Fluid pressurized cushion
First Claim
1. A hollow, fluid pressurized, body support cushion formed from a plurality of interfitting matrices,each such matrix comprising a set of hollow cells formed from a resilient elastomeric material,the cells of one matrix being fitted between the cells of each other such matrix to define a body support surface composed of all sets of cells,separate interconnecting fluid ducts between the cells in each matrix,fluid pressurizing means to inflate and deflate the separate matrices at different times to shift body support from one set of cells to another for promoting blood circulation and enhancing comfort for the user, andsaid plurality including matrices, each having cells arranged in an array with spaces between cells of each matrix of the same size as the cells of other matrices to accommodate the cells of an adjacent matrix so that when the said matrices are interfitted together a complete cushion is formed having an upper supporting surface defined by adjacent top portions of all the matrices and the ducts of each matrix are positioned at a different elevation to allow the matrices to be nested together.
0 Assignments
0 Petitions
Accused Products
Abstract
A hollow, air filled body support cushion such as a seat cushion or mattress is formed from typically three interfitting matrices each comprising a set of hollow cells formed from natural or synthetic rubber or rubber-like plastic. The cells of each matrix are spaced apart to accommodate between them cells of each of the other matrices to define a body support surface made up of the tops of all of the cells. Each matrix has separate fluid ducts between its cells. A fluid pressurizing and control means such as air pumps is used to inflate and deflate the matrices in sequence to shift body support from one set of cells to another for promoting blood circulation and enhancing comfort.
-
Citations
15 Claims
-
1. A hollow, fluid pressurized, body support cushion formed from a plurality of interfitting matrices,
each such matrix comprising a set of hollow cells formed from a resilient elastomeric material, the cells of one matrix being fitted between the cells of each other such matrix to define a body support surface composed of all sets of cells, separate interconnecting fluid ducts between the cells in each matrix, fluid pressurizing means to inflate and deflate the separate matrices at different times to shift body support from one set of cells to another for promoting blood circulation and enhancing comfort for the user, and said plurality including matrices, each having cells arranged in an array with spaces between cells of each matrix of the same size as the cells of other matrices to accommodate the cells of an adjacent matrix so that when the said matrices are interfitted together a complete cushion is formed having an upper supporting surface defined by adjacent top portions of all the matrices and the ducts of each matrix are positioned at a different elevation to allow the matrices to be nested together.
-
11. A hollow, fluid pressurized body support cushion formed from a plurality of interfitting matrices,
each such matrix comprising a set of hollow cells formed from a resilient elastomeric material, the cells of one matrix being fitted between the cells of each other such matrix to define a body support surface composed of all sets of cells, separate interconnecting fluid ducts between the cells in each matrix, said cells including an upper hollow bellows portion and a lower hollow stabilizing pedestal portion and the interconnecting ducts extend between the pedestal portions of the cells in the same matrix for holding the cells of adjacent matrices in place and thereby provide steadiness to the cushion, said bellows portion including a pair of vertically disposed chambers, the upper one of which has a generally polygonal configuration, the lower one of which has a generally circular configuration and said pedestal comprises a plurality of vertically aligned hollow polygonal sections with alternate side edges longer than side edges intermediate to accommodate said ducts of an adjacent matrix, and fluid pressurizing means to inflate and deflate the separate matrices at different times to shift body support from one set of cells to another for promoting blood circulation and enhancing comfort for the user.
-
12. A fluid pressurized body support cushion comprising,
a plurality of matrices, each matrix of said plurality including a plurality of inflatable bellows, bellows of a matrix being interconnected in pressured fluid flow communication to a source of a pressurized fluid with pressurization of each matrix being separate from pressurization of other matrices of said plurality, said matrices being interfitted to form said cushion with upper surfaces of said bellows defining a generally continuous cushion support surface and with contiguous bellows on said surface being interconnected to different matrices whereby each bellows of a matrix, in central areas of the cushion, is completely surrounded, at its upper periphery, by belows of other matrices.
-
15. A hollow, fluid pressurized body support cushion comprising, a plurality of interfitting matrices, each matrix comprising a set of hollow cells formed from a resilient elastomeric material and including a lower hollow stabilizing pedestal portion positioned in contact or close to the pedestals of an adjacent matrix, each matrix extending the full width and length of said cushion, each matrix including hollow inflation tubes connected between said hollow cells for transferring fluid therebetween, said inflation tubes extending laterally and longitudinally throughout the width and length of each matrix to hold the cells of each matrix in spaced apart relationship to form a self-supporting two-dimensional array of spaced cells, said inflation tubes of each matrix defining openings between themselves to receive the stabilizing pedestal portions of another of said matrices so that when the matrices are assembled the cells of each matrix are interlocked between the inflation tubes of another matrix and said interlocking of the cells of each matrix between the inflation tubes of another matrix constitutes a stable base for said cushion in which each cell is surrounded by a ring of inflation tubes to support the pedestals of the cells in a stable spatial relationship.
Specification