Patent Application
20220007844
Examples of the present disclosure relate to beds that can be used for resting, folded and moved for storage.
Folding beds are commonly used to provide a convenient sleeping option that can be easily and compactly stored away when not in use. Folding beds are generally designed with a support frame and a mattress that can support a user when in use and then be folded into a compact stored position when no longer in use. Many folding bed support frames include wheels to allow a user to easily move the bed to and from a storage location. These wheels, however, can be troublesome because the wheels do not effectively prevent the folding bed from moving when the folding bed is in use. This can lead to a user inadvertently injuring himself or herself. Furthermore, many folding beds have wheels that are aligned along an outside edge of the folding bed when in a stored position. Aligning the wheels along an outside edge of the folding bed causes the wheelbase of the folding bed to be relatively narrow causing the folding bed to be unstable and more likely to tip over in a stored position.
Folding beds can also be uncomfortable for a user to rest upon. This is generally a result of many folding beds having bars or support beams aligned with a user's shoulders, back, or hips. Furthermore, although some folding beds utilize a support grid made of several smaller rods or wires in a grid pattern, the support grids are generally made in a tight square pattern that can be unnecessarily rigid and cause further discomfort to a user.
These and other problems are addressed by the technology disclosed herein.
Accordingly, the inventors of this disclosure have recognized that there is a need for the following solution.
In some examples, a rollaway folding bed system can include a rigid frame having bars forming a substantially rectangular shape; a support grid affixed to the bars and configured to support a mattress; outermost vertical supports moveably affixed to the bars and configured to move between a folded position and an extended position such that the outermost vertical supports can be configured to support the bars when in the extended position; and innermost vertical supports affixed to the bars and configured to support the bars
The innermost vertical supports can have crossbars affixed to a bottom end of the innermost vertical supports and extend beyond an outer edge of the innermost vertical supports. The innermost vertical supports can also have lockable wheels affixed to the crossbars near opposing ends of the crossbars, such that the lockable wheels are configured to prevent the rollaway folding bed system from moving when in a locked state. The innermost vertical supports can also have a hinges affixed to the innermost vertical supports and to the bars such that the rigid frame can fold at the of hinges between a stored position and a deployed position and, when the rigid frame is in the stored position, the wheels can be positioned beyond an outer edge of the bars.
The rollaway folding bed system can have a mattress and the rigid frame that can be configured to support the mattress. The rollaway folding bed system can also have retention bars affixed to, and extending upwardly from, the bars. The retention bars can restrict movement of the mattress on the rigid support frame. The retention bars can be affixed to the bars near an end of the rectangular shape such that the retention bars can restrict movement of the mattress on the rigid support frame when the rollaway folding bed system is moved between a stored position and a deployed position.
The outermost vertical supports can be configured to lock when in the extended position such that the outermost vertical supports can be prevented from moving between the folded position and the extended position. The outermost vertical supports can lock by fastening a brace to the vertical support or by extending a brace affixed to the outermost vertical support to an extended position.
The outermost vertical supports can have non-slip pads affixed to a bottom surface of the outermost vertical supports. The non-slip pads can to help prevent the rigid frame from sliding horizontally when the rigid frame is in the deployed position and the outermost vertical supports are in the extended position.
The support grid can be or have rods extending between the bars such that a distance between the rods is greater along a length of the rigid frame than a width of the rigid frame. Furthermore, the distance between the rods of the support grid along the length of the rigid frame can be between approximately seven centimeters and 30 centimeters. The support grid can be eleven rods oriented with the length of the rigid frame. Alternatively, or in addition, the support grid can be multiple support grid sections extending along the length of the rigid frame and separated by additional bars. The support grid sections can be five support grid sections.
The rollaway folding bed system can have support brackets affixed to the innermost vertical supports and the bars near the hinge such that the support brackets can position the innermost vertical supports beyond an outer edge of the bars when the rigid frame is in the stored position.
The rollaway folding bed system can have a strap configured to retain the rigid frame in the stored position. The strap can include a buckle, a side release buckle, or any other buckle suitable for the application
The rigid frame can be configured to form a substantially triangular shape when in a stored position. Furthermore, when the rigid frame is in the stored position the wheels can be positioned at least approximately two centimeters beyond an outer edge of the bars. The wheels can also be positioned between approximately two centimeters and thirty centimeters beyond an outer edge of the bars when the rigid frame is in the stored position. Alternatively, a distance between an outer edge of the bars and the wheels when the rigid frame is in the stored position can be adjusted.
Other examples can include a rollaway folding bed system having a mattress and a rigid frame configured to support the mattress. The rigid frame can have a base frame movably connected to, and positioned between, two side frames.
The base frame can have central bars forming a substantially rectangular shape, and a first support grid affixed to the central bars and configured to support the mattress. The base frame can also have vertical supports affixed to, and extending downwardly from, the central bars as well as crossbars affixed proximate a bottom end of the vertical supports. The crossbars can extend beyond an outer edge of the central bars. The base frame can also have lockable wheels affixed to the crossbars proximate an end of the crossbars such that lockable wheels can be positioned beyond an outer edge of the central bars and the lockable wheels can be configured to prevent the rollaway folding bed from moving when in a locked state.
The two side frames can have outer bars forming a substantially rectangular shape and a second support grid affixed to the outer bars and configured to support the mattress. The two side frames can also have outermost vertical supports moveably connected to the outer bars such that the outermost vertical supports can rotate between a folded position and an extended position. The outermost vertical supports can also support the outer bars when in the extended position.
The two side frames can also have hinges affixed to the base frame and the two side frames. The hinges can be configured to facilitate rotation of the two side frames between a stored position and a deployed position and the lockable wheels can be positioned beyond an outer edge of the outer bars when the two side frames are in the stored position.
The outermost vertical supports can lock when in the extended position such that when the outermost vertical supports are locked, the outermost vertical supports can be prevented from moving between the folded position and the extended position. The outermost vertical supports can also haven non-slip pads configured to prevent the rollaway folding bed from moving when the two side frames are in the deployed position and the outermost vertical supports are in the extended position.
The rollaway folding bed system can also have retention bars affixed to, and extending upwardly from, an outer end of the two side frames such that the retention bars can restrict movement of the mattress on the rigid frame. The retention bars can also restrict movement of the mattress on the rigid frame when the rollaway folding bed system is moved between a stored position and a deployed position.
The two side frames can also include a third support grid affixed to the outer bars and configured to support the mattress. The first support grid and the second support grid can each include rods such that a distance between the rods is greater along a length of the rigid frame than a width of the rigid frame. The distance between the rods along the length of the rigid frame can be between approximately six centimeters and thirty centimeters. The first support grid and the second support grid can each have eleven rods oriented with the length of the rigid frame.
The rollaway folding bed system can also have support brackets affixed to the vertical supports and the central bars near the hinge such that the support brackets can be configured to position the vertical supports beyond an outer edge of the outer bars when the two side frames are in the stored position.
The rollaway folding bed system can also have a strap configured to retain the rigid frame in the stored position. The strap can have a buckle such as a side release buckle.
The rigid frame can be configured to form a substantially triangular shape when in a stored position. Furthermore, the rigid frame can be configured such that, when the rigid frame is in the stored position, the lockable wheels are positioned at least approximately two centimeters beyond an outer edge of the outer bars. For example, the lockable wheels can be positioned between approximately two centimeters and thirty centimeters beyond an outer edge of the outer bars when the rigid frame is in the stored position. Furthermore, a distance between an outer edge of the bars and the wheels, when the rigid frame is in the stored position, can be adjusted.
In some examples, a method of moving a rollaway folding bed system to a stored position can include gripping and lifting a first side frame to rotate the first side upward from a substantially horizontal position to a substantially vertical position. The method can include pushing the first side frame toward the center of a base frame until the first side frame has rotated beyond the vertical position. Similarly, the method can include gripping and lifting a second side frame to rotate the second side frame upward from a substantially horizontal position to a substantially vertical position and pushing the second side frame toward the center of the base frame until the second side frame has rotated beyond the vertical position. Optionally, the method can include continuing to push the second side frame toward the center of the base frame until opposing ends of a mattress contact each other proximate a top end of the first and second side frames. For rollaway folding bed systems that include a strap, the method can include fastening a strap connecting the first and second side frames to secure the first and second side frames in place.
The present disclosure will be more fully understood from the following detailed description of embodiments thereof, taken together with the drawings.
While the specification concludes with claims, which particularly point out and distinctly claim the subject matter described herein, it is believed the subject matter will be better understood from the following description in conjunction with the accompanying drawings, in which like numerals indicate like structural elements and features in various figures. The drawings are not necessarily to scale, emphasis instead being placed upon illustrating principles of the disclosure. The figures depict one or more implementations of the inventive devices, by way of example only, not by way of limitation.
The features of the presently disclosed solution may be economically manufactured or assembled by using one or more distinct parts and associated components which, may be assembled together for removable or integral application. Unless defined otherwise, all terms of art, notations and other scientific terms or terminology used herein have the same meaning as is commonly understood by one of ordinary skill in the art to which this disclosure belongs.
In some cases, terms with commonly understood meanings are defined herein for clarity and/or for ready reference, and the inclusion of such definitions herein should not necessarily be construed to represent a substantial difference over what is generally understood in the art.
As used herein, “a” or “an” means “at least one” or “one or more.” As used herein, the term “user”, “subject”, “end-user” or the like is not limited to a specific entity or person.
In this description, references to “one embodiment”, “an embodiment”, or “embodiments” mean that the feature or features being referred to are included in at least one embodiment of the technology. Separate references to “one embodiment”, “an embodiment”, or “embodiments” in this description do not necessarily refer to the same embodiment and are also not mutually exclusive unless so stated and/or except as will be readily apparent to those skilled in the art from the description. For example, a feature, structure, act, etc. described in one embodiment may also be included in other embodiments but is not necessarily included. Thus, the current technology can include a variety of combinations and/or integrations of the embodiments described herein.
As used herein, the terms “about” or “approximately” for any numerical values or ranges indicate a suitable dimensional tolerance that allows the part or collection of components to function for its intended purpose as described herein. More specifically, “about” or “approximately” may refer to the range of values ±20% of the recited value, e.g. “about 90%” may refer to the range of values from 71% to 99%.
Although several components are described herein as being a “bar,” the term should not be limited to a specific type of bar. For example, the term “bar” as used herein can refer to a solid or a hollow piece of material having any shape. Furthermore, the term “bar” does not refer to any specific type of material but can refer to any of the materials discussed herein and others not discussed.
The solution of this disclosure resolves the problems in the art by providing a folding bed that can prevent movement of the folding bed while in a deployed position, prevent the folding bed from tipping over when moved in a stored position, and provide a comfortable sleeping option for a user. Turning to the drawings,
The mattress 150 can be any type of mattress capable of providing support to a user while still allowing the mattress to be folded to a stored position. The mattress 150 can be any size of mattress such as a crib size, single size, twin size, full size, queen size, or even king size mattress. Furthermore, the mattress 150 can be made from manufactured materials such as foam rubber, gel foam, latex, or any other suitable manufactured material. Alternatively, or in addition, the mattress 150 can be made from natural materials such as cotton, wool, straw, hemp, or any other suitable natural material. Furthermore, the mattress 150 can have an innerspring support system and have a quilted or otherwise sewn outer cover. The mattress 150 can be sized to provide adequate support to a user while also ensuring that the mattress 150 can be folded with the rollaway folding bed system 100 when in a stored position.
The frame 200, as will be described in greater detail herein, can be made to support the mattress 150 and a user when in the deployed position and be folded, or otherwise collapsed, to a stored position so that the rollaway folding bed system 100 can be easily stored. As depicted in
The frame 200 can be made of materials capable of supporting the mattress 150 and a user. For example, the frame 200 can be made of metals, such as aluminum, steel, brass, or any other metallic material suitable for the application. The frame 200 can also be made of other non-metallic materials such as carbon fiber, glass fiber, polymers, or any other non-metallic material suitable for the application. Furthermore, the frame 200, depending on the chosen type of material, can be made from solid pieces of material or hollow pieces of material such as tubing. For example, the frame 200 can be made from steel or aluminum tubing to ensure the frame 200 provides adequate support to the mattress 150 and a user while also remaining light enough for a user to move, set up, and store the rollaway folding bed system 100. The frame 200 can also be made from all of the same materials or the frame 200 can be made from a combination of materials.
The base frame 210 and the two side frames 230 can each comprise several subcomponents as will be described in greater detail in relations to
The upper bars 212 can be a single piece of material configured to provide lateral and vertical support to the rollaway folding bed system 100 by being connected to other components of the frame 200. For example, the upper bars 212 can be connected to the vertical support bars 214 and the two side frames 230 via a connection bracket 220 using any of the previously described connection methods. Furthermore, the upper bars 212 can be sized to create a larger space between the mattress 150 proximate a bottom portion than proximate a top portion when in the stored position. For example, the upper bars 212 can be sized such that two side frames 230 and the base frame 210 form a substantially triangular shape when in the stored position (e.g., opposing ends of the mattress 150 can be in contact with each other while the center of the mattress is not in contact or folded over on itself when in the stored position). In one example, the two side frames 230 and the base frame 210 can form a substantially triangular shape when in the stored position having a base of approximately thirty-six centimeters and two sides of approximately seventy-four centimeters with the tops of the two sides substantially intersecting.
The upper bars 212 can include portions extending across the width of the frame 200 connecting two outer portions of the upper bars 212. The portions extending across the width of the frame 200 can strengthen the frame 200 by forming a rigid rectangular frame. Connected to the upper bars 212 can be a base support grid 213 configured to provide support to the mattress 150 and a user. The base support grid 213 can comprise several rods or bars joined together, using any of the previously described methods, to create a grid pattern. The base support grid 213 can form several rectangular cells that are spaced a sufficient distance such that the support grid can provide support for the mattress 150 and user without being unnecessarily rigid. In this way, the base support grid 213 can help to provide the user with a more comfortable user experience. As an example, the base support grid 213 can comprise eleven equally spaced bars or rods oriented with the length of the frame 200 and equally spaced across the width of the frame 200. The eleven equally spaced bars or rods can be joined by one or more bars or rods oriented with the width of the frame 200 and stretching across the width of the frame 200. As another example, the base support grid 213 can include rods crossing each other to form twenty-four individual cells stretched between the upper bars 212. In some examples, the base support grid 213 can have an overall length of ninety-two centimeters and a width of twenty-five centimeters with each cell having a length of approximately twelve and a half centimeters and a width of approximately eight centimeters. As will be appreciated, the dimension of the base support grid 213 can vary depending on the application and size of the frame 200.
The vertical support bars 214 can each be made from a continuous piece of material formed to extend across the width of the frame 200 while also turning upwards to provide vertical support to the frame 200. For example, the vertical support bars 214 can be formed from a continuous bar that is bent near the ends to form a horizontal portion and two vertical portions on either end of the horizontal portion. Alternatively, the vertical support bars 214 can be multiple pieces of material joined together to form a horizontal portion with two vertical portions near the ends. The vertical support bars 214 can be joined to the connection brackets 220 using any of the previously described connection methods.
Lower crossbars 216 can be affixed to the vertical support bars 214 proximate a bottom portion of the vertical support bars 214 using any of the previously described connection methods. By connecting the lower crossbars 216 to the vertical support bars 214, the lower crossbars 216 can provide additional support to the base frame 210. Furthermore, the lower crossbars 216 can be connected to lockable wheels 218 to allow the rollaway folding bed system 100 to be easily moved by a user.
The lower crossbars 216 can be configured to extend past the vertical support bars 214 such that outer ends of the lower crossbars 216 extend beyond outer ends of the two vertical support bars 214 as depicted in
The lower crossbars 216 can also be configured such that the position of the lockable wheels 218 can be adjusted depending on the application. For example, the lower crossbars 216 can have holes, slots, brackets, or other adjustable connection points such that the position of the lockable wheels 218 can be adjusted as desired.
As just described, the lockable wheels 218 can be connected to the lower crossbars 216 near an end of the lower crossbars 216. The lockable wheels 218 can be any type of wheel configured to allow the rollaway folding bed system 100 to roll when pushed by a user. This can include solid wheels, inflated wheels, stem casters, plate casters, leveling casters, side mount casters, or any other suitable type of wheel or caster for the application. The lockable wheels 218 can be mounted such that they are allowed to swivel or rotate to facilitate movement of the rollaway folding bed system 100 in any horizontal direction. Alternatively, the lockable wheels 218 can comprise two swiveling wheels and two non-swiveling wheels such that only one end of the rollaway folding bed system 100 is able to be pushed or pulled in any horizontal direction and the other end of the rollaway folding bed system 100 can only be pushed or pulled forward or backward, but the rollaway folding bed system 100 can still be guided in a desired direction.
The lockable wheels 218 can also be configured to have a brake to prevent horizontal movement of the rollaway folding bed system 100 when the brake is applied. For example, the lockable wheels 218 can have a side lock brake, a face contact brake, a total lock brake, a floor lock brake, a compression or decompression brake, or any other type of brake suitable for the application. By applying the brake, the rollaway folding bed system 100 can be prevented from easily moving at times when it is desirable for the rollaway folding bed system 100 to remain stationary, such as when in a deployed state or in a stored location. In this way, a user can remove the brake only when moving the rollaway bed system 100 but keep the brake applied during other times.
The connection brackets 220 can be a single piece of material affixed to the upper bars 212 and the vertical support bars 214. The connection brackets 220 can be configured to position the vertical support bars 214 beyond an outer edge of the two side frames 230 when in a stored position by providing a space between an end of the upper bar where the side frame 230 is connected (as described in greater detail herein and depicted in
As depicted in
Returning now to
The outer upper bars 232 can each be a single piece of material configured to provide lateral and vertical support to the rollaway folding bed system 100 by being connected to other components of the frame 200. For example, the outer upper bars 232 can be connected to the base frame 210 via the connection bracket 220 and to the support legs 236 to provide a horizontal frame configured to support to the mattress 150 and a user. Alternatively, the outer upper bars 232 can comprise more than one outer upper bar 232 joined together via an outer upper bar bracket 242. By including outer upper bar brackets 242, the outer upper bars 232 can be folded alongside each other to form a more compact arrangement during, for example, shipping or storage. As will be appreciated, in systems that have outer upper bar brackets 242, the outer upper bars 232 can generally remain in an extended position both when the rollaway folding bed system 100 is in a storage position and in a deployed position.
As depicted in
The outer upper bars 232 can include a portion extending around the perimeter of the side frame 230 and additional sections stretching across the width of the frame 200. The portions extending across the width of the frame 200 can strengthen the frame 200 by forming a rigid rectangular frame portions. Connected to the outer upper bars 232 can be a support grid 234 configured to provide support to the mattress 150 and a user similar to the base support grid 213. The support grid 234 can comprise several rods or bars joined together, using any of the previously described methods, to create a grid pattern. The support grid 234 can form several rectangular cells that are spaced a sufficient distance such that the support grid can provide support for the mattress and user without being unnecessarily rigid or firm. In this way, the support grid 234 can help to provide the user with a more comfortable experience. For example, the support grid 234 can comprise eleven equally spaced bars or rods oriented with the width of the frame 200 and spaced across the width of the frame 200. The eleven equally spaced bars or rods can be joined by one or more bars or rods oriented with the width of the frame 200 and stretching across the width of the frame 200.
As another example, the support grid 234 can include two support grids 234 on a single side frame 230. One of the two support grids 234 can include rods crossing each other to form twenty-four individual cells stretched between the outer upper bars 232 while the other of the two support grids 234 can include rods crossing each other to form thirty-size individual cells stretched between the outer upper bars 232. In one example, a support grid 234 nearest the base frame 210 can have an overall length of approximately ninety-two centimeters and a width of approximately twenty-five centimeters with each cell having a length of approximately twelve and a half centimeters and a width of approximately eight centimeters. The second support grid 234 farthest from the base frame 210 can have an overall length of approximately ninety-two centimeters and a width of approximately thirty-one centimeters with each cell having a length of approximately ten centimeters and a width of approximately eight centimeters. As will be appreciated, the dimension of the support grid 234 can vary depending on the application and size of the frame 200.
The support legs 236 can each be made from a continuous piece of material formed to extend across the width of the frame 200 while also turning upwards to provide a vertical support to the frame 200. For example, the support legs 236 can be formed from a continuous bar that is bent near the ends to form a horizontal portion and two vertical portions on either end of the horizontal portion. Alternatively, the support legs 236 can be multiple pieces of material joined together to form a horizontal portion with two vertical portions near the ends.
The support legs 236 can be moveably joined to the outer upper bars 232 via support leg brackets 240 using any of the previously described connection methods. By being moveably connected to the outer upper bars 232 via support leg brackets 240, the support legs 236 can be configured to move from a folded stored position to an extended deployed position. As depicted in
The support legs 236 can be configured to have non-slip pads 237 affixed to the support legs 236 as depicted in
The support legs 236 can have support leg braces 238, as depicted in
As depicted in
The retention bars 250 can be affixed or connected to the outer upper bars 232 using any of the previously described methods. For example, and not limitation, the retention bars 250 can be affixed to the outer upper bars 232 using a fastener 252 as shown in
The rollaway folding bed system 100 can include a strap 260 having two pieces of material affixed to opposite ends of the frame 200 as shown in
The definitions of the words or elements of the following claims are, therefore, defined in this specification to not only include the combination of elements which are literally set forth. It is also contemplated that an equivalent substitution of two or more elements can be made for any one of the elements in the claims below or that a single element can be substituted for two or more elements in a claim. Although elements can be described above as acting in certain combinations and even initially claimed as such, it is to be expressly understood that one or more elements from a claimed combination can in some cases be excised from the combination and that the claimed combination can be directed to a subcombination or variation of a subcombination(s).
Insubstantial changes from the claimed subject matter as viewed by a person with ordinary skill in the art, now known or later devised, are expressly contemplated as being equivalently within the scope of the claims. Therefore, obvious substitutions now or later known to one with ordinary skill in the art are defined to be within the scope of the defined elements. The claims are thus to be understood to include what is specifically illustrated and described above, what is conceptually equivalent, what can be obviously substituted and also what incorporates the essential idea of the embodiments.
What has been described above includes examples of one or more embodiments. It is, of course, not possible to describe every conceivable combination of components or methodologies for purposes of describing the aforementioned embodiments, but one of ordinary skill in the art may recognize that many further combinations and permutations of various embodiments are possible. Accordingly, the described embodiments are intended to embrace all such alterations, modifications and variations that fall within the spirit and scope of the appended claims. Furthermore, to the extent that the term “includes” is used in either the detailed description or the claims, such term is intended to be inclusive in a manner similar to the term “comprising” as “comprising” is interpreted when employed as a transitional word in a claim.
