1. Field of the Application
The present application relates to furniture with integral storage.
2. Description of Related Art
Furniture with integral storage has been around for many decades. Many of these types of furniture also include removable components, such as drawers and shelves.
Although great strides have been made in the area of furniture with integral storage, many shortcomings remain.
Introduction
The device of the present application is an article of furniture which provides a concealed storage volume or compartment with easily movable panels which cover the storage compartment and which may be selectively moved to reveal some or all of the storage compartment underneath.
The preferred embodiment is a table that can be packaged and transported in a compact disassembled state, then easily assembled by the user without need for tools or hardware. Further, the table may be subsequently disassembled and re-assembled by the user as desired without need for tools or hardware.
An alternate embodiment is a table that can be packaged and transported in a compact disassembled state, then easily assembled by the user with the aid of hardware and/or tools.
It should be understood that an alternate embodiment could be an article of furniture that is already assembled, having been fabricated using traditional furniture manufacturing techniques, or that is already pre-assembled for the user.
Scalable Design:
The preferred embodiment may be used in any number of environments, from home living rooms to child playrooms to office waiting rooms to provide easily accessible storage for small items such as building blocks, toys or even electronics such as tablets and hand-held game machines and controllers. It should be anticipated that the device of the present application may be scaled in any dimension to optimize the design for a particular environment or to produce embodiments for environments not discussed herein.
The preferred embodiment shown in
In an alternate embodiment, the device of the present application could be scaled to produce a taller play table for standing use by older children or could be scaled to produce a work table for standing use by adults.
In an alternate embodiment as shown in
In an alternate embodiment as shown in
In an alternate embodiment, the device of the present application could be scaled to produce a wider and/or longer play table for use with toys such as electric train sets or electric slot car tracks that take up a larger area when the tracks are assembled into a complete railroad or racing circuit.
In an alternate embodiment, the device of the present application could be scaled to produce a workbench or tool bench with a storage compartment for holding items such as tools, hardware and supplies.
In an alternate embodiment, the device of the present application could be scaled to produce a desk as shown in
Multiple Storage Areas:
It should be anticipated that the device of the present application could have additional embodiments that provide additional storage areas and/or additional storage volumes above and/or below the primary storage volume.
Cover Panels:
In the device of the present application shown in
In the device of the present application, the use of three separate top panels as shown in
When a top panel is removed, children may play from the adjacent sides of the table with unimpeded access to the storage area. Because the top panels may be removed and stored completely out of the way, there are no obstacles such as extended drawers on tables with built-in drawers or hinged-open tops on tables such as lift-top tables to impede movement around the table or to become damaged by impact. And because the storage area now accessible, there is no need to repeatedly open drawers to access their contents and subsequently close them to allow access to the table top.
In the alternate embodiments shown in
In the alternate embodiment shown in
In the preferred embodiment, the top panels are supported by two rails along opposite sides of the table. The large top panel may be square which would allow it to be installed in any orientation atop the two supporting rails. The large top panel provides a build platform for building blocks or a play area for other toys when the small panels are removed. The large top panel may slide along the supporting rails toward either side to allow access to the entire storage volume beneath. The large panel may also be removed entirely, but its sliding design allows it to remain in place and still provide access to objects and toys beneath it.
In the preferred embodiment, the rails supporting the top panels also provide a means to hide the joinery that supports the panel that forms the bottom of the storage volume. These supporting rails may contain slots that allow tabs on the mating panel to insert into the slots, as shown in the exploded views in
Cover Panel Hangers:
As shown in
In an alternate embodiment, the notches necessary to hang a top panel for storage could be formed by a blind cutout on only one side of the panel as shown in
In an alternate embodiment, hangers could be formed on lower rails and a top panel could be stood up on the hangers instead of hanging down from the hangers, eliminating the need for notches in the top panels as shown in
In an alternate embodiment, hangers could be produced by attaching one or more pieces of hardware to the device, for example a metal hook permanently attached to a panel on which to hang a cover panel.
It should be anticipated that the length and location of the hangers can be varied such that removable panels may be stored all on one side or stored on multiple sides of the table in alternate embodiments.
In an alternate embodiment, the removable panels could be stored horizontally below the storage volume. In alternate embodiments where the dimensions and proportions of a cover panel exceeds the dimensions of the table and precludes storing the panel on the outside of the table, a substantially horizontal storage position below the storage volume would suffice to store the panels out of the way of the user.
Cover Panel Cutouts:
In the device of the present application, the top panels may incorporate openings or cutouts to facilitate easy lifting and removal by hand. These openings may consist of one or more notches formed into the perimeter of the panel as shown in
In order to ensure safety and to prevent inadvertent use of a top panel as a wieldable weapon, the openings or cutouts could be designed and located such that a child cannot get a sufficient grip on the panel to wield it like a weapon with only one hand. In order to prevent such behavior, the opening in the small top panels would preferably be a single notch that allows the child to insert a finger to lift the panel upwards, requiring the child to then grasp the edge of the panel between their thumb and forefingers. Because of the relatively small size of the panel, this should allow enough lifting and gripping force to remove the panel and hang it for storage but not enough gripping force to allow the child to wield the panel like a weapon without losing grip on it. Because the panel may be relatively small and light, this is an acceptable design tradeoff favoring a loose grip that should be sufficient for normal removal without frequent drops over a tight grip that prevents drops but allows it to be wielded like a weapon. An alternate preferred opening could be a small hole located at such a distance from the edge as to not allow small children of a particular demographic range to grasp the panel between the thumb and middle finger, as shown in
Hinged Cover Panels:
In an alternate embodiment, two or more of the top panels may be attached to one another using one or more hinge mechanisms to prevent removal of an individual panel but allowing the top panels to rotate relative to one another to allow access to the storage compartment underneath. The top panels may be sized appropriately to allow one top panel to fully rotate and fold back on an adjacent panel as shown in
In an alternate embodiment, a top panel may be hingedly attached to allow the top panel to fold over the top edge of a side panel through approximately 270 degrees of motion and rest against the side of the table. This embodiment has the advantage that the top panel cannot be separated from the table, preventing it from being misplaced and eliminating the extra step of manually lifting and positioning the panel on cover panel hangers for storage. It should be understood that the hinge mechanism could be implemented in a variety of ways, such as using individual hinges, a piano hinge, a thin sheet of material or coating such as leather, vinyl or flexible plastic adhered to adjacent panel surfaces to form a hinge between the panels, or a mechanism as shown in
Storage Compartment Bottom and Liners:
In an alternate embodiment, a tray or insert made from a material such as plastic, cloth or netting could be provided to line the storage volume to provide a number of benefits such as providing protection from liquids or oils collecting in the bottom and fouling the material from which the table is made, preventing small pieces, dust and debris from falling through gaps between panels, or simply making it more convenient to remove the contents of the storage volume for transport elsewhere. In an alternate embodiment, a cloth liner with a drawstring could allow a collection of Lego building blocks to be gathered up by simply pulling the drawstring tight and lifting them out to take on a trip.
In an alternate embodiment, the bottom of the storage volume could be produced by one or more removable trays or inserts such that the trays or inserts could be easily removed for cleaning, transport or storing elsewhere. This embodiment might help to reduce costs by utilizing a more cheaply produced tray or insert, or utilizing an off-the-shelf part that is readily available.
In an alternate embodiment, the bottom of the storage volume could be produced from a mesh material that would allow liquids, dirt, dust and small debris to fall through while still containing the items being stored. This alternate embodiment would help to keep dirt and debris out of small Lego building blocks by allowing it to fall through to the surface below.
In an alternate embodiment, the bottom of the storage volume may contain cutouts or apertures to allow cables and wiring to pass through the panels to reach devices stored within the storage compartment. This would allow convenient charging of a tablet or mobile phone while stored within the storage compartment.
In an alternate embodiment, the storage volume may contain one or more dividers to partition the volume into two or more distinct compartments to allow its contents to be separated. Step 16 of the assembly instructions illustrate three panels being slotted together to produce free-standing dividers, and Step 17 of the assembly instructions illustrate these panels being lowered into the volume to divide it into four distinct storage volumes. It should be understood that a divider could be produced by any variety of methods, some examples including free-standing interlocking panels as shown in Step 16-17 of the assembly instructions, a free-standing pre-formed divider such as an injection molded plastic divider, a bent metal divider or a wood divider constructed with traditional wood joinery techniques, a rigid or flexible panel or pre-formed divider that relies on friction or flexure to hold it in place, a rigid or flexible panel or pre-formed divider that relies on adhesives or magnetism to hold it in place, or separate bins or trays placed into the storage compartment.
Cover Panel Recesses and Lego Base Plates:
In an alternate embodiment, one or more top panels may contain a recessed area to receive a game board such as but not limited to a chess board, checker board, backgammon board, Chinese checkers board, a Lego building block base plate or a Duplo building block base plate. The recessed area prevents the boards or base plates from sliding around during normal use and play.
In an alternate embodiment, one or more top panels may be pre-textured on one or both sides to receive items such as Lego building blocks or game pieces.
Tool-Free Embodiments:
An alternate embodiment of the device of the present application shown in
Alternate embodiments of the device of the present application may be made tool-free using a variety of commercially available fastening mechanisms, and are not limited to the tab-and-slot assembly method shown in
Planar Materials:
The alternate embodiments of the device of the present invention shown in
The planar design of components makes manufacture suitable to two-axis machining processes such as computer-numerical-control (CNC) routers or CNC laser cutting or CNC water jet cutting.
As shown in
Planar pieces allow for more compact storage by the user when disassembled because there is very little wasted space when the panels are stacked closely together. This allows a user to disassemble an article of furniture and store it in a narrow space such as under a bed or against a wall in a closet.
The use of planar material increases the choices of available and suitable construction materials. Plywood sheets, plastic sheets, phenolic sheets, cardboard and even metal sheets are some examples of suitable materials.
Use of planar material minimizes the number of different machining processes required for manufacture. All component pieces may be manufactured using the same machining and finishing processes.
The device of the present application may be fabricated entirely from planar material of a single thickness. Using a single thickness of material allows all of the panels to be cut from the same material, so parts may be ganged-up on the same raw material sheet for efficiency.
The device of the present application may be fabricated from planar material of differing thicknesses. Individual panels may utilize different thickness materials to achieve different strength characteristics or aesthetics.
The device of the present application may utilize the same material or different materials for each panel. Using the same material for each panel simplifies material procurement, simplifies manufacturing processes and allows taking advantage of economies of scale when purchasing raw material. Allowing different materials for individual panels allows the addition of features based on the chosen material. For example, in an alternate embodiment, one or more panels may be manufactured from glass or acrylic to allow see-through panels, such as the cover panels being manufactured from glass or acrylic to allow an individual to see into the storage compartment without removing the cover panels.
Symmetrical and Asymmetrical Designs:
Symmetrical component pieces may be reversible. This reversibility allows a user to reverse a panel should one become damaged. This reversibility also allows material to be finished differently on opposite sides, allowing the user to choose the appearance of the assembled item by reversing panels during assembly to produce the desired appearance. This reversibility also allows for asymmetrical designs that may be assembled in different configurations. During assembly, the user could position the component pieces in the orientation necessary to produce a specific design. This allows for maximum versatility by adapting to changing usage environments. It allows a user to disassemble a module and reassemble it in a different configuration to meet changing needs.
Both symmetrical and asymmetrical designs are possible.
This application is a continuation of U.S. application Ser. No. 14/448,773, filed 31 Jul. 2014, titled “Furniture Article with Concealed Storage and A Removable Top,” which issued on 23 Aug. 2016 under U.S. Pat. No. 9,420,879, all of which are hereby incorporated by reference for all purposes as if fully set forth herein.
Number | Name | Date | Kind |
---|---|---|---|
5244271 | Hackwood | Sep 1993 | A |
5327838 | Beltman | Jul 1994 | A |
6003963 | Grender | Dec 1999 | A |
6361133 | Carr | Mar 2002 | B1 |
6766747 | Wolfe | Jul 2004 | B1 |
7510479 | Stengel | Mar 2009 | B2 |
8621739 | Elliot | Jan 2014 | B1 |
20030205180 | Bishop | Nov 2003 | A1 |
20090066140 | Berent et al. | Mar 2009 | A1 |
20100093257 | Elliott | Apr 2010 | A1 |
20130264847 | Pugh | Oct 2013 | A1 |
20140373357 | Elliott | Dec 2014 | A1 |
20160174700 | Brandenberg | Jun 2016 | A1 |
Entry |
---|
Webpage “Coaster Hone Furnishings 800118 Contemporary Computer Desk” http://www.amazon.com/Coaster-Home-Furnishings-800118-Contemporary/dp/BOOFPGXGM8. |
Webpage “Wooden Lego Table” http://www.ebay.com/itm/A-Table-for-Legos-with-Fold-Out-Legs-Lap-or-Flat-Table-Pine-Wood-2-Bases-92-/191617706025. |
Webpage Marijn Dionys “Niks Ann De Hand!” http://naai-s.blogspot.be/2014/07/niks-aan-de-hand.html. |
Webpage “chamber desk” http://www.cb2.com/chamber-desk/s672395 Jun. 3, 2014. |
Webpage “EP30 The Flip Desk” http://homemade-modern.corn/ep30-the-flip-desk/ Mar. 17, 2014. |
Webpage “Hollow Core Connect IT” http://www.amazon.com/Monarch-Specialties-Hollow-Connect-It-48-Inch/dp/B008V6SZH0. |
Webpage SIMON “Slope Desk by Jenk Design Office” http://www.betterlivingthroughdesign.com/furnishings/slope-desk-by-jenk-design-office/ May 31, 2011. |
Webpage KATIE “Flip Table by No Problem” http://www.betterlivingthroughdesign.com/furnishings/flip-table-by-no-problem/ Oct. 1, 2010. |
Number | Date | Country | |
---|---|---|---|
Parent | 14448773 | Jul 2014 | US |
Child | 15242695 | US |