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The present invention is in the general field of support systems and structures, and more particularly in the field of support systems and structures.
Conventional bedding systems commonly include a mattress positioned upon and supported by a foundation or “box spring”. Foundations provide support and firmness to the mattress as well as some additional resilience in order to deflect under loads. Foundations are typically constructed of a frame, such as a rectangular frame including perimeter members and internal members or stringers, springs—such as steel wire springs—which are mounted upon the frame to extend upward from the frame and support a grid—such as a wire grid—above the frame. The grid serves as the primary structural support for the mattress, and in turn is flexibly supported by the springs. In order to adequately support the weight of the mattress and the loads placed upon the mattress, a dense distribution of springs is generally required. In conventional steel spring foundations, the springs are made of steel wire most commonly in torsion spring configurations, with bases or feet of the springs mounted directly to the interior frame members or stringers, and tops of the springs engaged with or otherwise fastened to the grid. The grid is typically a steel wire grid assembled with welds at orthogonal intersections of the wire and at a perimeter wire of heavier gauge.
Interestingly, although the perimeter or “border” wire of the grid is usually of substantially heavier gauge than the grid wires, in most foundations it is not directly supported by any of the springs, and as such is held by cantilevered support of the springs closest to the perimeter. As a result, such foundations actually provide the least reflexive vertical support at the perimeter region which contributes to the undesirable “roll-off” tendency, and is inadequate for the high perimeter loads when the edge of the mattress is used as a seat, which it frequently is. Although some efforts have been made to provide direct vertical support to the border wire, for example in the form of perimeter spring elements which extend from the perimeter frame members to the border wire, this can result in segments of the border wire which are less flexible than others, and adds component and manufacturing cost to the product.
The present invention and disclosure provides several improvements and advantages over prior art mattress foundations. In accordance with one concept and principle of the invention and disclosure, there is provided a mattress foundation which has an integral perimeter structure about a substantial perimeter of the foundation, wherein the perimeter structure includes one or more supporting flexible components which contact a frame of the foundation and border wire of a grid of the foundation. In one embodiment, a mattress foundation perimeter structure is made of one or more foam components which extend from a frame of the foundation to a border wire of the foundation. The foam components of the perimeter structure have at least some attributes of structural rigidity, flexure and resilience which cooperates with movement or deflection of the border wire and/or the grid.
In accordance with another aspect of the disclosure, a mattress foundation has a frame on which a plurality of spring elements are mounted, a grid supported above the frame by the spring elements, the grid having intersecting wires which are engaged by the springs and a border wire at a perimeter of the grid, and a perimeter wall structure which extends from the frame to the border wire. The perimeter wall structure is made of foam or other compressible material, and can be formed as a single molded structure which fits at the perimeter of a mattress foundation and extends from the frame to the grid of the mattress foundation, or alternatively can be made up of two or more foam components which fit together at the perimeter of the mattress foundation and which extend from the frame to the grid of the mattress foundation.
In the Figures:
As shown in
Mounted upon the intermediate members 15 of the frame are plurality of springs 20 which extend from the intermediate members 15 to an overlying grid, indicated in its entirety at 30. The grid 30 includes orthogonal intersecting rods or wires 31 and 32, and a border wire 33 which runs continuously about an entire perimeter of the grid 30. Although the grid 30 is shown in this particular configuration with the intersecting rods or wires 31, 32 in an orthogonal arrangement, other configurations of a grid which have some form of perimeter structure such as border wire 33, regardless of the arrangement or interconnection of the internal or intersecting rods or wires, can be used in accordance with the disclosure and invention.
As illustrated in
The disclosure and invention is not limited by or to the particular type of spring or any other reflexive device or support system between the intermediate frame members 15 and the grid 30. Representative and non-limiting examples of springs which can be used in this manner include those disclosed in the commonly assigned U.S. Pat. Nos. 5,558,315; 5,72,471; 6,134,729; 6,354,577; 6,406,009, and any other spring or reflexive device or devices which could be mounted upon a frame or platform and support a grid or other mattress support structure over the frame or platform.
The grid 30 is supported by the springs 20 over the frame 10 such that the border wire 33 is generally located directly above an outermost edge 100 of the perimeter members 11-14 of the frame 10. A perimeter of the foundation 1 is thus generally defined by a line which extends from the frame edge 100 to the border wire 33 of the grid 30. As noted, in the prior art this area of the foundation has been either completely unsupported or otherwise devoid of structure, or unequally supported by periodically spaced edge springs.
As shown in the Figures, a mattress foundation perimeter structure (or “perimeter structure”) is generally indicated at 50. The perimeter structure 50 extends between the frame 10 and the border wire 33. In the representative forms shown, the perimeter structure 50 includes an exterior wall 51 which is generally vertically oriented and substantially flush with the edge 100 of the frame 10, and which may be generally aligned with the border wire 33 of the grid 30, or otherwise vertically aligned with a perimeter region of the grid 30. The perimeter structure 50 is in one preferred form made of foam, such as a homogeneous foam body, which can be molded or extruded in any desired profile which provides the desired structural feature of foam material extending from the frame 10 to a perimeter region of the grid 30 in order to provide flexible and resilient support to the perimeter region of the grid 30. The perimeter structure 50 may be molded as a single homogeneous piece, as for example by injection or poured molding of foam material about the described components of the mattress foundation 1, as further described, or assembled from one or more pre-formed foam components.
As shown in
As mentioned, the perimeter structure 50 may be formed by one or more pieces of foam. To be formed as a single piece or structure, the perimeter structure 50 may be molded separately or in place and assembled with the frame, springs and border wire of the mattress foundation. To be molded in place as a single piece structure, the perimeter structure 50 can be formed by pouring or injection of uncured foam material about the perimeter regions of the frame and border wire. An internal mold wall, positioned inside of the frame and border wire, can be used to prevent migration of the foam material beyond the perimeter region. The perimeter structure 50 can alternatively be made of one or more perimeter structure pieces (or “perimeter pieces”) 501, 502, 503, 504 as shown in
The perimeter pieces 501, 502, 503, 504 may be fit in position with the frame 10 and grid 30 by placement and/or friction, and held in place by internal covering or upholstery which prevents outward dislodgement or displacement of any of the pieces, while the springs in the perimeter region and proximate to the border wire prevent displacement of the pieces inward. The assembly of the mattress foundation 1 thus needs no special fasteners or securement for the perimeter pieces of the perimeter structure 50, although fasteners can be employed which engage one or more of the pieces and secure them to either the frame, the grid, and of the springs or to two or more such parts of the mattress foundation.
In the particular example illustrated in
A cut-out or channel 57 may be formed in one of the sides of one or more of the perimeter pieces in order to fit over an intersecting frame member, such as intermediate transverse frame member 15 as shown. As shown in
Also shown in
Another example of shaping or contouring of the perimeter structure 50 is at the corners 58, as shown in
The exterior wall 51 of the perimeter structure 50 provides a continuous vertical profile to the entire perimeter of the foundation 1, and creates a substantially flush vertical wall surface at the perimeter over which padding and/or upholstery is applied. The surface of the exterior wall 51 further provides a structural backing for the application of padding or upholstery, which gives the foundation, and particularly the sides of the foundation, a neater finished appearance. Also, the foam of the perimeter structure 50 can serve as an anchoring medium to receive fasteners such as staples for the securement of upholstery or other components to the foundation, the staples or fasteners engage with the matrix of the cells of the foam.
At the perimeter region of the grid 30 where the perimeter structure 50 is located, and where the top surfaces 56 of the perimeter pieces are proximate to the grid 30 and border wire 33, the tops 204 of the springs 200 extend over and are proximate to or in contact with the top surfaces 56 of one or more of the perimeter structure pieces 501, 502, 503, 504. In this manner the perimeter pieces provide structural and reflexive support to the perimeter region of the grid and mechanically cooperate with the springs at the perimeter of the grid. The perimeter pieces 501, 502, 503 and 504 extend substantially the entire distance from the frame 10, and specifically the top surfaces of the perimeter frame members 11, 12, 13 and 14, to the perimeter region of the grid 30 and to the border wire 33, thereby providing the exterior wall 51 as previously described.
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Number | Date | Country | |
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20080244828 A1 | Oct 2008 | US |