SYSTEM FOR DENSE PACKING OF READY-TO-ASSEMBLE ARTICLES OF FURNITURE

Information

  • Patent Application
  • 20240041218
  • Publication Number
    20240041218
  • Date Filed
    August 29, 2023
    a year ago
  • Date Published
    February 08, 2024
    9 months ago
Abstract
A system for constructing and shipping full-sized (or larger) RTA articles of furniture in a smaller volume, resulting in more efficient and dense packing of multiple articles on standard international cube shipping containers. Each full-sized or larger RTA article of furniture is constructed so that it in a partially assembled state it can be arranged and packed in a shipping box or container of 26.5 inches or less in height and 30.6 inches or less in width. Lengths may vary, but common lengths are 45 inches, 66 inches, and 90 inches. The system thus results in a substantial increase (approximately 33%) in the number of articles of furniture that can be shipped in a single standard international cube shipping container, thereby greatly reducing the shipping cost per article of furniture.
Description
FIELD OF INVENTION

This invention relates to a mechanism and system for dense packing of a full-size ready-to-assemble article of furniture into a box of specific dimensions so that multiple boxes can be closely packed in a standard shipping container with maximum space utilization.


BACKGROUND OF THE INVENTION

Ready-to-assemble (RTA) furniture is very popular because it can be easier to assemble and relatively inexpensive as compared to fully assembled furniture. RTA furniture can be packaged in a partially assembled state for rapid assembling to a fully assembled state with minimal effort and tools.


However, while the article of RTA furniture in the partially assembled state occupies less packaging volume for shipping than in the fully assembled state, or a comparable non-RTA article of furniture, the construction of prior art RTA furniture limits the possible reduction in volume. This creates a problem with inefficient use of space and the number of articles of full-sized furniture that can be shipped in a standard international cube intermodal shipping container, which has the exterior dimensions of 40 feet in length, 8 feet in width, and 9 feet in height, with inside dimensions of 474 inches (length), 92 inches (width) and 106 inches (height). Further reductions in shipping volume require unacceptable reductions in furniture size (i.e., the furniture must be reduced to less than full size in assembled form to fit in a smaller carton for shipping).


Accordingly, what is needed is a system for constructing and shipping full-sized (or larger) RTA articles of furniture without reduction in assembled form size in a smaller volume than possible in the prior art with efficient and dense packing on standard international cube shipping containers.


SUMMARY OF THE INVENTION

In various embodiments, the present invention comprises a system for constructing and shipping full-sized (or larger) RTA articles of furniture in a smaller volume, resulting in more efficient and dense packing of multiple articles on standard international cube shipping containers. As described below, each full-sized or larger RTA article of furniture is constructed so that it in a partially assembled (or dis-assembled) state it can be arranged and packed in a shipping box or container of 26.5 inches or less in height and 30.6 inches or less in width. Lengths may vary, but common lengths are 45 inches, 66 inches, and 90 inches. The shipping boxes or containers further are designed to be efficiently and densely packed in the standard intermodal shipping container regardless of orientation or configuration. The present invention thus results in a substantial increase (approximately 33%) in the number of articles of furniture that can be shipped in a single standard international cube shipping container, thereby greatly reducing the shipping cost per article of furniture.





BRIEF DESCRIPTION OF THE DRAWINGS


FIG. 1 shows a comparison of a fully assembled full-sized RTA article of furniture in accordance with the present invention compared to a prior art RTA article of furniture.



FIGS. 2-7 show the packing process for a full-sized RTA recliner.



FIGS. 8-12 show the packing process for a full-sized RTA 2-over-2 sofa.



FIGS. 13-15 show the packing process for a full-sized RTA 3-over-3 sofa.



FIG. 16 shows the packing process for a full-sized love seat.



FIGS. 17-23 show the packing process for modular articles.



FIG. 24 shows operation of an access door on a shipping box.



FIGS. 25-28 show examples of various shipping boxes or containers, and how they can be densely packed on a single standard international cube intermodal shipping container.





DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS

In various embodiments, the present invention comprises a system for constructing and shipping full-sized (or larger) RTA articles of furniture in a smaller volume, resulting in more efficient and dense packing of multiple articles on standard international cube shipping containers. As described below, each full-sized or larger RTA article of furniture is constructed so that it in a partially assembled state it can be arranged and packed in a shipping box or container of 26.5 inches or less in height and 30.6 inches or less in width. Lengths may vary, but common lengths are 45 inches, 66 inches, and 90 inches. The shipping boxes or containers further are designed to be efficiently and densely packed in the standard intermodal shipping container regardless of orientation or configuration. The present invention thus results in a substantial increase (approximately 33%) in the number of articles of furniture that can be shipped in a single standard international intermodal cube shipping container, thereby greatly reducing the shipping cost per article of furniture.


An intermodal container is a large, standardized shipping container, designed for intermodal freight transport, where goods are stored and transported across different modes of transport (e.g., ship, rail, truck) without unloading or reloading of the cargo. The great majority of global intermodal containers are referred to as “dry freight” or “general purpose” steel or metal containers, that come in either nominal 20 or 40 feet standard lengths, with internal width of 92 inches and internal height of 106 inches.



FIG. 1 shows a comparison of a fully assembled full-sized RTA article of furniture 2 in accordance with the present invention compared to a prior art RTA article of furniture 4. The RTA article of furniture 2 is larger than the prior art article of furniture 4, yet, as described below, can be arranged in a partially assembled state in a smaller volume than the prior art article of furniture. The system and process of disassembling and packing for various articles of furniture is discussed below.


Recliner



FIG. 1 shows an example of a fully assembled full-sized RTA recliner 1 in accordance with the present invention. FIG. 2 shows the recliner in a partially disassembled state, with the major components comprising a back assembly 110, a seat assembly 120, and a base assembly 130. The back assembly, seat assembly and base assembly are connected by various snap-fit fasteners and connectors, as described in U.S. Provisional Application Nos. 61/758,231 and 62/380,933, and U.S. application Ser. Nos. 14/167,249 and 15/049,767, all of which are incorporated herein by specific reference for all purposes. These fasteners and connectors also are used with the sofa, love-seat and other articles of furniture, as described below.



FIGS. 3-7 show the packing process for packing the recliner in a shipping box or container of 26.5 inches or less in height and 30.6 inches or less in width. First, the back assembly 110 is placed in the bottom of the box with the cushion side up. Then, the seat assembly 120 is inverted and placed in the box with the cushion side down. The seat assembly 120 is arranged so that the arm cushions 122 are placed in alignment with the wing cushions 112 of the back assembly This allows for maximum compression of the cushions while protecting the cushions from damage. It also exposes the bottom of the seat assembly and the scissor elements 126 (which are affixed to the seat assembly) and upper cam piece connectors 124. One or more foam inserts 140 are then placed into position on the bottom of the seat assembly, and the base assembly 130, which includes lower cam piece connectors 134 for a snap-fit RTA connection with the upper cam piece connectors, is rotated 90 degrees and placed securely into corresponding slots or holes in the foam inserts. The box can then be sealed and labeled for shipping.


While this order of packing can be reversed/inverted, so that the back assembly is at the top of the box, this arrangement (i.e., back assembly in the bottom) allows the shipping box to be opened and various base assembles to be removed and added (as described in U.S. Patent Application No. 62/380,933, which is incorporated herein in its entirety by specific reference for all purposes) without removing the seat assembly and back assembly from the shipping box.


Sofa



FIG. 8 show a fully assembled “2-over-2” full-sized RTA sofa 200 in accordance with the present invention. FIG. 9 show the sofa in a partially disassembled state, with the major components comprising a back assembly 210, a seat assembly 220, and one or more arm pillows 240. The back assembly and seat assembly and base assembly are connected by various snap-fit fasteners and connectors, as described above. As seen in FIG. 10, the arm pillows 240 may be removably attached to the side arms 222 of the seat assembly by zippers or hook-and-loop fasteners, or the like.



FIGS. 11-12 show the packing process for packing the sofa in a shipping box or container 10 of 26.5 inches or less in height and 30.6 inches or less in width. The arm pillows 240 are removed and inserted into the hollow side arms 222 through openings in the bottom of the side arms, as seen in FIG. 11. The back assembly 210, which may be integrated as a single piece or modular (i.e., divided into parts, i.e., the right and left sides as shown in the figures), is placed into the bottom of the box with the cushion side up. The seat assembly 220, which also may be integrated as a single piece or modular, is inverted and placed over the back assembly, cushion side down. This allows for maximum compression of the cushions while protecting the cushions from damage. The packing order can be inverted. The box can then be sealed and labeled for shipping.


The above RTA construction and packing methodology also can be applied to a “3-over-3” full-sized RTA sofa. FIGS. 13 and 14 show the sofa is a assembled and partially disassembled state, and FIGS. 14-15 show the packing process for packing the sofa in a shipping box or container 10 of 26.5 inches or less in height and 30.6 inches or less in width, with the back assembly followed by the seat assembly, as described above. In several embodiments, a back wing may be removable and stored as described below. Similarly, the above RTA construction and packing methodology also can be applied to a love seat, as seen in FIG. 16.


Modular Pieces


In several embodiments, the article of furniture may be wholly or partially modular. Modular pieces can be individually and separately disassembled and packaged, as shown in FIGS. 17-18 (for a modular armless center piece), FIGS. 19-20 (for a modular end piece), FIGS. 21-22 (for a modular end piece with a removable back wing, which is placed in the back space created by removal of the back assembly for the shipping configuration) or FIG. 23 (for a modular console).


Access Door


As seen in FIG. 24, in several embodiments, the shipping box or container has a closable and sealable access door 190 in the side, positioned where the control element connection port 192 for a recliner or other furniture article is located, thereby allowing access to the control element connection port while the furniture article is still in the box. This allows changes to be made, such as adding a power control element added (such as described in U.S. Patent Application No. 62/382,803, which is incorporated herein in its entirety by specific reference for all purposes) without removing the article of furniture from the box.


Container Loading


Examples of various shipping box or container dimensions, and how they can be densely packed on a single standard international cube shipping container, are shown in FIGS. 25-28.


As seen in FIGS. 26-27, furniture shipping boxes or cartons 26.25 inches in height and 30.5 inches in width and 45 inches in length can be packed in several orientations without reduction in efficiency in space usage. For example, a vertical stack of 8 total such cartons or boxes can be formed with two cartons placed end-to-end in each row (total of four rows). The same cartons can be rotated to form a vertical stack of 12 such cartons or boxes with three cartons placed side-by-side in each row (total of four rows). One or more rows can be replaced by a “long” carton 90 inches in length (such as for a sofa), but the same height and width. The vertical stacks can be repeated to fill the length of the intermodal shipping container.


Another compatible shipping box or carton size is 23 inches in length (same 26.25 inches in height and 30.5 inches in width; while the “length” of this carton is the shortest dimension, the reference terminology is the same to emphasize that the “height” and “width” dimensions match those of the other cartons). A “half-size” version of this shipping box or carton is 23 inches in length, 30.5 inches in width, but 13 inches in height. FIG. 28 shows a vertical stack with three rows of the 23 inches long standard boxes (four boxes, end-to-end), with a top row of seven of the half-size boxes. The width/depth of the stack is 30.5 inches. This demonstrates that various sizes of the shipping containers can be packed together in different orientations without loss in packing efficiency.


The present invention thus provides for more furniture units to be packed, with greater efficiency, into a single 40 foot long intermodal shipping container. For example, a prior art furniture system can load 19 sofas, 19 loveseats, and 19 recliners (in partially assembled, packed form) on such an intermodal shipping container, while the present invention can load 28 sofas, 28 loveseats, and 28 recliners in the same container, with the assembled furniture being at least as large as the assembled furniture in the prior art furniture system. The packing efficiency, as seen in FIG. 25, is at least 95.5% (in terms of internal container volume filled/used).


The present system is suitable for all furniture, reclining or non-reclining, where connection is desired, such as, but not limited to, sofas, recliner-sofas, loveseats, recliner-loveseats, chairs, recliner-chairs, sectional pieces, ottomans, rockers, rocker-recliners, gliders, glider-recliners. swivels, swivel rocker, swivel-recliners, and sleeper-sofas, and the like, each with their respective seat boxes and bases.


While the invention has been described in its preferred form or embodiment with some degree of particularity, it is understood that this description has been given only by way of example and that numerous changes in the details of construction, fabrication, and use, including the combination and arrangement of parts, may be made without departing from the spirit and scope of the invention. Thus, it should be understood that the embodiments and examples described herein have been chosen and described in order to best illustrate the principles of the invention and its practical applications to thereby enable one of ordinary skill in the art to best utilize the invention in various embodiments and with various modifications as are suited for particular uses contemplated. Even though specific embodiments of this invention have been described, they are not to be taken as exhaustive. There are several variations that will be apparent to those skilled in the art.

Claims
  • 1. A Ready-To-Assemble furniture system, comprising: a plurality of ready-to-assemble furniture items, each with an assembled configuration and an shipping configuration, wherein in the assembled configuration the respective furniture item is full-size or larger, and in shipping configuration the respective furniture item has been partially disassembled into one or more components with said components arranged and packed into a single shipping carton approximately 26.5 inches or less in height and approximately 30.6 inches or less in width.
  • 2. The furniture system of claim 1, wherein the shipping carton has a length of approximately 45 inches.
  • 3. The furniture system of claim 1, wherein the shipping carton has a length of approximately 66 inches.
  • 4. The furniture system of claim 1, wherein the shipping carton has a length of approximately 90 inches.
  • 5. The furniture system of claim 1, wherein the shipping carton is 26.5 inches in height, 30.5 inches in width, and 45 inches in length.
  • 6. The furniture system of claim 1, wherein the shipping carton is 26.5 inches in height, 30.5 inches in width, and 23 inches in length.
  • 7. The furniture system of claim 1, wherein the furniture item comprises a base assembly, a back assembly, and a seat assembly, wherein the base assembly, back assembly, and seat assembly are connected by snap-fit connectors in said assembled configuration.
  • 8. The furniture system of claim 1, further comprising at least one foam insert with one or more slots or holes configured to securely receive one or more elements of said one or more components in said shipping configuration.
  • 9. The furniture system of claim 1, wherein said shipping carton further comprises a closable and sealable access door in a side of the shipping carton, configured to allow access to a control element connect port in a component of the article of furniture in the shipping configuration while in the shipping container.
  • 10. The furniture system of claim 1, wherein said articles of furniture comprise one or more of the following: sofas, recliner-sofas, loveseats, recliner-loveseats, chairs, recliner-chairs, sectional pieces, ottomans, rockers, rocker-recliners, gliders, glider-recliners, swivels, swivel rocker, swivel-recliners, and sleeper-sofas.
  • 11. The furniture system of claim 1, wherein said article of furniture is a recliner with a back assembly with a cushion side and right and left wing cushions, a seat assembly a right arm with a cushion and a left arm with a cushion, said seat assembly further comprising a cushion side and a base side, and a base assembly with a top side; further wherein the shipping configuration for said recliner when placed in the shipping carton comprises, from the bottom of the shipping carton: (1) the back assembly with cushion side up; (2) the seat assembly with cushion side down, with the right arm and left arm aligned with the right and left wing cushions; (3) at least one foam insert with one or more slots or holes; (4) the base assembly with top side down and rotated 90 degrees with respect to the seat assembly when in the assembled configuration.
  • 12. The furniture system of claim 1, wherein the arrangement of components in the shipping configuration is inverted.
  • 13. The furniture system of claim 1, wherein one of said articles of furniture comprise one or more arm components, wherein said arm components are hollow and configured to receive one or more pillows or cushions from the article of furniture when in the shipping configuration.
  • 14. A method of packing a plurality of ready-to-assemble furniture items as described in claim 1 in a standard-sized intermodal shipping container with internal width of 92 inches and internal height of 106 inches. comprising: packing each of a plurality of ready-to-assemble furniture items in a shipping configuration in a single shipping carton approximately 26.5 inches or less in height and approximately 30.6 inches or less in width; andstacking a plurality of said shipping cartons in a dense packing arrangement within said intermodal shipping container so that packing efficiency exceeds 95.5% internal space used.
Parent Case Info

This application is a continuation of U.S. patent application Ser. No. 16/104,900, filed Aug. 18, 2018, which claims benefit of and priority to U.S. Provisional Application No. 62/547,129, filed Aug. 18, 2017, both of which are incorporated herein in its entirety by specific reference for all purposes.

Provisional Applications (1)
Number Date Country
62547129 Aug 2017 US
Continuations (1)
Number Date Country
Parent 16104900 Aug 2018 US
Child 18239738 US