The present invention relates to building construction, and more particularly to a joist hanger adapted to secure a joist to a wall or other structural support member with one or more drywall panels disposed between the end of the joist and the front surface of the structural support member.
Joist hangers are used in building construction to secure the ends of joists or other members to walls, headers and/or other support members. Typically, the joist hanger includes a u-shaped portion that receives the joist. The bottom surface of the joist rests on the seat of the hanger, and the side walls of the hanger are dimensioned to closely receive the side faces of the joist, providing it with lateral support.
Where appropriate, the joist may be connected to the hanger by means of nails driven through the side walls into the side faces of the joist. These nails may simply be driven horizontally into the joist, in which case they are preferably short nails that will not pass all the way through the joist. Alternatively, longer nails may be used that are driven horizontally and at an acute angle into the joist such that they are driven into the header as well. This has been referred to as double-shear nailing. The other common way to nail the hanger to the joist is to use short nails that are driven downward at an angle into the joist only.
Often, in order to connect the joist hanger to the header, back flanges are attached to the side walls. Generally, these flanges extend laterally from the side walls, to overlap a portion of the face of the wall. These flanges can extend inwardly or outwardly from the side walls, depending on design considerations.
Openings may be provided in the back flanges to receive fasteners. These fasteners are generally nails in light-frame wood construction. Screws and bolts are also used in wood construction, depending on the size of the members to be joined and other considerations. In light-gauge steel construction, sheet metal screws, bolts and rivets are commonly used.
In perhaps the simplest hangers, the back flanges extend outwardly from the side flanges, providing an easily-accessed fastening face. Fasteners are then driven though the back flanges into the support wall. In other instances, design considerations dictate which particular attachment method is used for attaching the joist and the hanger to the support wall.
In addition, top flanges may be attached to the back flanges to aid in attaching the hanger to the support wall. Hangers with top flanges are generally referred to as top-flange hangers. Hangers without top flanges are generally referred to as face-mount hangers. If the top flanges wrap over the top of the header and down the back of the header, the hanger can be called a wrap-around hanger. Again, various design considerations dictate what features are present in a hanger, and various building considerations dictate which hanger, or type of hanger, is used in a particular situation. Generally, if a top flange is used and the header is made of wood, pre-formed holes are provided in the top flanges to receive suitable fasteners for connecting the top flange to the header. Such fastener openings may not be present in light-gauge steel construction because the hanger is typically fastened to the support wall with self-drilling sheet metal screws or by welding.
As mentioned above, it is often desirable to fasten the joist to the hanger. This is generally done to resist uplift forces acting on the joist. Such forces are often caused by lateral loading on the building due to high winds or seismic activity. Also, one end of a joist must be downwardly restrained if that joist is cantilevered (e.g., to support an overhanging deck). As mentioned above, openings may be provided in the side walls of the hanger so that the joist can be held down with fasteners driven through the openings and into the joist.
Drywall is used in fire barriers, but it can be difficult to shield supporting structural members like top plates and headers at the connection between the supporting wall and a supported joist, because drywall is susceptible to cracking and crushing and has little bearing strength with regard to fasteners received in the drywall. The present invention allows drywall to be easily applied to the supporting structural members, providing some shielding from fire and heat, and provides a joist hanger connection that still allows the drywall to serve as a fire barrier. Importantly, the present invention does not require additional components. The drywall can simply be notched where the projecting side walls of the hanger will pass through the drywall, and then the drywall is inserted between the end of the joist and the wall.
The present invention uses sufficiently strong material for the side walls and the back flanges of the hanger such that they can hold the hanger away from the header and against the one or more drywall panels disposed between the joist and the support member without sagging. The hanger bears the load of the joist without crushing the drywall either during installation or use.
The present invention provides a connection that allows a joist hanger carrying a joist to be attached to a supporting structural member with fire-resisting, drywall panels interposed between the end of the joist and the supporting structural member such that the drywall panels can help shield the supporting structural member from damage from fire, while providing a strong connection between the joist and the supporting structural member.
The present invention provides a connection in which a joist hanger is fastened to a structural member with drywall panels that have little or no dowel bearing strength being interposed between the end of the joist and the surface of the structural member. The drywall panels cover enough of the end of the joist and enough of the surface of the structural member such that the drywall panels provide some protection to the structural member from the effects of fire.
The present invention provides a connection in which a portion of the joist hanger is held away from the supporting structural member to which it is attached. The present invention provides a joist hanger that has side walls or side members that extend through the one or more drywall panels interposed between the portion of the joist hanger that receives the joist and the supporting structural member. The present invention allows drywall panels to be placed over a supporting structural member thereby providing some shielding from the deleterious effects of fire and heat, with substantial portions of the top edges of the drywall panels reaching at least as high as the top of the structural support member.
The present invention provides a connection in which the joist hanger is provided with a stand-off member for holding the joist away from the support wall.
In one form of the joist hanger, the stand-off is attached to the back plate member or top flange of the joist hanger. In one form of the joist hanger, the stand-off is attached to one or more of the side walls of the joist hanger.
The present invention provides a connection in which the joist hanger is connected to the supporting structural member by cantilevered side walls that extend through the one or more drywall panels.
The present invention provides a joist hanger that can be fastened to a structural support member with substantially non-load-bearing drywall panels being interposed between the end of the joist and the structural support member.
The present invention provides a hanger with a stand-off member that spans the distance between the end surface of the joist and the support member front face.
The present invention provides a hanger with side walls having back edges, with the upper portions of the back edges of the side walls being offset from the respective lower portions of the back edges of the side walls.
As shown in
Preferably, the one or more drywall panels 6 shield the structural support member 4, and each of the one or more fire-resistant panels 6 has a front face 7, a back face 8 opposite the front face 7, and negligible dowel bearing strength. In order to show the vertically disposed studs and top plate 4 that makes up the wall the panels 6 are not shown as covering these members completely; however, preferably the panels 6 cover all of the structural members that make up the wall to a substantial degree to help protect them from fire.
Preferably, the structural support member 4 has a substantially vertical front face 16 and significant dowel bearing strength. The joist hanger 2 preferably supports the joist 3. The joist 3 has an end face 13 spaced away from the front face 16 of the structural support member 4.
Preferably, the joist hanger 2 has one or more back plate members 9. In
The first back plate member 9 preferably has a first back face 10 in parallel registration with the front face 16 of the structural support member 4. Preferably, the second back plate member 9, if present, also has a second back face 10 in parallel registration with the front face 16 of the structural support member 4. The first side member 11 preferably is connected to the first back plate member 9. Preferably, the second side member 11 is connected to the first back plate member 9 or the second back plate member 9, if present.
As shown in
The one or more back plate members 9 preferably are planar, with front faces 19 opposite the back faces 10. In the embodiment shown in
The joist hanger 2 of the present invention is preferably formed from sheet steel.
The first and second side members 11 preferably are planar as well, with first and second inner faces 27 that face the joist 3, and first and second outer faces 28 opposite the first and second inner faces 27.
As shown in
The first and second side members 11 preferably have first and second front edges 30 opposite the first and second back edges 29.
The first and second back edges 29 preferably have lower portions 31 and upper portions 32 with the first and second lower portions 31 being offset from the first and second upper portions 32. This creates space between the lower portion of the first and second side members 11 where the drywall panels 6 can be inserted behind the end of the joist 3 without having to notch or disturb these portions of the drywall panels 6. The side members 11 are generally L-shaped members with the upper portions extending through the drywall panels 6. As shown in
The first and second side members 11 preferably have first and second top edges 33. As shown in
The one or more panels 6 preferably are drywall panels 6. Drywall, otherwise known as plasterboard, wallboard, gypsum board, sheetrock, or gyprock, is typically a panel made of gypsum plaster pressed between two thick sheets of paper. It is used as part of interior walls and ceilings. In the United States and Canada, drywall panels are manufactured in 48-inch wide panels in varying lengths. Common panel thicknesses are ½-inch and ⅝-inch. In the present invention, two layers of ⅝-inch drywall is preferred. Drywall is naturally fire resistant and can be used to cover and protect the structural members of a building. However, gypsum is friable and has little or no dowel bearing strength. Other panel materials and qualities are also possible.
Preferably, the joist hanger has a seat member 12 interconnecting the first and second side members 11, and the joist 3 rests on the seat member 12 between the first and second side members 11.
Preferably, the back surface 8 of the rearmost drywall panel 6 and the upper portions 32 of the back edges 29 of the side members 11 contact or are in close proximity to the front face 16 of the structural support member 4. The side members 11 extend through the drywall panels 6. Preferably, the joist hanger 2 is not embedded in the structural support member 4, although it is attached to the structural support 4 member with fasteners 5, and while not shown the wall can have members above what is shown in the Figs., including additional panels 6. The seat member 12 preferably has an upper face 36 that interfaces with the joist 3. The seat member 11 also preferably has a lower face 37 opposite the upper face 36, first and second linear side edges 38, a back edge 39 that can be orthogonal to the first and second side edges 38, and a front edge 40 that can be parallel to the back edge 39. The first and second side edges 38 preferably form an angular joint 48, where they meet the first and second bottom edges 34 of the first and second side members 11.
The joist hanger 2 has one or more top flanges 15 connected to the one or more back plate members 9. The one or more top flanges 15 preferably contact the top face 17 of the structural support member 4. Although, the top face 7 of the structural support member does not need to be the top of the wall, and additional panels 6 could be disposed above the panels shown 6. Preferably, the one or more top flanges 15 are fastened to the structural support member 4. The structural support member 4 preferably has a top face 17, the first and second top flanges 15 are fastened to the top face 17 of the structural support member 4. Preferably, the first and second top flanges 15 are fastened to the structural support member 5 with one or more fasteners 5. As shown these fasteners 5 can be nails.
The one or more top flanges 15 preferably are planar, with upper faces 41 and bottom faces 42 opposite the upper faces 41. Preferably, the bottom faces 42 contact the top face 17 of the structural support member 4. The one or more top flanges 15 preferably have front edges 44 and back edges 45. The back edges 45 can be formed with a series of spaced notches 63 with tabs 64 between the notches 63. The front edges 44 preferably form an angular joint 49, preferably orthogonally where they meet the one or more top edges 24 of the one or more back plate members 9. The first and second top flanges 15 can be formed with fastener openings 46. The tabs 64 can have fastener openings 46 for placing the fasteners 5 farther from the support member from face 16 while the notches 63 between the tabs 64 conserve material of the one or more top flange 15.
Typically, the structural support member 4 is a top plate 4 which can consist of one or more parts 50. The parts 50 of the top plate 4 can be two pieces of nominal 2″×4″ or 2″×6″ dimensional lumber 50. The structural support member 4 can include the studs 52 that support the structural support member 4 and make up the wall. Only a few studs 52 are shown in the drawings, but typically studs 52 will be spaced uniformly along and underneath the top plate with more studs 52 being used where more bearing strength is needed.
Preferably, each of the one or more panels 6 has a top edge face 14 and the structural support member 4 has a top face 17. In the preferred embodiment, only a small notch 51 is made in the one or more drywall panels 6 between the end 13 of the joist 3 and the structural support member 4 such that most of the top edge face 14 of each of the one or more panels 6 preferably is located at the level of the top face 17 of the structural support member or above the top face 17 of the structural support member 4, thereby helping to shield and protect the structural support member 4. Similarly, the drywall panels 6 are disposed between most of the end 13 of the joist 3 and the wall of which the structural support member 4 is a part.
As shown in
Substantially all of the one or more back faces 10 of the one or more back plate members 9 preferably interfaces with the front face 16 of the structural support 4. The joist hangers 2 of
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Number | Date | Country | |
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Parent | 16370582 | Mar 2019 | US |
Child | 17576983 | US |
Number | Date | Country | |
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Parent | 16001821 | Jun 2018 | US |
Child | 16370582 | US |