The present invention relates to mattress construction and a manufacturing process for a mattress that facilitates placement of the various mattress components before the mattress is closed by sewing.
Generally, mattresses are formed with a mattress central portion surrounded by a mattress border construction. The mattress central portion may include a series of coil springs connected together, which can be enclosed in fabric pocket. Such springs are also referred to as Marshall springs. Alternatively, the mattress central portion may comprise polyurethane or latex foam layers or synthetic or natural fibers, optionally in combination with springs. To provide sufficient support and to make the mattress more robust, mattress manufacturers have introduced mattresses with a foam-encased innercore that gives greater edge support. The foam edge is typically glued to a support layer and the coil unit is joined to the support layer by a border wire and hog rings. At least the sleeping surface of the mattress is typically covered with a quilted fabric.
When manufacturing the mattress, the innerspring unit is typically attached to a lower border wire and that border wire is joined to the support layer. The foam edge is glued in place around the innerspring unit. The quilted fabric is then attached to side panels by sewing.
Although such mattresses and manufacturing processes work well, there is a need in the art for improved techniques for manufacturing mattresses that are easier to manufacture by enabling an accurate and secure placement of the various mattress components before the mattress is closed by sewing.
The systems and methods described herein include improved mattresses and techniques for manufacturing such mattresses.
According to one aspect of the invention, a method of manufacturing a mattress includes the steps of providing a mattress core, at least one side rail, and at least one upholstery cover defining a sleep surface, placing adhesive patches on surfaces of the at least one side rail and the mattress core, and at least temporarily attaching with the adhesive patches the at least one side rail to lateral surfaces of the mattress core to hold the side rails in place relative to the mattress core during assembly of the mattress. The method further includes at least temporarily attaching with the adhesive patches the at least one upholstery cover to a major surface of the mattress core to hold the at least upholstery cover in place relative to the mattress core during assembly of the mattress, and thereafter permanently attaching an edge portion of the mattress cover to an edge portion of the at least one side rail.
According to another aspect of the invention, a mattress includes a mattress core, at least one side rail joined to the mattress core by one or more adhesive patches having a bonding strength sufficient to maintain a relative position between the mattress core and the at least one side rail at least during assembly of the mattress, at least one deck applied at least over an area of the mattress core and joined to the mattress core by one or more adhesive patches having a bonding strength sufficient to maintain a relative position between the mattress core and the at least one deck at least during assembly of the mattress, and an upholstery layer defining a sleep surface applied over the at least one deck and joined to the at least one deck by one or more adhesive patches having a bonding strength sufficient to maintain a relative position between the at least one deck and the upholstery layer at least during assembly of the mattress. The upholstery layer is permanently secured to the at least one side rail by an mechanical fastener.
Embodiments of the invention may includes, among other things, one or more of the following features. The adhesive patches may be two-sided adhesive patches to simplify a number of steps in manufacturing. Pre-extruded rubber based pressure sensitive adhesive patches may also be employed for attachment of various constituent pieces and subassemblies of a mattress to provide a simplified mattress construction. Adhesive patches may be provided on a roll of non-stick backing to permit simple removal by hand or by contact to the mattress components. Patches may be cut from the roll in individual lengths of non-stick backing, or deployed directly from the roll of non-stick backing by applying to work surface.
For example, adhesive patches may be employed for attachment of: (1) bottom or top finished panels on a mattress to a mattress core or inner mattress construction, (2) top upholstery foams to pocket coil innerspring units and foam side rails, (3) top upholstery foams to the top upholstery foams or other additional decks in a mattress using an offset-V or pillow sewn top, (4) between strata of top upholstery foams or other layers, (5) between bottom upholstery foam and pocket coil innerspring units and foam side rails, (6) foam or other side rails to a pocket coil innerspring unit, (7) side rails to other side rails in corners of a mattress.
More generally, adhesive patches may be sized and placed in any fashion that reduces cost and/or improves mattress design, with the details depending on the mattress construction designs. This technique may eliminate the need for mechanical fasteners, water and solvent spray glues, acrylic adhesive films, hook and loop fastening, and any other techniques requiring additional hardware or additional assembly time in the mattress manufacturing process.
Instead of using adhesive patches with lateral dimensions that are substantially less than a dimension of the mattress, the adhesive patch may actually be applied in form of a tape having a length that are substantially equal to the length and/or width of the mattress or a component of the mattress, such as the matress core or the side rail(s).
The mattress core can be an open coil mattress core, a fabric-encased spring coil mattress core, or springs disposed in foam mattress core. Alternatively, the mattress core can be one or more blocks of resilient foam that can have different firmness.
Further features and advantages of the present invention will be apparent from the following description of preferred embodiments and from the claims.
The following figures depict certain illustrative embodiments of the invention in which like reference numerals refer to like elements. These depicted embodiments are to be understood as illustrative of the invention and not as limiting in any way.
To provide an overall understanding of the invention, certain illustrative practices and embodiments will now be described, including a manufacturing process for a mattress that attaches an innerspring or coil unit to a side rail, upholstery foam and/or top panels for placement before the mattress is closed by sewing. However, it will be understood by one of ordinary skill in the art that the systems and methods described herein can be adapted and modified and applied in other applications and that such other additions, modifications and uses will not depart from the scope hereof.
Referring now to
As shown in
At this stage of the manufacturing process, the mattress assembly is held together by the adhesive patches which provide sufficient rigidity and strength during manufacture, but may not be able to withstand the forces and stresses exerted on the mattress during normal use. However, the mattress assembly can now be easily handled as a unit without the risk of misaligning the components during the manufacturing process.
As shown in
The adhesive patches no longer perform a useful function after the mattress is closed by sewing, so that the durability, bonding strength and wear resistance of the adhesive strips are immaterial for the performance of the mattress. The adhesive patches are only used for assembly of the mattress as a temporary placeholder.
In one embodiment, the pockets for the pocketed coils are formed of Duon material which has a tendency to bond more tightly with the adhesive patches. Other materials may be used, and in alternate embodiment, the coil of an open coil unit may be directly attached to the side rails and/or to the upholstery foam. In this way the coil unit can be joined to the support layer without the use of a border wire or hog rings. However, in alternate embodiments a border wire and hog rings may also be employed in cooperation with the adhesive patches, and the use of a border wire will depend on the particular application.
In other embodiments, the systems and methods described herein maybe used with two sided mattresses as well as mattresses that are capable of being used with adjustable beds. For example, a mattress for an adjustable bed may have a foam edge that has a break or a flexible component that is disposed somewhat midway along both long edges of the mattress. In this way, the adjustable bed will be more capable of pivoting around a central axis as the flexible portion built in the foam edge readily allows the mattress to pivot and bend.
It will be understood that any innerspring unit may be employed with the systems and methods described herein. Thus, open coils, pocketed coils, coils in foam, and even all foam units, which may include sections of different firmness, maybe used with the methods described herein.
When completed, the mattress, may have an upper sleep surface formed by a layer of foam padding 50 and a layer of ticking 92. In a one-sided mattress, a lower support layer may be foam, wood, plastic or a composite of such materials and typically will be covered by a thin layer of a non-woven sheeting. It may be a high density polyurethane foam having a density of approximately 1.85 lbs./cu. ft. and a firmness above 30 ILD. Other rigid materials may be used and may include plastic, wood, or other non-yielding rigid materials. To the extent such materials for the layer yield to pressure, such materials are to have at least a high degree of recoverability once the pressure has been removed so that the materials are not compacted.
The order in which the steps of the present method are performed is purely illustrative in nature. In fact, the steps can be performed in any order or in parallel, unless otherwise indicated by the present disclosure.
While particular embodiments of the present invention have been shown and described, it will be apparent to those skilled in the art that changes and modifications may be made without departing from this invention in its broader aspect. Therefore, the appended claims are to encompass within their scope all such changes and modifications as fall within the true spirit of this invention.
This application claims the benefit of U.S. provisional Patent Application No. 60/512,496, filed Oct. 17, 2003, the content of which is incorporated herein by reference in its entirety.
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