This invention relates to a fence post cap, an assembly including a fence post cap, and a method of making a fence post cap.
To increase the attractiveness and durability of a fence post, such as a wooden, vinyl, or fiberglass post, it is known to cap the post. A post cap is typically fitted over the top of the post and secured in place by screws, nails, or an adhesive. It is often required that the fence post have a completely level top surface so that the post cap itself will be level. This may require cutting the top of the fence post level in the field, but such a procedure is labour intensive.
This invention seeks to provide an improved fence post cap.
A fence post cap is fabricated with inwardly directed protrusions so that, during installation on a fence post, the cap is press fit to the post.
In one embodiment, a fence post cap is fabricated of a thin-walled material. The structure has a cap portion above a plurality of depending walls. A first wall of the walls has an inwardly and upwardly extending thin-walled first protrusion with a first upper edge providing a mouth between said first wall and said first upper edge. A second wall of the walls, opposed to said first wall, has an inwardly and upwardly extending thin-walled second protrusion with a second upper edge providing a mouth between said second wall and the second upper edge.
In another embodiment a unitary fence post cap is fabricated of sheet metal with a sheet metal cap portion above a plurality of depending sheet metal walls. A first wall has an inwardly extending bent sheet metal portion. Likewise, a second wall, opposite the first wall, has an inwardly extending bent sheet metal portion. The inwardly extending bent sheet metal portions are positioned so that they are opposite one another such that a shortest distance between the first wall adjacent the first wall inwardly extending bent sheet metal portion and the second wall adjacent the second wall inwardly extending bent sheet metal portion is greater than a shortest distance between the first wall inwardly extending bent sheet metal portion and the second wall inwardly extending bent sheet metal portion.
In a further embodiment, a fence post cap is fabricated of a thin-walled material with a cap portion above a plurality of depending walls. A first wall has an inwardly extending thin-walled first dimple. A second wall, opposed to said first wall, has an inwardly extending thin-walled second dimple. The first dimple has a first dimple wall inclining inwardly and upwardly to a first upper edge. The first upper edge is separated from an adjacent portion, of the first wall and the first dimple wall has a notch extending frond first upper edge. The second dimple has a second dimple wall inclining inwardly and upwardly to a second upper edge, the second upper edge being separated from an adjacent portion of the second wall. The second dimple wall has a notch extending from the second upper edge.
In another embodiment, a method of making a fence post cap involves die punching a single piece of sheet metal so as to form a first unitary structure having a sheet metal cap portion and a plurality of depending sheet metal walls. The method continues with die punching the first unitary structure so that a first wall of the walls has an inwardly extending bent sheet metal portion and an opposite second wall has an inwardly extending bent sheet metal portion, where the first wall inwardly extending bent sheet metal portion is opposed to the second wall inwardly extending bent sheet metal portion and a shortest distance between the first wall adjacent the first wall inwardly extending bent sheet metal portion and the second wall adjacent the second wall inwardly extending bent sheet metal portion is greater than a shortest distance between the first wall inwardly extending bent sheet metal portion and the second wall inwardly extending bent sheet metal portion.
Other features and advances will become apparent from the following description in conjunction with the drawings.
In the figures which illustrate example embodiments of the invention,
Turning to
Dimples 28a, 28b are mirror images of dimples 24a, 24b. With reference to
Cap 10 may be generally square such that the distance between sides 12 and 16 is equal to the distance, D1, between sides 14 and 18. With reference to
Turning to
While cap 10 has been shown with four dimples in two opposed side walls, in other embodiments, the cap could have one dimple in each of two opposed side walls, although this is not preferred since the cap may have a tendency to pivot about the two dimples. In a further embodiment, the cap may have one dimple in each of its four side walls. Further, the dimples could be on two opposed corner walls, or on all four corner walls 13, 15, 17, and 19 rather than on the side walls. Other arrangements could also be contemplated.
Fabrication of the fence post cap from a unitary piece of sheet metal has the advantage that the cap, and particularly each dimple of the cap, has some degree of resilience, which facilitates the press fitting of the cap to a post. A sheet metal cap also allows the cap to be formed by die stamping. Nevertheless, some thin-walled plastics also provide a degree of resilience and so it may be possible to form a suitable cap with thin-walled dimples from plastic. Though not as advantageous, in some applications where the post to which the cap will be fitted provides some degree of resilience (such as a wooden post), a thin-walled material which has little resilient, such as a thin-walled glass cap, may be used.
In a further embodiment, with reference to
Similarly to cap 10 of
Optionally, the laterally elongated dimples in the side walls could extend to the corner wall of the cap. As a further option, the dimples could be replaced with an inwardly projecting bent metal protrusion that extends continuously along the side walls and corner walls of the cap. To avoid the laterally elongated dimples, or the continuous protrusion, being visible from the outside of the cap, the cap may be double-walled.
Turning to
Cap 210 works similarly to cap 10, however, in view of the inwardly and upwardly projecting wall 259, an upward dislodging force on the cap will tend to cause the upper edge 260 of each dimple to bite into the fence post thereby enhancing the secure connection of the cap to the fence post.
In a further embodiment, each inwardly extending protrusion is formed by an upturned bottom lip of each of two opposed side walls of the cap. Each upturned bottom lip projects inwardly and upwardly toward the peaked cap portion of the cap terminating at an upper free end. This embodiment is illustrated in
In another embodiment, each inwardly protrusion may have the shape of an inwardly and upwardly projecting tongue. This embodiment is illustrated in
Like previously described embodiments of the cap, each of caps 310 and 410 may be press fit to a fence post. However, caps 310 and 410 have an advantage over cap 10 in that an upward dislodging force on the cap will tend to cause the free end 329 or 429 of the protrusion to bite into the fence post thereby enhancing the secure connection of the cap to the fence post. Indeed, the bite provided by the protrusion 328 or 428 can be more secure than the bite provided by the dimple of the cap 210 of
Turning to
Cap 510 may be press fit to a fence post. As the cap is press fit, the dimple wall adjacent notch 552 may flex. One press fit in place, an upward dislodging force on the cap will tend to cause upper edge 550 of each dimple to bite into the fence post thereby enhancing the secure connection of the cap to the fence post. Indeed, the bite provided by the notched dimples can be more secure than the bite provided by the dimple of the cap 210 of
While a cap fabricated of a unitary piece of sheet metal allows for simple manufacture and, at least in some of the described embodiments, resilient protrusions, a cap otherwise fabricated may still provide some advantages. For example, a cap could be fabricated from sheet metal without protrusions and then protrusions tack welded to the inside of the cap walls. In this way, for example, the tongues of cap 410 of
Other embodiments will be apparent to those skilled in the art and, therefore, the invention defined in the claims.
This application is a continuation of U.S. patent application Ser. No. 12/971,984 filed Dec. 17, 2010, which application claims benefit and priority from U.S. provisional patent application No. 61/297,440, filed on Jan. 22, 2010, the contents of which are incorporated herein by reference.
Number | Name | Date | Kind |
---|---|---|---|
2720289 | Henrickson | Oct 1955 | A |
4789138 | Acton | Dec 1988 | A |
5421556 | Dodge | Jun 1995 | A |
6662515 | Buhrts | Dec 2003 | B2 |
7028991 | Egan | Apr 2006 | B2 |
D654384 | McDonald | Feb 2012 | S |
20030122115 | Ernst | Jul 2003 | A1 |
20030160226 | Steffes | Aug 2003 | A1 |
Number | Date | Country | |
---|---|---|---|
20170314292 A1 | Nov 2017 | US |
Number | Date | Country | |
---|---|---|---|
61297440 | Jan 2010 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 12971984 | Dec 2010 | US |
Child | 15486774 | US |