelchair, thus allowing the main portion to move between a first position and a second position. In some embodiments, the first position corresponds to a full-length position and the second position corresponds to a desk-length position, such that a user can adjust the sliding arm mechanism to be able to access a desk or table.

A user control device for a transporter. The user control device can communicate with the transporter via electrical interface(s) that can facilitate communication and data processing among the user interface device and controllers that can control the movement of the transporter. The user control device can perform automated actions based on the environment in which the transporter operates and the user's desired movement of the transporter. External applications can enable monitoring and control of the transporter.

A seat comprising a base pan defining cutouts positioned under a seating area for a seated user, a resilient membrane over the cutouts, a cushion on the base pan, at least one air cell pad on the cushion at the seating area and a cover.