Precast concrete column for use in post-frame construction
A column for use in post-frame construction having a two piece construction in which a first or foundation column portion of the column is set into the earth with a proximal end thereof protruding from the earth. The proximal end of the foundation column includes a column bracket for joining the foundation column to a wooden column comprising the second portion of the two piece column of the present invention. The foundation column of the present invention comprises a precast concrete column. The foundation column of the present invention advantageously resists degradation of its mechanical properties due to environmental influences while providing the necessary strength to support a post-frame building, including, e.g., the environmental loads received by the building. The wood column comprising the second portion of the two piece column of the present invention advantageously provides ease of workability to complete construction of a post-frame building.
This application is a continuation of co-pending U.S. patent application Ser. No. 10/085,333, filed on Feb. 28, 2002 and published as U.S. Patent Publication No. U.S. 2003/0159381 A1 on Aug. 28, 2003, the disclosure of which is hereby explicitly incorporated by reference herein.
BACKGROUND OF THE INVENTION1. Field of the Invention
The present invention relates to post-frame buildings, and, more particularly, to a column for use in the construction of a post-frame building.
2. Description of the Related Art
Typical post-frame buildings include a series of wooden columns set into the earth and positioned in a geometric configuration generally corresponding to the desired perimeter of a post-frame building. A distal end of each column is set into the earth, while a proximal end is affixed to a truss. Note that for the purposes of this document, the reference point with respect to the use of the words “distal,” and “proximal” is taken as the highest point on the post-frame building in question. The body of each column is joined to an adjacent column via a number of generally horizontally placed planks. Such a horizontal placed plank positioned adjacent the earth is generally referred to as a skirt board, while a horizontal plank joining adjacent columns positioned a distance from the earth is generally referred to as a girt. After the skirt board and girts are affixed to the columns, a siding member is attached to the skirt board and girts to define an exterior of the post-frame building. Similarly, adjacent trusses are joined together by wooden planks referred to as purlins. Generally, purlins are positioned substantially transverse to the trusses. A roofing member is affixed to the trusses via the purlin to form an exterior roof of the post-frame building.
Typically, to construct a post-frame building, a series of holes are bored into the earth about the perimeter of the building. The depth of these holes can be, e.g., three to five feet, with adjacent holes being placed on, e.g. four to ten foot centers. After the holes are formed, a concrete pad is positioned in the distal most portion of the hole. Generally, the concrete pad comprises a precast concrete pad having a generally cylindrical shape. After each hole receives a concrete pad, a column is set into each hole and the holes are back-filled with, e.g., gravel to maintain the columns in a vertical orientation. Generally, either solid wood columns or laminated wood columns are utilized in post-frame construction. Laminated columns are typically formed of three or more 2×6's or 2×8's positioned side by side to form the column. Both the solid and laminated columns of the prior art which are set into the earth must be treated with a wood preservative to prevent degradation thereof due, e.g., to insect damage, and/or damage from the elements, e.g., moisture. Planting treated wood columns in the ground can, potentially, have an adverse impact on the environment.
What is needed in the art is a column structure which provides excellent resistance to degradation of its mechanical properties from the exposure to the elements which accompanies its placement in the ground, while providing ease of workability to complete construction of the building above ground and which is environmentally friendly.
SUMMARY OF THE INVENTIONThe present invention provides an improved column for use in the construction of a post-frame building. In accordance with the present invention, a two piece column is utilized in the construction of a post-frame building. The two piece column of the present invention generally comprises a foundation column for placement in the earth, with a proximal end thereof protruding from the earth. The proximal end of the foundation column includes a column bracket for joining the foundation column to a wooden column comprising the second portion of the two piece column of the present invention. The foundation column of the present invention comprises a precast concrete column body having a column bracket affixed to a proximal end thereof. The column bracket includes a plurality of apertures to facilitate affixation of the second portion of the two piece column structure thereto.
In one exemplary embodiment, the column bracket is a generally U-shaped structure having a base with a pair of transverse depending arms extending therefrom. The depending arms of the column bracket are spaced to allow placement of a wooden column there between. The depending arms of the column bracket include a plurality of apertures through which a connector such as, e.g., a carriage bolt can be placed. In use, apertures corresponding to those formed in the depending arms of the column bracket will be formed in the wooden column comprising the second portion of the two piece column of the present invention. The wooden column will then be placed intermediate the depending arms of the column bracket with a carriage bolt traversing the apertures in the column bracket and the wooden column. A nut will then be placed in the distal end of the carriage bolt and securely tightened to affix the wooden column to the column bracket.
In one exemplary embodiment, one or more reinforcing bar(s) is affixed to the base of the column bracket opposite the depending arms of the column bracket prior to casting the concrete foundation column. That is, the depending arms of the column bracket extend transversely from one face of the base of the column bracket, while the reinforcing bar(s) extends transversely from the opposite face of the base of the column bracket. Each reinforcing bar is welded to the base of the column bracket and provides the necessary tensile strength to the foundation column. The reinforcing bars described in the detailed description portion of this document comprise steel reinforcing bars, however, any suitable material for providing the requisite tensile strength to the concrete foundation columns disclosed herein may be utilized in accordance with the present invention. The reinforcing bars utilized in accordance with the present invention can be placed in differing configurations as will be further discussed in the detailed description portion of this document. Generally, a plurality of reinforcing bars will be utilized in accordance with the present invention, with the reinforcing bars substantially evenly spaced about a longitudinal axis of the foundation column.
An anchor pin sleeve is secured to and positioned adjacent a distal end of the foundation column. The anchor pin sleeve of the present invention comprises a tubular member having opposite ends allowing access to a hollow interior thereof. In one exemplary embodiment, the anchor pin sleeve is positioned whereby a longitudinal axis thereof intersects a longitudinal axis of the foundation column, with the longitudinal axis of the anchor pin sleeve being substantially transverse to the longitudinal axis of the foundation column. For the purposes of this document, substantially transverse is utilized to describe an arrangement in which a pair of components are perpendicular one to another, or no more than 20° out of perpendicular, i.e., forming the angle of 70° to 110°.
The hollow interior of the anchor pin sleeve is sized to accommodate a anchor pin positioned therein. A anchor pin in accordance with the present invention is a generally cylindrical member having a length greater than the length of the anchor pin sleeve. In one exemplary embodiment, the anchor pin comprises a length of ½″ steel reinforcing bar. While the anchor pin sleeve and anchor pin have been described as a hollow cylinder and a cylindrical member, respectively, these structures can have various cross-sectional geometries, including, e.g., elliptical geometries, oval geometries, or various polygonal geometries. Importantly, the exterior cross-sectional geometry of the anchor pin and the interior cross-sectional geometry of the anchor pin sleeve will be shaped whereby the anchor pin is able to traverse the interior of anchor pin sleeve.
When constructing a post-frame building utilizing the foundation column of the present invention, a anchor pin is positioned in the anchor pin sleeve of the foundation column, with one or both ends of the anchor pin protruding from the anchor pin sleeve. The foundation column is then positioned within a hole in the earth and placed atop a concrete pad positioned in the distal portion of the hole. A flowable concrete mixture is placed in the hole to a depth whereby the protruding portion of the anchor pin is covered, thus forming a concrete collar about the distal end of the foundation column. The anchor pin and concrete collar of the present invention cooperate to resist vertical displacement of a foundation column of the present invention.
The present invention advantageously provides a column for use in the construction of a post-frame building having a distal portion for setting into the earth which distal portion is formed of a material which is resistant to degradation of its mechanical properties from exposure to the elements and which is sufficiently strong to support a post-frame construction including the dead load of the building as well as environmental loads, e.g., wind and snow load experienced by the post-frame building. The column of the present invention further advantageously provides an above ground portion thereof formed of wood to facilitate shaping this portion of the column during construction of a post-frame building and, further, to facilitate affixation of additional components of the building including, e.g., trusses, girts, and skirt boards with the use of well known wooden fasteners such as nails and screws.
A column in accordance with the present invention advantageously provides the requisite resistance to the elements, as well as the strength, and workability needed in the construction of post-frame buildings, without requiring the use of treated lumber to form the column.
BRIEF DESCRIPTION OF THE DRAWINGSThe above-mentioned and other features and advantages of this invention, and the manner of attaining them, will become more apparent and the invention itself will be better understood by reference to the following description of an embodiment of the invention taken in conjunction with the accompanying drawings, wherein:
Corresponding reference characters indicate corresponding parts throughout the several views. Although the drawings represent embodiments of the present invention, the drawings are not necessarily to scale and certain features may be exaggerated in order to better illustrate and explain the present invention. The exemplifications set out herein illustrate embodiments of the invention, in one form, and such exemplifications are not to be construed as limiting the scope of the invention in any manner.
DETAILED DESCRIPTION OF THE INVENTION A column constructed in accordance with the present invention is illustrated, e.g., in
Alternative embodiments of foundation column 26 are illustrated in
As illustrated in
In the embodiment illustrated in
Referring to
In various exemplary embodiments of the present invention, reinforcing bar is positioned within a foundation column in a configuration in which the reinforcing bar will add tensile strength to every face of the foundation column. In practice, adding tensile strength to the face of a foundation column adjacent the building siding is of the greatest importance, as wind load on the side of a post-frame building can place a significant force on the foundation column, tending to flex a proximal end of the foundation column toward the interior of the building in question. Because reinforcing bar is positioned to add tensile strength to every face of the foundation column, an installer need not be concerned with the proper rotational configuration of a foundation post of the present invention to ensure that reinforcing bar is positioned adjacent the face of the foundation column adjacent the building siding. Generally, a sufficient amount of reinforcing bar to withstand at least an 80 mph wind force is utilized in a foundation column of the present invention.
In construction, reinforcing bars 42 or 42a will be positioned within a mold along with anchor pin sleeve 46. A concrete mixture is then poured into the mold and sets to form a complete foundation column 26 or 26a (
To construct post-frame building 10 illustrated in
While this invention has been described as having a preferred design, the present invention can be further modified within the spirit and scope of this disclosure. This application is therefore intended to cover any variations, uses, or adaptations of the invention using its general principles. Further, this application is intended to cover such departures from the present disclosure as come within know or customary practice in the art to which this invention pertains and which fall within the limits of the appended claims.
Claims
1. A column for providing a vertical support to a building, the column comprising:
- a concrete foundation column for planting in an area of earth, a proximal end of said foundation column protruding from said earth when said concrete foundation column is planted therein; and
- a wood column, said wood column secured to said proximal end of said concrete foundation column, said wood column substantially vertically oriented.
2. The column of claim 1, wherein said foundation column includes a substantially transverse anchor pin sleeve secured to and positioned adjacent to a distal end of said foundation column, said anchor pin sleeve comprising a tubular member having opposite ends allowing access to a hollow interior thereof.
3. The column of claim 2, further comprising:
- a anchor pin positioned in said hollow interior of said anchor pin sleeve, said anchor pin having opposing ends, at least one of said opposing ends comprising a protruding end protruding from said anchor pin sleeve.
4. The column of claim 1, wherein said foundation column comprises a precast concrete column.
5. The column of claim 1, wherein said foundation column includes at least one reinforcing bar therein.
6. The column of claim 1, wherein said foundation column includes at least one U-shaped reinforcing bar therein.
7. The column of claim 1, wherein said foundation column includes four reinforcing bars, said reinforcing bars substantially evenly spaced about a longitudinal axis of said foundation column.
8. A post-frame building, comprising:
- a plurality of concrete foundation columns, each said foundation column planted in an area of earth, a proximal end of each said concrete foundation column protruding from said earth;
- a plurality of wood columns, said wood columns secured to said proximal ends of said concrete foundation columns; and
- a roofing member attached to said columns, said roofing member defining an exterior roof of the building, said roofing member substantially entirely covering a foot print of the building.
9. The post-frame building of claim 8, further comprising a siding member attached to said columns, said siding member defining an outer wall of the building.
10. The post-frame building of claim 8, further comprising:
- a plurality of trusses, each said truss secured to at least one of said columns, said roofing member attached to said columns via said trusses.
11. The post-frame building of claim 9, further comprising:
- a plurality of girts, each said girt secured to at least one of said columns, said siding member attached to said columns via said girts.
12. The post-frame building of claim 8, further comprising:
- a concrete pad, wherein a distal end of said foundation column is planted in said area of earth and positioned atop and adjacent to said concrete pad.
13. The post-frame building of claim 12, wherein said foundation column includes a substantially transverse anchor pin sleeve secured to and positioned adjacent to said distal end of said foundation column, said anchor pin sleeve comprising a tubular member having opposite ends allowing access to a hollow interior thereof, said post-frame building further comprising:
- an anchor pin positioned in said hollow interior of said anchor pin sleeve, said anchor pin having opposing ends, at least one of said opposing ends comprising a protruding end protruding from said anchor pin sleeve.
14. The post-frame building of claim 13, further comprising:
- a concrete collar surrounding a portion of said foundation column, said protruding end of said anchor pin positioned in said concrete collar, said concrete collar positioned adjacent said concrete pad.
15. The post-frame building of claim 8, wherein each said foundation column comprises a precast concrete column.
16. The post-frame building of claim 15, wherein each said foundation column contains at least one reinforcing bar therein.
17. The post-frame building of claim 15, wherein each said foundation column contains at least one U-shaped reinforcing bar therein.
18. The post-frame building of claim 15, wherein each said foundation column contains four reinforcing bars, said reinforcing bars substantially evenly spaced about a longitudinal axis of said foundation column.
19. A method of constructing a post-frame building, comprising:
- planting a plurality of concrete foundation columns in the earth about a perimeter of the building;
- affixing a wood column to each said foundation column, said wood column being substantially vertically oriented when affixed to foundation column; and
- constructing the building using the wood columns as vertical supports.
20. The method of claim 19, wherein each said foundation column includes a substantially transverse anchor pin sleeve secured to and positioned adjacent to a distal end of said foundation column, said anchor pin sleeve comprising a tubular member having opposite ends allowing access to a hollow interior thereof, said method further comprising the following steps prior to the step of planting a plurality of concrete foundation columns about a perimeter of the building:
- providing a plurality of anchor pins sized to traverse said hollow interior of said anchor pin sleeves;
- positioning said anchor pins in said anchor pin sleeves, said anchor pins having opposing ends, at least one of said opposing ends comprising a protruding end protruding from said anchor pin sleeves;
- forming a plurality of holes in the earth, each hole accommodating one of said plurality of foundation columns;
- placing a concrete pad in a distal end of each said hole;
- positioning each said foundation column atop one of said concrete pads;
- vertically orienting each said foundation column;
- pouring a concrete collar about a distal end of each said foundation column, said concrete collar encompassing said anchor pin; and
- back-filling each said hole.
21. The method of claim 19, wherein each said foundation column contains at least one reinforcing bar therein.
22. The method of claim 19, wherein each said foundation column contains at least one U-shaped reinforcing bar therein.
23. The method of claim 19, wherein each said foundation column contains four reinforcing bars, said reinforcing bars substantially evenly spaced about a longitudinal axis of said foundation column.
24. The method of claim 19, wherein said concrete foundation column has a first transverse cross-sectional area, said wood column has a second transverse cross-sectional area, said first cross-sectional area and said second cross-sectional area being substantially equal.
Type: Application
Filed: May 23, 2005
Publication Date: Sep 22, 2005
Inventors: Robert Meyer (Bluffton, IN), Phillip Stoller (Bluffton, IN)
Application Number: 11/135,152