The present disclosure is related to metal fencing products, and particularly to bracket systems that attach fence rails to fence posts and other structures.
Conventional metal picket-type fences include horizontal rails that extend between vertically oriented posts that are fixed in the ground. Attached to the horizontally extending rails are vertically oriented pickets periodically spaced along the rails inbetween each post. Successive sections of these posts, rails, and pickets form a fence line.
The present disclosure is directed to bracket systems that attach the horizontal rails to the vertical fence posts. Prior art fence posts, such as aluminum or steel posts, include routed holes. These holes are each adapted to receive a horizontal rail. Typically the rail has a notch extending from each sidewall. This makes that portion of the rail slightly larger than the routed opening of the post. The rail can be pushed into the opening of the post. Enough give in the rail (and notch) allows this to happen. Once the end of the rail is secured into the post, however, the notch expands enough to prevent the rail from backing out of the post. Alternatively, some rails include holes that receive fasteners that engage both the rail and the post attaching the two together.
An issue with all of this is different rails, brackets, and post designs limit modularity. The bracket systems described herein can be used on either routed posts (i.e.,with rail holes) or blank posts (i.e., no rail holes). This means the fence can be made regardless of which type of posts are presently in stock.
The bracket systems of the present disclosure are configured to handle any of the three fence configurations-in-line, corner, or in-wall/end. The in-line configuration means the bracket is configured to carry a rail on each side of the post coaxially aligned with each other. In other words, a line bracket holds tandemly aligned rails to the posts. This forms a fence line. The corner bracket is configured to hold two rails, each of which are positioned at an angle with respect to each other. As the title implies, these brackets attach to corner posts and hold a first rail positioned in one orientation and a second rail in another orientation (e.g., 90°) with respect to that first rail. The end bracket is configured to attach the rail to some other structure, such as a wall or ending post. One portion of the bracket attaches to the wall, while another portion attaches to the rail.
An embodiment of the line bracket includes linearly opposed recesses and fastener holes to linearly hold aligned rails. Another fastener hole in the bracket attaches the bracket to the post. In an illustrative embodiment, two brackets, one located on each side of a post, are each employed to hold one side of each rail. It is further appreciated that a portion of each line bracket that secures to the fence post is illustratively “U”-shaped to partially wrap around that portion of the fence post. This positions the periphery of each line bracket to properly engage the rails. The notch from each rail engages the corresponding recess from the line bracket. A fastener may also extend through both the line bracket and the rail via the fastener's bores in the rail securing the rail to the bracket.
An illustrative embodiment of the corner bracket assembly includes “C”-shaped brackets that also partially wrap around the fence post. A first bracket, or bracket portion, includes a pair of flanges that extend from the opening of the corner bracket or bracket portion. Each flange includes a recess and fastener hole, similar to the line bracket. It is, thus, contemplated that one bracket or bracket portion can attach to both sides of the rail. The corner bracket assembly also includes a second bracket or bracket portion that includes extending flanges that attach to a second rail, in similar fashion to the aforementioned first bracket or bracket portion. In this illustrative embodiment, however, these flanges are illustratively oriented perpendicular or some other angle with respect to the flanges of the first bracket or bracket portion. The first and second brackets or bracket portions are illustratively engageable with each other and their flanges are configured to hold their respective rails at the same height or elevation.
Another illustrative embodiment of the present disclosure includes a fence bracket that attaches to a fence post and rail wherein the rail includes a raised notch on its surface. The fence bracket comprises at least one panel and a flange portion. At least one panel is configured to wrap around at least a portion of the fence post. The flange portion is configured to extend from the fence post when the panel is attached thereto. The flange further includes a recess disposed thereon and configured to receive the raised notch. Still further, the flange includes a bore configured to receive a fastener that is attachable to the rail.
In the above and other embodiments, the fence bracket may further comprise: a second flange wherein the at least one panel being configured to wrap around the post such that the flange and second flange face each other forming a space there between and configured to receive the rail in that space, and wherein the second flange includes a recess and a bore; the panel being U-shaped with the flange and the second flange located at the distal ends of the U-shape; the panel being C-shaped with the flange and the second flange located at the distal ends of the C-shape, and extending perpendicular to a space formed by the distal ends of the C-shape, and wherein the flange and second flange being spaced apart from and face each other; the panel including a second flange that extends from the panel at an end distal from the flange; the bracket further configured to include a second panel identical to the panel and configured to attach to the fence post opposite the panel and attach to the rail; the panel and second panel being configured to attach to the fence post opposite each other to form a space between opposed flange and second flange which are configured to hold the rail and a second rail linearly to each other; the panel being configured to attach to a wall; the C-shaped panel including a linearly-extending edge along the length of the panel, and wherein the flange and second flange are sized to extend above the linearly-extending edge of the panel; the flange and second flange having a height that is double the height of the panel; the C-shaped panel being configured to stack onto a second bracket with a second C-shaped panel such that the flange and second flange of the C-shaped panel being located about perpendicular to the flange and second flange of the second C-shaped panel; and the panel including at least one fastener bore disposed therethrough.
Additional features and advantages of the fencing bracket system will become apparent to those skilled in the art upon consideration of the following detailed descriptions exemplifying the best mode of carrying out the fencing bracket system as presently perceived.
The present disclosure will be described hereafter with reference to the attached drawings which are given as non-limiting examples:
a and b are facing and top views of a line bracket;
a-c are top, side, and perspective views of a corner bracket system;
a-c are top, side, and rear views of an end bracket system; and
a and b are side and top views of a post with a line bracket, corner bracket, and end bracket.
Corresponding reference characters indicate corresponding parts throughout the several views. The exemplification set out herein illustrates embodiments of the disclosure, and such exemplification is not to be construed as limiting the scope of the disclosure in any manner.
A perspective, partially exploded views of a fencing system 2 and 4 are shown in
Fence sections that have rails 8 inserted into openings 12 of post 6 are not usually mixed with sections that employ bracket system 16 to connect rails 8 to post 14. The reason for this is that besides esthetic continuity, the span between fence posts is different. For example, the distance between the center of two fence posts 6 using a standard eight foot rail inserted into post 6 is 94 inches. Conversely, the same eight foot rail produces a 96 inch on center span between posts 14 because none of the rails are inserted into posts 14.
Several views of brackets, fasteners and a post are shown in
A corner bracket 50 which is part of a corner bracket system 52 (see, also,
A “U”-shaped wall bracket 70 shown in
Facing and top views of line bracket 18 are shown in
Top, side, and perspective views of corner bracket systems 52 are shown in
Top, side, and rear views of end bracket 70 are shown in
a and b are side and top views of post 6 with line bracket system 16, corner bracket system 52, and end bracket 70 attached thereto depicting how they attach to a fence post. Line bracket 18 is shown attached to post 6 via fastener 22 disposed through both. Fence rails 8 are fastened to flanges 26 via fasteners 20 extending through slot 42 and into rails 8.
Corresponding reference characters indicate corresponding parts throughout the several views. The exemplification set out herein illustrates an embodiment of the invention, in one form, and such exemplification is not to be construed as limiting the scope of the invention in any manner.
The present application is related to and claims priority to U.S. Provisional Patent Application, Ser. No. 61/418,024, filed on Nov. 30, 2010, entitled “Fencing Bracket.” The subject matter disclosed in that provisional application is hereby expressly incorporated into the present application.
Number | Date | Country | |
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61418024 | Nov 2010 | US |