1. Field
Embodiments of the present invention relate generally to horizontally supported planar surfaces that may be vertically removable as a structural interlock for separable support and fastener components, and more particularly, to furniture such as knockdown desks and tables assembled from panels without the use of tools and without fasteners.
2. Description of the Related Art
Panel desks have become standard in the current office. Desks with vertical side and front panels in metal or wood visually define the vertical boundaries of the personal work-space as well as provide modesty protection. The vertical panels that create these visual boundaries generate both onsite assembly and functional problems.
Onsite assembly of panel desks vary between knockdown and ready-to-assemble approaches. At one extreme, knockdown desks made of panel materials are too heavy to be handled as a unit by a single assembler, and are too topologically complex to allow all panels to be interconnected with hinges. At the other extreme, ready-to-assemble panel desks are held together by fasteners that often fail structurally and usually require tools representing a test for the mechanically challenged. These are indicators for a fastener that is scaled to the structure, and a structure without fasteners, which is a contradiction in the prior art.
Functional problems with panel desks have emerged with the need for computer wiring and accessory management. Holes drilled in desk panels for wiring leave transformers, routers, power strips, and uninterrupted power supplies either on the desktop or lying beneath the desk.
Yet larger openings violate the nature of a panel desk. These are indicators for desk accessibility through the desk panels, which is a contradiction in the prior art. Further, a greater contradiction in the prior art is such accessibility through the desk panels of a knockdown panel desk.
Knockdown furniture may include furniture that may be field assembled from separate components without the use of tools and without onsite installed mechanical fasteners. Examples of mechanical fasteners may include threaded nuts, bolts, screws, hooks, and latches. In general, knockdown furniture may be constructed of panels and simple frames of wood and plastic that may be coated and reinforced by metals and composites.
Some ready-to-assemble panel furniture relies on slots or grooves to join independent wood MDF panels. The inherent drawback of slots and grooves it that they reduce the cross-section of the panel at exactly the point where more load-bearing capacity is required. In some ready-to-assemble furniture, the rigidity depends on positional restraints such as detents or notches to hold and restrain panels after assembly or fold-out. Such positional restrains enable easy assembly, but are structurally inadequate to bear the infrequent but substantial lateral loads imposed on furniture in the home or office by impact contact with users or when slid during furniture rearrangement. Such lateral loads create bending and flexing in the structure.
It will be understood by one skilled in the art that horizontal forces applied in the plane of the top surface from any direction describe a worst case scenario for ready-to-assemble and knockdown furniture. Knockdown furniture in the prior art is generally adequate for vertical loads on the top surface.
However, horizontal thrust loads in the plane of the top surface applied when the base is partly restrained prove these minimal positional restraints in the prior art to be inadequate in their nature compared to the scale of the furniture itself. For example, panel furniture with interlocking slots may only develop structural resistance for half its dimension since the other half is cut away. In a further example, a protrusion stop for a hinged leaf may be fitted into a panel notch that is less than 10% of the panel width.
The increase of computer accessories has greatly reduced usable desk space since most desks neither manage nor hide computer accessories or their wiring. Thus, another shortcoming with current ready-to-assemble and knockdown desks is their inability to provide internal storage for computer equipment and manage wiring.
An aspect of the present invention provides a positional restraint of a furniture piece that is scaled to a substantial portion of edges of the piece of furniture presented for quick and easy assembly. In an embodiment, the positional restraint due to the length of the contact between components of the piece of furniture varies from more than half to generally the width of a panel or component without material and strength loss due to cut-away slots or grooves.
Another aspect of the present invention provides an interlocking fastener that is a furniture (e.g., desk) structure.
Another aspect of the present invention provides a desk where the top surface is the removable fastener interlock.
Another aspect of the present invention provides a rigid structure able to resist substantial lateral and vertical loadings often experienced in furniture usage due to its interlocked nature of a fastener.
Another aspect of the present invention provides a desk that can be assembled without fasteners or tools by the use of components that sequentially secure the prior assembly steps.
Another aspect of the present invention provides a simple, rapid assembly sequence due to the few number of components and absence of fasteners.
Another aspect of the present invention provides a desk structure that can be shipped in a standard container due to the hinged components.
Another aspect of the present invention provides a computer equipment housing due to an internal shelf.
Another aspect of the present invention provides both wire management and computer equipment support within the same housing that is positioned internal to the desk.
Another aspect of the present invention provides a wire and cable management system due to access to the equipment housing from both the top and front of the desk.
In accordance with an aspect of the present invention, a multiple member fastener and furniture structure is provided. The multiple member fastener and furniture structure may include a horizontal diaphragm member; a vertically removable top surface and keeper member; and two opposing vertically hinged support gate members closed around and vertically clamping opposing ends of the horizontal diaphragm member beneath the vertically removable top surface and keeper member. The vertically removable top surface and keeper member may be supported by and positioned to keep closed and clamped said two opposing vertically hinged support gate members.
The foregoing and other aspects will become apparent from the following detailed description when considered in conjunction with the accompanying drawing figures.
a is a perspective view of the assembly features of a base of the piece of furniture of
b is a partial top view of the base of the piece of furniture of
c is a perspective view of the assembly features of the base of the piece of furniture of
a is an elevational view of a piece of furniture according to an embodiment of the present invention.
b to 5e are sectional views of the piece of furniture of
a and 6b are elevational views of a piece of furniture (e.g., a desk) according to an embodiment of the present invention.
c and 6d are sectional views of the piece of furniture of
Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout. The embodiments are described below to explain the present invention by referring to the figures.
As used in this application, the terms “a”, “an” and “the” may refer to one or more than one of an item. The terms “and” and “or” may be used in the conjunctive or disjunctive sense and will generally be understood to be equivalent to “and/or”. For brevity and clarity, a particular quantity of an item may be described or shown while the actual quantity of the item may differ.
Embodiments of the present invention may include furniture such as knockdown desks and tables assembled from panels without the use of tools and without fasteners in which the support and lateral force resisting structure may be the fastener. The fastener may be a hinged support gate clamping a second member with a third detachable top surface member completing and securing the interlock with result of producing a computer wiring and accessory management device, system, and method by providing access for generally the length of the front, back, and top of a panel furniture piece (e.g., desk). Embodiments of the present invention may include a ready-to-assemble cabinet structure for setup as a robust computer desk, table, kneehole bench, or framed trestle including foldable sides that may clamp ends of a lateral diaphragm brace that supports an externally accessible internal housing for computer equipment and wiring management that is shipped in compact form to a remote site, for assembly without fasteners or tools and the method of assembly.
In order to overcome the deficiencies of the prior art and contradictions in the conventional wisdom of the furniture industry, an embodiment of the present invention may include a fastener that may be scaled as a desk or table including four structural components including at least two vertically hinged support gates that may clamp both opposing faces of two ends of a third transverse member beneath a fourth detachable and vertically removable top surface member completing and securing the interlock with horizontal compressive restrain on the same side of the upper faces of the two vertically hinged support gates as the pivot point of their hinges.
An embodiment of the present invention may include a symmetrical, rigid, freestanding furniture structure where vertically-foldable opposite support sides may be rigidly connected by a vertical beam and diaphragm with end fixtures that may be secured by the hinged clamping action of the foldable supports sides where the centers of pivot may be offset out-of-plane of the leafs providing a vertical aperture when the hinge may be open for insertion of the end fixtures that may be griped and clamped, and may be then blocked in the closed, clamped position at the outer edges of the leaf extension in this gripped state by one or more top horizontal planar members supported by the diaphragm and generally acting against the leafs with a perpendicular force as a chock and keeper.
Aspects of the present invention may be embedded in a hinged support structure and diaphragm clamp that may be securely horizontally blocked, restrained, and chocked by downward turned edges of a top surface in direct contact with top face of the hinged support structure. A chock may include a block or member element that may be selected to restrain a movable member. Aspects of the present invention may include (1) a horizontal structural member that may be clamped at ninety degrees to the hinged opposing faces of a clamp, (2) the opposing faces of a hinged clamp may be selected to be spaced apart to allow for the thickness of the cross brace member, (3) the hinged panels may achieve a stable open position during assembly and insertion of the cross brace member, (4) the hinge pivot may be offset by a selected distance to enable the member to be easily inserted prior to the closing of the opposing faces of the hinge, (5) the clamping members may be the supporting assembly structure for a utility and load bearing top surface, (6) the downward turned edges of the top surfaces may chock or jam the clamps in a closed and restraining position to form a (7) rigid structure for resistance to vertical loads on the top surface and substantial horizontal loads applied generally at the plane of the top surface, and (8) the resulting omni-directional access to the interior of the panel structure without compromising structural integrity provide a unique PC wiring and accessory management system.
A furniture structure is disclosed where the distinctions of a top surface are (1) a supported horizontal planar surface, (2) supported by hinged folding supports, panels, or frames, that clamp securely lateral cross braces or side-sway resistant diaphragm, (3) vertically removable, (4) horizontally adjustable, (5) embraces folding supports with downward extending faced edges at ends, and (6) direct and forceful frictional keeper contact for maintenance of position in relation to supports without fasteners.
a is a perspective view of the assembly features of a base of the piece of furniture of
b is a partial top view of the base of the piece of furniture of
c is a perspective view of the assembly features of the base of the piece of furniture of
In the embodiment of
a is an elevational view of a piece of furniture according to an embodiment of the present invention.
a shows the desk including a top surface 580, support panels 581, 586, diaphragm 591, and shelf 596. Support panel 581 may include bearing strip 582, hinges 583, 585, and shelf bracket 584. Likewise support panel 586 may include bearing strip 587, hinges 588, 590, and shelf bracket 589. Diaphragm 591 may include grip fixtures 592-595. Top surface 580 may bear on and be supported by bearing strips 582, 587, and in turn, may include down-turned edges which may bear against support panels 581, 586. Diaphragm 591 may be supported by hinges 585, 590. Support 581 may engage grip fixtures 592, 593. Likewise, support panel 586 may engage grip fixtures 594, 595. Shelf 596 may be supported by shelf brackets 584, 589.
b a vertical section view through the desk of
In
c is a vertical section view through the desk of
d is an enlarged horizontal section view of
e is an enlarged section view showing how the offset hinge 585 may accommodate the width W shown in
Additionally
a and 6b are elevational views of a piece of furniture (e.g., a desk) according to an embodiment of the present invention.
b is an end view of the desk of
The base or bottom of a wiring and equipment trough may be formed by shelf 616 that is shown supported by shelf bracket 609. The sides of the trough may be formed by the upturned lip of removable shelf 616 and the vertical face of diaphragm 614 which may be abutted by the inward horizontal edge of shelf 616. It will be understood by one skilled in the art that shelf 116 may also be supported by other means including by way of non-limiting example bearing brackets attached to diaphragm 614. Access to the wiring and equipment trough may be afforded from the sides through openings in support frame 605, from the front between the upturned lip of shelf 616, from the back between the top lip of diaphragm 614 and the underside of top surface 600, and from above by sliding top surface 600 forward to open up the slot between top surface 600 and top surface 603 as indicated by arrow 620. Upon the return of the top surface 600 to its original position as shown as indicated by arrow 620, the slot may be utilized for wiring communication to the top surfaces 600, 603 from shelf 616.
c is a vertical section view through the desk of
d is an enlarged horizontal section view of
In
In
On the left, the combined horizontal forces represented by force arrows 206, 207 may be opposed and balanced by force arrow 710 representing tension in diaphragm 705. Force arrow 706 of the top 700 is shown contacting and acting on leaf 701 near the upper outer edge. Because of the lever arm of the horizontal width of panel leaf 701, the force 706 may be multiplied and result in a large clamping force vector indicated by force arrow 712. Likewise, force arrow 707 of the top 700 is shown contacting and acting on leaf 702 near the upper outer edge. Because of the lever arm of the horizontal width of panel leaf 702, the force 707 may be multiplied and result in a large clamping force vector indicated by force arrow 713. These large clamping force vectors 712, 713 may act on opposing faces of diaphragm 705 and due to frictional and other restraining appurtances, may prevent horizontal positional movement between diaphragm 705 and panel leaves 701, 702.
In like manner, on the right, the combined horizontal forces represented by force arrows 708, 709 may be opposed and balanced by force arrow 711 representing tension in diaphragm 705. Force arrow 708 of the top 700 is shown contacting and acting on leaf 703 near the upper outer edge. Because of the lever arm of the horizontal width of panel leaf 703, the force 208 may be multiplied and result in a large clamping force vector indicated by force arrow 714. Likewise, force arrow 709 of the top 700 is shown contacting and acting on leaf 704 near the upper outer edge. Because of the lever arm of the horizontal width of panel leaf 704, the force 709 may be multiplied and result in a large clamping force vector indicated by force arrow 715. These large clamping force vectors 714, 715 may act on opposing faces of diaphragm 705 and due to frictional and other restraining appurtances, may prevent horizontal positional movement between diaphragm 705 and panel leaves 703, 704.
According to an embodiment of the present invention, as a duplex force active fastener, a horizontally positioned vertical tension plate whose two ends may be compressively clamped by two assemblies of butt-hinged plates that may be compressed at the lever arm of their outward upper corners so as to create the maximum bending-moment by a compressive horizontal top plate which may result in the maximum degree of structural rigidity against horizontal loads in the plane of the horizontally positioned vertical tension plate.
According to an embodiment of the present invention, as a symmetrical duplex fastener, each side may compress a compressive member receiving compression from the opposing end of the other side of said fastener to apply two generally equal widely separated compressive forces to the extended leaves of a butt hinge thereby enlarging that compressive force to securely clamp one end of a tension member communicating tension to the opposing end of said tension member as a component of the other side of said fastener.
According to an embodiment of the present invention, a method of assembling a four member table structure may be provided. The method may include: while floor supported, unfolding each of two vertically hinged support gate members through a generally 90 degree horizontal angle; spaceing and positioning apart each of said two opposing vertically hinged support gate members generally the length of the horizontal diaphragm member; examining the top surface member to determine whether the orientation of the down-turned edge faces of opposing ends are interior or exterior to said top surface member; rotating each of said two opposing vertically hinged support gate members until their hinges are interior to the center of said horizontal diaphragm member if the orientation of the down-turned edges of said top surface are interior to said top surface, or rotating each of said two opposing vertically hinged support gate members until their until their hinges are exterior to the center of said horizontal diaphragm member if the orientation of the down-turned edges of said top surface are exterior to said top surface; inserting the ends of said horizontal diaphragm member through the space between the opposing hinged vertical faces of each of the two vertically hinged support gate members; folding closed each of said two vertically hinged support gate members to clamp and secure the two opposing ends of said horizontal diaphragm member; and vertically lowering the top surface member so that said down-turned edge faces abut, pressure, and secure as keepers said opposing two vertically hinged support gate members in a closed and clamped position.
Distinctions of embodiments of the present invention may be that both hinged leaves of both side support gates may be chocked and held in secured position by both sections of the top surface and both sections of the top surface may pivot upward without being hinged. Because the top surfaces may not be hinged but slide and pivot, they may create access to the desk interior. In addition, the two faces of the desk may allow knee space for workers from both sides of the desk. Structurally, embodiments of the present invention may be most stable at the outside vertical edge of the desk's gate supports because the chock provision of the top may provide the greatest restraining force as a compressive jam on that outside vertical edge of the gate leaf. The gate supports may not be constrained by the weight of the top but by the chocking action of the top.
Although embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.
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Number | Date | Country | |
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20100064947 A1 | Mar 2010 | US |