The present invention relates to furniture, and more particularly to furniture that is convertible between a seat configuration and a bed configuration, such as a sofa bed.
Customers have long appreciated the functionality of furniture that converts between a seat configuration and a bed configuration. Individuals often purchase convertible furniture to provide additional sleeping arrangements for overnight guests, while the furniture is also able to provide suitable seating during the day. In some instances, where space is at a premium, convertible furniture, such as a sofa bed, may provide the primary sleeping arrangement for residents of loft or efficiency apartments. Similarly, the hospitality industry uses sofa beds in select hotel rooms to provide sleeping arrangements for additional persons, when needed, while being capable of providing seating when the permanent beds are otherwise sufficient to sleep the required number of guests in the room.
Traditionally, convertible furniture has suffered from two longstanding concerns, namely, limited bed comfort and limited seat comfort. First, when in a bed configuration, typical convertible furniture is often much less comfortable than a traditional mattress and box spring combination. The reduced comfort provided by traditional sofa beds can be caused by using spring mattresses that are much thinner than typical permanent mattresses. These thin mattresses are often required to provide the necessary pliability of the mattress to fold the mattress into the seat configuration of the furniture. The use of thin spring mattresses and underlying support structure exacerbates the discomfort problem by transmitting more of the pressure points caused by the traditional wire grid or tensioned trampoline support bars upon which these mattresses typically rest.
The inventors of the embodiments of the present disclosure have previously made significant strides in providing a more comfortable sofa bed. For example, U.S. Pat. No. 9,468,303, which is incorporated herein in its entirety, describes a sofa bed with a bed created from two or more bed sections that are able to fold relative to one another. The bed sections use memory foam or similar cushioning material, provided in 4 or 5″ thick blocks, to provide an enhanced level of comfort compared to 3″ foam mattresses or compressible spring mattresses. Further, each section of cushioning material is supported by a rigid panel, minimizing any transmission of pressure points from bars, wires, or springs through the cushion.
While the applicant's existing convertible furniture has made significant strides in bed comfort compared to traditional sofa beds, the space occupied by the bed sections 112, 114 in the seat position impact the ability to reach a desired seat height of 18″ or 19″ above the floor for seat comfort. Therefore, there continues to be further opportunity to improve the mechanisms used in convertible furniture to provide further packaging efficiencies while maintaining the new level of comfort expected from sofa beds such as those described in U.S. Pat. No. 9,468,303.
One embodiment of the present disclosure includes furniture that is convertible between a seat position and a bed position. The furniture comprises a first bed section comprising a first platform supporting a first cushion, and a second bed section comprising a second platform, a second cushion, and a partition disposed between the second platform and the second cushion. The first platform is configured to pivot relative to the second platform. The first cushion has a first thickness measured perpendicular to the first platform, the second cushion has a second thickness measured perpendicular to the second platform, and the first thickness is greater than the second thickness. When the furniture is in the bed position, a top surface of the first cushion is substantially coplanar with a top surface of the second cushion, and the partition is spaced from the second platform by a first distance. In the seat position of the furniture, the distance between the partition and the second platform is less than the first distance.
Another embodiment of the present disclosure includes furniture that is convertible between a seat position and a bed position. The furniture comprises a first bed section comprising a first platform supporting a first cushion, and a second bed section comprising a second platform, a second cushion, and a partition disposed between the second platform and the second cushion. The second bed section is configured to fold relative to the first bed section. The furniture also includes a third bed section comprising a third platform supporting a third cushion, the third bed section being movable relative to the first and second bed sections. The first cushion has a first thickness measured perpendicular to the first platform, the second cushion has a second thickness measured perpendicular to the second platform, and the first thickness is greater than the second thickness. When the furniture is in the bed position, a top surface of the first cushion is substantially coplanar with and adjacent to a top surface of the second cushion and a top surface of the third cushion is substantially coplanar with and adjacent to the top surface of the second cushion. In the bed position, the partition is spaced from the second platform by a first distance. In the seat position of the furniture, the distance between the partition and the second platform is less than the first distance.
Another embodiment of the present disclosure includes furniture that is convertible between a seat position and a bed position. The furniture comprises a first bed section comprising a first platform supporting a first cushion, and a second bed section comprising a second platform, a second cushion, and at least one spring supporting the second cushion. The first cushion has a first thickness measured perpendicular to the first platform, the second cushion has a second thickness measured perpendicular to the second platform, and the first thickness is greater than the second thickness. A firmness of the first bed section is substantially equivalent to a firmness of the second bed section.
The present disclosure also includes a bed section for convertible furniture, the bed section having a bed position and a seat position. The bed section comprises a partition, a cushion resting on the partition, and a platform parallel to and capable of being spaced from the partition. The partition linearly translates relative to the platform to adjust a distance therebetween, the distance being greater in the bed position than in the seat position.
Another embodiment of the present disclosure includes furniture that is convertible between a seat position and a bed position. The furniture comprises a first bed section comprising a first platform supporting a first cushion, and a second bed section comprising a second platform and a second cushion, the second bed section being pivotable relative to the first bed section. When the furniture is in the bed position, the first platform is substantially coplanar with the second platform, and a top surface of the first cushion is substantially coplanar with a top surface of the second cushion, such that each bed section has an apparent thickness (T) measured from the top surface of the respective cushion to a bottom surface of the respective platform. When the furniture is in the seat position, the first and second bed sections are stacked relative to one another within a space having a height that is less than two times the apparent thickness.
For clarity, the figures include several partial assemblies where structures have been partially cut away or omitted. One of ordinary skill in the art will appreciate where elements of the present disclosure are suitable or intended for use in identical or mirrored pairs, and that by having shown and/or described only one of the elements in the pair, the resulting paired structures are similarly understood.
Referring again generally to
In the bed position, the bed sections 110, 112, 114 may be supported by one or more leg assemblies 140. The leg assemblies 140 may include a body bed section leg 142 and a foot bed section leg 144. Each of the legs 142, 144 is configured to fold relative to the foot support panel 124 for supporting the foot bed section 114 and the body bed section 112 above a floor in the bed position. The legs 142, 144 have a folded position substantially parallel with the foot support panel 124 in the seat position and an unfolded position substantially perpendicular to the foot support panel 124 in the bed position.
A folding apparatus 150 guides the movements of the head bed section 110 and the body bed section 112 between their bed position and their seat position.
The head bed section 110, in the deployed configuration (
The body bed section 112, in the deployed configuration (
The foot bed section 114, in the deployed configuration (
The folding pattern of the sofa bed 100 of
Turning to
As shown in
As shown in
The illustrated embodiment of
A partition 270 is shown in
As shown in
A tuck panel 278 may be used to position the ticking 274 relative to the top surface of the foot platform 224. An outer edge 279 of the tuck panel 278 can provide tension to the ticking 274 when the foot cushion 234 is in the bed position. The outer edge 279 will tend to pull downward and outward on the ticking 274 to create a taught peripheral surface portion 281 for the ticking 274. As a result of the tight peripheral surface portion 281, the foot bed section 214 looks and feels substantially similar to a construction with a cushion alone and no gap between a partition 270 and the foot platform 224. The optional padding on the interior of the ticking 274 may further obscure the ability to perceive the partition 270 visually or tactually from the side of the foot bed section 214. In one embodiment, the tuck panel 278 is a 1/32″ polymer sheet that is rigid enough to hold the shape of the ticking 274 but is sufficiently flexible, when subject to external forces, to flex relative to the top surface of the foot platform 224 to accommodate the insertion of a portion of a bed sheet between the tuck panel 278 and the top surface of the foot platform. The tuck panel 278 may be a strip-shaped member positioned along each side edge of the foot platform 224. Therefore, although only one tuck panel 278 is illustrated in
As shown in
To further hide the presence of a gap between the foot platform 224 and the partition 270 when viewed from the top and sides, compressible low-density foam pieces 283 may be positioned between the tuck panel 278 and the partition 270 along the sides thereof to substantially fill a gap therebetween. The foam pieces 283 may internally support the ticking 274 and minimize the ability to press into a lateral side surface portion of the ticking, thus helping the foot bed section 214 to look and feel, when viewed or pressed from the side in the bed position, like the body bed section 212. The foam pieces 283 along the edges of the foot platform 224 may be approximately 2″ wide, intending primarily to support the ticking 274 and not to significantly support the partition 270. Additional foam pieces (not shown) may be optionally positioned between the top surface of the foot platform 224 and the partition 270 at one or more interior locations away from the edges of the foot platform. These additional foam pieces may assist to reduce noise associated with moving parts as the distance between the foot platform 224 and the partition 270 changes as a result of loading, or the result of converting the sofa bed 200 between the seat position and the bed position.
To emphasize again, the tuck panel 278 positions the ticking 274 and the ticking can be supported at the interior thereof by the foam pieces 283 to create a foot bed section 214 that is compressible in thickness for purposes of converting the sofa bed 200, but which is able to maintain the appearance from the top and sides in the bed position as if the foot bed section were constructed substantially similar to the body bed section 212. In addition to the aesthetic appearance, the foam pieces 283 contribute to the sides of the foot bed section 214 feeling much like the construction of the body bed section 212. Further, in one embodiment, the body cushion 232 is centrally attached to the body platform 222, providing the ability to pull up the edges of the body cushion 232 and insert a bed sheet between the body cushion and the body platform. The tuck panel 278 used in the foot bed section 214 provides similar functionality, allowing a bed sheet to be tucked between the ticking 274 and the foot platform 224. Here again, structures and functions have been included so that the perceived difference between the foot bed section 214 and the body bed section 212 is minimized when the sofa bed 200 is in the bed position.
As shown in
Foldable legs support the foot section as shown in
With reference to
The first support assembly 285 includes a fixed bracket 400. The fixed bracket 400 is fixed relative to the foot platform 224 (
In one embodiment, the fixed bracket 400 includes a pair of guide slots 402 as shown in
Continuing with
The vertical member 414 may also include a drive slot 428. The drive slot 428 may be positioned along a horizontal direction within the vertical member 414 of the floating bracket 410, perpendicular to the pair of parallel guide slots 402. One or more edges of the drive slot 428 may be coated or otherwise provided with a wear strip 430 to reduce friction and wear as an actuation pin 440 slides within the drive slot 428.
The actuation pin 440 is configured to travel within the drive slot 428 of the floating bracket 410 and the arched guide slot 404 of the fixed bracket 400. The drive slot 428 provides the necessary lateral tolerance for movement of the actuation pin 440 as it travels along the arched path of the arched guide slot 404.
As shown in the cutaway portion of
Thus, the aforementioned components and assemblies permit raising of the partition 270 for use in the bed position. In the illustrated embodiment, as the foot platform hinges relative to the body platform, the leg-connecting arm 304 is displaced, which displaces the drive link 450, which cases the cam 444 to pivot around the pivot point 448. As the cam 444 rotates, the actuation pin 440 is driven along the arched guide slot 404. The contact force between the actuation pin 440 and the drive slot 428 causes the floating bracket 410 to shift relative to the fixed bracket 400 because the weight of the floating bracket 410, the spacers 420, the partition 270, and foot cushion 234, may all be substantially born by the actuation pins of the first support assemblies 285, especially if the second support assembly 290 is not included.
As the floating bracket 410 is lowered relative to the fixed bracket 400, the partition 270 is brought closer to the foot platform 224 (see
With reference to
As shown in
Thus, once assembled, the compression spring 464 is configured to bias the distal end of the rod 460 away from the horizontal member 412. Because the distal end of the rod 460 is configured to be fixed to the partition 270, the compression spring 464 may bias the partition away from the horizontal member 412. External loading upon the partition 270, however, may provide sufficient external forces to overcome the biasing force of the compression spring 464 and further compress the spring, which results in the partition 270 approaching the horizontal member 412 and the head 476 being forced through the aperture in the horizontal member 412 and down away from the horizontal member. In one example, the external loading is the result of a user resting upon the foot bed section 214. Therefore, the compression spring 464 is compressed from its initial length L (
The compression spring 464 may function like a box spring supporting the foot cushion 234 as shown in
In addition to firmness as defined above, another method to determine whether distinct bed sections have similar performance characteristics may be to perform the standard ASTM F1566 (version 2014) test on each bed section. Another known measure used to rate cushions, and therefore compare performance of separate bed sections, is indention force deflection (IFD). The IFD can be determined according to ASTM standard D3574 (version 2017).
To adjust the performance of the foot bed section 114 to be equivalent to the body bed section 112, various aspects of the construction of the foot bed section may be varied, including the thickness T2 of the foot cushion 234, the material of the foot cushion, the thickness/rigidity of the partition 270, and the stiffness of the compression springs 464. Preferably, designers first should select the spring constant of the compression springs 464 sufficiently high to avoid having the springs become fully compressed or “bottoming out” when a user rests on the foot bed section 114. In one embodiment, a spring constant of approximately 14 lbs./in was found suitable. As such, the compression springs 464 contribute to the perceived softness of the foot bed section 214 relative to the body bed section 212. Therefore, even though the foot cushion 234 is thinner than the body cushion 232, the material of the foot cushion may be selected to be firmer or have a higher IFD rating than the material used for the body cushion.
In another example, the foot bed section 214 and the body bed section 212 had substantially similar firmness using a 5″ thick foam body cushion 232, and a 3″ thick foam foot cushion 234 of the same material and a partition 270 made from ⅜″ inch thick plywood supported by six compression springs 464 each having a spring constant of approximately 14 lbs./in.
Continuing with
A body section attachment 510 may be pivotably mounted to a drive linkage 512. The drive linkage 512 may be pivotably mounted to a first end of a drive cam 514. The drive cam 514 is pivotably joined to the mounting bracket 500. A floating support 516 may be pivotably attached to a second end of the drive cam 514. The drive cam 514 may be rotationally fixed to a follower cam 518 which also pivots relative to the mounting bracket 500. As will be appreciated by one of ordinary skill in the art, the follower cam 518 may be substantially identical to the drive cam 514. Further, because the cams 514, 518 are fixed to one another, they also may be considered a single part. Transmission links 522, 524 may be pivotably attached to the follower cam 518 and drive cam 514 respectively to transmit motion to a second set of cams 526 pivotably mounted to the mounting bracket 500 and pivotably mounted to a second floating support 530. While two transmission links 522, 524 are shown in
For the illustrated embodiment of the second support assembly 290, folding of the body bed section 212 relative to the foot bed section 214 displaces the drive linkage 512, which cases the drive cam 514 to rotate, thereby adjusting the relative position of the floating support 516 relative to the mounting bracket 500 (i.e. the foot platform 224). The pivot connection between the floating support 516 and the drive cam 514 allows the floating support 516 to remain substantially parallel with the partition 270. The slots 535 allow the spacers 540 to move relative to the floating supports 516, 530, which is necessary because the spacers are fixed in a position relative to the partition 270.
As understood by one of ordinary skill in the art, the transmission links 522, 524 convey rotational motion of the drive cam 514 into subsequent rotation of the second set of cams 526, thereby also adjusting the second floating support 530. Therefore, much like the first support assembly 285, the second support assembly 290 is configured to adjust the relative distance between the partition 270 and the foot platform 224 without additional compression of the optional compression springs used to optionally form a portion of the spacers 540.
With reference back to
A second module may comprise the combination of the leg assembly 140 and the first support assemblies 285 as partially shown in
The embodiments of the invention described above are intended to be merely exemplary; numerous variations and modifications will be apparent to those skilled in the art. All such variations and modifications are intended to be within the scope of the present invention as defined in any appended claims.
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Photograph 11, Versions 1 and 2, inside arm spring assist, Jan. 2000, 1 pg. |
Photograph 12, Versions 1 and 2, inside arm spring assist, Jan. 2000, 1 pg. |
Photograph 2, Version 1, sofa shown at trade show in San Francisco, sofa partially opened, Jan. 2000, 1 pg. |
Photograph 3, Version 1, sofa shown at trade show in San Francisco, sofa completely opened, Jan. 2000, 1 pg. |
Photograph 4, Version 1, sofa shown at trade show in San Francisco, tube assembly front pivot offset and extended and folding center leg extended, Jan. 2000, 1 pg. |
Photograph 5, Version 1, sofa shown at trade show in San Francisco, folding center leg extended and front wood leg with Version 1 of front leg actuator, Jan. 2000, 1 pg. |
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Photograph 7, Version 2, sofa shown at trade show in High Point, metal tube front leg with Version 2 of front leg actuator and folding center leg extended, Apr. 2000, 1 pg. |
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Number | Date | Country | |
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20190110604 A1 | Apr 2019 | US |
Number | Date | Country | |
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62571590 | Oct 2017 | US |