The present invention generally relates to connections for structures, and more specifically, a joist hanger for connecting a joist to a header.
The use of hangers to attach structural members (e.g., joists) to structural supports (e.g., headers) is commonplace. When constructing a structure, users must install many hangers to attach the joists to the headers throughout the building. Typically, a user must align a hanger in the desired position and hold it there while fasteners (e.g., screws) are inserted to mount the hanger on the header. Screws may also be used to attach the joist to the hanger. In a conventional application, screws are received through top flanges of the header into an upper surface of the header. In addition, screws are received through flanges of the hanger that engage a side surface of the header. An end of a joist is placed onto a seat of the hanger and screws are driven through openings in side panels of the seat into the joist to secure the joist to the hanger.
The joist will ultimately support weight on top of the joist. As a result, the hanger will also see increased loads. In some instances, the hanger does not conform uniformly with the contour of the top and side surfaces of the joist. For example, if the top flanges are not fully engaged across their bottom surfaces with the upper surface of the header, the hanger may move down slightly under the load until the bottom surface engages the upper surface of the header over substantially its entire area. The fasteners connecting the flanges of the hanger to the side surface of the header are fixed in position. Similar downward and pivoting movement can occur because of lack of flush engagement of the flanges of the hanger with the side surface of the header. Movement of the hanger by as little as 30 thousandths of an inch (0.76 mm) can shear off one or more of the fasteners. Moreover, the slight accompanying downward movement of the joist relative to the hanger can cause one or more of the screws attaching the joist to the hanger to be sheared off.
In one aspect, hanger for connecting a structural member to a structural support using one or more fasteners comprises a base sized and shaped for receiving the structural member thereon. First and second side panels extend upward from the base. First and second back panels each extend from a respective one of the side panels. An opening in one of said first and second side panels and said first and second back panels is configured to receive one of the fasteners to attach the hanger to one of the structural member and the structural support. A slot adjacent the opening and the opening are shaped and arranged relative to each other to define a yieldable portion of said one of the first and second back panels selected to deform at a load that is less than the shear load capacity of the fastener when received through the opening for connecting the hanger to the structural support.
In another aspect, a hanger for connecting a structural member to a structural support using fasteners, the hanger comprises a channel-shaped portion comprising a base and side panels extending upward orthogonally from the base. The channel-shaped portion is configured to receive the structural member on the base between the side panels. Back panels extending from respective ones of the side panels in planes that are orthogonal to the side panels and to the base. Top flanges extending from respective ones of the back panels in planes orthogonal to the back panels and the side panels are configured for attachment to an upwardly facing surface of the structural support. Openings in the side panels and back flanges are each configured to receive one of the fasteners to attach the hanger to one of the structural member and the structural support. Slots adjacent respective ones of the openings have different shapes than the openings. Each slot and the adjacent opening being shaped and arranged relative to each other to define a yieldable portion selected to deform at a load that is less than the shear load capacity of the fastener when received through the opening for connecting the hanger to one of the structural member and the structural support.
In yet another aspect, a method of making a hanger for connecting a structural member to a structural support so as to decrease a difference in shear load carried by fasteners connecting the hanger to the structural member and the structural support comprises forming from a blank of sheet metal a channel-shaped portion sized for receiving and supporting the structural member. Back flanges are formed from the blank of sheet and extend from the channel-shaped portion. Openings are formed in the channel-shaped portion and the back flanges. Slots formed adjacent each opening are positioned relative to the adjacent opening to define a yieldable portion selected to deform at a load that is less than the shear load capacity of the fastener when received through the opening for connecting the hanger to one of the structural member and the structural support.
Other objects and features will be in part apparent and in part pointed out hereinafter.
Corresponding reference characters indicate corresponding parts throughout the drawings.
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The side panels 34 and back panels 38 each have fastener holes 18 and energy dissipation slots 40 adjacent each fastener hole. The dissipation slots 40 comprise elongate openings positioned adjacent to respective fastener holes 18. The dissipation slots 40 are located nearer to the base 32 than their adjacent openings 18 in the side panels 34. In the back panels 38, the slots 40 are located farther from the base 32 than their adjacent openings 18. A region of the back panels 38 defined between each opening 18 and the dissipation slot 40 comprises a yieldable portion 42 (
In one embodiment, the hanger 10 is positioned on the header 14 so that the top flanges 16 engage the top surface 28 of the header. Once the hanger 10 is placed in the desired position on the header 14, screws 19 are driven through the fastener openings 18 in the top flanges into the top surface 28 of the header 14, thereby assuring the hanger 10 remains in the desired position. Screws 19 are inserted through the fastener holes 18 in the back panels and driven into the front face 26 of the header 14. Then, the joist 12 is inserted into the channel 36 so that the bottom of the joist engages the base 32 of the hanger 10. The hanger 10 is fastened to the joist 12 by screws 19 extending through fastener holes 18 in one of the side panels 34 and into the side of the joist. It will be understood that screws may be inserted through both side panels depending upon the construction of the joist 12. The hanger 10 is thus secured to both the joist 12 and the header 14, thereby mounting the joist on the header. It will be appreciated that variation in the order of connections made can be employed. In the illustrated embodiment, the fastener openings 18 are about 0.18 inches (0.46 cm) in diameter, and the screws 19 are #10 screws. Fastener openings and screws of other sizes may be used within the scope of the present invention. In one embodiment the slots have a length of about 0.375 inches (0.953 cm) and a height of about 0.125 inches (0.318 cm). The height of the slot 40 is less than the diameter of the fastener holes 18 so that the slot is not sized to receive a screw 19. This prevents a user from improperly inserting a fastener into the slots allowing the slots to serve their intended purpose. In one embodiment, a distance between the slot 40 and an adjacent fastener hole 18 is less than the diameter of the fastener hole.
In one embodiment, each yieldable portion 42 is configured to resist about 75% to about 90% of a fastener capacity of the adjacent screw 19, as determined by the American Iron and Steel Institute, AISI Standard, North American Specification for the Design of Cold-Formed Steel Structural Members and AISI S100-12-C, 2012 Edition, herein incorporated by reference. The yieldable portions 42 will deform without breaking into the slots 40 when the load reaches a level above their ability to resist. This allows movement of the screws 19 relative to the hanger 10 and shields the screws from higher loads that could cause them to be sheared off.
The joist 12 will be required to support loads after it is mounted on the header 14. Loads applied to the joist 12 in bearing are transferred to the hanger 10 through the base 32 and by the screws 19 where they engage the side panels 34 adjacent the openings 18. If the bottom surfaces of the top flanges 16 are not in flush engagement with the upper surface 28 of the header 14, the hanger 10 will tend to move downward with respect to the header until the bottom surfaces of the top flanges substantially conformally engage the upper surface of the header. The downward movement is small, but applies a large force against the screws 19 connecting the back panels 38 to the front face 26 of the header 14. Referring to
It will be understood that the downward movement of the hanger 10 relative to the header 14 can be as a result of either lack of flush engagement of the top flanges 16 with the upper surface 28 of the header 14 or lack of flush engagement of the back panels 38 with the front face 26 of the header, or may be a combination of the two. Lack of conformal engagement of either the top flanges 16 or the back panels 38 may be caused, for example, by the way in which the hanger 10 is applied to the header, or by a difference in the angle between the top flanges and the back panels and the angle between the upper surface of the header and the front face of the header. Many of the hangers 10 used in a structure may have full conformal engagement with the header 14 so that little or no movement of the hanger will occur.
Pivoting movement of the hanger 10 can cause the angle of the base 32 to change with respect to the bottom of the joist 12. This can cause the joist 12 to move downward slightly with respect to the hanger 10. Movement of the joist 12 relative to the hanger 10 applies loads via the screws 19 to the side panels 34 of the hanger. The loads are resisted by the yieldable portions 42 defined between the openings 18 and the slots 40 in the side panels 34. Before the load exceeds the capacity of the screws 19, the yieldable portions will deform without breaking downward into the slots 40 to accommodate movement of the screws and preventing failure of the screws in shear. In one embodiment, the yieldable portions 42 associated with both the side panels 34 and the back panels 38 are constructed to permit relative movement of the screws up to about ⅛ inch (0.32 cm) without failing.
Additionally, the construction of the hanger 10 allows for #10 screws to be used for both attaching the hanger to the header 14 and for attaching the joist 12 to the hanger. This alleviates the need to compensate for small movement of the hanger by using larger screws, such as #14 screws or larger, for attaching either the hanger 10 to the header 14 or the joist 12 to the hanger. Thus, the hanger 10 is able to function as well, if not better, with smaller screws than hangers that do not have the current design but that use larger screws.
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Having described the invention in detail, it will be apparent that modifications and variations are possible without departing from the scope of the invention defined in the appended claims.
When introducing elements of the present invention or the preferred embodiments(s) thereof, the articles “a”, “an”, “the” and “said” are intended to mean that there are one or more of the elements. The terms “comprising”, “including” and “having” are intended to be inclusive and mean that there may be additional elements other than the listed elements.
In view of the above, it will be seen that the several objects of the invention are achieved and other advantageous results attained.
As various changes could be made in the above products without departing from the scope of the invention, it is intended that all matter contained in the above description and shown in the accompanying drawings shall be interpreted as illustrative and not in a limiting sense.