Patent Grant
10045620
The present disclosure relates generally to furniture, and, more particularly, to a modular furniture system for producing a shelf, drawer, table, desk, and other furniture assemblies.
This invention defines a composable furniture system: namely, a system for assembling simple components into unique product assemblies that can be customized at purchase and modified in the future. The system defined in this invention creates new paths for the furniture lifecycle: the reuse of components in new compositions and the ability to modify what you have today to create what you need tomorrow
The typical furnishing product deteriorates with use and proceeds along a standard furniture lifecycle from initial purchase to disposal or aftermarket sale. Most furniture products are not designed to be extended or modified by adding components over time. The monolithic nature of most furniture products makes them difficult to customize to individual preferences and prevents them from being adapted to another purpose. The consumer can neither choose the optimal form for the furnishing at initial purchase, nor modify the furnishing as his or her needs change over time. This invention addresses these shortcomings via a composable and adaptive system for constructing personalized furnishings from simple, reusable components.
Further, this invention defines a system to combine components with high structural strength and rigidity. Use of machine screws as specified enables very high strength and rigid assemblies of reusable components. Machine screws also enable the secure joining of reusable components built of different materials; plastics, woods, metals, glass, and composites can be structurally integrated via standardized machine screws and threaded insert hardware.
Of additional importance, this invention describes a system that can be scaled and extended via the recursive addition of component frames and horizontal panels, or other elements, such as drawers and other storage components. Most other component shelf and furniture systems provide for the adjustment of shelves within a fixed, monolithic frame. This system provides for the addition, removal, or rearrangement of components in a dynamic assembly to define spaces between shelves, the number of shelves, and the overall height and structure of the product. Multiple columns of shelves and frames can be combined horizontally by larger panels to form larger furnishing items such as tables, desks, and credenzas.
According to an aspect of the present disclosure, a freestanding shelf assembly includes a pair of base frames, a bottom shelf panel, a first pair of support frames, and a plurality of screws. Each base frame has an elongate rail portion extending horizontally between vertical leg portions terminating at a horizontal top portion with a hole therein. The bottom shelf panel has a plurality of holes through its surface and positioned over the pair of base frames such that each hole aligns with a corresponding hole of the base frames. Each support frame has an elongate support portion extending horizontally between vertical leg portions terminating at a horizontal bottom portion having optionally a countersunk hole. Alternately, instead of a countersunk hole, the horizontal bottom portions can have normal clearance holes to accommodate a screw, such as a socket head cap screw or a cap screw. Each screw can optionally have a countersunk head, passes through respective countersunk holes of the first pair of support frames and through respective holes of the bottom shelf panel, and threadably engages respective holes of the base frames, to form the freestanding shelf assembly. Alternately, when the screw does not have a countersunk head, such as a socket head cap screw, each screw passes through the clearance holes of the support frames, through the respective holes of the bottom shelf panel, and threadably engages respective holes of the base frames.
According to another aspect of the present disclosure, a freestanding shelf assembly includes a pair of base frames, a bottom shelf panel, a first pair of support frames, and a plurality of screws. Each of the base frames has an elongate rail portion extending horizontally between vertical base leg portions and has two tapped or threaded base holes near each of the vertical base leg portions, each of the vertical base leg portions terminating at a horizontal bottom base portion. The bottom shelf panel has a plurality of bottom holes through its surface and positioned over the pair of base frames such that each of the plurality of bottom holes aligns with a corresponding one of the tapped or threaded base holes of the base frames. Each of the first pair of support frames has an elongate support portion extending horizontally between vertical support leg portions, each of the vertical support leg portions terminating at a horizontal bottom support portion having optionally a countersunk hole therein. Alternately, instead of a countersunk hole, the horizontal bottom support portions can have normal clearance holes to accommodate a screw, such as a socket head cap screw or a cap screw. The plurality of screws, each of which can optionally have a countersunk head, passes through respective ones of the countersunk holes of the first pair of support frames and through respective ones of the plurality of bottom holes of the bottom shelf panel, and threadably engages respective ones of the tapped or threaded base holes of the pair of base frames, to form thereby the freestanding shelf assembly. Alternately, when the screw does not have a countersunk head, such as a socket head cap screw, each screw passes through the clearance holes of the first pair of support frames, through the respective holes of the bottom shelf panel, and threadably engages respective tapped or threaded base holes of the base frames.
According to yet another aspect of the present disclosure, a method is directed to assembling a freestanding shelf assembly having a pair of base frames, a bottom shelf panel, a first pair of support frames, and a plurality of screws. Each of the pair of base frames has an elongate rail portion extending horizontally between vertical base leg portions, and each of the vertical base leg portions terminates at a horizontal top portion having a tapped or threaded base hole therein. The bottom shelf panel has a plurality of bottom clearance holes through its surface, and the first pair of support frames has an elongate support portion extending horizontally between vertical support leg portions. Each of the vertical support leg portions terminates at a horizontal bottom portion having a countersunk hole therein, and each of the plurality of screws optionally having a countersunk head. Alternately, instead of a countersunk hole, the horizontal bottom portions can have normal clearance holes to accommodate a screw, such as a socket head cap screw or a cap screw. The method includes positioning the bottom shelf panel over the pair of base frames such that each of the plurality of bottom clearance holes aligns with a corresponding one of the tapped or threaded base holes of the base frames. The method further includes passing each of the plurality of screws through a respective one of the countersunk holes of the first pair of support frames and through respective ones of the plurality of bottom clearance holes of the bottom shelf panel. The method further, yet, includes threadably engaging respective ones of the tapped or threaded base holes of the pair of base frames to form thereby the freestanding shelf assembly.
Additional aspects of the present disclosure will be apparent to those of ordinary skill in the art in view of the detailed description of various embodiments, which is made with reference to the drawings, a brief description of which is provided below.
The broken lines shown in
The boundary lines shown in
While the invention is susceptible to various modifications and alternative forms, specific embodiments have been shown by way of example in the drawings and will be described in detail herein. It should be understood, however, that the inventions are not intended to be limited to the particular forms disclosed. Rather, the aspects disclosed herein cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.
While aspects of the present disclosure are susceptible of embodiment in many different forms, there is shown in the drawings and will herein be described in detail some embodiments with the understanding that the present disclosure is to be considered as an exemplification of the principles of the embodiments and is not intended to limit the broad aspect of the inventions to the embodiments illustrated. For purposes of the present detailed description, the singular includes the plural and vice versa (unless specifically disclaimed); the words “and” and “or” shall be both conjunctive and disjunctive; the word “all” means “any and all”; the word “any” means “any and all”; and the word “including” means “including without limitation.”
The present disclosure pertains, generally, to a scalable, modular, reconfigurable, freestanding furniture system that includes reusable components (e.g., frames, shelves, drawers, desktops, table tops, etc.) for producing a large set of furniture products, such as shelf assemblies, drawer assemblies, tables, and desk assemblies, or any combination thereof (e.g., a shelf and drawer system, or a shelf and table system, or a desk and drawer system, etc.). The modular furniture system can be a freestanding system, i.e., not required to be, although it can be, attached to a wall or any vertical supporting structure to support loading of the system, which can be expanded vertically and/or horizontally, using modular components such as the generally or approximately “C-shaped” frame attachment mechanism described below in more detail. When additional safety against tipping moments is required, the system can be attached to a wall or vertical support structure. Each furniture product built with the reusable components is changeable or expandable to customize according to new/different needs. Thus, components can be added to and/or removed from the furniture product, and the furniture product can be divided or rearranged or reconfigured to produce a different (e.g., larger) furniture product.
In accordance with some embodiments, to facilitate the modularity, reconfigurable, and customizability benefits of the modular furniture system, the components are attached or mounted to each other with removable fasteners, such as machine screws, that provide high structural integrity when fastened, while also enabling disassembly and component reuse. Accordingly, in some aspects, the components are not permanently connected or bonded with adhesives, mechanical welds, or permanent joinery as in a monolithic furniture model.
In accordance with other embodiments, more-permanent fasteners, such as rivets, can be used to enhance structural integrity of the assembly. The use of permanent fasteners allow for customization options where structural rigidity is paramount, similar to removable fasteners, and can be modified by a skilled technician (e.g., a factory installer) when reuse and/or replacement is required.
The disclosed modular furniture system provides several benefits, including customization and reconfiguration, scalability, modularity, component reuse, and component replacement. Initially, a user can configure a precise specification or customization of a desired initial assembly or system configuration. Subsequently, as time passes after the initial configuration and needs change, the customer is able to modify and reuse components from the original system configuration. Furthermore, the user can replace a damaged component without disposing (or replacing) the entire system.
For example, the user initially specifies and acquires a freestanding shelf system with an exact number of shelves, an exact space between the shelves (as defined by in-between frame height), and an overall shelf system height. Additionally or alternately, the user can specify a hybrid assembly of shelves and drawers with the same control over the number of components and useful shelf space between the components. Then, subsequently, the user can add a single shelf component to the freestanding shelf system as needs for shelf-storage space increase in the future. The benefit of component reuse eliminates the need to buy an entirely new monolithic product.
Thus, the disclosed modular furniture system affords maximum versatility, customer choice, and ability to reuse and repair components. The modular furniture system breaks the typical linear lifecycle of furniture, from purchase to disposal, by enabling component reuse and high-value component repair and recycling.
As described in more detail below, the modular furniture system is constructed from a large set of unique furnishings selected from at least three types of primary components, including, for example, shelf panels, modular frames, and/or modular drawers. The components can be constructed from one or more of various types of materials, including metals, woods, composites, plastics, glass, or any material that meets intended structural requirements.
The frame 100 is a unitary structure having a generally elongated C-shape and is used either as a base frame, which forms the beginning of a freestanding assembly, or as a support frame, which integrates additional components in the freestanding assembly. In other words, the same frame 100 is capable of forming a base frame or an intermediate support frame above the base frame, eliminating the need to manufacture different base and support frames. In addition, the frame 100 can be oriented either with the elongate portion 102 on top (as illustrated in
In accordance with at least some embodiments, the frame 100 is fabricated from a metal to form the corresponding unitary structure, and has a thickness T, a width W, and height H. Optionally, the width W is greater than the thickness T, and the height H is greater than the width W. In some embodiments, the elongate portion 102 has a length L that is longer than the height H. The height H, in particular, can vary to achieve assemblies with shelves of different heights. Additionally, a major surface of each horizontal portion 106, as defined by the width W, is substantially parallel with the elongate portion 102.
The horizontal portions 106 can have rounded corner edges at an end edge 112 thereof to help reduce, or eliminate, damage to property or injury to people. For example, the rounded corner edges are beneficial at least because they tend to prevent inadvertent breaking of brittle furniture components (e.g., a shelf panel made of glass) such as when the assembly is flexed or twisted or jostled, or to reduce likelihood of inadvertent snagging or scratching of items, such as papers, clothing, etc., when those items are moved past the frame 100. In other implementations, the horizontal portions 106 have right-angle edges at the end edge 112 thereof, such as shown in
To fabricate the frame 100, an elongated piece of sheet metal having a uniform thickness T, a width W, and an elongated length L is provided (where L>W>T), such as by using a laser cutting technique. The holes 108, 110 are formed (e.g., drilled or tapped), and then the metal is first bent twice (e.g., using a roll forming or bending technique) to form the vertical leg portions 104 so that they have a height H, and then bent twice again to form each of the horizontal portions 106. Only four bends having the same setback and bend radius need to be formed to make each frame 100.
The pair of base frames 202 are similar, if not identical, to the frame 100 described above in reference to
The bottom shelf panel 204 has a plurality of holes 218 through its surface and is positioned over the pair of base frames 202, The position of the bottom shelf panel 204 relative to the pair of base frames 202 is such that each of the plurality of holes 218 aligns with a corresponding one the tapped or threaded holes 216 of the base frames 202. Optionally, the bottom shelf panel 204 is composed of a glass material and has only clearance holes (no threaded holes). Thus, by way of example, the holes 218 are solely clearance holes.
The first pair of support frames 206 are also similar, if not identical, to the frame 100 described above in reference to
The assembly 200 also includes a plurality of screws 228, each of which has a countersunk head and passes through respective ones of the countersunk holes 226 of the first pair of support frames 206 and through respective ones of the plurality of holes 218 of the bottom shelf panel 204. The screws 228 threadably engage respective ones of the tapped or threaded holes of the pair of base frames 202 to form thereby the freestanding two-shelf assembly 200. The countersunk head of each screw 228 is flush with a top surface 229 of the horizontal bottom portion 224 and an end of the screw 228 can be flush with a bottom surface 230 of the horizontal top portion 214. As each screw 228 is tightened, the adjacent frames and shelf panel are pulled tightly together, closing any gap therebetween and creating a robust mechanical interface that creates space between shelves while providing structural support and form for the assembly. In some aspects, the shelf panel can have a thickness sufficient to create a dado or groove in which the bottom portion 224 sits so that a top exposed surface of the bottom portion 224 is flush with the top surface of the shelf panel. When the countersunk head of the screw 228 is fully tightened into the corresponding threaded hole, the entire top surface of the shelf panel is planar.
The assembly 200 can optionally further include a plurality of pads 231 having a hole 232 therein. Corresponding ones of the plurality of pads 231 can be positioned between the horizontal bottom portion 224 of the support frames 206 and a top surface 234 of the bottom shelf panel 204 such that a corresponding screw 228 also passes through the hole 232 of the pad 231. The pads 231 prevent direct metal-on-glass contact, thereby helping to avoid cracking, scratching, or otherwise damaging the shelf panels in implementations in which they are composed of a glass.
The assembly 200 further includes a plurality of cylindrical feet 240, each having a central tapped foot-mount hole 242. Each foot 240 is secured to a respective base frame 202 by threading a threaded stud 244 into the tapped foot-mount hole 242. The threaded stud 244 is machine-pressed through a clearance hole 246 located in the elongate rail portion 210 and extends downward therefrom. The feet 240 assist in leveling the freestanding assembly 200, if necessary, and in extending the fulcrum or tipping point of the freestanding assembly 200 away from the center of mass (thereby, reducing a propensity of the freestanding assembly 200 to tip over). The form factor of the feet 240 need not be cylindrical, but can take any other form, including conical, tapered, square, rectangular, peg-like, and the like.
The bottom shelf panel 204 further includes a bottom surface 248, with the top and bottom surfaces 234, 248 being defined by a front side 252, a back side 253, a left side 254, and a right side 255. The bottom shelf panel is, optionally, made symmetrical such that it is reversible. For example, the top and bottom surfaces 234, 248 are identical to facilitate top-to-bottom reversibility, the front and back sides 252, 253 are identical to facilitate front-to-back reversibility, and/or the left and right sides 254, 255 are identical to facilitate left-to-right reversibility.
The top shelf panel 208 has a plurality of holes 260 through its surface and positioned over the first pair of support frames 206. Each of the first pair of support frames 206 has two tapped or threaded holes 262 near each of the vertical leg portion 222. The top shelf panel 208 is positioned over the first pair of support frames 206 such that each of the plurality of holes 260 aligns with a corresponding one of the tapped or threaded holes 262 of the first pair of support frames 206.
A plurality of threaded top caps 264 are inserted, respectively, through the holes 260 into the holes 262 to secure the top shelf panel 208 to the support frames 206. To eliminate, or reduce, scratches potentially caused during assembly and/or disassembly, transparent, round scratch resistant pads 265 are positioned between each cap 264 and a top surface 266 of the top shelf panel 208. Similarly, a pad 231, which is also optionally transparent and scratch resistant, is positioned between a bottom surface 268 of the top shelf panel 208 and the respective support frame 206.
Scratch-resistant pads 420, 422 are positioned between each component interface, i.e., a first pad 420 is positioned between the support frame 406 and the shelf panel 404 and a second pad 422 is positioned between the shelf panel 404 and the base frame 402. As such, the screw 400 is inserted through the countersank hole 410, and passes in sequence through a clearance hole 424 of the first pad 420, a clearance hole 426 of the shelf panel 404, a clearance hole 428 of the second 422, and is threadably engaged within a threaded or tapped hole 430 of the base frame 402.
In one example,
In another example,
In yet another example,
In each of the panels 900, 910, and 920, the first dimensions Y1, Y2, and Y3 are equal to each other, and the second dimensions X1, X2, and X3 are equal to each other. Accordingly, by way of example, the hole arrangement 902 of the small shelf panel 900 matches each hole arrangement 912 of the medium shelf panel 910 (with the first dimensions Y1 and Y2 maintained in a vertical orientation), and each hole arrangement 922 of the large shelf panel 920 (with the first dimension Y1 now rotated in a horizontal orientation to match the horizontal orientation of the first dimension Y3).
The assemblies described herein use only a few components to assemble a myriad of configuration combinations using multiple sets of identical components. For example, to assembly a simple two-shelf (stacked) assembly that is freestanding, only two pairs of frames is required, and four pairs of fasteners. To add another stacked shelf, only another pair of frames and two pairs of fasteners is required.
Each of these embodiments and obvious variations thereof is contemplated as falling within the spirit and scope of the claimed invention, which is set forth in the following claims. Moreover, the present concepts expressly include any and all combinations and subcombinations of the preceding elements and aspects.
This application is a continuation-in-part of U.S. Design patent application Ser. No. 29/473,687, filed on Nov. 25, 2013, for a “Modular Cabinet System,” which is incorporated herein in its entirety.
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