1. Field of the Invention
The present invention relates to a cover for a bed foundation or box spring, and more particularly to a foundation cover having stretchable corner elements.
2. Background Information
There are many types of box spring covers. Most all of the covers suffer from a problem of causing a fabric ripple at areas of the box spring which results in the box spring looking unfinished even when the bedding has been placed and/or adjusted on the bed and box spring. A typical box spring cover includes an elastic band that surrounds the perimeter or opening of the cover and causes the edges of the cover to draw together. While the edges around the corners may look finished, the typical box spring cover shows ripples, typically at a middle portion of the box spring.
Some examples of box spring covers (or even mattress covers) include those found in patents such as U.S. Pat. No. D615,795, U.S. Pat. Publication No. US 2012/0066835, U.S. Pat. No. 6,233,760, U.S. Pat. No. 2,499,698, U.S. Pat. No. 5,479,664, U.S. Pat. No. 2,624,893, and U.S. Pat. No. 5,029,353. While these patented items and other systems may have useful features, there is room for improvement.
The present cover is configured to seal all four corners of a bed foundation or box spring. The cover produces a clean, crisp, tight fit about the foundation and inhibits ripples or wrinkles at side panels. Components of the cover are designed to secure into position with little or no adjustment needed in order to keep the components tucked into position. The cover is configured to remain in position and avoid becoming dislodged or having the side panels inadvertently drawn between the foundation and the mattress when housekeeping is making the bed.
In one aspect the invention includes a cover for placement on a bed foundation having a set of four side panels configured in a rectangular orientation to define four corners and to fit over edges or sides of a bed foundation and having at least one stretchable corner panel positioned at one of the corners where an entirety of the stretchable corner panel is positioned at an underside of the corner. In one aspect a hem of the cover is oriented to maintain a horizontal position and includes a rough edge which is positioned adjacent a bottom edge of the foundation to inhibit release of the hem from underneath the foundation. The retention of the hem reduces or eliminates rippling of the side panel so that a smooth appearance of the cover is easily maintained.
In a further aspect, the invention includes a box spring cover for use in conjunction with a box spring comprising four panels configured to fit over edges of a box spring, at least two of the panels being adjacent panels of exposed, continuous fabric, and at least one stretchable triangular panel positioned at a corner of the cover and configured to be oriented at an underside of the box spring. In one aspect the cover includes a hem configured to extend under the edges of the box spring, and where the triangular panel is off-set from the edges of the box spring and concealed from view. In further aspect an elastic panel is configured to urge the hem of the cover into a horizontal orientation so that a linear rough edge of the hem is positioned to abut with a bottom edge of the foundation in order to inhibit displacement of the cover. Means for inhibiting displacement of the cover provides a smooth appearance at the sides of the foundation.
Methods of manufacture of a cover and methods of fitting a cover to a box spring include stretching an underside stretchable panel prior to sewing the panel to a hem. In a further aspect the method includes use of a triangular shaped stretchable panel having an angle defined by legs of the triangle where the angle measures less than 90 degrees when the panel is in an unstretched state.
The above partial summary of the present invention is not intended to describe each illustrated embodiment, aspect, or every implementation of the present invention. The figures and detailed description and claims that follow more particularly exemplify these and other embodiments and further aspects of the invention.
The invention may be more completely understood in consideration of the following description of various embodiments of the invention in connection with the accompanying drawings, in which:
While the invention is amenable to various modifications and alternative forms, specifics thereof have been shown by way of example in the drawings and will be described in detail. It should be understood, however, that the intention is not necessarily to limit the invention to the particular embodiments, aspects and features described. On the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention and as defined by the appended claims.
Referring to
As shown in
Cover 20 includes a hem 50. Hem 50 is designed to be positioned at an underside of box spring (See
In one aspect side structure 94 has a thickness of about 1 inch. In such case hem 50 will have a length of about 1 inch or of a length sufficient to extend to or past the end wall 96 of structure 94 (See
In one aspect, toe 53 may be made of the same material as foot 51. Foot 51 may be made of the same material as side panel 24. In a further aspect, toe 53 may be made of a different material as compared to the material of foot 51. In one aspect, toe 53 is made of a rubberized and/or a polymer material or other gripper cloth product or additive having a texture and ability to adhere or have a greater friction relationship with edge 95. In an example where toe 53 is a rubberized layer, toe 53 will exhibit a greater tendency to resist a sliding movement when side panel 24 is forced upward, for instance. A gripping material applied to toe 53 or comprising toe 53 will help toe 53 to grip against edge 95 (which helps maintain hem horizontally) to better secure cover 20 into position.
As shown in
With reference to
In a further aspect with reference to
In further reference to
In one aspect, panel 40, which is a flexible or elastic triangular material, is stretched across corner 60 and secured, for instance by sewing, into position as shown. When cover 20 is fitted upon a box spring 90, corner 60 will fit upon a respective corner of the box spring such that triangle 40 is positioned at an underside of the box spring. Also, with such fitting, hem 50 is urged or required to lay flat or relatively horizontal with respect to box spring edge 95. For instance, the elastic force of triangle 40, together with the stitching of stitch line SL-2 and/or SL-3, causes or tends to cause hem 50 to lay flat. The combination of SL-2 and SL-3 enhances the horizontal urging of hem 50 (i.e., at least the material of hem 50 positioned between stitch lines SL-2 and/or SL-3 is held flush against panel 40 and urges the remainder of hem 50 to a similar orientation). Further, due to the pulling action of triangle 40, the hem portion 50 associated with side 24 is urged toward the hem portion 50 associated with side 26. This stretching force caused by triangle 40 pulls the respective hem portions to help maintain the hem portions is a flat or relatively horizontal orientation. Because hem 50 will lay flat along edge 95, side panel 24 will experience a sufficiently tight fit along the length of the box spring 90 to avoid the wrinkle problem noted above (i.e., side panel 24 and hem 50 will fit smoothly and continuously against the box spring 90 along the structure 94 and edge 95 that runs from corner 60 to corner 62, for instance).
Further, and due at least in part to having exposed terminal edge 58, a friction line is created between terminal edge 58 and outer corner 98 (See
It may be appreciated that a shorter span of material, such as the span of hem 50 between corner 60 and corner 66, for instance, is less likely to sag or wrinkle as compared to a longer span of hem 50 which runs between corner 60 and corner 62. It may be appreciated that different types of fabrics which comprise sides 24 and hem 50, for instance, may require different sizes or types of panels 40 to maintain the smoothing feature noted above. In one non-limiting example, if sides 24, 30 are made of a polymer and/or cotton or poly/cotton blend and configured to span a length of the side of foundation such as span the side of a king-size foundation (76 inches by 80 inches), a panel 40 (positioned at each corner 60, 62, 64 and 66) having a first leg 70 and second leg 72 each measuring 8 inches may be sufficient to cause hem 50 to lay flat or horizontally underneath structure 94 such that side panel 24 exhibits a smooth appearance for the entire length of the foundation 90 (i.e., there are no ripples of panel 24). If the length of first leg 70 is reduced to 7 or 6 inches, for instance, the forces urging hem 50 to lay flat are reduced along the length of the foundation (i.e., hem 50 may sag at a middle area), which lessens the ability or likelihood that rough edge 58 will “catch” upon outer corner 98, thus potentially causing panel 24 to experience a wrinkle. It may be appreciated that the size or nature of panel 40 (or lengths of legs 70, 72) together with the length of foundation 90, and further together with the stretch or inherent sag characteristics of the fabric of side 24 and/or hem 50, will impact the tendency of side panel 24 to wrinkle. For some fabrics a greater (or lesser) length of panel legs 70, 72 will be desired or needed to maintain side panel 24 as wrinkle-free. In some cases, and depending on the type of fabric and span lengths of the foundation 90, a smaller sized panel 40 may be used which in turn saves costs since less material is required to create cover 20. In other cases a larger sized panel 40 will be desired or required in order to provide the better fitting characteristics and anti-wrinkle feature. It may be appreciated that there can be numerous sizes and varieties of covers to fit the numerous sizes of foundations and which utilize numerous different types of fabrics or materials. For instance, a foundation can be of many different sizes. A standard full-size foundation is typically 54 inches by 78 inches, a standard Queen is 60 inches by 80 inches, and a standard king-size is 76 inches by 80 inches (a “California King” measures 72 inches by 84 inches; a “hotel king” runs 72 inches by 80 inches, although some may have an actual measurement of 70½ inches by 79½ inches to save material costs). Since different fabrics have different stretch characteristics, and a volume of covers 20 may need to be manufactured for a variety of different sized foundations, it has heretofore been very difficult to efficiently create a working prototype for a given project. Use of the current panel 40 and hem aspects, however, allow for efficiency in developing prototypes and production model covers 20 that fit smoothly and without the wrinkle problems.
In a further non-limiting example, cover 20 may include a king size cover (76 inches by 80 inches) with decking 22 made of a poly/cotton blend (containing between about 50-75% poly, for instance, and 25-50% cotton) with a 4 inch platform 34 strip, and unlined side drop (such as drop 24) with one inch single needle lock stitch hem, a closed at headboard end, with the drop length to finish one inch below the foundation, with thread of 100% polyester, color to match the fabric 22, with all four panels such as panel 40 being generally triangular elastic material with legs of 9.75 inches by 9.75 inches and 13.5 inch hypotenuse and two inch radius corners, with hems and attachment of returns to be 8 stitches per inch. It may be appreciated that a variety of different styles and types of covers may be manufactured to accommodate use on numerous (and almost limitless) varieties of foundations.
A box spring cover that is made of material which might otherwise result in a wrinkle or sagging situation when configured with the present hem and elastic features will experience improved anti-sag or anti-wrinkle features. Thus, a greater variety or number of different types of fabrics can be used while still offering a clean and wrinkle free solution. A greater selection of material types allows for increasing options for customers and saving money in having a variety of types of materials to choose from. Moreover, use of the elastic panels reduces troubles associated with the manufacture of traditional covers that include a one-inch elastic strap positioned at the opening of the cover. By using elastic triangles, as opposed to using a one-inch elastic strap positioned at the opening of the cover, a manufacturer is able to develop working prototypes much more quickly since a more uniform tension is applied and the hem may be more easily maintained horizontally to positioned the rough edge at the outer corner of the foundation. A manufacturer is able to easily create a workable solution for a particular type of fabric (taking into consideration the types of weave or no weave of the fabric, length and width and height of the foundation, size of triangular panels, whether the fabric is printed or quilted, which impacts the stretch of the fabric, etc.). In some cases a 7 inch triangle may be sufficient to assure a smooth fitting of a cover 20 while in others a different sized triangle will be sufficient. Simply altering the size of the triangle to create a working prototype to use as a specification or model for producing large lots of covers greatly speeds the development and production (and reduces costs) of finished covers 20 while increasing the uniformity of fit among the produced covers 20. Optimally sizing panels 40 will further reduce the cost of materials.
It may be appreciated that different types of materials or fabrics that are used to make the respective panels and hems will impact the tensions and fitting aspects of cover 20 upon box spring 90. For instance, a cover 20 which is made of relatively flexible or loose knit fabric which is allowed to stretch to a greater degree, as compared to other fabrics, will tend to sag or loosen from a side panel of box spring 90 which may tend to result in an undesired wrinkle situation. Materials or bedding fabrics that have less inherent or natural stretching characteristics tend to exhibit a greater ability to maintain a smooth appearance over a longer length or span of a box spring. Yet such flex-resistant bedding materials may be more difficult to secure to the box spring and/or may be an undesirable bedding texture. There are numerous different varieties of materials having different stretch properties. Matching an appropriate material to different sizes of box springs to lessen the wrinkle problem can sometimes be a significant challenge. It may be appreciated that the present invention allows for greater versatility and options in the use of different materials to lessen the wrinkle problem.
As referenced above, it may also be appreciated that different types and/or sizes of triangles 40 may also impact the orientation of hem 50 and thus the anti-wrinkle features of cover 20. For instance, in a further aspect triangle 40 includes a first leg 70 and second leg 72 that measure about 6 inches (i.e., triangle 40 has legs that are generally 6 inches by 6 inches). Where the span or length between corner 60 and corner 62 is a relatively long distance, hem 50 might tend to sag or experience a looser fit toward the middle of the box spring (i.e., due to less tension from triangles 40, 42, acting on hem 50 at the middle portion). Configuring the triangles 40, 42 with a longer leg length (i.e., having first leg 70 and second leg 72 that are about 7 inches) will provide a greater tension force to hem 50 at the middle area of the box spring. A manufacturer may configure each cover 20 to have a desired material (with desired stretch or anti-stretch properties) and a desired triangle structure to accommodate a smooth fitting on a selected box spring. Further, triangles 40 may be made of a variety of types of flexible material so that the forces exerted upon hem 50 may vary as desired. The flexibility may be adjusted in order to create a cover having the desired anti-wrinkle characteristics.
Given the many variables to choose from for bedding (i.e., length, width and depth of the box spring, type of materials used for the cover or different parts of the cover 20 (i.e., loose knit, stretchy, etc.), the size of triangles (i.e., length of the legs, angle of the triangle), and type of flexible material used for triangles, for instance), a manufacturer may create a cover that works best for the situation at hand.
Service workers and persons adjusting the bedding using the present cover 20 may realize fewer (or no) instances of panel 24 riding upward to expose the box spring while also experiencing a better fit of the cover 20 with less or no wrinkling. A more finished bedding look is achieved, and may be achieved with minimal effort. This saves money in terms of reduced labor required to make a bed (i.e., to change or adjust bedding) which is especially important in the hotel and housing industries.
In one aspect with respect to
Referring to
Cover 21 includes elastic panels 40′, 42′, 44′ and 46′. Panels in this aspect are triangular. Triangle 40′ is sewn to platform segments 32 and 38, for instance. It may be appreciated that triangle 40′ will provide tension to adjacent platform segments 32 and 38. Triangle 40′ is positioned at an interior edge of platform segment 32. In this arrangement triangle 40′ is less likely to become visible if a mattress were to shift atop box spring 90. Triangle 40′ assists in maintaining platform segments 32, 38 is a relatively horizontal orientation with respect to side panels 24 of cover 21. A side panel 24 of cover 21 hangs downward from platform 32. In one aspect, cover 21 includes a hem 50 and triangles 40, 42, 44 and 46 at an underside of cover 21. For instance, the hem 50 and triangle 40 structures noted above may be included at an underside portion of cover 21 (i.e., the structures shown in
Panel 40′ (and panel 40) may include a finished leg at the hypotenuse and each leg may include a raw edge that is passed through a serger device to prevent fraying. Panels 40, 40′ may be die cut to a desired shape.
While panel 40 may comprise a stretchable material configured in a non-triangular shape, the use of a triangular shape allows for significant tension upon the hems in at least two dimensions (i.e., pulling a hem, such as pulling hem 50 toward the corner while also pulling the hem inward or toward the center of the foundation. Having the panel 40 configured as a triangular panel that is stretched while being stitched allows for a desired consistent force to be exerted on the hems.
In one aspect panel 40 (and similar panels) is cut or configured at 90 degrees, i.e., as shown in
In a further aspect the invention includes a method of manufacture which includes configuring triangle 40 to have a measure at angle A (See
The terms and descriptions used herein are set forth by way of illustration only and are not meant as limitations. Those skilled in the art will recognize that many variations are possible within the spirit and scope of the invention as defined in the following claims, and their equivalents, in which all terms are to be understood in their broadest possible sense unless otherwise specifically indicated. While the particular BED FOUNDATION AND METHOD OF FABRICATION as herein shown and described in detail is fully capable of attaining the above-described aspects of the invention, it is to be understood that it is the presently preferred embodiment of the present invention and thus, is representative of the subject matter which is broadly contemplated by the present invention, that the scope of the present invention fully encompasses other embodiments which may become obvious to those skilled in the art, and that the scope of the present invention is accordingly to be limited by nothing other than the appended claims, in which reference to an element in the singular is not intended to mean “one and only one” unless explicitly so stated, but rather “one or more.” Moreover, it is not necessary for a device or method to address each and every problem sought to be solved by the present invention, for it to be encompassed by the present claims. Furthermore, no element, component, or method step in the present disclosure is intended to be dedicated to the public regardless of whether the element, component, or method step is explicitly recited in the claims.
This application claims the benefit and priority of Provisional Patent Application Ser. No. 61/915,955 filed Dec. 13, 2013, for BOX SPRING COVER under 35 U.S.C. §119(e), and co-pending utility application Ser. No. 14/262,243 filed Apr. 25, 2014. Each of the aforementioned applications is hereby incorporated herein by reference in its entirety for continuity of disclosure.
Number | Date | Country | |
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Parent | 14262243 | Apr 2014 | US |
Child | 14645147 | US |