1. Field of the Invention
The present invention generally relates to construction hardware used to mount utilities.
2. Description of the Related Art
For various purposes, conduit, pipe and miscellaneous architectural, decorative and mechanical devices are mounted to buildings. To do so, a wide variety of brackets and other hardware have been developed. Such hardware is frequently, if not universally, the subject of building code requirements, UL specifications and the like. Offset hangers are used to mount pipe and conduit to a wall stud or the like with a predetermined gap provided between the wall stud and the pipe or conduit. The offset defines the gap. Cantilevered forces, therefore, are applied to such hardware. Thus, it is advantageous to have structurally rigid and easily mounted hangers to secure utilities within a structure.
One aspect of an embodiment arranged and configured in accordance with certain features, aspects and advantages of the present invention comprises an offset hanger comprising an integrally formed body. The body comprises a central retainer portion, a first leg extending from the central retainer portion and a second leg extending from the central retainer portion. The central retainer portion comprises a main body having a portion of a generally cylindrical shape. The generally cylindrical shape has an axis. A first rib and a second rib are positioned along the main body and are spaced apart in an axial direction of the generally cylindrical shape. The first leg has a proximal end connected to the main body and the second leg has a proximal end connected to the main body. The central retainer portion comprises means for improving flexure of the central retainer portion.
In accordance with another embodiment, an offset hanger comprises an integrally formed body. The body comprises a central retainer portion, a first leg extending from the central retainer portion and a second leg extending from the central retainer portion. The offset hanger also comprises a first rib extending radially outward from the central retainer portion, and a second rib extending radially outward from the central retainer portion. The first rib is spaced apart from the second rib and the first rib is connected to the second rib by the central retainer portion. The first rib comprises a first notch and the second rib comprises a second notch. The first notch extends into the first rib toward the central retainer portion and the second notch extends into the second rib toward the central retainer portion.
In accordance with still another embodiment, an offset hanger comprises an integrally formed body. The body comprises a central retainer portion, a first leg extending from the central retainer portion and a second leg extending from the central retainer portion. The offset hanger also comprises a first rib extending radially outward from the central retainer portion, and a second rib extending radially outward from the central retainer portion. The first rib is spaced apart from the second rib. The first rib is connected to the second rib by the central retainer portion. The first rib comprises a nonuniform height and the second rib also comprises a nonuniform height.
These and other features, aspects and advantages of the present invention will be described with reference to drawings of a preferred embodiment.
With reference now to
As shown in
As illustrated, the legs 14, 16 preferably have distal ends that, in use, are supported on a support surface, which is represented by line S in
With reference still to
With reference now to
In the illustrated configuration, the legs 14, 16 extend away from the central retainer portion 12 such that they define an included angle β of less than about 90°. In one configuration, the included angle β is about 47°. Extensions of the legs 14, 16 would intersect at an intersection point I. In the illustrated configuration, the intersection point I is positioned further away from the legs than the central axis A (i.e., in
With continued reference to
As described above, the proximal ends of the legs 14, 16 preferably terminate at the central retainer portion 12. The distal end of each of the legs 14, 16 preferably terminates at a respect foot 30, 32. Each foot 30, 32 of the illustrated embodiment extends laterally outward from the associated leg 14, 16. The feet 30, 32 preferably define a plane along which the line S extends.
Each foot 30, 32 includes a respective opening 34, 36. The openings 34, 36 preferably are sized and configured to receive a fastener, such as a nail, screw or the like. In the illustrated configuration, the openings 34, 36 are generally circular. In some embodiments, the openings can have other configurations.
With reference now to
As shown best in
In use, the central retainer portion 12 of the offset hanger 10 is snapped onto a pipe or conduit and then fasteners, such as nails, screws or the like, secure the feet 30, 32 to a surface above which, or to the side of which, the pipe or conduit will be located. In some configurations, the offset hangers 10 first are secured in position and the pipe or conduit then is positioned within the central retainer portions 12. The rounded outer edges reduce the likelihood of damage to the pipe or conduit due to vibration. Moreover, the ribs 22, 44, 46 and gussets 40, 42 provide reinforcement to the offset hanger 10 at the outer extremities to provide a more secure grasp of the pipe or conduit.
With reference now to
The illustrated pair of notches 62 are generally axially aligned to provide a preferred axially oriented reduced stiffness plane of bending PB. The two notches 62 are preferably located at the top, or midpoint, of the central retainer portion 12. The reduced stiffness plane of bending PB improves flexure of the cylindrical central retainer portion 12 to facilitate a temporary increase of the included angle β, which increases the separation at the opening into the generally cylindrical central retainer 12, when snapping the offset hanger 60 onto the supported component. In some configurations, the included angle β, without forces applied, is between about 30 degrees and about 60 degrees and the included angle β increases to an angle between about 70 degrees and about 110 degrees. The increase in the included angle allows the legs 14, 16 to spread sufficiently apart to more easily accept a nominal pipe or conduit for which the offset hanger 60 is designed. For example but without limitation, to accommodate a 1¼ inch CPVC or IPS pipe, the offset hanger 60 can expand to provide an opening of about 1.475 inches, to accommodate a 1 inch CPVC or IPS pipe, the offset hanger 60 can expand to provide an opening of about 1.125 inches and to accommodate a ¾ inch CPVC or IPS pipe, the offset hanger 60 can expand to provide an opening of about 0.938 inch. In some preferred configurations, however, the offset hanger 60 does not expand to provide an opening that is as large as or larger than the resting inside measurement (e.g., diameter) of the generally cylindrical central retainer 12.
The notches 62 can be any formable, machinable, or otherwise manufacturable shape, e.g. circular, oval, square, hexagonal, polygonal, or the like. In the illustrated configuration, the notches 62 are pressed to define an about 0.625 diameter recess. Any suitable manufacturing process can be used.
As shown, the illustrated offset hanger 60 comprises a protruding rib portion 64 adjacent the notch 62. The protruding rib portion 64 extends axially away from a face surface 65 of the rib 22 in the region of the notch 62. The protruding rib portion 64 generally can be formed while deforming the rib 22 to define the notch 62. In other words, the rib 22 material is displaced axially to define the protruding rib portion 64 while also forming the recessed notch 62. The axially protruding rib 64 can generally extend in any angular direction relative to the face surface 65 of the rib 22. In some configurations, the protruding rib 64 extends at an angle between about 0 degrees and about 90 degrees relative to the face surface 65 of the rib 22, which face surface is generally perpendicular to the axis A. In most embodiments, an angle greater than about 90 degrees may interfere with the pipe or conduit that may be inserted through the central retainer portion 12.
With continued reference to
Each of the gussets 66, 68 includes two axially spaced surfaces extending in an angled direction toward each other from the legs 14, 16 and the feet 30, 32. The two axially spaced surfaces culminate in a radiused, or sharp, transition that defines the outermost surface 70 of the gussets 66, 68. The outermost surface 70 of each of the gussets 66, 68, as illustrated in the side view of
With continued reference to
With reference now to
The bending plane PB of the offset hanger 80 can be established by providing ribs that have nonuniform heights along their length. In the illustrated configuration, the nonuniform heights are provided by flaring the ribs 22 axially outward away from the main body 20 of the central retainer portion 12. When the ribs 22 are flared outward, the ribs 22 effectively are tapered in the flared region. Each rib 22 tapers from a nominal thickness rib portion 81 to a reduced thickness rib portion 82. In addition, the rib 22 is flared axially outward in the tapered rib portion 82 to establish the flared rib portion 84. The flared rib portion 84 is flared such that the axial width of the offset hanger 80 at the flared portion 84 is greater than the axial width of the remaining portions of the offset hanger 80 adjoining the ribs 22, such as the main body 20 and the legs 14, 16. In some embodiments, the bending plane PB can be established by the flared region of the ribs 22 without the ribs 22 being tapered. In some embodiments, the bending plane PB can be established by the ribs 22 being tapered without having the flared region of the ribs 22.
With continued reference to
The circumferential portion of the offset hanger 80 establishing the transitioning taper and outward flaring of the ribs 22 is defined by a transition region angle γ. The transition region angle generally is between about 45 degrees and about 180 degrees. In a preferred configuration, the transition region angle γ is close to about 180 degrees. In one configuration, the taper portion 82 begins substantially at the location where the associated rib 22 is extending generally tangential to an imaginary cylinder that is generally coaxial with the inner wall of the generally cylindrical central retainer portion 12 and that intersects the rib 22. Preferably, the angle γ is generally bisected by the center, or midpoint, of the tapered and flared rib 22 region. The center, or midpoint, of the tapered/flared rib 22 region is generally defined as the part of the tapered portion 82 intersected by the bending plane PB in
As described above, the central retainer portion 12 can comprise means for improving flexure. In the embodiment of
Although the present invention has been described in terms of a certain embodiment, other embodiments apparent to those of ordinary skill in the art also are within the scope of this invention. Thus, various changes and modifications may be made without departing from the spirit and scope of the invention. For instance, various components may be repositioned as desired. Moreover, not all of the features, aspects and advantages are necessarily required to practice the present invention. Accordingly, the scope of the present invention is intended to be defined only by the claims that follow.
This application is a continuation-in-part of copending U.S. patent application Ser. No. 12/398,429, filed on Mar. 5, 2009, which claims the benefit of priority under 35 U.S.C. §119(e) of U.S. Provisional Patent Application No. 61/033,907, filed Mar. 5, 2008. The contents of each of these applications is hereby incorporated herein by reference in its entirety.
Number | Date | Country | |
---|---|---|---|
61033907 | Mar 2008 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 12398429 | Mar 2009 | US |
Child | 12785231 | US |