An adjustable seat back includes a frame having a perimeter and a cushioning material that is disposed at least partially within the frame's perimeter. The adjustable seat back also includes a tension member and a plurality of straps that are disposed over the frame with a distal end that is coupled with the cushioning material and a proximal end that is operationally coupled with the tension member. A reel based tightening mechanism is operably coupled with the tension member and configured to tension the tension member and thereby tension the plurality of straps. Tensioning of the plurality of straps effects adjustment of the cushioning material.

An upholstered panel assembly includes an upholstery component having a foam layer provided on a substrate layer. The upholstery component covers the face of a base structure and is retained releasably by clips. The clips extend along the edges of the panel assembly. The panel assembly may be particularly suitable for aircraft cabins.

Cushioning articles such as mattresses can include a three dimensional wave spring core. The wave spring includes a polymeric lattice spring structure including a plurality of alternating layers stackedly arranged to define a height of the wave spring, wherein each one of the alternating layers is defined by a single strand having one or more upward and downward undulations, wherein the alternating layers are arranged such that an upward undulation of one layer is connected to a downward undulation of the other layer to define a cell configured to receive a compressive force, wherein the lattice structure has a sinusoidal shape when viewed top down and is configured to have three dimensional structure.

Cushioning articles such as mattresses can include a three dimensional wave spring core. The wave spring includes a polymeric lattice spring structure including a plurality of alternating layers stackedly arranged to define a height of the wave spring, wherein each one of the alternating layers is defined by a single strand having one or more upward and downward undulations, wherein the alternating layers are arranged such that an upward undulation of one layer is connected to a downward undulation of the other layer to define a cell configured to receive a compressive force, wherein the lattice structure has a sinusoidal shape when viewed top down and is configured to have three dimensional structure.

Support equipment for supporting a person at rest includes a rigid supporting frame and at least one supporting element, to support the weight of the person resting on the support equipment. The frame has a tubular structure provided with a slot along at least part of its longitudinal extension, which has at least one portion with a width greater than the width of the remaining portions of slot, and the supporting element has the shape of a strip folded over itself at its ends, with the folded portions forming a loop inside which there is housed a pin having a central portion and two end portions of different thickness. The end portions of the pin have at least one dimension greater than the maximum dimension of the central portion.

Support equipment for supporting a person at rest includes a rigid supporting frame and at least one supporting element, to support the weight of the person resting on the support equipment. The frame has a tubular structure provided with a slot along at least part of its longitudinal extension, which has at least one portion with a width greater than the width of the remaining portions of slot, and the supporting element has the shape of a strip folded over itself at its ends, with the folded portions forming a loop inside which there is housed a pin having a central portion and two end portions of different thickness. The end portions of the pin have at least one dimension greater than the maximum dimension of the central portion.

A cushion (10) device comprising: a planar support member (20) formed from a resilient material which defines a front (22), rear (24, 64) and two side portions (26) of the support member (20), wherein a recess (40) is provided at the rear (24, 64) portion of the support member (20) at a mid-position between the two side portions (26), and wherein the support member (20) includes two opposing wing members (42) extending laterally into the recess (40) towards the mid-position.

A cushion (10) device comprising: a planar support member (20) formed from a resilient material which defines a front (22), rear (24, 64) and two side portions (26) of the support member (20), wherein a recess (40) is provided at the rear (24, 64) portion of the support member (20) at a mid-position between the two side portions (26), and wherein the support member (20) includes two opposing wing members (42) extending laterally into the recess (40) towards the mid-position.

A hip alignment device configured to properly cushion and align a user's hips while seated. The hip alignment device includes a first cushion and a second cushion connected to one another via an elongated strap. Each cushion has a concave inner surface adapted to be positioned against the outer portion of a user's thighs or hips. The inner surface further includes one or more rounded ridges thereon. The inner side of the cushion is configured to be positioned flush against the side of a user's thigh or hip, whereas an outer side of the cushion is configured to be placed against a portion of a vehicle, such as a vehicle door or the center console so as to secure the cushion in position.

A method for manufacturing a multi-layered support structure provides ergonomic, adaptable seating support. The method providing multiple cooperative layers to maximize global comfort and support while enhancing adaptation to localized variations in a load, such as in the load applied when a person sits in a chair. The cooperative layers each include elements such as pixels, springs, support rails, and other elements to provide this adaptable comfort and support. The method for manufacturing the multi-layered support structure uses aligned material to provide a flexible yet durable support structure. Accordingly, the method provides a multi-layered support structure, which provides maximum comfort for a wide range of body shapes and sizes.