Beds – Mattress – Supported on or removably attachable to another mattress
Reexamination Certificate
2001-02-22
2004-04-06
Trettel, Michael F. (Department: 3673)
Beds
Mattress
Supported on or removably attachable to another mattress
C005S411000, C005S909000, C005S925000
Reexamination Certificate
active
06715173
ABSTRACT:
FIELD OF THE INVENTION
The present invention pertains generally to support structures for sleeping, and to sleep systems which have combinations of support structures with varying support characteristics.
BACKGROUND OF THE INVENTION
Devices for supporting the human body while sleeping have evolved generally from pads, to pads in combination with or supported by springs such as the common mattress, and further in combination with stiffer springs such as in mattress foundations or box springs. In a conventional mattress, springs or coils are interconnected in a matrix array, and covered on each side with layers of padding and fabric. Much of the innovation in mattresses and box springs is in the area of spring design, seeking configurations which provide optimal support of the body, in combination with the padding layers. There are certain design constraints on mattresses innersprings, such as the gauge of wire of the coils, the diameter, height, and number of coils in the array.
There is greater design flexibility in the material layers which cover the springs. There are conventionally one or more layers of non-woven insulation material over the terminal ends of the coils, one or more layers of polymer foam, and a quilted upholstery material. Typically both sides of the innerspring are provided with multiple layers of polymer foams, fiber batting and fabric layers of upholstery material, although some one-sided mattresses have been made. In general, mattresses are turned over periodically to avoid the setting or compaction of the polymer foam and fibrous material layers. The coils of the innerspring will not generally take a set, or in other words permanently compress to a reduced overall height. Therefore, turning the mattress simply relieves the material layers from repeated compression to allow return to the original shape. Because of this established practice of turning the entire mattress to the opposing side, both sides must be equally constructed symmetrically, with the same layers of material. This adds significantly to both the material, weight and manufacturing costs of the products.
In a one-sided mattress, the underside of the mattress innerspring is covered only minimally with inexpensive non-woven material. Often, there are also included layers of foam materials to create the visual perception of a full two-sided mattress, but which do not contribute to the support or comfort function of the mattress. The padded or sleep side is preferably constructed with materials which will resist taking a set, such as polymer foams and synthetic fiber batts. These mattresses may suffer in quality from the need to eliminate fibrous cushioning material which will compress, such as wool, synthetic and natural fibers, cotton and polyester. Certain types of foam such as polyurethanes and latex (which may be particularly thick) are added to provide cushioning. However, the foam materials did not have the distinct feel and comfort properties of fiber based cushioning.
In recent years, a significant portion of the additional mattress padding has been placed in the so-called pillowtop, i.e., an enclosed panel containing multiple layers of various foams and fiber batting which is sewn or otherwise fixedly attached to both sides of the mattress innerspring. See, for example, U.S. Pat. No. 5,787,532. For permanent attachment to the mattress innerspring upholstery, a gusset is formed to extend from the underside of the pillowtop, which is sewn to a mating gusset of the mattress upholstery material, along a tape edge of the pillowtop. Placing most of the comfort forming material (specifically, the fibrous materials) in permanently attached pillowtops on both sides of the mattress also requires that the mattress be periodically turned over to maintain its original shape. This turning is made increasing difficult by greater numbers of layers of material, and by the sheer size and weight of the mattress. The approach also necessitates that equal numbers of compressible material layers be included on both sides of the innerspring, adding significantly to the cost of the mattress.
A large number of layers of material in the pillowtop, including high density foam, natural and man made fiber batts, in combination with other padded or quilted upholstery, has made pillowtops very bulky and rounded at the edges. High bulk material layers, such as high-density foam, directly affect the height of the mattress, and the total height when combined with a foundation and bed frame. As a result, a separate border section is used, requiring two tape edge perimeters to be sewn on each side. It is a difficult assembly to sew together around the periphery with a tape edge, requiring expert operation of a large sewing machine mounted at an oblique angle to the mattress. The sewing head must of course traverse the entire perimeter of the mattress. In the case of mattresses with bordered pillowtops, this sewing process is required four to six times, to create two tape seams for each pillowtop (both sides) and two tape seams for both sides of the mattress. The labor cost is substantial. Also, in these constructions, the interface between the mattress or upholstery of the mattress innerspring and the pillowtop is always fabric-to-fabric, as either stitching or other form of fastening is used to maintain the alignment of the pillowtop with the mattress innerspring.
Other attempts have been made to attach pillowtops to mattress innersprings. See, for example, U.S. Pat. No. 4,809,375 describing an outer mattress cover attached to a deck cover at peripheral edges by zippers; U.S. Pat. No. 4,449,261 describing a removable and reversible pillowtop attached to the mattress by peripheral fastening means, and U.S. Pat. No. 4,955,095 describing a removable one-sided pillowtop attachable to a mattress innerspring by hook and loop fasteners. The pillowtops of these designs are essentially one-sided, having an asymmetrical arrangement of internal layers, and all use a separate mechanical fastening mechanism for attachment to the innerspring. Thus the problem of set formation or compression in the pillowtop can only be addressed by detaching and fluffing rather than turning the pillow top over. The necessity of having to release multiple fasteners adds to the labor of maintaining the mattress. Most importantly, these designs are significantly more difficult and expensive to produce than conventional sewn pillowtop attachment due to the added cost of the fastening devices, plus the manufacturing operations required to add the fastening devices. Moreover, the fasteners are apparent to touch and are visually unattractive. They also restrict comfort by not allowing the pillow to function as a free and independent element relative to the innerspring. These are major disadvantages of mattress pillow tops of the prior art.
SUMMARY OF THE PRESENT INVENTION
The present invention provides a functionally integrated sleep system in which a comfort unit, containing multiple layers of fabric, fiber and foam materials, is held in place by friction upon an innerspring support unit which is placed upon a foundation. Alternatively, a separate frictional layer may be provided between a top comfort unit and an underlying support unit, wherein the top two units are maintained in alignment by the frictional property of the intermediate layer. A top surface of the innerspring support unit is constructed of a material which has a coefficient of friction with an upholstery material of the overlying comfort unit sufficient to prevent lateral or sliding movement of the comfort unit upon the innerspring support unit. This frictional engagement of the two sleep system components eliminates the need for fasteners therebetween, thus making the comfort unit usable on both sides, and easily exchangeable with comfort units of differing material construction and feel. The friction mounted comfort unit, being the only portion of the sleep system which will take a set or pronounced compression, can be freely removed from the system in a vertical direction to be flip
Barman Bruce G.
Crist David
Freeman William
Roetzel & Andress
Sealy Technology LLC
Trettel Michael F.
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