Disclosed is a mattress assembly having a spring or foam core structure and reduced-sized parts. Spaced along the mattress top and bottom border are a plurality of bands having through-openings. Border wire segments extend through the through-openings and are joined end-to-end by releasable connectors to form a continuous border wire providing edge support. Butterfly springs having tube-like bands for receiving the border wire segments prevent sagging. In spring mattresses, the bands, which may be rings or a similar type part, are carried at the top and bottom of the outer springs. In foam mattresses, the bands are formed by a plurality of loops formed in a continuous folded strip fixed by adhesive or other means to the mattress border walls. Two such mattresses may be joined together by interweaving a flexible cord through the bands of adjoining mattresses. The mattress assembly is completed by encasing in an outer cover.

Disclosed is a mattress assembly having a spring or foam core structure and reduced-sized parts. Spaced along the mattress top and bottom border are a plurality of bands having through-openings. Border wire segments extend through the through-openings and are joined end-to-end by releasable connectors to form a continuous border wire providing edge support. Butterfly springs having tube-like bands for receiving the border wire segments prevent sagging. In spring mattresses, the bands, which may be rings or a similar type part, are carried at the top and bottom of the outer springs. In foam mattresses, the bands are formed by a plurality of loops formed in a continuous folded strip fixed by adhesive or other means to the mattress border walls. Two such mattresses may be joined together by interweaving a flexible cord through the bands of adjoining mattresses. The mattress assembly is completed by encasing in an outer cover.

An inflatable bed is provided. The inflatable bed comprises a top sheet and a bottom sheet disposed vertically at an interval, at least one side wall, at least one first tensioning structure and at least one support structure. An upper edge of said side wall is coupled to an outer edge of said top sheet. A lower edge of said side wall is coupled to an outer edge of said bottom sheet. An upper end and a lower end of said first tensioning structure are respectively coupled to said top sheet and said bottom sheet. Said support structure is disposed in a longitudinal direction of at least one of said side walls. At least two outside edges of said support structure are respectively coupled to the side wall adjacent. At least one inside edge of said support structure is coupled to the top sheet or bottom sheet adjacent.

An inflatable bed is provided. The inflatable bed comprises a top sheet and a bottom sheet disposed vertically at an interval, at least one side wall, at least one first tensioning structure and at least one support structure. An upper edge of said side wall is coupled to an outer edge of said top sheet. A lower edge of said side wall is coupled to an outer edge of said bottom sheet. An upper end and a lower end of said first tensioning structure are respectively coupled to said top sheet and said bottom sheet. Said support structure is disposed in a longitudinal direction of at least one of said side walls. At least two outside edges of said support structure are respectively coupled to the side wall adjacent. At least one inside edge of said support structure is coupled to the top sheet or bottom sheet adjacent.

A support panel that may provide a platform to perform, for example, for at least one of physical therapy, yoga, or Pilates exercises, is provided. The support panel includes a rigid board having a first side and a second side, which may be formed from composite materials. The support panel is configured to be placed onto a compressible surface. A padding layer is attached to the first side of the rigid board. A cover is wrapped around the padding layer and at least a portion of the second side of the rigid board. The cover may be removable. A method of using the support panel for exercises is also provided.

An inflatable bed is provided. The inflatable bed comprises a top sheet and a bottom sheet disposed vertically at an interval, at least one side wall, at least one first tensioning structure and at least one support structure. An upper edge of said side wall is coupled to an outer edge of said top sheet. A lower edge of said side wall is coupled to an outer edge of said bottom sheet. An upper end and a lower end of said first tensioning structure are respectively coupled to said top sheet and said bottom sheet. Said support structure is disposed in a longitudinal direction of at least one of said side walls. At least two outside edges of said support structure are respectively coupled to the side wall adjacent. At least one inside edge of said support structure is coupled to the top sheet or bottom sheet adjacent.

An inflatable bed is provided. The inflatable bed comprises a top sheet and a bottom sheet disposed vertically at an interval, at least one side wall, at least one first tensioning structure and at least one support structure. An upper edge of said side wall is coupled to an outer edge of said top sheet. A lower edge of said side wall is coupled to an outer edge of said bottom sheet. An upper end and a lower end of said first tensioning structure are respectively coupled to said top sheet and said bottom sheet. Said support structure is disposed in a longitudinal direction of at least one of said side walls. At least two outside edges of said support structure are respectively coupled to the side wall adjacent. At least one inside edge of said support structure is coupled to the top sheet or bottom sheet adjacent.

A seat pad manufacturing method is provided. The method includes disposing a sheet member inside a foaming mold for shaping a seat pad, then injecting a foaming resin material into the foaming mold and foaming a resin foamed body through mold clamping, and demolding the resin foamed body in a state in which the sheet member is buried in the resin foamed body. Both end parts of the sheet member in the right-left direction and both end parts of the sheet member in the extending direction are each temporarily fastened to the surface of the mold through a fastener. The foaming resin material is injected into a space between the mold surface and the sheet member. A central part of the sheet member deforms into a shape curved in a convex shape as the sheet member is pressed upward through expansion of the foaming resin material.

A patient support apparatus is provided with selective stiffening features. The patient support apparatus may include a support substrate defining a patient support surface. The support substrate may include a magnetorheological material providing selective reinforcement support of at least a portion of the patient support surface to redistribute pressure about a surface of a patient. The magnetorheological material may include a distribution of ferromagnetic particles disposed within a polymeric material and exhibits a shape conforming, variable stiffness in response to exposure to a magnetic field. A controller may be provided and configured to create a correlation of patient specific data with an optimal stiffness or inflection force deflection (IFD) of the patient support surface, and generate a strength of the magnetic field based on the correlation.

A patient support apparatus is provided with selective stiffening features. The patient support apparatus may include a support substrate defining a patient support surface. The support substrate may include a magnetorheological material providing selective reinforcement support of at least a portion of the patient support surface to redistribute pressure about a surface of a patient. The magnetorheological material may include a distribution of ferromagnetic particles disposed within a polymeric material and exhibits a shape conforming, variable stiffness in response to exposure to a magnetic field. A controller may be provided and configured to create a correlation of patient specific data with an optimal stiffness or inflection force deflection (IFD) of the patient support surface, and generate a strength of the magnetic field based on the correlation.