The present invention relates to bedding products, and in particular to a collapsible, folding box spring.
Conventional beds generally include a mattress resting on a box spring that is supported by a bed frame. Box-springs are generally designed to have the outward appearance of a mattress, being covered by quilted fabric and cushioning, for example. Generally, box springs have a wooden rectangular frame supporting an array of springs to provide firm support for the mattress.
A box spring is typically constructed in one piece having the same dimensions as the mattress it supports. A conventional box spring, due to its stiff wooden frame, is often heavy and awkward to handle. The dimensions of a conventional box spring make it impractical for a consumer to transport the box spring home from a mass-market retail store. For example, the typical box spring does not fit in the trunk of a car. Moving such a box-spring into apartment elevators and around corners into bedrooms is often difficult and exposes the box springs and doorways to potential damage. In addition, the dimensions of a conventional box spring take up valuable floor space which discourages mass-market stores from offering box springs to their retail customers.
Attempts have been made to develop folding box springs. For example,
A support for a mattress is sought that provides all of the support, comfort and aesthetic qualities of a conventional box spring but yet that reduces the transportation and storage space requirements of a conventional box spring. Moreover, the novel mattress support should be less flimsy than a foldable bed foundation that employs wire braces, wire struts, wire hinges and wire grids that are clipped together.
A metal frame that is covered by a fabric covering forms a sturdy, collapsible, foldable mattress support. The metal frame includes a first section and a second section that fold together at two hinges. The first section includes a first upper frame and a first lower frame, and the second section includes a second upper frame and a second lower frame. The first upper frame remains substantially parallel to the first lower frame as the foldable mattress support is unfolded. The foldable mattress support is collapsed when the distal end of the first upper frame is moved adjacent to the distal end of the second upper frame. The first upper frame is substantially parallel to the second upper frame when the foldable mattress support is completely collapsed.
The first upper frame is pivotally attached to both of two hinges and pivots about a first axis. A bolt that is oriented along the first axis passes through the first upper frame and through a metal plate of the first hinge. The first lower frame is also pivotally attached to both of the hinges and pivots about a third axis. The second upper frame is pivotally attached to the hinges and pivots about a second axis, and the second lower frame is pivotally attached to the hinges and pivots about a fourth axis. The first, second, third and fourth axes are orthogonal to the plate of the first hinge and to a plate of the second hinge. The third axis is spaced farther apart from the fourth axis than the first axis is spaced apart from the second axis.
A flat, metal side bar is pivotally attached to both the first upper frame and the first lower frame. The side bar becomes substantially parallel to a side edge of the plate of the first hinge as the foldable mattress support is completely unfolded. The side bar provides structural support to hold up the first upper frame under the weight of a mattress resting on the foldable mattress support. A brace plate is attached to the first upper frame. Although the brace plate rotates with the first upper frame, the brace plate remains perpendicular to the plate of the first hinge. When the foldable mattress support is completely unfolded, the brace plate contacts an upper edge of the plate of the first hinge and prevents the first upper frame from rotating down past a horizontal orientation of the mattress support.
A method of manufacturing a foldable mattress support involves constructing upper and lower frames, attaching the frames to hinges, pulling a covering over the mattress support, folding the mattress support, inserting the mattress support into a packing box and inserting instructions into the packing box that instruct a user of the mattress support to unfold the folded mattress support.
Two upper frames and two lower frames are constructed by welding cross bars between U-shaped peripheral bars. Metal rods are then welded between the cross bars of each of the upper frames. The upper and lower frames are then pivotally attached to both of two hinges by bolts that are oriented along parallel axes. The upper and lower frames are attached at plates of the hinges. The first upper frame pivots about a first axis; the second upper frame pivots about a second axis; the first lower frame pivots about a third axis; and the second lower frame pivots about a fourth axis. Each of the first, second, third and fourth axes is orthogonal to the plates of the hinges. The third axis is spaced farther apart from the fourth axis than the first axis is spaced apart from the second axis. Each of the upper frames is also pivotally attached to the corresponding lower frame by two flat, metal side bars.
Elastic straps are bound from the distal corners of the upper frames to the distal corners of the lower frames. A fabric covering is then pulled over the unfolded metal frame of the mattress support, and the insertion opening in the fabric covering is closed by a zipper.
After the fabric covering is on the mattress support, the first upper frame of the mattress support is folded into the second upper frame of the mattress support. The folded mattress support is then inserted into a packing box. The inside width of the packing box is about four times the width of the bars that form the upper and lower frames plus four times the small thickness of the fabric covering. Finally, instructions are inserted into the packing box that instruct a user of the foldable mattress support how to unfold the folded mattress support.
Further details and embodiments are described in the detailed description below. This summary does not purport to define the invention. The invention is defined by the claims.
The accompanying drawings, where like numerals indicate like components, illustrate embodiments of the invention.
Second upper frame 29 also includes an upper peripheral bar 42, three upper cross bars 43-45 and metal rods 46-50. Upper peripheral bar 42 and cross bars 43-45 also are metal and have hollow, rectangular cross sections. Second lower frame 28 includes a lower peripheral bar 51 and a lower cross bar 52.
Upper peripheral bar 31 of first upper frame 27 is pivotally attached to a first hinge 53 and to a second hinge 54 such that first upper frame 27 pivots about a first axis 55. Upper peripheral bar 42 of second upper frame 29 is pivotally attached to first hinge 53 and second hinge 54 and pivots about a second axis 56. Lower peripheral bar 40 of first lower frame 28 is pivotally attached to first hinge 53 and second hinge 54 such that first lower frame 28 pivots about a third axis 57. Lower peripheral bar 51 of second lower frame 30 is pivotally attached to first hinge 53 and second hinge 54 such that second lower frame 30 pivots about a fourth axis 58.
First hinge 53 includes a first plate 59, and each of first axis 55, the second axis 56, the third axis 57 and the fourth axis 58 is orthogonal to first plate 59. Second hinge 54 includes a second plate 60 that is oriented parallel to first plate 59. Thus, each of the axes 55-58 is also orthogonal to second plate 60.
Elastic straps 61 are bound from the distal corners of upper peripheral bar 31 to the distal corners of lower peripheral bar 40. Likewise, elastic straps 61 are bound from the distal corners of upper peripheral bar 42 to the distal corners of lower peripheral bar 51. Upper peripheral bar 31 is pivotally attached to lower peripheral bar 40 by flat metal side bars 62. The side bars 62 also pivotally attach upper peripheral bar 42 to lower peripheral bar 51. Side bars 62 provide structural support to hold up first upper frame 27 and second upper frame 29 under the weight of a mattress resting on foldable mattress support 20. Elastic straps 61 hold out fabric covering 21 at the corners of foldable mattress support 20 to maintain the appearance of a conventional box spring.
The middle view of
In a step 76, the first and second upper frames 27, 29 and first and second lower frames 28, 30 are pivotally attached to first and second hinges 53-54. The first and second upper frames 27, 29 are pivotally attached to the first and second hinges 53-54 by bolts 68, 70 that are oriented along parallel first and second axes 55-56. The first and second lower frames 28, 30 are pivotally attached to the first and second hinges 53-54 by bolts 69, 71 that are oriented along parallel third and fourth axes 57-58. The distance between the bolts 69, 71 that attach the first and second lower frames 28, 30 is greater than the distance between the bolts 68, 70 that attach the first and second upper frames 27, 29. The upper frames 27, 29 are attached to the lower frames 28, 30 by flat metal side bars 62. Metal frame 24 of foldable mattress support 20 is formed by pivotally attaching the upper and lower frames by the hinges 53-54 and side bars 62.
In step 77, fabric covering 21 is pulled over unfolded metal frame 24. An opening in fabric covering through which metal frame 24 passes is closed using a zipper.
In step 78, first upper frame 27 is folded up into second upper frame 29 such that first upper frame 27 remains substantially parallel to first lower frame 28 as mattress support 20 is folded. Second upper frame 29 also remains substantially parallel to second lower frame 30 as mattress support 20 is folded, as illustrated in the middle view of
In step 79, the folded mattress support 20 inside fabric covering 21 is inserted into a cardboard packing box 63. The inside width of the packing box can be as small as about four times the width of a peripheral bar plus four times the small thickness of fabric covering 21. Bolts 68 and 70 are spaced far enough apart to allow room for fabric covering 21 to fit between upper frames 27, 29 when foldable mattress support 20 is completely collapsed.
In step 80, instructions are inserted into packing box 63 that instruct a user of foldable mattress support 20 to unfold the folded mattress support after removing it from the packing box.
By manufacturing the mattress support 20 so that it can fold in half and collapse flat, the mattress support is better suited to sell in mass-market retail stores and can more easily be transported from the store to the location of the mattress to be supported. The large dimensions of a conventional box spring take up valuable floor space in mass-market stores. Less floor space is needed to store and display foldable mattress support 20 on store shelves. The large size and unitary construction of a conventional box spring also make it impractical for a consumer to transport the box spring home from a mass-market retail store. The small packing box 63 containing the collapsed mattress support 20, however, can easily be brought from the store shelf to the check-out counter and then to the trunk of the consumer's car. In addition, the damage that occurs when conventional one-piece wooden box springs are moved through doorways can be avoided. The packing box 63 containing foldable mattress support 20 can more easily be maneuvered up stairs, into apartment elevators and around corners than would a conventional non-collapsible box spring.
Although certain specific embodiments are described above for instructional purposes, the teachings of this patent document have general applicability and are not limited to the specific embodiments described above. Although the peripheral bars and cross bars are described above as being hollow and having rectangular cross sections, foldable mattress support 20 can also be made using peripheral bars and cross bars having other cross sections. For example, the peripheral bars and cross bars can have a solid, circular cross section. Accordingly, various modifications, adaptations, and combinations of various features of the described embodiments can be practiced without departing from the scope of the invention as set forth in the claims.
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