The present invention relates generally to foam and other forms of elastic cushioning material used for sofa beds, chairs, ottomans and other pieces of convertible furniture that include a frame and mechanism for storing a cushioned surface or sleeping surface within the piece of furniture, including furniture with a mattress-like surface which, upon expansion, will be of an adequate dimension to function as a mattress. More particularly, the furniture incorporates one or more cushion elements that are selectively expandable in at least one direction to lengthen or widen the cushioned or sleeping surface when the convertible furniture piece is in its unfolded, “open” or sleeping position.
The dimensions of the human body require a certain geometry to afford comfort in a sofa or lounge chair. Customarily, seat height is approximately 18 or 19 inches, supportive back height is approximately 14 or 15 inches up from the top of the seat surface, and seat depth is approximately 22 or 23 inches. When the goal is to convert a piece of seating furniture into a sleep surface, these dimensions do not create an adequate sleeping length mattress. To create a standard mattress approximately 78 inches long, many configurations of folded mattress components are possible. The mattress components preferably fit within the body of the piece of seating furniture. To date, when an adequate length sleep surface is achieved, the furniture in its seating mode often can be over-scaled, clumsy and relatively unpleasing in appearance. Also, in order to fit within the furniture piece a mattress of adequate dimensions for a full-size adult to use for sleeping, the mattress's thickness must be reduced to the point of compromising the mattress's comfort.
The unfolding of a cushioned furniture surface to convert, for example, a seating surface into a sleeping surface is currently achieved by unfolding and/or repositioning a supporting frame structure and an accompanying foam cushion. The unfolding or repositioning mechanism may also be used to create a longer seating surface, such as a reclining lounge chair, or for other purposes, such as a doctor's examination table. The unfolding and repositioning of a supporting frame structure is understood in the art and can be accomplished through a variety of known means, including through the use of hinged members, linkages, cables, levers, springs and other simple mechanical devices. Attempts to change the size of elastic foam or cushioned padding, however, present significant problems for a designer.
There are many different types of sofa beds, convertible sofas and other convertible furniture pieces that include a foldable or repositionable frame and a single- or multi-part cushion or mattress positioned within the frame. Basically, the foldable frame and cushion or mattress are configured to fold, rotate, stack and otherwise move so that, in the folded or closed configuration, the cushion or mattress will fit within the volume of the furniture piece and, in the unfolded or open configuration, the cushion or mattress will be supported by the frame and large enough for the intended purpose, for example, sleeping. These convertible furniture pieces, however, can be quite heavy, as the weight of the foldable frame and the associated mechanical linkages and springs—typically of metal—are significant. Several known convertible sofa beds are illustrated in U.S. Pat. Nos. 4,200,941 and 4,176,414.
Other examples of convertible sofa beds incorporate thinner mattresses that can be folded and compressed. The folded and compressed thin mattress then is guided with the portions of the foldable or articulable frame into an interior volume of the sofa bed, typically with at least part of the sofa and frame pivoting upwards and into the interior volume located immediately behind the sofa's back support. This mechanism, however, results in a relatively deep piece of furniture (overall from front to back) when configured in the folded or sitting position, which makes such sofa beds impractical for smaller rooms and aesthetically undesirable. Alternatively, the length of the sleeping surface may extend the length of the sofa, but this results in a sofa with a length (outside arm to opposite outside arm) that is noticeably longer than traditional sofas. Examples of such sofa beds are illustrated in U.S. Pat. Nos. 4,227,268, 4,204,287, 4,086,671, 3,974,529, 3,934,281 and 2,007,988. These and other prior art sofa beds and convertible furniture pieces have generally relied upon folding the foam cushioning, using the frame to reposition it or some combination of the two in order to effect a change in the dimensions of a cushioned or sleeping surface.
In its natural state, any piece of non-rigid, elastic cushioning or foam padding can be compressed or stretched to a certain extent—but with significant, inherent problems. Foam padding that is compressed in length may tend to buckle and bend, and any longitudinal compression may tend to make the foam padding thicker and less compressible in one or more dimensions orthogonal to the direction of compression. Foam padding that is stretched in length does not buckle but may become thinner in one or more dimensions orthogonal to the direction of stretching and then, if stretched too far, will tear or separate. Like many materials, foam padding has a fixed limit of elasticity, and stretching foam beyond this limit results in permanent distortion, deformation, holes or tears in the structure of the foam.
An example of a convertible furniture piece using the compression of non-rigid foam padding is illustrated in U.S. Pat. No. 4,378,609, which shows a sofa bed with a single mattress folded into two sections and then compressed longitudinally to fit the folded sections into the volume beneath and behind the seating cushions typical of a conventional convertible sofa. To compress the mattress once the length is folded in two, the frame includes articulating rigid rails and platforms surrounding the folded foam mattress on all four sides. The non-rigid foam padding is also contained and supported by a rigid platform that acts, in the open position, as a supporting member for the padding and, in the compressed state, as a barrier to contain the compressed foam and prevent buckling or bending in the dimension perpendicular to the direction of compression. The mattress in this construction necessarily is relatively thin so that it not only can be folded onto itself, but also can be compressed within the interior fold of the folded frame. The confinement of the mattress within the interior fold of the folded frame also assists in keeping the mattress from buckling or sliding out of the frame boundaries when it is compressed longitudinally. Because the mattress folds onto itself and then is compressed for storage by being encased in a rigid platform material, the thin mattress may be uncomfortable in the compressed seating configuration because the platform used to contain the foam padding in the compressed state is rigid, thus requiring additional cushions placed on top of the platform for seating. When in the open or unfolded position, the side rails used to contain the cushion in the folded or closed condition also extend upwards from the platform to nearly the top of the foam mattress, resulting in an uncomfortable, rigid edge surrounding the mattress.
Another example of a convertible furniture piece using the compression of non-rigid foam padding is U.S. Pat. No. 6,910,236, which discloses padding with furrows oriented in a direction perpendicular to the direction of compression. As in U.S. Pat. No. 4,378,609, the non-rigid foam padding in U.S. Pat. No. 6,910,236 is also supported on an articulating, rigid base to minimize the buckling of the foam padding when compressed. The patent also discloses the use of a fabric covering secured to the articulating side rails and/or base to contain the remaining three sides of the foam padding during compression. Thus, during compression, the foam padding is confined within a rigid and semi-rigid envelope to reduce the effects of buckling and bending. The foam cushion is also sculpted into a series of furrows or valleys; during compression, the sloping or vertical sides of these valleys in the foam may be pushed together, thereby additionally relieving the tendency of the foam padding to buckle when compressed.
Another approach to convertible furniture is to avoid the use of compressed or stretched foam entirely, as in U.S. Pat. No. 6,904,628, which shows an improved convertible sofa bed with a multiple component mattress having three panels or sections, two of which are folded into a stacked configuration under the seating surface of the sofa and one of which either forms part of the back support of the sofa or folds into an interior volume behind the back support of the sofa. This mechanism permits the use of a thicker and more comfortable mattress material(s), because the mattress is not one contiguous mattress that folds onto itself. Instead, the separate mattress sections pivot and articulate, and one section flips in a reverse direction—so that the mattress sections are located outside of (and are not compressed within) the folded frame. Yet, the mechanism illustrated in this example still uses a relatively large interior volume in the folded, seating or closed orientation, especially below the sofa's seating surface, where two sections of the mattress are stored when folded. The mechanism illustrated in this example also uses a large back support, either formed from part of the mattress or as a fixed surface defining an interior volume where part of the mattress is stored when folded. In either case, the large back support may not be aesthetically desirable.
Improvements to furniture convertible from a “folded,” “storage,” “closed” or “seating” configuration to an “unfolded,” “open” or “sleeping” configuration continue to be sought. In particular, it is desirable to be able to change the size of non-rigid, elastic cushioning or foam padding in a longitudinal dimension while avoiding or minimizing the typical problems associated with folding, compression or elongation of the foam.
A non-rigid pad, cushion or mattress can be constructed with a plurality of apertures oriented so that the padding material can be elongated or stretched beyond the point where the material without such apertures would otherwise tear or separate. The apertures formed in the padding may be slits, slots, holes, folds, cavities, egg-crate profiles, waffle cut profiles, valleys, furrows or voids, extending either partially or entirely through the thickness of the padding. Such apertures may be formed in a direction orthogonal to a direction of expansion of the mattress section or at any other direction at an angle to the direction of expansion. Alternatively, or in addition, such apertures may be formed in generally parallel rows that extend substantially across a top surface of the mattress section. Alternatively, or in addition, apertures may be formed in a top surface of the mattress section, and other apertures may be formed in a bottom surface of the mattress section. Alternatively, the apertures may be formed primarily only in one portion of the top surface, or primarily only in one portion of the bottom surface. Alternatively, the padding, cushion or mattress may be formed from a plurality of layers or sections of material with apertures included in any portion or all of the plurality of layers.
With the inclusion of such apertures in the padding, cushion or mattress, the apertures expand when the mattress is elongated and permit the mattress material to be stretched beyond a point where the same material would tear, separate, distort or become damaged in the absence of such apertures. The apertures permit the construction of a convertible furniture piece that uses elongation or stretching of a non-rigid, elastic cushion or foam mattress instead of compression (and the accompanying limiting frame or structure used to contain the foam cushion in its compressed state). Thus the use of cushions with apertures to permit elongation is distinguished from known furniture pieces that rely on compressing the cushion or foam within a rigid or semi-rigid frame in order to achieve a change in dimension. The use of apertures for elongation according to the invention also minimizes the amount of force or effort needed to elongate the foam from its natural, unstretched state and results in a cushion that retains substantially the same width and depth when elongated.
An article or piece of furniture that is convertible from a storage or seating position to a sleeping position may include a first frame having a first frame section and a second frame section wherein at least one of the first frame section and second frame section is translatable from a first position where the first frame section and second frame section contact one another or are close to one another to a second position wherein the first frame section and second frame section are moved away, separated or translated in respect to one another. The first frame section and second frame section may be slidably engaged to one another. For example, the first frame section may define at least one channel or receiving hole to receive the support and the second frame section may define at least one other channel or other receiving hole to receive the support, and the first frame section and second frame section may translate by sliding movement along the support. Alternatively, the first frame section and the second frame section may include an articulated connection between them.
The first frame with first frame section and second frame section supports at least one cushion or mattress section defining at least a portion of a sleeping surface, for example. The at least one mattress section has a first length and a first width and a first thickness when said convertible furniture article is in the storage or seating position. The at least one mattress section includes a plurality of apertures extending into or through the mattress section that are cut at any angle different from or orthogonal to the direction of the first length of the mattress section. The direction of the first length of the mattress section is the direction in which the mattress section will be stretched or expanded. The mattress section is expandable from its first length to a second length that is longer than the first length when said convertible furniture article is opened to the sleeping position. The mattress section is joined to the first frame section and joined to the second frame section so that translating movement of the first frame section or second frame section in relation to the other frame section expands the mattress section from its first length to its second length. Preferably, the sleeping surface of the mattress section has a generally planar configuration when said mattress section is at its first length, and said sleeping surface has a generally planar configuration when said mattress section is expanded to its second length.
The mattress or cushion section may be formed of any resilient, non-rigid or semi-rigid material that serves a cushioning function. Representative resilient materials include, but are not limited to, polyurethane foam, viscoelastic foam, latex foam and other fibrous or elastic materials used for cushioning.
In another embodiment, the article of furniture includes more than one mattress section that is expandable from its first length to a second length that is longer than the first length when said convertible furniture article is opened to the sleeping position. For example, a second mattress section and/or a third mattress section and/or other cushion or mattress sections may be incorporated into the article of furniture. Each such expandable cushion or mattress section may be formed of a resilient material with apertures, and each may be joined to translatable frame sections.
The cushion or mattress section may be covered by a protective layer. One suitable protective layer comprises a stretchable fabric that covers the top surface and/or the bottom surface of the mattress section.
In a closed position, the article of furniture may comprise a sofa, a chair, an ottoman, a stool, a loveseat, a daybed, a Murphy bed, a footrest, a bench, a table, or the like. All articles of size-convertible or expandable furniture are within the scope of the invention. Additional cushions or features may be included with the article of furniture such as, but not limited to, bolster cushions, seat cushions, back cushions, footrests and side panels.
In another aspect, a size-convertible cushion, mattress or mattress section has at least one mattress section defining at least a portion of a sleeping surface and having a first length and a first width and a first thickness when said mattress or mattress section is in a storage or seating position. The mattress section defines a plurality of apertures extending into or through the mattress section that are cut in a direction at an angle to the first length of the mattress section. The mattress section is expandable from its first length to a second length that is longer than the first length when said mattress or mattress section is opened to a sleeping position. The sleeping surface of the mattress section preferably has a generally planar configuration when said mattress section is at its first length, and a generally planar configuration when said mattress section is expanded to its second length.
The advantages of this invention will be more readily apparent from the following description of the drawings in which:
Referring first to
As illustrated in
Representative polyurethane foams include conventional polyether foams as well as high resiliency polyether foams. High resiliency polyether polyurethane foams generally have sag factors at least approximately 10% higher than conventional polyether polyurethane foams. The polyurethane foam of the mattress section or cushion 10, 10A may have a density in the range of 1.0 pcf to 6.0 pcf, more particularly 1.5 pcf to 3.0 pcf. Viscoelastic foams with densities from about 3.0 pcf to about 6.0 pcf also may be used.
Bedding constructions that include viscoelastic foams have become very popular not only for medical and orthopedic applications, but also for home use. Viscoelastic foams exhibit slower recovery when a compression force is released than other resilient polyurethane foams. For example, after being released from compression, a resilient polyurethane foam at room temperature and atmospheric conditions generally recovers to its full uncompressed height or thickness in one second or less. By contrast, a viscoelastic foam of the same density and thickness, and at the same room temperature condition, will take significantly longer to recover, even from two to sixty seconds. The recovery time of viscoelastic foams is sensitive to temperature changes within a range close to standard room temperature. Slow recovery foams also exhibit ball rebound values of generally less than about 20% as compared to about 40% or more for other foams.
Other fibrous, resilient, elastic or elastomeric cushioning materials may also be used, either alone or in combination with foams.
Referring to
The invention is useful for various articles or pieces of furniture, including, but not limited to, sofas, chairs, ottomans, stools, loveseats, daybeds, Murphy beds, footrests, benches, tables, or the like. As stated previously, all articles of size-convertible or expandable furniture are within the scope of the invention. Additional cushions or features may be included with the article of furniture such as, but not limited to, bolster cushions, seat cushions, back cushions, footrests and side panels.
Referring now to
The mattress section 90 is joined to a first frame section 98 and second frame section 100, such as by adhesive 91, 93. Alternatively, the mattress section 90 may be film bonded or flame laminated to the first frame section 98 and second frame section 100. The first frame section 98 and second frame section 100 are joined or linked to a support 104. At least one of the first frame section 98 or second frame section 100 is slidably engaged to the support 104.
In this embodiment, the convertible sofa 80 may be altered from a seating or closed (storage) configuration (
Referring next to
In the closed or seating position, the first mattress section 40 is inverted and held below the second mattress section 50 within the volume space of the sofa. The first mattress section 40 may comprise foam that has been cut with a series of apertures in the form of slits, such as but not limited to the mattress section shown in
Optionally, not shown in
In the closed or seating position, the second mattress section 50 is shown in an upwardly facing orientation with its top surface abutting a bottom surface of a seat cushion 30. The second mattress section 50 may comprise foam that has been cut with a series of apertures in the form of slits, such as but not limited to the mattress section shown in
To convert the sofa 20 from a closed or seating configuration (
Support legs 62 are connected by linkages 60a to the bottom surface of the second frame 52 (frame sections 54, 56) at frame section 56 and to linkages 60b. Referring to
Concurrently, the first mattress section 40 rotates in the direction of arrows 76 (
Optionally, as shown in
Linkages (not shown) between the first frame 42 and the supporting construction of the sofa (not shown) maintain the first mattress section 40 and first frame 42 (frame sections 44, 46) within the space between side frames 28. A representative linkage system is disclosed in U.S. Pat. No. 6,904,628, the contents of which are incorporated herein by reference. When in the open or sleeping configuration (
One mechanism for enlarging or expanding the mattress sections is shown in
The convertible sofa may be converted from the sleeping position (shown in
Referring next to
A first mattress section 124 is joined to a first frame section 126 and a second frame section 128. A second mattress section 136 is joined to a second frame 138. A third mattress section 140 is joined to a third frame 142. The first frame 126 is joined to the second frame 138 by linkage 132 to facilitate rotational movement between the first frame 126 and the second frame 138. The second frame 138 is joined to the third frame 142 by hinge 134 to facilitate rotational movement between the second frame 138 and the third frame 142.
A front border 115 is joined to or extends from the third frame 142 at an end opposite to that where the third frame 142 is connected to hinge 134. The front border 115 optionally forms a front facing for the chair when the chair is in the seating or closed configuration (
An added support element 146 is installed onto the first frame section 128. A cable or linkage 144, attached at one end to the back frame 112 and at the other end to the added support element 146, acts on the first frame section 128 through the added support element 146 to separate the first frame section 128 from the second frame section 130 and to apply a stretching force to the first mattress section 124 when the chair 110 is converted from its closed or seating configuration (
The rotational movement of the third mattress section 140 and the second mattress section 136 is comparable to the movement of the two mattress sections shown in
In this embodiment, the first mattress section 124 is held in an upright position between the back frame 112 and the second and third mattress sections 136, 140 when the chair 110 is in the closed or seating configuration
The elongation of one or more mattress sections according to the invention offers a furniture designer greater flexibility with respect to furniture height and depth. In convertible furniture designs, one limiting factor can be the thickness of the seat cushion and any mattress elements stored within the internal volume when the furniture is in the closed or storage position. The internal volume of the furniture may have to be larger to accommodate the mattress elements. This can require convertible furniture to have very short legs or bases between the floor and the underside of the body. These aesthetics of convertible furniture often can be more bulky or heavier than other non-convertible furniture. By employing the invention using elongating mattress or cushion elements, design aesthetic may be improved. For example, the internal volume of the furniture may be reduced, resulting either in a higher leg height (i.e., increased distance from the floor to the underside of the furniture article body/frame) or lowering the overall back height of the furniture article. That is, by choosing different thicknesses for the removable seat cushion and for the mattress elements or even eliminating multiple cushion or mattress elements and replacing them with a single elongating cushion or mattress section in accordance with the invention, the distance from the floor to the underside of the body or frame of the article of furniture may be increased, without loss of cushioning support in the closed or seating configuration and without loss of adequate cushioning support in the open or sleeping configuration. The amount of elongation may be apportioned to lowering the overall height of the piece of furniture or lessening the overall depth of the piece of furniture or increasing the distance from the floor to the underside of the body or frame of the piece of furniture. The overall height of the article or piece of furniture in the closed or storage position may be reduced to a more acceptable height. All of these dimensions affect the visual quality, desirability, and marketability of the piece of furniture.
Various configurations for the mattress sections are possible.
Alternatively, a cushion or mattress section 150 such as shown in
As yet another alternative, as shown in
As still another alternative, as shown in
As used herein, an “aperture” may be a slit, a slot, a valley, a waffle cut or egg crate pattern or any other form of relief hole or recess or cavity cut, drilled or formed into the material of a cushion or mattress section that enables or enhances expansion of the material along a dimension when a stretching or pulling force is applied to said material. Apertures may or may not extend entirely through the thickness of the material. Ideally, the support surface of the cushion or mattress section remains substantially planar when the cushion or mattress section is in its unexpanded state, as well as when the cushion or mattress section is in its expanded state. If wide crevices or recesses or holes are to be formed in the cushion or mattress section when apertures are opened as the cushion or mattress section is expanded, preferably such are located at regions on the support surface where the cushion or mattress is not intended to support substantial body weight. Some designers may, however, prefer to locate apertures on the support surface of a cushion or mattress section to form wide crevices or recesses or holes at regions along the support surface of the expanded cushion or mattress section to modify the supporting characteristics, e.g., to cause portions of a reclining person's body to sink further into the cushion or mattress section than other body portions. See, e.g., U.S. Pat. Nos. 4,879,776 and 5,111,542 showing different recess patterns, with recesses of different depths and with recesses at different locations on the support surface of mattress toppers or cushions.
The invention has been illustrated by detailed description and examples of the preferred embodiments. Various changes in form and detail will be within the skill of persons skilled in the art. Therefore, the invention must be measured by the claims and not by the description of the examples or the preferred embodiments.
This application is a continuation of U.S. patent application Ser. No. 13/771,232, filed Feb. 20, 2013, the contents of which are incorporated herein by reference.
Number | Date | Country | |
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Parent | 13771232 | Feb 2013 | US |
Child | 14790117 | US |