A spring module includes a spring and a spring bracket for accommodating the spring. The spring bracket may have a base, an end cover and a flexible connecting part connecting the base and the end cover. The spring may be fixed in the spring bracket with a predetermined initial pressure. The spring module may be used in a spring cushion for furniture.

A spring is provided that exhibits a variable and non-linear loading response upon compression. The spring comprises a continuous wire having a lower end convolution, an upper end convolution, and a plurality of helical intermediate convolutions. The upper end convolution, the lower end convolution, and the helical intermediate convolutions each have a respective diameter, with the continuous wire further defining a pitch between the various convolutions. In the spring, one or more of the diameters of the convolutions or one or more of the pitches varies along the length of the continuous wire such that the spring exhibits a non-linear loading response upon compression. A mattress is further provided and includes a plurality of the springs arranged in a matrix.

A bedding or seating product comprises a pocketed spring assembly comprising a plurality of parallel strings of individually pocketed springs. The strings of springs may extend from head-to-foot or side-to-side of the product. Adjacent individually pocketed springs are separated from each other by at least one separating seam. Each of the separating seams comprises a pair of Y-shaped or U-shaped seams which may be joined together or spaced apart.

A high tension coil spring structure for a bed mattress includes spring bodies and exposed wiring portions which absorb an external load. Diameter-increasing portions (A) are formed on at least one of upper and/or lower end wiring portions (14, 14′) of body wiring portions (12), and provide spaces in which upper and/or lower exposure start wiring portions (16-5, 16-5′) move upward and downward. Rigid support ends (18) are formed on at least one of the body wiring portions (12) and upper and lower exposed wiring portions (16, 16′), and absorb a compressive load. The diameter-increasing portions and the rigid ends of the coil spring structure fundamentally prevent noise caused by friction between the exposed wiring portions and surrounding wiring portions when the exposed wiring portions are compressed and significantly increase the elasticity of the exposed wiring portions.

A mattress having of a center and a perimeter edge, including threads endowed with longitudinal cavities which, when glued or welded to each other, form a mattress capable of reducing costs and bringing significant improvements to the technological sector of mattresses, as well as making the mattress recyclable to form a new mattress, whose field of application pertains to the technological sector of mattresses.

The present invention relates to a supporting module (100) for use in an adaptive sleep system and to a sleep system comprising such supporting modules, the resistance (resilience) of which can be adapted in a simple manner to the anatomy and/or posture of a user. The supporting module (100) for an adaptive sleep system comprises an uppermost supporting element (110), at least two drive shafts (140, 140′), at least two leaf springs (130, 130′) positioned parallel to one another, each leaf spring (130, 130′) including a first and a second end, each first end being connected to the first supporting element, and each second end being in contact with an adjacent drive shaft (140, 140′) via a coupling element (150), wherein the position of the second end of a leaf spring (130, 130′) with respect to the adjacent drive shaft (140, 140′) determines the deformation resistance of this leaf spring (130, 130′), and wherein the coupling element (150) has been configured to transmit the rotational motion of at least one drive shaft (140, 140′) to the leaf spring (130, 130′), in order to modify the position of the second end of the leaf spring (130, 130′) with respect to the adjacent drive shaft (140, 140′).

A cushion may include a cushioning element. The cushioning element may comprise an elastomeric material and one or more reinforcing features positioned at one or more exterior portions of the cushioning element.

A drive caddy assembly comprises a plastic frame and a plastic faceplate that includes a plastic tab and a plastic spring that moves along a spring axis that is perpendicular to a longitudinal axis of the drive caddy assembly. The plastic spring is configured to compress from a resting state along the spring axis without moving perpendicular to the spring axis during insertion of the drive caddy assembly into a drive receptacle of a storage server, and is further configured to return to the resting state when the drive caddy assembly is fully seated in the drive receptacle. The plastic tab extends from a side of the plastic spring and is configured to engage with the drive receptacle in a manner that translates a force on the drive caddy assembly along the longitudinal axis into a force on the plastic spring along the spring axis.

The present disclosure provides a spring module for a spring cushion of furniture and a spring cushion having the same, the spring module may comprise a spring and a spring bracket for accommodating the conical spring, and the spring bracket may comprise a base, an end cover and a flexible connecting part connected therebetween, the spring may be fixed in the spring bracket with a predetermined initial pressure. The present disclosure further relates to a spring cushion having the spring module.

A cushion may include a cushioning element. The cushioning element may comprise an elastomeric material and one or more reinforcing features positioned at one or more exterior portions of the cushioning element.