A portion of the disclosure of this patent document contains material that is subject to copyright protection. The copyright owner has no objection to the reproduction of the patent document or the patent disclosure, as it appears in the U.S. Patent and Trademark Office patent file or records, but otherwise reserves all copyright rights whatsoever.
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The present disclosure relates generally to structural reinforcement systems for joists.
More particularly, the present disclosure relates to reinforcement mechanisms for metal joists. Open web steel joists are commonly used framing systems for roofs and floors in many buildings. The joists typically include top and bottom chords, each chord including double L-shaped chord angles spaced in a back to back orientation. A plurality of cross support members extend between and can be connected or welded to the top and bottom chord members. Some of the cross supports can be vertically or perpendicularly oriented with respect to the top and bottom chords, and some of the cross supports can be oriented at an angle or diagonally oriented with respect to the top and bottom chords. The cross supports can form panel points along the top and bottom chords where adjacent diagonal and cross support members converge.
Loads originally present on the joist can be designed for and be concentrated or localized on the top and/or bottom chords of the joist near a panel point, such that reinforcement of the top and bottom chords by the cross support members converging at the panel point can help support and distribute the load via the cross support members about the top and bottom chords of the joist. However, often times after a building is constructed, the building can be modified with new, additional, or replacement features which can increase the load profile on an existing joist in the building. One such situation is when a heating, ventilation, and air conditioning (HVAC) unit supported by a joist directly, or by a roofing structure that is supported by the joist, wears out over time and needs to be replaced. In many cases a new HVAC unit can be substantially heavier than the prior unit, which can affect the total and/or localized load requirements on one or more joists in the building. Other loads that can be added to or replaced on an existing joist can include, but are not limited to, lighting systems, plumbing systems, sprinkler systems, flooring systems, roof structures, solar panels, mechanical equipment, structural additions to the building, furniture, etc. Additionally, it is often desirable to place a new or additional load on an existing joist at a location on the top or bottom chord of the joist that is offset from a panel point. In many instances, a local reinforcement on a top or bottom chord, or a reinforcement of an entire top or bottom chord is necessary.
Conventional solutions for reinforcing metal joists include welding one or more supports or braces to the top or bottom chords. To reinforce the entire top or bottom chord, a reinforcement rod is welded along substantially the entire length of the chord. To locally reinforce a top or bottom chord at a single point along the top or bottom chord corresponding to the new load, a support or brace can be welded at one end to the top or bottom chord near the location of the new load, and the other end of the support or brace can be welded to a nearby panel point to locally reinforce the top or bottom chord of the joist and transfer the new load to the panel point.
However, welding these supports into place can overheat and weaken the structural integrity of the joists. Supports have to be properly fitted to the joists and this may involve several trips between the equipment being used to create the support and the joists. Specialized tools, e.g. welding equipment and masks, and certified welders have to be used to perform the welding. Welding is also a significant fire hazard inside of a building. Because of the risk of fire created by sparks, fire protection measures, e.g., weld blankets and additional safety staff, have to be employed during the welding process. Finally, welds have to be inspected after the welding process to ensure that supports have been properly welded to the joists. All of the above steps make welding reinforcement supports and braces burdensome and time consuming, which is undesirable.
U.S. Pat. No. 9,587,401 directed to a “bar joist reinforcement apparatus,” which is hereby incorporated by reference in its entirety, discloses a non-welded support device for single point or localized concentrated load reinforcement. However, the device in U.S. Pat. No. 9,587,401 was suitable for supporting loads that were vertically aligned with a panel point, and not loads that were offset from a panel point.
What is needed then are improvements to reinforcement systems for metal joists.
This Brief Summary is provided to introduce a selection of concepts in a simplified form that are further described below in the Detailed Description. This Summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.
One aspect of the present disclosure is a joist reinforcement apparatus for a joist having a top chord, a bottom chord, and plurality of cross supports extending between the top chord and the bottom chord, the plurality of cross supports forming panel points along the joist. The apparatus can include a panel point bracket assembly securable about one of the panel points of the joist. A load bracket assembly can be securable to either the top chord or the bottom chord of the joist opposite the panel point. An adjustable coupling assembly can have a first end pivotally connected to the panel point bracket assembly and a second end pivotally connected to the load bracket assembly. Having an adjustable coupling assembly pivotally connected to both a panel point bracket assembly and a load bracket assembly can allow the reinforcement apparatus to be secured to the panel point for strength and extend at an angle to a vertical axis from the panel point to support a load that is off centered from the panel point.
Another aspect of the present disclosure is a joist chord reinforcement apparatus for a joist having a chord with a first chord end and a second chord end, the apparatus including a first chord end bracket and a second chord end bracket. A first reinforcement rod can be securable between the first and second chord end brackets to clamp the first and second chord end brackets against corresponding first and second chord ends of the joist. At least one rod clamping assembly can be operable to clamp the first reinforcement rod to the chord at a location between the first and second chord end brackets when the first reinforcement rod is secured between the first and second chord end brackets and the first and second chord end brackets are clamped against corresponding first and second chord ends of the joist.
Metal joist chord reinforcement systems for reinforcement of a single point load along a chord, reinforcement of the chord along the entire chord length, or a combined reinforcement system including reinforcement along the entire length of the chord as well as single point load reinforcement are provided herein. Each of these systems can be utilized without having to weld any components to the joist chords to help avoid the difficulties associated with traditional welding reinforcement techniques.
Numerous other objects, advantages and features of the present disclosure will be readily apparent to those of skill in the art upon a review of the following drawings and description of a preferred embodiment.
While the making and using of various embodiments of the present invention are discussed in detail below, it should be appreciated that the present invention provides many applicable inventive concepts that are embodied in a wide variety of specific contexts. The specific embodiments discussed herein are merely illustrative of specific ways to make and use the invention and do not delimit the scope of the invention. Those of ordinary skill in the art will recognize numerous equivalents to the specific apparatus and methods described herein. Such equivalents are considered to be within the scope of this invention and are covered by the claims.
In the drawings, not all reference numbers are included in each drawing, for the sake of clarity. In addition, positional terms such as “upper,” “lower,” “side,” “top,” “bottom,” etc. refer to the apparatus when in the orientation shown in the drawing. A person of skill in the art will recognize that the apparatus can assume different orientations when in use.
A joist reinforcement apparatus 10 is disclosed in
One aspect of the present disclosure is a joist reinforcement apparatus 10 shown in
Having the adjustable coupling assembly 16 being pivotally connected to both the panel point bracket assembly 12 and the load bracket assembly 14 can allow the reinforcement apparatus 10 to be utilized as a cross support member to reinforce a load 19 along a chord 4 or 6 at a position that is offset vertically from the panel point 9, as shown in
As can be seen in
As shown in
In some embodiments, the chord portion 22 can be a generally U-shaped or C-shaped chord flange and the coupling portion 24 can also be a generally U-shaped or C-shaped coupling flange. The chord flange 22 and coupling flange 24 can extend in opposite directions from one another. The U-shaped chord flange 22 can include chord flange extensions 22a and 22b which can extend on either side of the top or bottom chords 4 and 6 such that the top or bottom chords 4 or 6 can be secured between the chord flange extensions 22a and 22b. The U-shaped coupling flange 24 can include flange extensions 24a and 24b which can similarly be configured to receive and extend on either side of the second end 20 of the adjustable coupling assembly 16 such that the second end 20 of the adjustable coupling assembly 16 can be pivotally connected between the coupling flange extensions 24a and 24b.
In other embodiments, the chord flange 22 and the coupling flange 24 can include single plates or flanges that can extend on one side of the top or bottom chords 4 or 6 and the second end 20 of the adjustable coupling assembly 16, respectively. Having a double flange arrangement for both the chord portion 22 and the coupling portion 24 can help provide stability for the connections between the chord portion 22 and the top or bottom chords 4 or 6 and between the coupling portion 24 and the second end 20 of the adjustable coupling assembly 16. In some embodiments, the chord portion 22 and the coupling portion 24 can be integrally formed together as a single unit, while in other embodiments the chord portion 22 and the coupling portion 24 can be mechanically connected together via suitable fasteners, including but not limited to, bolts, screws, adhesives, etc.
In some embodiments, the load bracket assembly 14 can be secured to the top or bottom chords 4 or 6 such that the load bracket assembly 14 is not permanently fixed to the top or bottom chords 4 or 6. The load bracket assembly 14 can include a clamping element 27 operable to secure the load bracket assembly 14 to either the top chord 4 or the bottom chord 6 of the joist 2. In some embodiments, the clamping element 27 can include one or more set screws 28 that can extend through at least one flange extension 22a or 22b in the chord portion 22 and abut the top or bottom chord 4 or 6 positioned within the chord flange extensions 22a and 22b to effectively clamp the top or bottom chord 4 or 6 between the flange extensions 22a and 22b. In some embodiments, corresponding set screws 28 can extend through both the first and second chord flange extensions 22a and 22b to clamp the chord 4 or 6 between the first and second chord flange extensions 22a and 22b from both sides of the chord 4 or 6.
In some embodiments, at least one first set screw 28a can extend through the first chord flange extension 22a toward the second chord flange extension 22b, and at least one second set screw 28b can extend through the second chord flange extension 22b toward the first chord flange extension 22a. In still other embodiments, multiple set screws 28 can be inserted through each chord flange extension and extend toward the opposite flange to provide multiple points of clamping force along the chord 4 or 6 between the coupling portion 22 and the chord 4 or 6. The chord flange extensions 22a and 22b can include threaded bores 30, which can receive a corresponding set screw. When the chord 4 or 6 is positioned within the coupling portion 22, the set screws can be tightened within the threaded bores 30 to force the set crews toward the chord 4 or 6 and increase the clamping force applied to the chord 4 or 6 to secure the load bracket assembly 14 to the chord 4 or 6. The frictional force produced by the clamping of the set screws 28 against the chord 4 or 6 can help prevent sliding of the load bracket assembly 14 on the chord 4 or 6 during use.
In other embodiments, various types of clamping elements can be utilized to clamp the load bracket assembly 14 to the chord 4 or 6, including but not limited to vice clamps of other eccentric cam-type clamping mechanisms that can be selectively actuated to force a cam or grip member against the chord 4 or 6 to clamp the load bracket assembly 14 to the chord 4 or 6.
In some embodiments, as shown in
In some embodiments, the load bracket assembly 14 can include at least one load attachment point 32 defined on the load bracket assembly 14 for loads suspended from the bottom chord 6 of the joist 2, as shown in
In some embodiments, the load attachment point 32 can be positioned centrally on the load bracket assembly 14 such that the load 19 can be carried in a balanced location on the load bracket assembly 14. In
Referring again to
Referring now to
In some embodiments, the panel point bracket bolt 42 can be a U-shaped or C-shaped bolt which can be shaped to extend between opposing side panel point brackets and around an angled cross support member 8b of the panel point 9. The panel point bracket bolt 42 can have opposing threaded ends that can be received through corresponding holes in the first and second side panel point brackets 38 and 40. Threaded nuts can be received on the opposing threaded ends of the panel point bracket bolt 42 to tighten the panel point bracket bolt 42 against the cross support member 8 of the panel point 9.
In some embodiments, a second panel point bracket bolt 44 can be connected to an opposing side of the first and second side panel point brackets 38 and 40 in a similar fashion as described above. As the first and second panel point bracket bolts 42 and 44 are tightened on the side panel point brackets 38 and 40, the first panel point bracket bolt 42 can be secured against one angled cross support member 8b of the panel point 9, and the second panel point bracket bolt 44 can be secured against the opposing angled cross support member 8b in order to clamp first and second side panel point brackets 38 and 40 to the panel point 9.
The first end 18 of the adjustable coupling assembly 16 can be pivotally connected to the panel point bracket assembly 12. In some embodiments, the first end 18 is positioned between and pivotally connected to the first and second panel point brackets 38 and 40. A panel point connection bolt 46 can be extended through a hole in the first side panel point bracket 38, through an eyelet on the first end 18 of the adjustable coupling assembly 16, and through a hole in the second side panel point bracket 40. A nut can be threaded onto the bolt 46 to secure the pivotal connection between the panel point bracket assembly 14 and the first end 18 of the adjustable coupling assembly 16. The first end 18 of the adjustable coupling assembly 16 can be sized to have clearance between the first and second side panel point brackets 38 and 40 such that the first end 18 can pivot or rotate about bolt 46.
In some embodiments, first and second side panel point brackets 38 and 40 can be integrally formed together on a flange or bracket including a connection piece spanning between the first and second side panel point brackets 38 and 40. The integrally formed flange or bracket can be inserted around the panel point 9 with first and second side panel point brackets 38 and 40 extending on either side of the panel point 9 and the connection piece extending around one of the angled cross support members 8b of the panel point 9. A single panel point bracket bolt 42 can then be connected to and tightened on an opposing side of the first and second side panel point brackets 38 and 40 from the connection piece to secure the panel point bracket assembly 12 on the panel point 9. In some embodiments, the connection piece can be an angled sidewall that can have an angular orientation corresponding to an angle of one of the angled cross support members 8b, such that a greater surface contact area between the connection piece and the angled cross support member 8b can be provided when the flange or bracket is installed around the panel point 9.
Referring now to
In some embodiments, the threads 55a and 55b within the turnbuckle associated with the first and second extension rods 50 and 52 respectively can have reverse directions or orientations such that if the turnbuckle receiver 54 is rotated relative to the first and second extension rods 50 and 52 the first and second extension rods 50 and 52 can be configured to either both extend outward from or retract into the turnbuckle receiver 54. As such, once the panel point bracket assembly 12 is secured to the panel point and the load bracket assembly 14 is connected to one of the top or bottom chords 4 or 6 to prevent first and second extension rods 50 and 52 from rotating about an axis of the extension rods 50 and 52 relative to the panel point bracket assembly 12 and the load bracket assembly 14 respectively, the turnbuckle receiver 54 can be rotated to either extend or retract the extension rods 50 and 52 simultaneously and potentially place the adjustable coupling assembly 16 in either a slight tension or slight compression state depending on the particular load being applied to the joist. For instance, in a suspended load, where the adjustable coupling assembly 16 would be placed in tension, it may be desirable to adjust the coupling assembly 16 via the turnbuckle receiver 54 to a slightly tensioned state to decrease any deformation when the load is suspended from the joist. Similarly, when a load is placed on a joist such that a compressive force would be applied to the adjustable coupling assembly, it may be desirable to place the adjustable coupling assembly 16 in a slightly compressed state such that when the load is applied to the joist deformation of the chords can be decreased.
Any suitable adjustment mechanism can be employed for the adjustable coupling assembly 16 that can allow for adjustment of the length of the coupling assembly 16. For instance in some embodiments, the adjustable coupling assembly 16 can include a single extension rod that can be received into a turnbuckle receiver 54 which can be pivotally connected directly to either the panel point bracket assembly 12 or the load bracket assembly 14. In other embodiments, as opposed to a threaded engagement, the extension rod can be a telescoping rod that can be coupled to the rod receiver by an adjustable pin such that the extension rod can extend from the rod receiver at discrete distances.
When the panel point bracket assembly 12 is secured about one of the panel points 9 of the joist 2, the load bracket assembly 14 is secured to either the top chord 4 or the bottom chord 6, and the load bracket assembly 14 is subjected to a load 19, the load 19 is transferred to the panel point 9 via the loading bracket assembly 14, the adjustable coupling assembly 16, and the panel point bracket assembly 12.
Having an adjustable coupling assembly 16 that is pivotally connected to the panel point bracket assembly 12 and the load bracket assembly 14 can allow the single point joist reinforcement apparatus 10 to support load that are vertically offset from the panel point as the reinforcement apparatus can be oriented angularly between the panel point bracket assembly 12 and the load bracket assembly 12 while the load can still be transferred back to the panel point 9 for structural support.
Another aspect of the present disclosure is a method of reinforcing a joist to support a supplemental load at a predetermined location on the joist, the joist having a top chord, a bottom chord, and a plurality of cross supports extending between the top chord and the bottom chord, the plurality of cross supports forming panel points along the joist, the method including the steps of securing a panel point bracket assembly about one of the panel points on the joist; pivotally connecting a first end of an adjustable coupling assembly to the panel point bracket assembly; pivotally connecting a load bracket assembly to a second end of the adjustable coupling assembly; and clamping the load bracket assembly to either the top chord or the bottom chord of the joist adjacent the predetermined location for the supplemental load. In some embodiments, the method can further include the step of suspending the supplemental load from the load bracket assembly.
The step of clamping the load bracket assembly to either the top chord or bottom chord of the joist can further include adjusting the adjustable coupling assembly to secure the load bracket assembly to either the top chord or the bottom chord of the joist at the desired location. In some embodiments, the desired location of the supplemental load can be vertically offset from the panel point.
In some embodiments, the panel point bracket further comprises a first panel point bracket, a second panel point bracket, and a bolt, and clamping the panel point bracket to the panel point can further include positioning the first and second panel point brackets on opposing sides of the panel point, and connecting the bolt between the first and second panel point brackets to secure the first and second panel point brackets about the panel point.
Another aspect of the present disclosure is a joist chord reinforcement apparatus 10 for reinforcing an entire chord shown in
In some embodiments, the first reinforcement rod 68 can include a first threaded end 72. The first chord end bracket 64 includes a first end hole 74, the first threaded end 72 of the first reinforcement rod 68 extendable though the first end hole 74. The first reinforcement rod 68 can further include a second threaded end 78. the second chord end bracket 66 can include a second end hole 80, the second threaded end 78 of the first reinforcement rod 68 extendable through the second end hole 80. A first clamping nut 76 can be tightenable on the first threaded end 74 of the first reinforcement rod 68 and a second clamping nut 82 can be tightenable on the second threaded end 78 to secure the first reinforcement rod 68 between the first and second chord end brackets 64 and 66 to clamp the first and second chord end brackets 64 and 66 against corresponding first and second chord ends 60 and 62 of the joist 2. The first reinforcement rod 68 can thus be clamped adjacent the chord 6.
In some embodiments, the first reinforcement rod 68 can include a plurality of rod segments 68a and 68b removably connected together, wherein a first rod segment 68a of the first reinforcement rod 68 is securable to the first chord end bracket 64 and a second rod segment 68b of the first reinforcement rod 68 is securable to the second chord end bracket 66. First and second rod segments 68a and 68b can then be connected together via a coupling nut 84. The coupling nut 84 can be configured to receive ends of adjacent rod segments 68a and 68b to removably connect the adjacent rod segments 68a and 68b together. In other embodiments, rod 68 can include one or more additional rod segments positioned between first and second rod segments 68a and 68b, each adjacent pair of rod segments connected together via a coupling nut 84. Having a rod made up of multiple rod segments can allow for easier shipping as the rod can be broken down into smaller segments. Additionally, segments of varying lengths can be connected together to accommodate chords having varying lengths, as opposed to having to tailor a given reinforcement rod 68 to a particular chord length in a single piece.
In some embodiments, the chord 6 of the joist 2 further includes a first chord side 86 and a second chord side 88, and the apparatus 10 can further include a second reinforcement rod 90 securable between the first and second chord end brackets 64 and 66. The first reinforcement rod 68 can be positionable on the first chord side 86 of the chord 6 and the second reinforcement rod 90 is positionable on the second chord side 88 of the chord 6 when the first and second chord end brackets 64 and 66 are positioned adjacent corresponding first and second chord ends 60 and 62 of the joist 2 and the first and second reinforcement rods 68 and 90 are secured between the first and second chord end brackets 64 and 66 to clamp the first and second chord end brackets 64 and 66 against corresponding first and second chord ends 60 and 62 of the joist 2. As can be seen from
Referring now to
Referring again to
In some embodiments, the first chord end bracket 64 and the second chord end bracket 66 each have either a C-shape or a U-shape, the first chord end 60 receivable in the first chord end bracket 64 and the second chord end 62 receivable in the second chord end bracket 66.
Another aspect of the present disclosure is a method of reinforcing a metal joist including a chord, the chord having a first chord end and a second chord end, the method including the steps of providing a first reinforcement rod having a first rod end and a second rod end; securing the first rod end to the first end of the chord; securing the second rod end to the second end of the chord; and clamping the first reinforcement rod to the chord in at least one location between the first and second chord ends. In some embodiments, the method can further include clamping the first reinforcement rod to the chord at multiple locations between the first and second chord ends.
In some embodiments wherein the joist includes a top chord, a bottom chord, and a plurality of cross support members extending between the top and bottom chords, the plurality of cross members forming at least one panel point along the joist where two or more of the cross support members converge, the clamping step of the method can further includes clamping the first reinforcement rod to the chord in at least one location between the first and second chord end brackets that is aligned with the at least one panel point of the joist.
In some embodiments, the securing steps can further include positioning a first chord end bracket against the first chord end; positioning a second chord end bracket against the second chord end; and securing the first rod end of the first reinforcement rod to the first chord end bracket and the second rod end of the first reinforcement rod to the second chord end bracket to secure the first rod end to the first chord end and the second rod end to the second chord end. The method can further include the step of tensioning the first reinforcement rod between the first and second chord end brackets. In some embodiments wherein the chord has a first side and a second side, the method further includes the steps of clamping the first reinforcement rod to the first side of the chord in at least one location between the first and second chord ends; providing a second reinforcement rod having a first second rod end and a second second rod end; securing the first second rod end to the first end of the chord; securing the second second rod end to the second end of the chord; and clamping the second reinforcement rod to the second side of the chord in at least a second location between the first and second chord ends.
As can be seen in
Thus, although there have been described particular embodiments of the present invention of a new and useful NON-WELD JOIST REINFORCEMENT SYSTEM AND METHOD, it is not intended that such references be construed as limitations upon the scope of this invention.
This application is a non-provisional of U.S. Patent Application No. 62/593,588 filed Dec. 1, 2017 entitled NON-WELD JOIST CHORD REINFORCEMENT SYSTEM, which is hereby incorporated by reference in its entirety.
Number | Date | Country | |
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62593588 | Dec 2017 | US |