A method of constructing a mattress includes placing a first ribbon about a perimeter surface of a foam member. The first ribbon includes a top lip and a bottom lip. A second ribbon is placed about a perimeter surface of the first ribbon. A third ribbon is placed about a perimeter surface of the second ribbon. The top lip of the first ribbon is folded over the top surface of the second ribbon. The bottom lip of the first ribbon is folded over the bottom surface of the second ribbon. A first fabric panel is bonded to the top surface of the first foam member and to the top lip of the first ribbon. A second fabric panel is bonded to the bottom surface of the first foam member and to the bottom lip of the first ribbon.

A mattress is disclosed. The mattress comprises a base having a lower surface and an upper surface, and a frame which extends around at least a portion of a periphery of the base. The frame extends above the upper surface of the base to define a mattress cavity, for receiving an inflatable bladder disposed in the cavity.

A mattress system with at least two inflatable bladders located within a tub compartment of a foam encasement is enclosed. The bladders are surrounded on all sides by foam layers and the bladders are inflated and deflated by a control unit. The control unit is positioned within the tub compartment near the foot of the mattress and centered between the two bladder assemblies. The control unit is adhered to the foam encasement.

The present invention provides a floor pillow structure that is configured to maintain its shape and feel over extended use without relying on rigid frame components. In some embodiments this floor pillow structure integrates a floor pad and a bolster through a cover system that is configured to generate tension between the bolster and floor pad thereby imparting structure on an otherwise structureless component. Some embodiments of the present invention also provide a bolster-floor pad interface comprising a perimeter channel that is configured to allow a user of the invention to relieve joint and appendage pressure when using the floor pillow structure.

This disclosure describes, among other things, techniques for waking a user by changing the user's sleep environment. In one example, a method includes receiving, at a central controller of an air mattress system, at least one user alarm setting, generating, via the central controller, at least one instruction based on the received user alarm setting, and transmitting, from the central controller, the at least one instruction to a first component of the air mattress system to adjust a feature of the first component.

This disclosure describes, among other things, techniques for waking a user by changing the user's sleep environment. In one example, a method includes receiving, at a central controller of an air mattress system, at least one user alarm setting, generating, via the central controller, at least one instruction based on the received user alarm setting, and transmitting, from the central controller, the at least one instruction to a first component of the air mattress system to adjust a feature of the first component.

A mattress includes a generally rectangular prismatic foam body, having a length, a width, and a thickness, having a top surface, a plurality of slits in the top surface of the foam body extending across the width of the body to divide the top surface into a plurality of adjacent slats. An elongate chamber extends through the body, parallel to and aligned with each slit. At least one fluid filled cell disposed in each of the elongate chambers to support the edges of adjacent slats.

Resilient cores preferably for inflatable bodies having resilient slabs that define a plurality of generally columnar holes or resilient arrays of generally columnar solids, methods for making such slabs and arrays, and articles incorporating the same wherein the cores further include thermal transmission mitigation means for improving a core's resistance to heat transfer beyond the core's innate insulative properties. Non-exclusive and non-exhaustive examples of such thermal transmission mitigation means in slab core embodiments include consideration to hole or bore geometric cross section, frequency, pattern and orientation, the introduction of a thermal barrier at or within at least some holes or bores, and/or slab material selection/treatment. Non-exclusive and non-exhaustive examples of such thermal transmission mitigation means in array core embodiments include consideration to the geometric cross section, frequency (density), pattern and orientation of the solids, the introduction of thermal barriers within inter-solid spaces and/or solid material selection treatment.

A patient support system includes a patient support apparatus and a support surface mounted on the patient support apparatus. The patient support apparatus is reconfigurable among a plurality of different configurations for supporting a patient on the support surface in a plurality of positions. The support surface is mounted on the patient support apparatus to move in response to reconfiguration of the patient support apparatus.

A method of constructing a mattress includes placing a first ribbon about a perimeter surface of a foam member. The first ribbon includes a top lip and a bottom lip. A second ribbon is placed about a perimeter surface of the first ribbon. A third ribbon is placed about a perimeter surface of the second ribbon. The top lip of the first ribbon is folded over the top surface of the second ribbon. The bottom lip of the first ribbon is folded over the bottom surface of the second ribbon. A first fabric panel is bonded to the top surface of the first foam member and to the top lip of the first ribbon. A second fabric panel is bonded to the bottom surface of the first foam member and to the bottom lip of the first ribbon.