RAFTER BRACKET
A rafter bracket configured to connect a vertical post to a rafter and beam(s) is described herein. The rafter bracket may include lower vertical side plates, a horizontal plate, and upper vertical side plates. The horizontal plate may be perpendicular to the upper and lower vertical side plates and may separate the upper vertical side plates from the lower vertical side plates. The horizontal plate and lower vertical side plates may create a lower cavity that receives the vertical post. Meanwhile, the rafter may be positioned on one of the upper vertical side plates and positioned between two of the upper vertical side plates and may be angled at an acute angle relative to the vertical post as well as the upper and lower vertical side plates. One or more of the lower vertical side plates may receive lateral plates that define a lateral cavity receiving the beam.
This application is a continuation of U.S. patent application Ser. No. 16/273,870, filed Feb. 12, 2019, which is a continuation-in-part of U.S. patent application Ser. No. 16/113,022, filed Aug. 27, 2018, now U.S. Pat. No. 10,202,766, which is a continuation-in-part of U.S. patent application Ser. No. 15/912,203, filed Mar. 5, 2018, now U.S. Pat. No. 10,100,058. The contents of the aforementioned are incorporated by reference in their entirety.
BACKGROUND Technical FieldThe present invention relates to building materials, more particularly, brackets for connecting a wooden post to a rafter for use in a post and beam and timber frame construction.
Background of the InventionIn light frame construction, a birdsmouth joint, also known as a bird's beak cut, is a woodworking joint that is generally used to connect a roof rafter to the top plate of a vertical post (such as a wall stud). The birdsmouth joint is an indentation cut into the rafter which consists of a “seat cut” (the face of which rests on the top plate) and a “heel cut” or “plumb cut” (the face of which lies parallel to the supporting wall), forming a shape resembling a bird's mouth. Generally, the indentation should not extend unsupported on the interior in order to maintain the structural integrity of the rafter because the unsupported section can split along the grain of the wood. The joint is generally fastened with nails by toenailing the rafter from the side into the top plate below or using a strap. However, such system has a number of disadvantages, particularly if the indentation is not cut correctly, including 1) the strength of the connection of the roof system to the wall assembly; 2) reduced cross-section of the rafter due to the indentation; and 3) time and skill in cutting the indentation.
Thus, improved connections between studs are rafters are needed.
BRIEF SUMMARYA rafter bracket configured to connect a vertical post of a building to a rafter of a roof of the building is described herein. The rafter bracket may include lower vertical side plates, a horizontal plate, and upper vertical side plates. Two of the upper vertical side plates and two of the lower vertical side plates may include fastener apertures. The horizontal plate may be perpendicular to the upper and lower vertical side plates, may be attached to the upper vertical side plate bottoms and to the lower vertical side plate tops and may separate the upper vertical side plates from the lower vertical side plates. The horizontal plate and lower vertical side plates may create a generally rectangular cavity that receives the vertical post and fasteners may be positioned through the lower vertical side plate fastener apertures and through the vertical post. Meanwhile, the rafter may be positioned on one of the upper vertical side plates (preferably the lowest of the upper vertical side plates) and positioned between two of the upper vertical side plates (which are preferably opposite each other and include the fastener apertures). The rafter may be angled at an acute angle relative to the vertical post as well as the upper and lower vertical side plates. Preferably, the vertical post and rafter are wood and the vertical post may be a wall stud.
The bracket may include one or more of the following features (and any combination thereof): 1) two of the upper vertical side posts may be opposite one another and perpendicular to another upper vertical side post so that the upper cavity is bounded on three sides; 2) two of the upper vertical side posts opposite each other may include the fastener apertures and may be taller than the other upper vertical side post (which may lack a fastener aperture and may be in the form of a ledge extending above the horizontal plate); 3) the rafter may be positioned on the shortest of the upper vertical side posts; 4) the bracket may be open opposite the shortest upper vertical side posts; 5) the upper vertical side posts may taper in decreasing height from an end adjacent to the shorter upper vertical side post to the open end to mirror the angle of the rafter; 6) the fastener apertures in each of the upper vertical side posts may be offset to mirror the angle of the rafter and the taper and the upper vertical side posts (including fastener apertures) may be mirror images of each other; 7) two of the lower vertical side posts may be opposite one another and perpendicular to two other upper vertical side post so that the lower cavity is bounded on four sides; 8) two of the upper vertical side posts opposite each other may include the fastener apertures and may be taller than the other upper vertical side posts (which may lack a fastener aperture and may be in the form of ledge extending below the horizontal plate); 9) the fastener apertures in the opposite lower vertical side posts may be aligned; 10) bolts, lags, screws or other fasteners may be positioned through the upper vertical side post fastener apertures and through the rafter and additional fasteners may be positioned through the lower vertical side post fastener apertures and the vertical post to secure the rafter and vertical post in place; 11) the distance between the upper vertical side plates with fastener apertures (which may be tapered as described above) may be less than the distance between the lower vertical side plates with fastener apertures to provide stability; 12) the upper vertical side plates with fastener apertures may be perpendicular to the lower vertical side plates with fastener apertures to provide stability; 13) the shortest of the upper vertical side plates may be low enough so that the rafter extends relative to the vertical side plates and vertical post at an angle less than 60 (preferably less than 60 degrees); 14) the rafter may also be positioned on the open end of the bracket opposite the lowest upper vertical side plate; 15) the lower vertical side plates with fastener apertures may each comprise a variable width with a wider portion and a narrower portion and the shorter lower vertical side plates may extend between the wider portions; 16) the shorter upper vertical side plate top may be generally flat as it extends between the taller upper vertical side plates; 17) as shown in the drawings, the vertical post may not touch the rafter when the vertical post and the rafter are positioned in the rafter bracket; 18) the horizontal plate may be generally rectangular in shape and the lower vertical side plates may be spaced about the perimeter of the horizontal plate, whereas the upper vertical side plates may be indented as shown in the drawings; 19) as shown in the drawings, the rafter need not be specially cut at the interface between the rafter and rafter bracket; 20) one or more lateral plates that extend from one or more of the lower vertical side plates (and away from the lower cavity) in order to join one or more beams to the rafter and vertical post; and/or 21) one or more braces supporting the lateral plates.
Without being bound by any particular theory, it is believed that the rafter bracket may provide a number of advantages including: 1) providing a stronger connection method of the roof system to the wall assembly; 2) allows the rafter to retain greater structural integrity because no birdsmouth joint is made, which by necessity reduces the cross sectional area of the rafter significantly; and 3) facilitates faster and cheaper construction due to the fact that multiple specialty cuts are not required for each rafter.
In some embodiments, the present disclosure provides a rafter bracket configured to connect a vertical post of a building to a rafter of the building, the rafter bracket comprising: a first lower vertical side plate comprising at least one first lower vertical side plate fastener aperture, a first lower vertical side plate top, a first lower vertical side plate bottom, a first lower vertical side plate height extending from the first lower vertical side plate top to the first lower vertical side plate bottom, a first lower vertical side plate first end, a first lower vertical side plate second end opposite the first end, and a first lower vertical side plate width extending from the first lower vertical side plate first end to the first lower vertical side plate second end and generally perpendicular to the first lower vertical side plate height; a second lower vertical side plate opposite the first lower vertical side plate and extending generally parallel to the first lower vertical side plate, the second lower vertical side plate comprising at least one second lower vertical side plate fastener aperture, a second lower vertical side plate top, a second lower vertical side plate bottom, a second lower vertical side plate height extending from the second lower vertical side plate top to the second lower vertical side plate bottom and generally parallel to the first lower vertical side plate height, a second lower vertical side plate first end, a second lower vertical side plate second end opposite the first end, and a second lower vertical side plate width extending from the second lower vertical side plate first end to the second lower vertical side plate second end and generally perpendicular to the first lower vertical side plate height; a third lower vertical side plate extending generally perpendicular to (and preferably extending between) the first and second lower vertical side plates and comprising a third lower vertical side plate top, a third lower vertical side plate bottom, a third lower vertical side plate height extending from the third lower vertical side plate top to the third lower vertical side plate bottom and generally parallel to the first and second lower vertical side plate heights, a third lower vertical side plate proximal end, a third lower vertical side plate distal end, and a third lower vertical side plate length extending from the third lower vertical side plate proximal end to the third lower vertical side plate distal end and generally perpendicular to the first and second lower vertical side plate widths; a fourth lower vertical side plate opposite the third lower vertical side plate, extending generally parallel to the third lower vertical side plate and extending generally perpendicular to (and preferably extending between) the first and second lower vertical side plates, the fourth lower vertical side plate comprising a fourth lower vertical side plate top, a fourth lower vertical side plate bottom, a fourth lower vertical side plate height extending from the fourth lower vertical side plate top to the fourth lower vertical side plate bottom and generally parallel to the first, second and third lower vertical side plate heights, a fourth lower vertical side plate proximal end, a fourth lower vertical side plate distal end, and a fourth lower vertical side plate length extending from the fourth lower vertical side plate proximal end to the fourth lower vertical side plate distal end and generally parallel to the third lower vertical side plate length; a horizontal plate connected to at least one of (and preferably all) the first, second, third and fourth lower vertical side plates (preferably the tops of each), the horizontal plate located above the first, second, third and fourth lower vertical side plate bottoms (and preferably extending from the first lower vertical side plate to the second lower vertical side plate), the horizontal plate extending generally perpendicular to the first, second, third, and fourth lower vertical side plate heights, the horizontal plate comprising a horizontal plate first end, a horizontal plate second end, a horizontal plate width extending from the horizontal plate first end to the horizontal plate second end and generally parallel to the first lower vertical side plate width and second lower vertical side plate width, a horizontal plate proximal end, a horizontal plate distal end, and a horizontal plate length extending from the horizontal plate proximal end to the horizontal plate distal end and generally perpendicular to the horizontal plate width; a lower cavity defined by the first, second, third and fourth lower vertical side plates; a first upper vertical side plate comprising at least one first upper vertical side plate fastener aperture, the first upper vertical side plate having a first upper vertical side plate top located above the first, second, third and fourth lower vertical side plate tops and above the horizontal plate, a first upper vertical side plate bottom (preferably attached to the horizontal plate), a first upper vertical side plate height extending from the first upper vertical side plate top to the first upper vertical side plate bottom and generally parallel to the first and second lower vertical side plate heights, a first upper vertical side plate first end, a first upper vertical side plate second end opposite the first end, and a first upper vertical side plate length extending from the first upper vertical side plate first end to the first upper vertical side plate second end and generally perpendicular to the first upper vertical side plate height; a second upper vertical side plate opposite the first upper vertical side plate and extending generally parallel to the first upper vertical side plate, the second upper vertical side plate comprising at least one second upper vertical side plate fastener aperture, the second upper vertical side plate having a second upper vertical side plate top located above the first, second, third and fourth lower vertical side plate tops and above the horizontal plate, a second upper vertical side plate bottom (preferably attached to the horizontal plate), a second upper vertical side plate height extending from the second upper vertical side plate top to the second upper vertical side plate bottom and generally parallel to the first and second lower vertical side plate heights, a second upper vertical side plate first end, a second upper vertical side plate second end opposite the first end, and a second upper vertical side plate length extending from the second upper vertical side plate first end to the second upper vertical side plate second end and generally perpendicular to the first and second upper vertical side plate height; a third upper vertical side plate extending generally perpendicular to (and preferably extending from) the first and second upper vertical side plates and comprising a third upper vertical side plate top (preferably located above the first, second, third and fourth lower vertical side plate tops) located above the horizontal plate, a third upper vertical side plate bottom (preferably attached to the horizontal plate), a third upper vertical side plate height extending from the third upper vertical side plate top to the third upper vertical side bottom and generally parallel to the first and second lower vertical side plate heights, a third upper vertical side plate first end, a third upper vertical side plate second end opposite the first end, and a third upper vertical side plate length extending from the third upper vertical side plate first end to the third upper vertical side plate second end and generally perpendicular to the first and second upper vertical side plate length; an upper cavity defined by the first upper vertical side plate, second upper vertical side plate, third upper vertical side plate, and horizontal plate; wherein the first lower vertical side plate and second lower vertical side plate are separated a first distance, the first distance substantially constant along the first lower vertical side plate and second lower vertical side plate widths and generally parallel to the horizontal plate length, wherein the first upper vertical side plate and second upper vertical side plate are separated a second distance, the second distance substantially constant along the first upper vertical side plate and second upper vertical side plate lengths, wherein a vertical post of a building is positioned between the first, second, third and fourth lower vertical side plate in the lower cavity, wherein a rafter of the building is positioned on the third upper vertical side plate top and between the first and second upper vertical side plates, wherein at least one upper fastener is positioned through a fastener aperture of the first upper vertical side plate, through the rafter and then through the second upper vertical side plate, and further wherein at least one lower fastener is positioned through a fastener aperture of the first lower vertical side plate, through the vertical post and then through the second lower vertical side plate.
Optionally, the first lower vertical side plate comprises a plurality of first lower vertical side plate fastener apertures, wherein the second lower vertical side plate comprises a plurality of second lower vertical side plate fastener apertures aligned with the first lower vertical side plate fastener apertures, wherein the first upper vertical side plate comprises a plurality of first upper vertical side plate apertures, and further wherein the second upper vertical side plate comprises a plurality of second upper vertical side apertures aligned with the first upper vertical side plate fastener apertures, and further wherein each fastener aperture comprises a fastener. Optionally, the first upper vertical side plate comprises at least two upper vertical side plate fastener apertures adjacent to the first upper vertical side plate first end, wherein the first upper vertical side plate comprises at least two upper vertical side plate fastener apertures adjacent to the first upper vertical side plate second end, wherein the second upper vertical side plate comprises at least two upper vertical side plate fastener apertures adjacent to the second upper vertical side plate first end, wherein the second upper vertical side plate comprises at least two second upper vertical side plate fastener apertures adjacent to the second upper vertical side plate second end, wherein the third upper vertical side plate is adjacent to the first and second upper vertical side plate first ends, wherein at least one first upper vertical side plate fastener aperture adjacent to the first upper vertical side plate first end is above all of the first upper vertical side plate fastener apertures adjacent to the first upper vertical side plate second end, wherein at least one second upper vertical side plate fastener aperture adjacent to the upper vertical side plate first end is above all of the second upper vertical side plate fastener apertures adjacent to the second upper vertical side plate second end, and further wherein the rafter extends upwardly at an acute angle (preferably of less than 60, more preferably less than 45 degrees) relative to the first and second upper vertical side plate heights from the first and second upper vertical side plate second ends to the first and second upper vertical side plate first ends. Optionally, the rafter bracket is open opposite the third upper vertical side plate and further wherein the third upper vertical side plate is adjacent to the first and second upper vertical side plate first ends. Optionally, the first and second upper vertical side plates each comprise a variable height, wherein the first upper vertical side plate tapers in decreasing height from the first upper vertical side plate first end to the first upper vertical side plate second end and further wherein the second upper vertical side plate tapers in decreasing height from the second upper vertical side plate first end to the second upper vertical side plate second end. Optionally, the third upper vertical side plate top is located below the tops of the first and second upper vertical side plate along the entire length of the first and second upper vertical side plates. Optionally, the least two upper vertical side plate fastener apertures adjacent to the first upper vertical side plate first end are aligned in a first vertical row generally parallel to the first upper vertical side plate height, wherein the at least two upper vertical side plate fastener apertures adjacent to the first upper vertical side plate second end are aligned in a second vertical row generally parallel to the first upper vertical side plate height, wherein the at least two upper vertical side plate fastener apertures adjacent to the second upper vertical side plate first end are aligned in a first vertical row generally parallel to the second upper vertical side plate height, and further wherein the at least two second upper vertical side plate fastener apertures adjacent to the second upper vertical side plate second end are aligned in a second vertical row generally parallel to the first upper vertical side plate height. Optionally, the vertical post comprises a vertical post top end located in the lower cavity, a vertical post bottom end, a vertical post height extending from the vertical post top end to the vertical post bottom end and generally parallel to the first and second lower vertical side plate heights and the first and second upper vertical side plate heights, wherein the rafter comprises a rafter first end, a rafter second end, and a rafter length extending from the rafter first end to the rafter second end, and further wherein the rafter length is angled relative to the vertical post height and the first and second upper vertical side plate heights at an angle less than 60 degrees. Optionally, the first and second upper vertical side plates are oriented approximately 90 degrees relative to the first and second lower vertical side plates, and further wherein the third upper vertical side plate is oriented approximately 90 degrees relative to the third and fourth lower vertical side plates. Optionally, the first and second upper vertical side plates are substantially mirror images of each other and further wherein the first and second lower vertical side plates are substantially mirror images of each other. Optionally, the third and fourth lower vertical side plates extend between the first lower vertical side plate and the second lower vertical side plate and the third upper vertical side plate extends between the first upper vertical side plate and the second upper vertical side plate. Optionally, the third and fourth lower vertical side plate heights are less than the first and second lower vertical side plate heights. Optionally, the first and second lower vertical side plate each comprise a variable width with a wider portion and a narrower portion and the third and fourth lower vertical side plates extend between the first and second lower vertical side plate wider portions. Optionally, the third upper vertical side plate top is generally flat as it extends between the first and second upper vertical side plates. Optionally, the lower cavity is generally rectangular in shape. Optionally, the first and second lower vertical side plate tops are attached to the horizontal plate and further wherein the first, second, and third upper vertical side plate bottoms are attached to the horizontal plate. Optionally, the third and fourth lower vertical side plate heights are less than the first and second lower vertical side plate heights and further wherein the third upper vertical side plate height is no more than about ⅓ the median height of the first and second upper vertical side plate. Optionally, the vertical post and the rafter are comprised of wood and the rafter bracket is comprised of metal. Optionally, the vertical post is a wall stud of the building. Optionally, the rafter is also positioned on the horizontal plate. Optionally, the second distance is less than the first distance.
In still further embodiments, the present disclosure provides a rafter bracket configured to connect a vertical post of a building to a rafter of the building, the rafter bracket comprising: a first lower vertical side plate comprising a first lower vertical side plate top, a first lower vertical side plate bottom, a first lower vertical side plate height extending from the first lower vertical side plate top to the first lower vertical side plate bottom, a first lower vertical side plate first end, a first lower vertical side plate second end opposite the first end, and a first lower vertical side plate width extending from the first lower vertical side plate first end to the first lower vertical side plate second end and generally perpendicular to the first lower vertical side plate height; a second lower vertical side plate opposite the first lower vertical side plate and extending generally parallel to the first lower vertical side plate, the second lower vertical side plate comprising a second lower vertical side plate top, a second lower vertical side plate bottom, a second lower vertical side plate height extending from the second lower vertical side plate top to the second lower vertical side plate bottom and generally parallel to the first lower vertical side plate height, a second lower vertical side plate first end, a second lower vertical side plate second end opposite the first end, and a second lower vertical side plate width extending from the second lower vertical side plate first end to the second lower vertical side plate second end and generally perpendicular to the first lower vertical side plate height; a third lower vertical side plate extending generally perpendicular to (and preferably extending between) the first and second lower vertical side plates and comprising a third lower vertical side plate top, a third lower vertical side plate bottom, a third lower vertical side plate height extending from the third lower vertical side plate top to the third lower vertical side plate bottom and generally parallel to the first and second lower vertical side plate heights, a third lower vertical side plate proximal end, a third lower vertical side plate distal end, and a third lower vertical side plate length extending from the third lower vertical side plate proximal end to the third lower vertical side plate distal end and generally perpendicular to the first and second lower vertical side plate widths; a fourth lower vertical side plate opposite the third lower vertical side plate, extending generally parallel to the third lower vertical side plate and extending generally perpendicular to (and preferably extending between) the first and second lower vertical side plates, the fourth lower vertical side plate comprising a fourth lower vertical side plate top, a fourth lower vertical side plate bottom, a fourth lower vertical side plate height extending from the fourth lower vertical side plate top to the fourth lower vertical side plate bottom and generally parallel to the first, second and third lower vertical side plate heights, a fourth lower vertical side plate proximal end, a fourth lower vertical side plate distal end, and a fourth lower vertical side plate length extending from the fourth lower vertical side plate proximal end to the fourth lower vertical side plate distal end and generally parallel to the third lower vertical side plate length; a horizontal plate connected to at least one (and preferably all of) the first, second, third and fourth lower vertical side plates (preferably the tops of each), the horizontal plate located above the first, second, third and fourth lower vertical side plate bottoms (and preferably extending from the first lower vertical side plate to the second lower vertical side plate), the horizontal plate extending generally perpendicular to the first, second, third, and fourth lower vertical side plate heights, the horizontal plate comprising a horizontal plate first end, a horizontal plate second end, a horizontal plate width extending from the horizontal plate first end to the horizontal plate second end and generally parallel to the first lower vertical side plate width and second lower vertical side plate width, a horizontal plate proximal end, a horizontal plate distal end, and a horizontal plate length extending from the horizontal plate proximal end to the horizontal plate distal end and generally perpendicular to the horizontal plate width; a lower cavity defined by the first, second, third and fourth lower vertical side plates; a first upper vertical side plate comprising at least one first upper vertical side plate fastener aperture, the first upper vertical side plate having a first upper vertical side plate top located above the first, second, third and fourth lower vertical side plate tops and above the horizontal plate, a first upper vertical side plate bottom (preferably attached to the horizontal plate), a first upper vertical side plate height extending from the first upper vertical side plate top to the first upper vertical side plate bottom and generally parallel to the first and second lower vertical side plate heights, a first upper vertical side plate first end, a first upper vertical side plate second end opposite the first end, and a first upper vertical side plate length extending from the first upper vertical side plate first end to the first upper vertical side plate second end and generally perpendicular to the first upper vertical side plate height; a second upper vertical side plate opposite the first upper vertical side plate and extending generally parallel to the first upper vertical side plate, the second upper vertical side plate comprising at least one second upper vertical side plate fastener aperture, the second upper vertical side plate having a second upper vertical side plate top located above the first, second, third and fourth lower vertical side plate tops and above the horizontal plate, a second upper vertical side plate bottom (preferably attached to the horizontal plate), a second upper vertical side plate height extending from the second upper vertical side plate top to the second upper vertical side plate bottom and generally parallel to the first and second lower vertical side plate heights, a second upper vertical side plate first end, a second upper vertical side plate second end opposite the first end, and a second upper vertical side plate length extending from the second upper vertical side plate first end to the second upper vertical side plate second end and generally perpendicular to the first and second upper vertical side plate height; a third upper vertical side plate extending generally perpendicular to (and preferably extending from) the first and second upper vertical side plates and comprising a third upper vertical side plate top (preferably located above the first, second, third and fourth lower vertical side plate tops) located above the horizontal plate, a third upper vertical side plate bottom (preferably attached to the horizontal plate), a third upper vertical side plate height extending from the third upper vertical side plate top to the third upper vertical side bottom and generally parallel to the first and second lower vertical side plate heights, a third upper vertical side plate first end, a third upper vertical side plate second end opposite the first end, and a third upper vertical side plate length extending from the third upper vertical side plate first end to the third upper vertical side plate second end and generally perpendicular to the first and second upper vertical side plate length; an upper cavity defined by the first upper vertical side plate, second upper vertical side plate, third upper vertical side plate, and horizontal plate; wherein the first lower vertical side plate and second lower vertical side plate are separated a first distance, the first distance substantially constant along the first lower vertical side plate and second lower vertical side plate widths and generally parallel to the horizontal plate length, wherein the first upper vertical side plate and second upper vertical side plate are separated a second distance, the second distance substantially constant along the first upper vertical side plate and second upper vertical side plate lengths, wherein a vertical post of a building is configured to be positioned between the first, second, third and fourth lower vertical side plate in the lower cavity, wherein a rafter of the building is configured to be positioned on the third upper vertical side plate top and between the first and second upper vertical side plates, wherein the first lower vertical side plate comprises a plurality of first lower vertical side plate fastener apertures, wherein the second lower vertical side plate comprises a plurality of second lower vertical side plate fastener apertures aligned with the first lower vertical side plate fastener apertures, wherein the first upper vertical side plate comprises a plurality of first upper vertical side plate apertures, and further wherein the second upper vertical side plate comprises a plurality of second upper vertical side apertures aligned with the first upper vertical side plate fastener apertures.
Optionally, the first upper vertical side plate comprises at least two upper vertical side plate fastener apertures adjacent to the first upper vertical side plate first end, wherein the first upper vertical side plate comprises at least two upper vertical side plate fastener apertures adjacent to the first upper vertical side plate second end, wherein the second upper vertical side plate comprises at least two upper vertical side plate fastener apertures adjacent to the second upper vertical side plate first end, wherein the second upper vertical side plate comprises at least two second upper vertical side plate fastener apertures adjacent to the second upper vertical side plate second end, wherein the third upper vertical side plate is adjacent to the first and second upper vertical side plate first ends, wherein at least one first upper vertical side plate fastener aperture adjacent to the first upper vertical side plate first end is above all of the first upper vertical side plate fastener apertures adjacent to the first upper vertical side plate second end, wherein at least one second upper vertical side plate fastener aperture adjacent to the second upper vertical side plate first end is above all of the second upper vertical side plate fastener apertures adjacent to the second upper vertical side plate second end, and further wherein the rafter bracket is configured to allow a rafter to extend upwardly at an angle of less than 60 degrees relative to the first and second upper plate heights from the first and second upper vertical side plate second ends to the first and second upper vertical side plate first ends. Optionally, the rafter bracket is open opposite the third upper vertical side plate. Optionally, the first and second upper vertical side plate each comprise a variable height, wherein the first upper vertical side plate tapers in decreasing height from the first upper vertical side plate first end to the first upper vertical side plate second end and further wherein the second upper vertical side plate tapers in decreasing height from the second upper vertical side plate first end to the second upper vertical side plate second end.
In still further embodiments, the present disclosure provides a rafter bracket configured to connect a vertical post of a building to a rafter of the building. The rafter bracket may include a first lower vertical side plate comprising at least one first lower vertical side plate fastener aperture, a first lower vertical side plate top, a first lower vertical side plate bottom, a first lower vertical side plate height extending from the first lower vertical side plate top to the first lower vertical side plate bottom, a first lower vertical side plate first end, a first lower vertical side plate second end opposite the first end, and a first lower vertical side plate width extending from the first lower vertical side plate first end to the first lower vertical side plate second end and substantially perpendicular to the first lower vertical side plate height. The rafter bracket may also include a second lower vertical side plate opposite the first lower vertical side plate and extending substantially parallel to the first lower vertical side plate, the second lower vertical side plate comprising at least one second lower vertical side plate fastener aperture, a second lower vertical side plate top, a second lower vertical side plate bottom, a second lower vertical side plate height extending from the second lower vertical side plate top to the second lower vertical side plate bottom and substantially parallel to the first lower vertical side plate height, a second lower vertical side plate first end, a second lower vertical side plate second end opposite the first end, and a second lower vertical side plate width extending from the second lower vertical side plate first end to the second lower vertical side plate second end and substantially perpendicular to the first lower vertical side plate height. The rafter bracket may also include a horizontal plate connected to at least one of the first and second lower vertical side plates, the horizontal plate located above the first and second lower vertical side plate bottoms, the horizontal plate extending substantially perpendicular to the first and second lower vertical side plate heights, the horizontal plate comprising a horizontal plate first end, a horizontal plate second end, a horizontal plate width extending from the horizontal plate first end to the horizontal plate second end and substantially parallel to the first lower vertical side plate width and second lower vertical side plate width, a horizontal plate proximal end, a horizontal plate distal end, and a horizontal plate length extending from the horizontal plate proximal end to the horizontal plate distal end and substantially perpendicular to the horizontal plate width. The rafter bracket may also include a lower cavity defined by the first and second lower vertical side plates. The rafter bracket may also include at least one upper brace plate comprising a brace plate top above the first and second lower vertical side plate tops and above the horizontal plate, a brace plate bottom extending from the horizontal plate, a brace plate height extending from the brace plate top to the brace plate bottom and substantially parallel to the first and second lower vertical side plate heights, a brace plate first end, a brace plate second end, and a brace plate length extending from the brace plate first end to the brace plate second end and generally perpendicular to the brace plate height. The rafter bracket may also include an upper plate resting on the brace plate top, the upper plate oriented at an angle greater than 1 degrees and less than 90 degrees relative to the horizontal plate, and the upper plate comprising a bottom surface facing the horizontal plate and a top surface opposite the bottom surface. Optionally, the upper plate comprises at least one fastener aperture extending from the upper plate top surface to the upper plate bottom surface. Optionally, the first lower vertical side plate and second lower vertical side plate are separated a first distance, the first distance substantially constant along the first lower vertical side plate and second lower vertical side plate widths and substantially parallel to the horizontal plate length. Optionally, the vertical post of the building is positioned between the first and second vertical side plates in the lower cavity. Optionally, the rafter of the building is positioned on the upper plate top surface. Optionally, at least one upper fastener is positioned through an upper plate fastener aperture and into the rafter. Optionally, at least one lower fastener is positioned through a fastener aperture of the first lower vertical side plate and into the vertical post.
Optionally, the at least one upper brace plate tapers in decreasing height from the first end to the second end. Optionally, the at least one upper brace plate is substantially triangular in shape. Optionally, the at least one lower fastener is positioned through a fastener aperture of the first lower vertical side plate, through the vertical post and then through a fastener aperture of the second lower vertical side plate. Optionally, the upper plate bottom surface is located above the horizontal plate. Optionally, the rafter bracket comprises two identically shaped and sized upper brace plates separated by a space and oriented substantially parallel to each other. Optionally, the upper plate is oriented at an angle of between about 5 degrees and about 60 degrees relative to the horizontal plate. Optionally, the rafter bracket further comprises: a third lower vertical side plate extending substantially perpendicular to the first and second lower vertical side plates and comprising a third lower vertical side plate top, a third lower vertical side plate bottom, a third lower vertical side plate height extending from the third lower vertical side plate top to the third lower vertical side plate bottom and substantially parallel to the first and second lower vertical side plate heights, a third lower vertical side plate proximal end, a third lower vertical side plate distal end, and a third lower vertical side plate length extending from the third lower vertical side plate proximal end to the third lower vertical side plate distal end and substantially perpendicular to the first and second lower vertical side plate widths; and a fourth lower vertical side plate opposite the third lower vertical side plate, extending substantially parallel to the third lower vertical side plate and extending substantially perpendicular to the first and second lower vertical side plates, the fourth lower vertical side plate comprising a fourth lower vertical side plate top, a fourth lower vertical side plate bottom, a fourth lower vertical side plate height extending from the fourth lower vertical side plate top to the fourth lower vertical side plate bottom and substantially parallel to the first, second and third lower vertical side plate heights, a fourth lower vertical side plate proximal end, a fourth lower vertical side plate distal end, and a fourth lower vertical side plate length extending from the fourth lower vertical side plate proximal end to the fourth lower vertical side plate distal end and substantially parallel to the third lower vertical side plate length. Optionally, the vertical post of the building is positioned between the third and fourth vertical side plates in the lower cavity. Optionally, the at least one upper brace plate top is located above the third and fourth lower vertical side plate tops. Optionally, the horizontal plate is connected to the third and fourth lower vertical side plates, wherein the horizontal plate located is above the third and fourth lower vertical side plate bottoms, and further wherein the horizontal plate extends substantially perpendicular to the third and fourth lower vertical side plate heights. Optionally, the third and fourth lower vertical side plates each comprise at least one fastener aperture, wherein at least one fastener aperture of the third and fourth lower vertical side plates are aligned and located. Optionally, all fastener apertures of the first and second lower vertical side plates are vertically offset from the fastener apertures of the third and fourth lower vertical side plates. Optionally, at least one of the first, second, third and fourth lower vertical side plates comprise a plurality of lateral plates extending laterally away from the respective lower vertical side plate and lower cavity and defining a lateral cavity, wherein a beam of the building is located in the lateral cavity, wherein at least one of the plurality of lateral plates comprises a fastener aperture, and further wherein a fastener is positioned through the lateral plate fastener aperture and through the beam. Optionally, the lateral cavity has an open top and the plurality of lateral plates border the beam on two sides and a bottom of the lateral cavity. Optionally, the plurality of lateral plates comprise first and second side lateral plates, the first and second side lateral plates oriented substantially parallel to each other and defining opposite sides the lateral cavity and bordering the beam on two sides, each of the first and second side lateral plates having a height substantially parallel to the first and second lower vertical side plate heights, and further wherein the respective first, second, third or fourth lower vertical side plate comprising the plurality of lateral plates border the beam on another side. Optionally, the plurality of lateral plates further comprise a bottom lateral plate bordering the beam on a bottom of the lateral cavity. Optionally, the bottom lateral plate is substantially parallel to the horizontal plate. Optionally, the plurality of lateral plates are not directly attached to each other. Optionally, the rafter bracket further comprises a substantially triangular brace located below the bottom lateral plate and attached to both the bottom lateral plate and the respective lower vertical side plate comprising the plurality of lateral plates. Optionally, each of the plurality of lateral plates comprise a lateral plate fastener aperture and further wherein fasteners are positioned through the lateral plate fastener apertures and through the beam. Optionally, a plurality of the first, second, third and fourth lower vertical side plates each comprise a respective said plurality of lateral plates extending laterally away from the respective lower vertical side plate and lower cavity and creating a respective said lateral cavity, wherein a respective said beam is located in each lateral cavity and further wherein, for each the first, second, third and fourth lower vertical side plate comprising the respective plurality of lateral plates, at least one of the plurality of lateral plates comprises a fastener aperture, and further wherein a fastener is positioned through at least one lateral plate fastener aperture and through the respective beam. Optionally, the rafter bracket further includes a brace extending between and attached to the respective lateral plate of one of the first, second, third and fourth lower vertical side plates and a lateral plate of another of the first, second, third and fourth lower vertical side plates. Optionally, the beam and the vertical post are located directly below the rafter. Optionally, the beam and rafter are located in the same plane. Optionally, the vertical post comprises a vertical post top end located in the lower cavity, a vertical post bottom end, a vertical post height extending from the vertical post top end to the vertical post bottom end and substantially parallel to the first and second lower vertical side plate heights, wherein the rafter comprises a rafter first end, a rafter second end, and a rafter length extending from the rafter first end to the rafter second end, and further wherein the rafter length is angled relative to the vertical post height and the first and second lower vertical side plate heights at an angle less than 60 degrees, and further wherein the beam is substantially perpendicular to the vertical post. Optionally, the rafter extends upwardly at an acute angle relative to the horizontal plate from the brace plate first end to the brace plate second end. Optionally, the first lower vertical side plate comprises a plurality of first lower vertical side plate fastener apertures, wherein the second lower vertical side plate comprises a plurality of second lower vertical side plate fastener apertures aligned with the first lower vertical side plate fastener apertures. Optionally, the lower cavity is substantially rectangular in shape. Optionally, the vertical post is a wall stud of the building.
In still further embodiments, the present disclosure provides a rafter bracket configured to connect a vertical post of a building to a rafter of the building. The rafter bracket may include a first lower vertical side plate comprising a first lower vertical side plate top, a first lower vertical side plate bottom, a first lower vertical side plate height extending from the first lower vertical side plate top to the first lower vertical side plate bottom, a first lower vertical side plate first end, a first lower vertical side plate second end opposite the first end, and a first lower vertical side plate width extending from the first lower vertical side plate first end to the first lower vertical side plate second end and substantially perpendicular to the first lower vertical side plate height. The rafter bracket may also include a second lower vertical side plate opposite the first lower vertical side plate and extending substantially parallel to the first lower vertical side plate, the second lower vertical side plate comprising a second lower vertical side plate top, a second lower vertical side plate bottom, a second lower vertical side plate height extending from the second lower vertical side plate top to the second lower vertical side plate bottom and substantially parallel to the first lower vertical side plate height, a second lower vertical side plate first end, a second lower vertical side plate second end opposite the first end, and a second lower vertical side plate width extending from the second lower vertical side plate first end to the second lower vertical side plate second end and substantially perpendicular to the first lower vertical side plate height. The rafter bracket may also include a third lower vertical side plate extending substantially perpendicular to the first and second lower vertical side plates and comprising a third lower vertical side plate top, a third lower vertical side plate bottom, a third lower vertical side plate height extending from the third lower vertical side plate top to the third lower vertical side plate bottom and substantially parallel to the first and second lower vertical side plate heights, a third lower vertical side plate proximal end, a third lower vertical side plate distal end, and a third lower vertical side plate length extending from the third lower vertical side plate proximal end to the third lower vertical side plate distal end and substantially perpendicular to the first and second lower vertical side plate widths. The rafter bracket may also include a fourth lower vertical side plate opposite the third lower vertical side plate, extending substantially parallel to the third lower vertical side plate and extending substantially perpendicular to the first and second lower vertical side plates, the fourth lower vertical side plate comprising a fourth lower vertical side plate top, a fourth lower vertical side plate bottom, a fourth lower vertical side plate height extending from the fourth lower vertical side plate top to the fourth lower vertical side plate bottom and substantially parallel to the first, second and third lower vertical side plate heights, a fourth lower vertical side plate proximal end, a fourth lower vertical side plate distal end, and a fourth lower vertical side plate length extending from the fourth lower vertical side plate proximal end to the fourth lower vertical side plate distal end and substantially parallel to the third lower vertical side plate length. The rafter bracket may also include a horizontal plate connected to at least one of the first, second, third and fourth lower vertical side plates, the horizontal plate located above the first, second, third and fourth lower vertical side plate bottoms, the horizontal plate extending substantially perpendicular to the first, second, third, and fourth lower vertical side plate heights, the horizontal plate comprising a horizontal plate first end, a horizontal plate second end, a horizontal plate width extending from the horizontal plate first end to the horizontal plate second end and substantially parallel to the first lower vertical side plate width and second lower vertical side plate width, a horizontal plate proximal end, a horizontal plate distal end, and a horizontal plate length extending from the horizontal plate proximal end to the horizontal plate distal end and substantially perpendicular to the horizontal plate width. The rafter bracket may also include a lower cavity defined by the first, second, third and fourth lower vertical side plates. The rafter bracket may also include at least one upper brace plate comprising a brace plate top above the first, second, third and fourth lower vertical side plate tops and above the horizontal plate, a brace plate bottom extending from the horizontal plate, a brace plate height extending from the brace plate top to the brace plate bottom and substantially parallel to the first and second lower vertical side plate heights, a brace plate first end, a brace plate second end, and a brace plate length extending from the brace plate first end to the brace plate second end and generally perpendicular to the brace plate height. The rafter bracket may also include an upper plate resting on the brace plate top, the upper plate oriented at an angle of greater than 1 degrees and less than 90 degrees relative to the horizontal plate, the upper plate comprising a bottom surface facing the horizontal plate and a top surface opposite the bottom surface. Optionally, the upper plate comprises at least one fastener aperture extending from the upper plate top surface to the upper plate bottom surface. Optionally, the first lower vertical side plate and second lower vertical side plate are separated a first distance, the first distance substantially constant along the first lower vertical side plate and second lower vertical side plate widths and substantially parallel to the horizontal plate length. Optionally, the vertical post of the building is configured to be positioned between the first, second, third and fourth lower vertical side plate in the lower cavity. Optionally, the rafter of the building is configured to be positioned on the upper plate top surface. Optionally, the at least one upper brace plate tapers in decreasing height from the first end to the second end and is substantially triangular in shape. Optionally, the rafter bracket comprises two identically shaped and sized upper brace plates separated by a space and oriented substantially parallel to each other. Optionally, at least one of the first, second, third and fourth lower vertical side plates comprise a plurality of lateral plates extending laterally away from the respective lower vertical side plate and lower cavity and forming a lateral cavity, wherein a beam of the building is configured to be positioned in the lateral cavity, wherein at least two of the plurality of lateral plates comprises at least one aligned fastener aperture, wherein the first lower vertical side plate comprises a plurality of first lower vertical side plate fastener apertures, wherein the second lower vertical side plate comprises a plurality of second lower vertical side plate fastener apertures aligned with the first lower vertical side plate fastener apertures. Optionally, the upper plate bottom surface is located above the horizontal plate.
With reference to
As shown in
As best seen in
Optionally, purlins 11 extend between the rafters 16 and run the length of the building 10.
Preferably the vertical post 12 is located directly below the rafter 16 as shown in
The first, second, and third upper vertical side plates 92, 108, 124, the horizontal plate 52 and the first, second, third and fourth lower vertical side plates 20, 36, 66, 78 may be discrete metal plates that are welded together. Alternatively, two or more of the first, second, and third upper vertical side plates 92, 108, 124, the horizontal plate 52 and the first, second, third and fourth lower vertical side plates 20, 36, 66, 78 may be integrally attached to each other, in the case of, for example, a rafter bracket 10 that is plastic and made by injection molding. The plates 20, 36, 66, 78, 92, 108, 124 and 52, especially the surfaces of the horizontal plate 52 and the first, second, third and fourth lower vertical side plates 20, 36, 66, 78 that face the vertical post 16 and the surfaces of the first and second upper vertical side plate 92 and 108 that face the rafter 16, are preferably flat so that they can rest against the vertical post 12 and rafter 16, which may be made out of wood.
Optionally, as labelled in
Optionally, the vertical post 12, which may be a wall stud, comprises a vertical post 12 top end 154 located in the lower cavity 90, a vertical post bottom end 158, a vertical post height 152 extending from the vertical post top end 154 to the vertical post bottom end 158 and generally parallel to the first and second lower vertical side plate heights 28, 44 and the first and second upper vertical side plate heights 100, 116, wherein the rafter 16 comprises a rafter first end 144, a rafter second end 146, and a rafter length 148 extending from the rafter first end 144 to the rafter second end 146, and further wherein the rafter length 148 is angled relative to the vertical post height 152 and the first and second upper vertical side plate heights 28, 44 at an angle 142 less than 60 degrees.
Optionally, in some embodiments, as best seen in
Optionally, as best seen in
Optionally, as best seen in
Optionally, as best seen in
Optionally, as best seen in
Optionally, as best seen in
Optionally, as best seen in
Optionally, as best seen in
Optionally, as best seen in
The Embodiments of
Optionally, the lateral cavity 164 has an open top, as best seen in
Optionally, as best seen in
Optionally, the bottom lateral plate(s) 166 are generally parallel to the horizontal plate 52, as best seen in
Optionally, the plurality of lateral plates 162 and 166 are not directly attached to each other.
Optionally, each of the plurality of lateral plates 162 and 166 comprise a lateral plate fastener aperture 170 and 174 and fasteners 150 are positioned through the lateral plate fastener apertures 170 and 174 and through the beam(s) 172.
Optionally, a plurality of the first, second, third and fourth lower vertical side plates 20, 36, 66, and 78 each comprise a plurality of lateral plates 162 and 166 extending laterally away from the respective lower vertical side plate 20, 36, 66, and 78 and lower cavity 90 and creating a lateral cavity 164, wherein a beam 172 is located in each lateral cavity 164 and further wherein, for each the first, second, third and fourth lower vertical side plate 20, 36, 66, and 78 comprising a plurality of lateral plates 162 and 166, at least one of the plurality of lateral plates 162 and 166 comprises a fastener aperture 170 and 174, and a fastener 150 is positioned through at least one lateral plate fastener aperture 170 and 174 and through a beam 172.
Optionally, the rafter bracket 10 further includes a brace 168 extending between and attached to a side lateral plate 162 of one of the first, second, third and fourth lower vertical side plates 20, 36, 66, and 78 and a side lateral plate 162 of another of the first, second, third and fourth lower vertical side plates 20, 36, 66, and 78, as best seen in
Optionally, the third upper vertical side plate 124 is adjacent to the first and second upper vertical side plate first ends 102 and 118, and the rafter 16 extends upwardly at an acute angle relative to the first and second upper vertical side plate heights 100 and 116 from the first and second upper vertical side plate second ends 104 and 120 to the first and second upper vertical side plate first ends 102 and 118.
Optionally, one of the beams 172 and the vertical post 12 are located directly below the rafter 16, as best seen in
Optionally, the rafter bracket 10 is open opposite the third upper vertical side plate 124 and one of the lateral cavities 164 is located below and adjacent to the third upper vertical side plate 124, as best seen in
Optionally, one of the beams 172 and the rafter 16 are located in the same plane, as shown in
Optionally, the vertical post 12 comprises a vertical post top end 154 located in the lower cavity 90, a vertical post bottom end 158, a vertical post height 152 extending from the vertical post top end 154 to the vertical post bottom end 158 and generally parallel to the first and second lower vertical side plate heights 28 and 44 and the first and second upper vertical side plate heights 100 and 116, the rafter 16 comprises a rafter first end 144, a rafter second end 146, and a rafter length 148 extending from the rafter first end 144 to the rafter second end 146, and the rafter length 148 is angled relative to the vertical post height 152 and the first and second upper vertical side plate heights 100 and 116 at an angle less than 60 degrees, and the beam 160 is generally perpendicular to the vertical post 12.
Optionally, the first and second upper vertical side plates 92 and 108 are oriented approximately 90 degrees relative to the first and second lower vertical side plates 20 and 36, and the third upper vertical side plate 124 is oriented approximately 90 degrees relative to the third and fourth lower vertical side plates 66 and 78 and the first or second lower vertical side plate 20 or 36 comprise the plurality of lateral plates 162 and 166.
Optionally, the third upper vertical side plate top 126 extends between the first and second upper vertical side plates 92 and 108 and is generally flat as it extends between the first and second upper vertical side plates 92 and 108.
Optionally, the lower cavity 90 and the lateral cavity 164 are generally rectangular in shape.
Optionally, the vertical post 12 is a wall stud of the building 14.
Optionally, the rafter 16 is also positioned on the horizontal plate 52.
Optionally, the lateral cavity 164 is configured to allow a beam 172 to extend generally perpendicular to the first, second, third and fourth lower vertical side plate heights 28, 44, 71, and 83.
It will be understood that the building 14 will generally include a plurality of rafters 14, vertical posts 12 and beams 172, as shown in
The Embodiments of
More particularly, in the embodiments of
As compared to
Having now described the invention in accordance with the requirements of the patent statutes, those skilled in the art will understand how to make changes and modifications to the disclosed embodiments to meet their specific requirements or conditions. Changes and modifications may be made without departing from the scope and spirit of the invention. In addition, the steps of any method described herein may be performed in any suitable order and steps may be performed simultaneously if needed.
Terms of degree such as “generally”, “substantially”, “about” and “approximately” as used herein mean a reasonable amount of deviation of the modified term such that the end result is not significantly changed. For example, these terms can be construed as including a deviation of at least ±5% of the modified term if this deviation would not negate the meaning of the word it modifies.
Claims
1. A rafter bracket configured to connect a vertical post of a building to a rafter of the building, the rafter bracket comprising:
- a first lower vertical side plate comprising at least one first lower vertical side plate fastener aperture, a first lower vertical side plate top, a first lower vertical side plate bottom, a first lower vertical side plate height extending from the first lower vertical side plate top to the first lower vertical side plate bottom, a first lower vertical side plate first end, a first lower vertical side plate second end opposite the first end, and a first lower vertical side plate width extending from the first lower vertical side plate first end to the first lower vertical side plate second end and substantially perpendicular to the first lower vertical side plate height;
- a second lower vertical side plate opposite the first lower vertical side plate and extending substantially parallel to the first lower vertical side plate, the second lower vertical side plate comprising at least one second lower vertical side plate fastener aperture, a second lower vertical side plate top, a second lower vertical side plate bottom, a second lower vertical side plate height extending from the second lower vertical side plate top to the second lower vertical side plate bottom and substantially parallel to the first lower vertical side plate height, a second lower vertical side plate first end, a second lower vertical side plate second end opposite the first end, and a second lower vertical side plate width extending from the second lower vertical side plate first end to the second lower vertical side plate second end and substantially perpendicular to the first lower vertical side plate height;
- a horizontal plate connected to at least one of the first and second lower vertical side plates, the horizontal plate located above the first and second lower vertical side plate bottoms, the horizontal plate extending substantially perpendicular to the first and second lower vertical side plate heights, the horizontal plate comprising a horizontal plate first end, a horizontal plate second end, a horizontal plate width extending from the horizontal plate first end to the horizontal plate second end and substantially parallel to the first lower vertical side plate width and second lower vertical side plate width, a horizontal plate proximal end, a horizontal plate distal end, and a horizontal plate length extending from the horizontal plate proximal end to the horizontal plate distal end and substantially perpendicular to the horizontal plate width;
- a lower cavity defined by the first and second lower vertical side plates;
- at least one upper brace plate resting on the horizontal plate and comprising a brace plate top above the first and second lower vertical side plate tops and above the horizontal plate, a brace plate bottom extending from the horizontal plate, a brace plate height extending from the brace plate top to the brace plate bottom and substantially parallel to the first and second lower vertical side plate heights, a brace plate first end, a brace plate second end, and a brace plate length extending from the brace plate first end to the brace plate second end and generally perpendicular to the brace plate height;
- an upper plate resting on the brace plate top, the upper plate oriented at an angle greater than 1 degrees and less than 90 degrees relative to the horizontal plate, the upper plate comprising a bottom surface facing the horizontal plate and a top surface opposite the bottom surface;
- wherein the upper plate comprises at least one fastener aperture extending from the upper plate top surface to the upper plate bottom surface,
- wherein the first lower vertical side plate and second lower vertical side plate are separated a first distance, the first distance substantially constant along the first lower vertical side plate and second lower vertical side plate widths and substantially parallel to the horizontal plate length,
- wherein the vertical post of the building is positioned between the first and second lower vertical side plates in the lower cavity,
- wherein the rafter of the building is positioned on the upper plate top surface,
- wherein at least one upper fastener is positioned through an upper plate fastener aperture and into the rafter,
- wherein at least one lower fastener is positioned through a fastener aperture of the first lower vertical side plate and into the vertical post, and
- further wherein the rafter extends upwardly at an acute angle relative to the horizontal plate from the brace plate first end to the brace plate second end.
Type: Application
Filed: Jul 19, 2019
Publication Date: Nov 7, 2019
Inventor: Samuel Fox (Franklin, TN)
Application Number: 16/517,528