The present invention relates to a bed frame for supporting a mattress or mattress set and, more particularly, to a bed frame having an improved interconnection system between the side rails and cross members.
There are currently in use conventional bed frame assemblies that are used for supporting a mattress or mattress set and such bed frame assemblies are normally made up of two side rails and at least one cross member. The bed frame supports the load of a mattress set by means of multiple support legs.
Due to the difficulties of actually shipping a completed bed frame, conventional bed frames are delivered to the customer in an unassembled state, and then assembled at the site where the bed frame is intended to be located and used. One difficulty with such bed frames and the assembly thereof, however, is that tools may be required for the on site assembly of the bed frames and, therefore, if the tools are not available, the assembly cannot be done. Further, tool assemblies can be difficult and complicated.
There has been published, certain three dimensional systems that can be used to carry out the connecting of a cross member and a side rail and a number of such systems are shown and described in U.S. Patent Application of Polevoy et al, U.S. Published Application 2010/0242171 and entitled “Three Dimensional Connection System For Bed Frame” and the specification of that application is hereby incorporated in its entirety into the present patent application.
In the aforesaid patent application, the components i.e. a wedge and a receiver for the various connections are comprised of a plastic material and the connection is accomplished without the use of tools and therefore the bed frame can be set up readily and conveniently on site.
While the '171 patent publication discloses certain configurations of connecting components to carry out the assembly of a bed frame, there are addition materials and geometric configurations that can also be used to carry out such assembly.
Accordingly, it would be advantageous to provide alternative components for connections between cross members and side rails of a bed frame that are comprised of differing materials and geometric configurations that can be used to assemble a bed frame without the need for tools.
In accordance with the present invention, there is a system to carry out the connection of two structural components of a bed frame, and, as one exemplary embodiment, the connection between a cross member and a side rail of a bed frame. The present system is usable without the need for tools in the assembly of the bed frame at the site where the bed frame is to be used.
The inventive system creates a robust interconnection between a side rail and a cross member of a bed frame, or other bed frame components by employing a wedge on one of the components and a receiver on the other of the components such that the wedge fits into the receiver. The fit between a wedge and a receiver locks the frame together quickly and securely. The downward pressure of the bedding makes the connection solid and any looseness that might develop is taken away by the automatic and constant resetting of the wedge in the receiver.
The side rails and the cross members are secured together with a tool-less interlock that uses the weight of the supported load to combined the separate parts into one unit. The system forms the connection between the side rail and cross member and also a support leg. The wedge and receiver may be, respectively, on the side rail or cross member or the reverse. The assembly utilizes a three dimensional wedge at the ends of the cross member or side rail to both connect and stabilize the bed frame components.
As used herein, the term “wedge” is used to describe the male member and the term “receiver” used to describe the female member of a connection; however, the terms do not necessarily imply that there must be a taper to either the wedge or the receiver. As will be seen, in at least one exemplary embodiment, the wedge and receiver may both be cylindrical in configuration and therefore neither is tapered. It should also be noted that the term “receiver” used with this invention, in many instances, also serves as a leg for the bed frame.
As such, in a first embodiment of the present invention, a wedge is affixed to a cross rail that is either a formed metal wedge of a cast metal wedge In either case, the wedge is affixed to a cross member.
In a second embodiment, the wedge is comprised of a formed metal or cast metal wedge that is covered by a protective plastic shield. Again, the wedge can be affixed to a cross member.
In a third embodiment, there is a system where the wedge is cylindrical in geometry and which interfits into a cylindrical shaped opening in a receiver. The wedge is affixed to the cross member.
In the fourth embodiment, there is a connection system wherein the wedge is cylindrical but that cylindrical wedge is affixed to the side rail and the cylindrical receiver is, in turn, affixed to the cross member such that the side rail is affixed to the cross member by inserting the wedge on the side rail into the receiver on the cross member.
Lastly, there is an embodiment wherein the wedges comprise a plurality of wedge segments and the receiver has a plurality of openings that receive the wedge segments such that the wedge is basically locked into the receiver as it is inserted therein. In this exemplary embodiment, the receiver is made up of two halves that are affixed together to form the receiver having a plurality of openings.
These and other features and advantages of the present invention will become more readily apparent during the following detailed description taken in conjunction with the drawings herein.
Turning first to
As can be seen, the bed frame 10 comprises a pair of side rails 12 and a plurality of cross members 14. As shown, there are three cross members 14, however a lesser or greater number of cross members 14 can be used in constructing a bed frame. The side rails 12 are comprised of L-shaped angle irons 16 however in U.S. Pat. No. 7,363,664 there is disclosed the use of a T-shaped member that can be used as a structural member of a bed frame, that is, as either a cross member or a side rail. Each side rail 12 may include an end bracket 18 for affixing thereto, a headboard or a footboard (not shown),
The cross members 14 are L-shaped angle irons 20 that will be later described, however the cross members 14 may be T-shaped elongated members that may be constructed of two L-shaped members affixed together or may be unitary T-shaped metal members.
Affixed to each of the side rails 12 are receivers 22 having a female cavity 24 formed therein in a configuration to be later explained. Affixed to the ends of the cross members 14 are wedges 26 that are also constructed in a manner to be later explained.
While the embodiment of
Turning then to
As can therefore be seen, in
In
Turning then to
An outer surface 48 of the metal wedge 44 is enclosed within a first molded plastic cover 50 such that the outer surface 48 and side surfaces 52 are protected by the first molded plastic cover 48. In like manner, the other outer surface 54 is enclosed within a second molded plastic cover 56 and the second molded plastic cover 56 includes an inset 58 for accommodating the vertical flange 36 of the cross member 14 so that the vertical flange 36 is sandwiched between the inset 46 of the metal wedge 44 and the inset 58 of the second molded plastic cover 56.
Rivets 60 are provided to pass through the holes 62 in the first molded plastic cover 50, the holes 64 in the vertical flange 36 and the holes 66 in the second molded plastic cover 56 to secure the metal wedge 44 to the cross member 14. Lastly, another rivet 68 is used to further secure the first and second molded plastic covers 50 and 56 to the metal wedge 44.
As thus can be seen, since many of the components of the bed frame 10 (
In
Turning then to
The wedge, in this embodiment, is a tubular plug 74 that extends downwardly from the cross member 14 and, as can be seen, the tubular plug 74 has a flange 76 that may be affixed to the vertical flange 36 of the cross member 14 by means such as rivets 78. The upper surface of the flange 76 is depressed sufficiently from the upper surface 80 of the tubular plug 74 that the upper surface of the horizontal flange 82 is flush and level with the upper surface 80 of the tubular plug 74 to provide a finished appearance to the connection.
As is shown, the outer cross sectional configuration of the tubular plug 74 is circular, however, other geometric profiles could be used. The cylindrical tubular plug 74 is thus dimensioned to fit snugly into the cylindrical opening 84 of the tubular receiver 72.
Turning then to
Turning next to
Accordingly, taking
On the upper surface 104 of the receiver 102, there is a groove 106 formed to receive the lower surface 108 of the side rail 12. As also can be seen, the receiver 102 has a rearward flange 110 that can be affixed to the vertical flange 36 of the cross member 14 by rivets 112 to affix the receiver 102 to the cross member 14.
In
In
Turning then to
Each of the first and second halves 130, 132 has upper flanges and the first upper flange 134 for the first half 130 can be seen in
As can be seen, particularly in
The geometric configuration of the upper saddle 144 is shown as a shape having surfaces defining multiple functional sides, similar to a truncated trapezoid, however, the shape of the upper saddle 144 may also be other shapes such as a cylindrical shape or other multi-surfaced shape. The shape of the upper saddle 144 could also be formed by as series of ribs to take the place of the solid surfaces.
As also can be seen in
As a further feature of the present receiver 128, there is a slight inset 156 formed in the uppermost surface 160 and that inset 156 is dimensioned so that the upper horizontal flange 82 of the cross member 14 can sit flush with the uppermost surface 160 of the receiver 128.
Turning then to
The first and second openings 152, 154 are formed so as to be wider at the top and narrower at the bottom, forming openings that are tapered inwardly in the downward direction.
Turning next to
The first and second segments 164, 166 are tapered inwardly in the downward direction with each segment being widest near the base portion 168 and tapering inwardly toward their distal ends 172, 174. This taper of the first and second wedge segments 164, 166, corresponds to the shape of the upper saddle 144 and tapers from a space equal to the distance D1 across the gap between the side surfaces 148, 150, at the top to less than a greater distance D2 across the gap at the bottom of the first and second openings 152, 154. The first and second openings 152, 154 are designed to interact with, align to, and tightly fit to the tapered first and second wedge segments 164, 166 when the wedge 162 is inserted into the receiver 128.
In
Turning now to
Turning next to
The progression of that assembly of the side rail 12 and the cross member (not shown) can further be seen in
In
Finally, in
Turning then to
In
Lastly, in
While the present invention has been set forth in terms of a specific embodiment or embodiments, it will be understood that the present three dimensional connection system for a bed frame herein disclosed may be modified or altered by those skilled in the art to other configurations. Accordingly, the invention is to be broadly construed and limited only by the scope and spirit of the claims appended hereto.
The present patent application is a continuation of, and hereby claims priority to, application Ser. No. 14/716,072, filed May 19, 2015, entitled Three Dimensional Connection System For Bed Frame, which in turn, claims priority from U.S. Provisional Application Ser. No. 62/000,754, filed May 20, 2014. Applicants claim the benefits of 35 U.S.C. 120 as to said Non-Provisional Application, and the benefits of 35 U.S.C. 120 as to said Provisional Application and the entire disclosures of all application are incorporated herein by reference in their entireties.
Number | Name | Date | Kind |
---|---|---|---|
2203780 | Gatz | Jun 1940 | A |
3683429 | Mis | Aug 1972 | A |
20100242171 | Polevoy | Sep 2010 | A1 |
20160007759 | Polevoy | Jan 2016 | A1 |
20170273468 | Polevoy | Sep 2017 | A1 |
20180296000 | Polevoy | Oct 2018 | A1 |
20190000236 | Polevoy | Jan 2019 | A1 |
Number | Date | Country | |
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20190038037 A1 | Feb 2019 | US |
Number | Date | Country | |
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62000754 | May 2014 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 14716072 | May 2015 | US |
Child | 16102202 | US |