Information
-
Patent Grant
-
6345689
-
Patent Number
6,345,689
-
Date Filed
Thursday, January 27, 200025 years ago
-
Date Issued
Tuesday, February 12, 200223 years ago
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Inventors
-
-
Examiners
- Stodola; Daniel P.
- Thompson; Hugh B.
Agents
- Marsh Fischmann & Breyfogal LLP
-
CPC
-
US Classifications
Field of Search
US
- 182 45
- 182 82
- 182 113
- 256 65
- 256 DIG 6
- 256 59
- 248 148
- 248 237
-
International Classifications
-
Abstract
A rooftop fall protection system is disclosed. In one embodiment, the system includes a plurality of at least generally J-shaped stanchions which are attached to the roof. The shorter leg of each stanchion engages the underside of one of the roofing rafters and extends downward lay therefrom, the longer leg of each stanchion is interconnected with the roof's facia board by a facia board mounting clamp and extends upwardly from the roof, while the interconnecting portion between the above-noted legs extends under the facia board. The facia board mounting clamp allows the corresponding stanchion to slide therethrough so as to establish contact with the underside of one of the rafters as noted above. Thereafter, the facia board mounting clamp may be fixed to the corresponding stanchion in an appropriate manner. This allows the stanchion to be used for multiple pitches for roofs. Installation of a plurality of the noted stanchions allows at least one, and preferably a plurality of, cross-members to be mounted on/extend between adjacent stanchions to establish a barrier of sorts.
Description
FIELD OF THE INVENTION
The present invention generally relates to the field of fall protection devices which are attached to roofs of building structures and, more particularly, to a more universal fall protection device in relation to any one or more of roof pitch, roof overhang, and facia board height.
BACKGROUND OF THE INVENTION
Construction work can be a very dangerous profession. More and more regulations are being put into effect to address the safety of construction workers. One example is in relation to roofing work where construction workers are installing or repairing a roofing structure. Rooftop fall protection devices which meet certain requirements are now required by OSHA for at least certain types of work being done on at least certain types of roofs.
Various rooftop fall protection devices have been proposed in the past. Few if any have met with any degree of commercial success. There are numerous contributing factors. One is the complexity of many of the rooftop fall protection devices. Complex designs mean increased manufacturing costs which are of course passed on to the contractor. Contractors will often have a number of roofing jobs going on at the same time which increases the number of fall protection devices which the contractor must purchase. Many contractors simply cannot afford to maintain an adequate inventory of fall protection devices such that the use of fall protection devices becomes cost prohibitive. Increased complexity of the design of the fall protection device also usually means a large number of parts. As the number of parts increases, so to does the likelihood that one or more of these parts will be lost or misplaced. Lost or misplaced parts may render the fall protection device unusable or unsafe if installed, both of which defeats the purpose of the above-noted regulations.
Installation may also may become an issue if complex designs are implemented in a given rooftop fall protection device. Certain complexly designed fall protection devices may be time consuming to install. Either the construction job will become more expensive or the installation will be done in haste which increases the likelihood of an improper and thereby unsafe installation. Some rooftop fall protection device designs may be so complex that they would require a contractor to spend adequate time, and therefore money, on training personnel on the proper installation and/or use of the fall protection device. This is somewhat unrealistic due to the often transient nature of construction crews where individual crew members often come and go. Without proper training and if the design is complex, the rooftop fall protection device will often be left on the ground or it will be improperly installed. All of these scenarios are undesirable.
Another factor which has likely adversely affected the commercial success of rooftop fall protection systems is the lack of uniformity in rooftop construction. More and more different pitches are being used in current construction projects. Many fall protection devices are designed for use with only a single roof pitch, which means that the contractor would be required to further increase the inventory of rooftop fall protection devices. Those rooftop fall protection devices that may be used on multiple roof pitches likely utilize a complex design. Both of these factors introduce the above-noted types of drawbacks.
Finally, many rooftop fall protection devices simply are not practical for the type of work which must be done on the roof. Any rooftop fall protection device which is disposed on the roofing surface or on the surface on which the roof is to be installed limits the instances in which the device may be used. Consider a situation where the rooftop fall protection device is designed to attach to a deck (e.g., plywood nailed onto the upper surfaces of the roofing rafters). This means that up until the time that the deck is installed, the fall protection device would be unusable. Relatively significant safety issues exist in roofing applications up to the time that the deck is installed. Having the fall protection device installed on the deck or other roofing surface also limits the amount of the roof which may be worked on with the fall protection device installed. How is that portion of the roof between the fall protection device and the edge of the roof to be worked upon? These are just some of the impracticalities associated with some rooftop fall protection device designs which have been proposed.
FIG. 1
presents a rooftop fall protection system
70
which is admitted to be in the prior art and which is installed on a roof
5
. Generally, the roof
5
includes a plurality of laterally-spaced rafters
10
(only one shown). One characteristic of the roof
5
relates to the orientation of the rafters
10
. Each rafter
10
is disposed at a first angle
65
relative to a horizontal reference plane and which is effectively tantamount to the pitch of the roof
5
. Another characteristic of the roof
5
is its overhang which is that portion of the roof
5
which extends beyond a vertically-disposed wall (not shown) which supports the roof
5
.
Each rafter
10
includes a first rafter end
15
which is fixed to an at least generally horizontally disposed facia board
40
. The rafters
10
extend from this facia board
40
to a peak associated with the roof
5
along a generally longitudinally or axially extending path. Each rafter
10
further includes a first rafter edge surface
25
(“top” surface), a vertically spaced second rafter edge surface
30
(“bottom” surface), and a pair of laterally spaced rafter side surfaces
35
. Roofing materials are installed on the first rafter edge surface
25
. The rafters
10
are thereby disposed “on edge” in the installed position. That is, the distance between the first rafter edge surface
25
and the second rafter edge surface
30
is typically greater than the distance between the pair of rafters side surfaces
35
. Typical dimensions used for the rafters
10
include 2×4s. Other dimensions for rafters
10
have been used.
The facia board
40
extends along the edge of the roof
5
and is attached to each of the rafters
10
which interfaces therewith such as by nails or the like. More specifically, the facia board
40
includes a first facia board side surface
45
which projects at least generally away from the roof
5
, a second facia board side surface
50
which interfaces with the rafters
10
, a first facia board edge surface
55
which projects at least generally “upwardly”, and a vertically spaced second facia board edge surface
60
which projects at least generally “downwardly.” The facia board
40
is thereby disposed “on edge” in the installed position. That is, the distance between the first facia board edge surface
55
and the second facia board edge surface
60
is typically greater than the distance between the first facia board side surface
45
and the second facia board side surface
50
. Various dimensions are now being used for the facia boards
40
, including 2×4s, 2×6s, 2×10s, and 2×12s.
The fall protection system
70
is installed on the roof
5
to protect workers from falling off the same. One component of the fall protection system
70
is a plurality of stanchions
75
which are spaced along the facia board
40
(only one shown in FIG.
1
). Each stanchion
75
is defined by a first stanchion section
80
which is at least generally longitudinally extending and vertically disposed when mounted on the particular roof
5
of
FIG. 1
, and a second stanchion section
85
which is also least generally longitudinally extending and horizontally disposed when mounted on the particular roof
5
of FIG.
1
. As such, the stanchions
75
utilize an L-shaped profile. The stanchions
75
are of an integral structure such that there is no mechanical joint between the first stanchion section
80
and the second stanchion section
85
. This integral structure with the noted profile is formed by a bending operation. Another key component of the fall protection system
70
is a plurality of vertically spaced cross-members
92
which extend between at least two of the stanchions
75
. In this regard, each stanchion
75
includes a plurality of cross-member brackets
90
which define a pocket in which a given cross-member
92
may be disposed.
Two points of interconnection exist between each stanchion
75
and the roof
5
. One is on the facia board
40
and another is on one of the rafter side surfaces
35
of one of the rafters
10
. In this regard, each stanchion
75
includes a facia board mounting bracket
95
which is fixed to the second stanchion section
85
(e.g., via welding) and through which an appropriate fastener
105
(e.g., screw) extends into the facia board
40
. Each stanchion
75
further includes a rafter mounting bracket
100
which is also fixed to the second stanchion section
85
(e.g., via welding) and to which an appropriate fastener
105
extends into the corresponding rafter
10
through one of its rafter side surfaces
35
.
There are a number of key limitations regarding the fall protection system
70
of FIG.
1
. One is that the fall protection system
70
was designed for use with a facia board
40
of only one height, or a facia board
40
having only a certain distance between the first facia board edge surface
55
and the second facia board edge surface
60
. There is a fixed positional relationship between the facia board mounting bracket
95
and the remainder of the stanchion
75
. If a facia board
40
having a height greater than that illustrated in
FIG. 1
is used, and if the stanchion
75
is to be retained in the illustrated position with the first stanchion section
80
being disposed perpendicular to the horizontal, the rafter mounting bracket
100
would be too short and could not be properly fixed to the rafter
10
. Another key limitation regarding the fall protection system
70
is that it is designed for use with effectively only a single pitch for a roof
5
due to the fixed positional relationship between the rafter mounting bracket
100
and the remainder of the stanchion
75
, and further between the facia board mounting bracket
95
and the remainder of the stanchion
75
. If the pitch of the roof
5
varied significantly from that illustrated in
FIG. 1
, and if the stanchion
75
is to be retained in the illustrated position with the first stanchion section
80
being disposed perpendicular to the horizontal, the hole through the rafter mounting bracket
100
may be disposed too close to one of the rafter edge surfaces
25
,
30
to provide for a safe installation, or may miss the rafter
10
entirely such that the bracket
100
could not even be attached thereto. In the event that the fall protection system
70
was installed on a roof having a pitch different than that illustrated in FIG.
1
and the stanchion
75
was pivoted relative to the facia board
40
so as to allow the hole through the rafter mounting bracket
100
to be aligned with the rafter
10
at an appropriate location on the rafter, the first stanchion section
80
of the stanchion
75
would no longer be vertically disposed. Moreover, there would not be an abutting relation between the facia board mounting bracket
95
and the facia board
40
, or between the rafter mounting bracket
100
and the rafter
10
. This all may reduce the effectiveness of the fall protection system
70
in retarding the movement of a worker falling down the roof
5
.
BRIEF SUMMARY OF THE INVENTION
The present invention relates to fall protection devices which are attachable to a roof. One roof design on which fall protection devices in accordance with the principles of the present invention may be installed/used includes a facia board and a plurality of rafters. The facia board defines the edge of the roof in that the noted rafters are attached thereto and extend upwardly and away therefrom, such as toward a peak associated with the roof. The facia board includes first and second facia board side surfaces. Typically the first and second facia board side surfaces will be substantially parallel to each other and disposed in an at least substantially vertical orientation when installed on the roof (i.e., perpendicular to a horizontal reference plane). Although facia boards of differing dimensions are now commonly being used in residential construction, one common facia board is a 2×6. In this case the noted first and second facia side surfaces would correspond with surface defined by the 6 inch (actually 5.5 inches) dimension and the length of the facia board, such that the facia board would be installed “on edge” on the roof (i.e., with the two inch (actually 1.5 inch) dimension defining the thickness of the facia board).
The plurality of rafters are defined herein as extending upwardly and away from the second facia board side surface at a first angle relative to a horizontal reference plane (i.e., relating to/defining a pitch associated with the roof, which may include more than pitch). These rafters are further defined as including a first rafter edge surface on which roofing materials may be installed (e.g., a plywood deck, shingles) and a second rafter edge surface which is opposite the first rafter edge surface (e.g., “underneath” the roof). Although rafters of differing dimensions may be used in roofing applications, one common roofing rafter is a 2×4. In this case the first and second rafter edge surfaces would correspond with the surface defined by the 2 inch (actually 1.5) dimension and the length of the rafter, such that the rafter would be installed “on edge” on the roof (i.e., with the two inch (actually 1.5 inch) dimension defining the height of the rafter). Typically the end of the rafter which interfaces with the facia board is cut at an angle other than perpendicular to the edge surfaces of the rafter so as to dispose the facia board in the above-noted at least substantially vertical orientation on the roof.
A first aspect of the present invention is embodied in a rooftop fall protection system which includes at least one stanchion. Typically a plurality of these stanchions will be installed along spaced locations on the edge of the roof. At least one, and typically a plurality of, cross-members will extend between and be supported by at least adjacent stanchions to define a barrier of sorts along the edge of the roof which is under construction or repair. How these stanchions are attached to and interface with the roof is effectively the subject of this first aspect of the present invention. In this regard, the subject stanchion includes structure for fixing the stanchion to the first facia board side surface, or that surface of the facia board which is opposite that from which the rafters extend away from the facia board. The subject stanchion further includes means for engaging the second rafter edge surface of one of the plurality of rafters, or that surface of the rafter which is opposite that from which roofing materials are typically installed on the rafters. Preferably these are the only two points of contact between the stanchion and the roof for purposes of “supporting” the fall protection system on the roof. As such, the fall protection system in accordance with this first aspect of the present invention does not impair the ability of the construction workers to work on the entirety of the roofing surface.
Various refinements exist in relation to the above-noted features of the subject first aspect of the present invention. Further features may also be incorporated in the subject first aspect of the present invention as well. These refinements and additional features may exist individually or in any combination. The structure for fixing the stanchion to the first facia board side surface may include a mounting bracket. This mounting bracket in turn may include an at least substantially U-shaped section through which a vertically extending portion of the stanchion slidably extends. Collapsing or drawing in the open portion of this U-shaped section may be used to clamp the mounting bracket about the stanchion and maintain such in a fixed position relative to the mounting bracket. Another portion of the mounting bracket may be disposed to interface with the first facia board surface and may include at least one aperture to direct an appropriate fastener therethrough and into the facia board. Preferably this latter portion of the mounting bracket is a substantially planar surface to provide an appropriate interface with the first facia board side surface. Moreover, preferably the mounting bracket extends away from the first facia board side surface a certain distance such that when one of the cross-members is mounted on an adjacent stanchion, an edge thereof will be disposed on or substantially proximate to and uppermost surface of the facia board (e.g., to define a toe board of sorts to reduce the potential for materials sliding down and off the roof). Other types of facia board mounting brackets which include a collar or the like through which the stanchion may slidable extend may be used. Moreover, the position of the stanchion relative to the facia board mounting bracket may be maintained in other manners, such as by the use of one or more set screws or the like.
The structure for engaging the second rafter edge surface of one of the plurality of rafters may be realized through a configuration of the stanchion which directs the stanchion under the facia board and then upwardly into engagement with the second rafter edge surface of one of the rafters. With the stanchion being fixed to the facia board in the above-noted manner and if a force is exerted on that portion of the stanchion which is extending upwardly and away from the roof, the stanchion will exert a compressive force on its associated rafter which makes for a firm interconnection between the stanchion and the roof. A rafter mounting bracket may be provided on the stanchion to reduce the potential for the stanchion being twisted away from a position where it no longer engages the second rafter edge surface of its associated rafter. A suitable fastener (e.g., screw, threaded bolt) may extend through this rafter mounting bracket and into the corresponding rafter (therethrough in the case of the threaded bolt such that a nut could be disposed on the opposite side of the rafter) to positionally fix the stanchion relative to the rafter.
As noted, the stanchion may be configured such that it engages the second rafter edge surface (again, the surface of the rafter opposite that on which roofing materials are typically installed). One configuration of a stanchion which would provide this function is a stanchion which is at least generally J-shaped. Another way of describing this type of stanchion would be a stanchion having first, second, and third stanchion sections, having first and second free ends, and having the second stanchion section being at least generally semi circular or at to define a generally concave shape for the lower portion of the stanchion to go “down and around” the facia board. In this regard, the first stanchion section would extend away from the first free end at least generally in a first direction (e.g., downwardly) to one side of the second stanchion section, the second stanchion section would extend underneath the facia board, and the third stanchion section would extend from the other side of the second stanchion section in a second direction (e.g., upwardly) to the second free end for engagement with the second rafter edge surface. It need not be a “free end” of the stanchion that engages the second rafter edge surface, but instead could be any portion of the stanchion or structure interconnected therewith. For instance, a “bend” could be formed in the third stanchion section which actually engaged the second rafter edge surface or a generally u-shaped bracket could be incorporated into the structure of the stanchion to engage the second rafter edge surface and at least a portion of the rafter side surfaces of a short segment of the subject rafter. Although the stanchion is described as being multi-sectional, preferably it is of integral (i.e., one piece) construction such that there are no joints between the first and second stanchion sections or between the second and third stanchion sections.
In one embodiment, the stanchion may be formed from a piece of square tubing and may be bent into the above-noted profile. Further increases to the strength of the stanchion may be affected by forming a radius on an upper and lower surface of the square tube which will define the surface of the second stanchion section which projects toward the undersurface of the facia board and the surface of the second stanchion section which projects away from the undersurface of the facia board, respectively. These radii may extend toward each other to define opposing concavities for the “upper” and “lower” surfaces of the second stanchion section.
The stanchion of the subject first aspect of the present invention may be configured to work with any roof pitch, with any overhang of 5 inches or more (5 inch overhangs are typically the minimum, with the overhang being the distance of the facia board from the adjacentmost wall which supports the roof and as measured along the horizontal), or both, all while maintaining the portion of the stanchion which supports the cross-members in a vertical position or perpendicularly to a horizontal reference plane. Consider the situation where the stanchion is defined by an at least generally J-shaped structure and where the stanchion includes a facia board mounting bracket which may be fixed to the first facia board side surface and which has an aperture through which the longer leg of the J-shaped stanchion may slidably extend. By allowing the longer leg of the J-shaped stanchion to slide through this aperture in the mounting bracket until the shorter leg of the “J” engages the second rafter edge surface of one of the rafters, and by thereafter allowing the stanchion to be secured to or maintained in a fixed position relative to the mounting bracket (e.g., via the above-noted clamping-like action), it can be seen that the stanchion of the subject first aspect may be used with any roof pitch. At most a change in pitch of the roof will only change the distance which the longer leg of the “J” extends vertically beyond the uppermost surface of the facia board. Selecting an appropriate radius for the arcuate portion of the J-shaped structure of the stanchion in the above-described configuration, or the distance between the first and second stanchion sections, further facilitates the use of the stanchion with any roof pitch, as well as having a third stanchion section of suitable length. However, this also allows the stanchion to be used on roofs having different facia board heights (the vertical dimension of the facia board), different overhang widths, or both. In one embodiment, the radius of the arcuate portion of the noted J-shaped structure is about 3.75 inches, which allows the stanchion to be used on any roof having an overhang of at least 5 inches.
BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING
FIG. 1
is an end view of a prior art rooftop fall protection system.
FIG. 2
is a perspective view of a rooftop fall protection system in accordance with principles of the present invention as installed on a roof of an exemplary building.
FIG. 3
is a view of one end of one of the stanchions of the fall protection system illustrated in FIG.
2
.
FIG. 4
is a front view of the stanchion illustrated in FIG.
2
.
FIG. 5
is a view of the other end of the stanchion illustrated in FIG.
2
.
FIG. 6
is a top view of a facia board mounting bracket used by the stanchion of FIG.
3
and in the “unclamped” position.
FIG. 7
is a top view of the facia board mounting bracket used by the stanchion of FIG.
3
and in the “clamped” position.
FIG. 8
is the same view of the fall protection system presented in
FIG. 3
, but on a roof having a different pitch and facia board height.
FIG. 9
is a perspective view of the lower portion of the stanchion illustrated in FIG.
3
.
FIG. 9A
is a cross-sectional view take a long line
9
A—
9
A in FIG.
9
.
FIGS. 10A-B
are alternate configurations for stanchions which may be incorporated into the rooftop fall protection system illustrated in FIG.
2
.
DETAILED DESCRIPTION OF THE INVENTION
The present invention will be described in relation to the accompanying drawings which assist in illustrating its various pertinent features.
FIGS. 2-5
present one embodiment of a rooftop fall protection system
190
in accordance with principles of the present invention. The fall protection system
190
is mounted on a particular roof
110
of a building structure
107
. Generally, the roof
110
includes a plurality of laterally-spaced rafters
125
. One general characteristic of the roof
110
relates to the orientation of the rafters
125
. Each rafter
125
is disposed at a first angle
180
relative to a horizontal reference plane and which is effectively tantamount to the pitch of the roof
110
. More than one pitch may exist on any one roof design. Another general characteristic of the roof
110
is its overhang
115
which is that portion of the roof
110
which extends beyond a vertically-disposed wall
120
which supports the roof
110
and which is typically measured along the horizontal. As will be discussed in more detail below, the fall protection system
190
works with a large range of pitches for the roof
110
and with any overhang
115
which is at least five inches in width.
Each rafter
125
includes a first rafter end
130
which is fixed to an at least generally horizontally disposed facia board
155
which extends along and more accurately defines an edge of the roof
110
. Opposite the first rafter end
130
is a longitudinally displaced second rafter end
135
which will typically be disposed at a peak
185
associated with the roof
110
. More than one peak
185
may exist on a given roof
110
. Each rafter
125
further includes a first rafter edge surface
140
, a vertically spaced second rafter edge surface
145
, and a pair of laterally spaced rafter side surfaces
150
. Roofing materials are installed on the first rafter edge surface
140
. The rafters
125
are thereby disposed “on edge” in the installed position. That is, the distance between the first rafter edge surface
140
and the second rafter edge surface
145
is typically greater than the distance between the pair of rafter side surfaces
150
. Typical dimensions used for the rafters
125
include 2×4s. The fall protection system
190
may be used on rafters
125
of any dimension, however.
The facia board
155
extends along the edge of the roof
110
and is attached to each of the rafters
125
which interfaces therewith such as by nails, screws, or any other appropriate fastener/fastening mechanism. More specifically, the facia board
155
includes a first facia board side surface
160
which projects at least generally away from the roof
110
, a second facia board side surface
165
which interfaces with the rafters
125
or more specifically the first rafter ends
130
(e.g., via a butt joint), a first facia board edge surface
170
which projects at least generally “upwardly”, and a vertically spaced second facia board edge surface
175
which projects at least generally “downwardly.” The facia board
155
is thereby disposed “on edge” in the installed position. That is, the distance between the first facia board edge surface
170
and the second facia board edge surface
175
is typically greater than the distance between the first facia board side surface
160
and the second facia board side surface
165
. As will be discussed in more detail below, the fall protection system
190
accommodates the use of a relatively large range of dimensions for the facia board
155
, particularly in relation to the distance between the first facia board edge surface
170
and the second facia board edge surface
175
which will hereafter be referred to as the “height” of the facia board
155
.
The fall protection system
190
functions to reduce the potential for injury to personnel working on the roof
110
by at least reducing the potential for these personnel falling off of the roof
110
. One principal component of the fall protection system
190
are a plurality of similarly configured stanchions
195
which are installed at spaced locations along the facia board
155
. Because of the configuration of the stanchions
195
and the manner in which the same interfaces with the roof
110
and for a stanchion
195
within the above-noted dimensions, the fall protection system
190
may be used on the roof
110
having a pitch which is within a range of about 0 (i.e., flat) to about 12, may be used on any overhang
115
which is at least about five inches in width (the distance from the wall
120
to the first facia board side surface
160
along a line which is at least generally horizontally disposed or perpendicular to the wall
120
), and with a facia board
155
having a height (i.e., the distance between the first facia board edge surface
170
and the second facia board edge surface
175
) of up to about 10 inches, all while maintaining the stanchions
195
in the same orientation in each of these cases (e.g., with the first stanchion sections
200
being in the same at least substantially vertical orientation in each of these cases). As such, the stanchions
190
significantly increase the versatility of the fall protection system
190
in relation to prior art rooftop fall protection devices, all while providing a structurally stable barrier to at least impede, and more preferably to terminate, a workers descent down the pitch of the roof
110
.
Each stanchion
195
is of an at least generally J-shaped configuration and may be characterized as including first, second, and third stanchion sections
200
,
205
, and
210
, respectively. A first stanchion end
220
defines the uppermost extreme of a given stanchion
195
. Extending at least generally downwardly from this first stanchion end
220
along an at least generally longitudinally or axially extending path is the first stanchion section
200
. The second stanchion section
205
directs the stanchion
195
under the facia board
155
(at a lower elevation than the second facia board edge surface
175
), while the third stanchion section
210
proceeds back up toward the associated rafter
125
to a second stanchion end
225
which engages the second rafter edge surface
145
of this rafter
125
. In the illustrated embodiment the second stanchion section
205
is of a generally semi-circular configuration as defined by a radius
215
. In one embodiment, the radius
215
is within the range from about 3.75 inches to about 5.25 inches, and is more preferably about 4.5 inches (measured to the centerline of the stanchion
195
) so as to direct the stanchion
195
under the facia board
155
and allow the stanchion
195
to engage the second rafter edge surface
145
. Stated another way, the first stanchion section
200
and the third stanchion section
210
are separated by a distance “d.” In one embodiment, the distance “d” is within the range from about 7.5 inches to about 10.5 inches, and is more preferably about 9 inches so as to direct the stanchion
195
under the facia board
155
and allow the stanchion
195
to engage the second rafter edge surface
145
. This relative positioning of sorts of components of the stanchion
195
allows the stanchion
195
to be used on any roof
110
having an overhang
115
which is at least about 5 inches. If the ability to use on virtually any overhang would not be a concern, the first stanchion section
200
and the third stanchion section
210
could be separated by any suitable distance.
In the illustrated embodiment, the first stanchion section
200
and third stanchion section
210
are disposed in at least substantially parallel relation, although such is not required. However, the first stanchion section
200
and third stanchion section
210
are of different lengths, with the third stanchion section
210
being shorter than the first stanchion section
200
. As such, the second stanchion end
225
is disposed at a lower elevation than the first stanchion end
220
. In one embodiment, the length of the first stanchion section
200
is within a range of about 54 inches to about 56 inches, while the length of the third stanchion section
210
is within a range of about 9 inches to about 11 inches. Stated another way, the first stanchion end
220
is disposed a distance h
1
above the lower extreme of the stanchion
195
, while the second stanchion end
225
(which contacts the second rafter edge surface
145
) is disposed a distance h
2
above this same lower extreme. In one embodiment, the distance h
1
is within a range of about 54 inches to about 56 inches. In one embodiment, the distance h
2
is within a range of about 9 inches to about 11 inches. Preferably, the first stanchion end
220
is disposed at least about 39 inches above the first facia board edge surface
170
.
There are three points of contact between each stanchion
195
and the roof
110
, although only two of such points are for purposes of “supporting” the fall protection system
190
on the roof
110
. Each stanchion
195
is attached to the facia board
155
via a facia board mounting bracket
245
by at least one, and preferably a plurality of, suitable fasteners
253
. Although nails, screws, or the like could be utilized, preferably each stanchion
195
is attached to the facia board
155
by a plurality of threaded bolts which extend through the facia board mounting bracket
245
and facia board
155
, such that a nut may be threaded onto the end of the bolt to compressively retain the facia board mounting bracket
245
on the facia board
155
.
Another point of contact between each stanchion
195
and the roof
110
is via the second stanchion end
225
which is disposed “under” one of the rafters
125
, or more specifically against the second rafter edge surface
145
. With each stanchion
195
being pinned to the roof
110
at the facia board
155
, the exertion of an outwardly directed force on the stanchion
195
, or in the direction of the arrow “A” presented in
FIG. 3
, will cause the stanchion
195
to attempt to pivot in the same direction. This would be the type of force exerted on the fall protection system
190
in a fall-type situation. The interface between the second stanchion end
225
and the second rafter edge surface
145
resists the noted pivoting-like motion of the stanchion
195
to securely retain the stanchion
195
on the roof
110
. However, in order to reduce the potential for the second stanchion end
225
losing contact with the second rafter edge surface
145
and thereby providing the desired resistance to the noted pivoting of the stanchion
195
, a rafter mounting bracket
235
is appropriately attached to the third stanchion section
210
. At least one hole extends through the rafter mounting bracket
235
such that an appropriate fastener(s)
240
may be directed therethrough and into the corresponding rafter
125
at one of its rafter side surfaces
150
. Although nails, screws, or the like could be used for the fastener
240
, once again the preferred fastener
240
is a bolt which extends through the rafter mounting bracket
235
and all the way through the rafter
125
(from one rafter side surface
150
to the opposing rafter side surface
150
) such that a nut may be disposed on a threaded portion thereof to compressively retain the rafter mounting bracket
235
on the subject rafter
125
. It should be appreciated that the interconnection between the stanchions
195
and their corresponding rafter
125
via the rafter mounting bracket
235
is not purely a load-bearing interconnection, but one which is more for retaining the stanchion
195
in a certain fixed positional relationship relative to the corresponding rafter
125
(i.e., to keep the stanchion
195
from “twisting off” from engagement with the second rafter edge surface
145
).
Another key component of the fall protection system
190
are a plurality of cross-members
285
which extend between adjacent stanchions
195
when mounted on the roof
110
. Each cross-member
285
extends between at least two stanchions
190
, although each cross-member
285
may extend the entire length of the fall protection system
190
. Interconnection between the cross-members
285
and the stanchions
190
is through a plurality of at least generally cup-shaped cross-member brackets or mounts
280
which are appropriately attached to (e.g., welded) and vertically spaced along the first stanchion section
200
. Three such brackets
280
are provided for each stanchion
195
in the illustrated embodiment, although different numbers of brackets
280
could be utilized, as well as different configurations. Preferably there is no more than about a 20 inch spacing between adjacent brackets
280
on a given stanchion
190
. Moreover, preferably one of the cross-member brackets
280
is disposed on a lower portion of the first stanchion section
200
so as to dispose one of the cross-members
285
at least substantially proximate to the facia board
155
. Preferably, there is no more than about a 0.25 inch spacing between the lowermost cross-member
285
and the facia board
155
. Moreover, preferably the upwardly-extending portion of the cross-member brackets
280
is disposed in at least substantially parallel relation to the first facia board side surface
160
and is disposed only slightly therebeyond (away from the roof
110
).
One of the factors which allows the stanchions
195
to be used on roofs
110
having different pitches, different heights for the facia board
155
, and different widths for the overhang
115
is the profile or configuration for the stanchions
195
which is again generally J-shaped. Another contributing factor is the particular manner in which the stanchions
195
interconnect with the facia board
155
. Referring to
FIGS. 6-7
, in addition to the
FIGS. 2-5
as already discussed, each facia board mounting bracket
245
includes a substantially planar mounting section
250
which is disposed in abutting relation with the first facia board side surface
160
. One or more holes are provided in the mounting section
250
for the noted fasteners
253
. Each faciaboard mounting bracket
245
further includes a generally U-shaped clamping section
255
. More specifically, a first section
260
extends at least substantially perpendicularly away from the mounting section
250
, a second section
265
interconnects with this first section
260
and is disposed at least substantially perpendicularly thereto, and the third section
270
interconnects with this second section
265
and is disposed at least substantially perpendicularly thereto. The third section
270
is shorter than the first section
260
such that the third section
270
does not extend entirely back to the first facia board side surface
160
. A hole extends through each of the first section
260
and the third section
270
such that an appropriate fastener
275
may extend therebetween (e.g., a threaded bolt with an appropriate head or the like on one end thereof and with a nut on its opposite end). The first stanchion section
200
slides through the clamping section
255
of the facia board mounting bracket
245
. When it is desired to fix the position of the stanchion
195
relative to the facia board mounting bracket
245
, the fastener
275
is “activated” (e.g., threading the nut further onto the bolt) to move or draw the first section
260
and the third section
270
toward each other so as to compressively retain the first stanchion section
200
therewithin. Based upon this type of interconnection, the first stanchion section
200
may be slid relative to the facia board mounting bracket
245
so as to engage the second stanchion end
225
against the second rafter edge surface
145
of one of the rafters
125
. Changes in the pitch of the roof
110
or the height of the facia board
155
thereby only affect the actual distance which the first stanchion end
220
is disposed above the roof
110
. Other ways of fixing the facia board mounting bracket
245
to the stanchion
195
may be used, such as by using a set screw(s) or the like (e.g., having an encircling collar on the facia board mounting bracket
245
through which the stanchion
195
extends, and having at least one set screw extending into this collar). What is important is the ability of the relative positioning of the stanchion
195
and facia board mounting bracket
245
to be changed and then fixed if it is desired to have a rooftop fall protection device which may be used with a variety of roof pitches and/or heights for facia boards. In this regard,
FIG. 8
illustrates the rooftop fall protection device
190
mounted on a roof
110
having a different pitch, overhang, and facia board height than that presented in
FIG. 3
(the “prime” designation being used to show structure which corresponds with that illustrated in
FIG. 3
, but differs in some respect therefrom).
Although the stanchions
195
have been described as been of multiple sections, preferably each stanchion
195
is integrally formed or of a one-piece construction (i.e., no joint between any of the first stanchion section
200
, the second stanchion section
205
, or the third stanchion section
210
). Square tubing may be used to provide the profile for the stanchion
195
discussed above. In one embodiment, 1.5 inch square tubing defined by sides
230
a-d
is used for the stanchions
195
and which has a wall thickness of about 14 gauge. When this tubing is bent into the desired profile for the stanchions
195
, “laterally extending” radii or curves may be formed into the sides
230
a
and
230
d
of the tubing which is believed to further increase the strength of the stanchions
195
. The curvature is illustrated in
FIGS. 9 and 9A
.
The stanchions
195
discussed above are the preferred stanchion configuration for the rooftop fall protection system
190
. However, other configurations could be used which would serve the objective of attaching to the facia board
155
in the above-noted manner and yet still engaging the second rafter edge surface
145
of one of the rafters
125
.
FIG. 10A
illustrates one such stanchion
290
having an end
295
which would engage the second rafter edge surface
145
and which could be attached to the facia board
155
with the above-described type of facia board mounting bracket
245
. The stanchion
300
of
FIG. 10B
illustrates that it need not be an end that engages the second rafter edge surface
145
, but instead may be an intermediate portion of the stanchion
300
, such as a convexly-shaped rafter engaging section
305
. Attachment of the stanchion
300
to the facia board
155
could also be affected through the noted facia board mounting bracket
245
. Although these alternative configurations may be used to interconnect with the first facia board side surface
160
and the second rafter edge surface
145
, the configuration of the stanchion
195
is preferred from a strength standpoint, an ease of manufacturing standpoint, and an ease of use standpoint.
The foregoing description of the present invention has been presented for purposes of illustration and description. Furthermore, the description is not intended to limit the invention to the form disclosed herein. Consequently, variations and modifications commensurate with the above teachings, and skill and knowledge of the relevant art, are within the scope of the present invention. The embodiments described hereinabove are further intended to explain best modes known of practicing the invention and to enable others skilled in the art to utilize the invention in such, or other embodiments and with various modifications required by the particular application(s) or use(s) of the present invention. It is intended that the appended claims be construed to include alternative embodiments to the extent permitted by the prior art.
Claims
- 1. A rooftop fall protection system, comprising:a roof that comprises a facia board and a plurality of rafters, wherein said facia board comprises first and second oppositely disposed facia board side surfaces, wherein each of said plurality of rafters comprises a first rafter end which engages said second facia board side surface, extends upwardly and away from said facia board at a first angle relative to a horizontal reference plane, comprises a first rafter edge surface on which roofing materials may be installed, and further comprises a second rafter edge surface which is disposed directly opposite said first rafter edge surface, and wherein said facia board is attached to each of said plurality of rafters; a stanchion comprising means for engaging said second rafter edge surface of one of said plurality of rafters and means for extending vertically beyond said facia board, wherein said means for engaging said second rafter edge surface and said means for extending vertically beyond said facia board are positioned on opposite sides of said facia board; means for detachably fixing said stanchion to said first facia board side surface, wherein said means for detachably fixing comprises a mounting bracket that in turn comprises an aperture through which said means for extending vertically beyond said facia board slidably extends, wherein slidably mounting said mounting bracket on said means for extending vertically beyond said facia board accounts for a magnitude of said first angle of said plurality of rafters by allowing for a movement of an entirety of said stanchion relative to said mounting bracket to in turn provide for engagement between said means for engaging said second rafter edge surface and said second rafter edge surface, as well as a positioning of said mounting bracket in alignment with said facia board when installing said stanchion on said roof; and means for mounting at least one cross-member to said means for extending vertically beyond said facia board.
- 2. A system, as claimed in claim 1, wherein:said mounting bracket comprises an at least substantially U-shaped section through which a portion of said means for extending vertically beyond said facia board slidably extends and which in turn comprises a pair of side sections and an interconnecting end section, said mounting bracket further comprising means for drawing said pair of side sections toward each other, said portion of said means for extending vertically beyond said facia board being disposed between said end section and said means for drawing.
- 3. A system, as claimed in claim 2, wherein:said means for drawing comprises a threaded bolt and a nut.
- 4. A system, as claimed in claim 1, wherein:said means for detachably fixing comprises at least one engagement member which extends through said mounting bracket and into said facia board, and means for fixing a portion of said means for extending vertically beyond said facia board to said mounting bracket.
- 5. A system, as claimed in claim 1, wherein:said means for engaging said second rafter edge surface comprises a first free end on a first end portion of said stanchion.
- 6. A system, as claimed in claim 5, wherein:said stanchion comprises a second free end, wherein when said stanchion is fixed to said facia board, said second free end is disposed at a higher elevation than said first free end.
- 7. A system, as claimed in claim 5, wherein:said stanchion further comprises a rafter mounting bracket attached to said first end portion which interfaces with a first rafter side surface of one of said plurality of rafters which extends between and interconnects said first and second rafter edge surfaces of said one of said plurality of rafters, and at least one attachment member which extends through said rafter mounting bracket and at least into said one of said plurality of rafters.
- 8. A system, as claimed in claim 1, wherein:said mounting bracket comprises an at least generally U-shaped pocket that defines said aperture.
- 9. A system, as claimed in claim 1, wherein:said stanchion comprises a generally J-shaped, integrally formed support.
- 10. A system, as claimed in claim 1, wherein:said stanchion comprises first, second, and third stanchion sections which are integrally formed such that there is no joint therebetween, and wherein said stanchion further comprises first and second free ends, wherein said second stanchion section is at least generally semicircular, wherein said first stanchion section extends away from said first free end at least generally in a first direction to one side of said second stanchion section, and wherein said third stanchion section extends away from an opposite side of said second stanchion section in a second direction which is at least generally opposite said first direction to said second free end.
- 11. A system, as claimed in claim 10, wherein:a portion of said second stanchion section disposed under said facia board is defined by a radius of about 3.75 inches.
- 12. A system, as claimed in claim 10, wherein:when said stanchion is fixed to said facia board, said first and second ends are vertically displaced with said first end being disposed at a higher elevation than said second end, and with said first end extending at least about 39 inches vertically beyond an upper surface of said facia board.
- 13. A system, as claimed in claim 1, wherein:said at least one cross-member comprises a two-by-four board.
- 14. A system, as claimed in claim 1, further comprising:means for allowing said stanchion to be used with any said facia board having a height for said first facia board side surface which is no more than about 10 inches and for any pitch of said rafters which is within a range from about 0 to about 12, all while maintaining a portion of said stanchion section on which said means for mounting are located in an at least substantially perpendicular orientation relative to a horizontal reference plane.
- 15. A rooftop fall protection system attachable to a roof, said roof comprising a facia board and a plurality of rafters, wherein said facia board comprises first and second oppositely disposed facia board side surfaces, wherein each of said plurality of rafters comprises a first rafter end which engages said second facia board side surface, extends upwardly and away from said facia board at a first angle relative to a horizontal reference plane, comprises a first rafter edge surface on which roofing materials maybe installed, and comprises a second rafter edge surface which is disposed directly opposite said first rafter edge surface, and wherein said facia board is attached to each of said plurality of rafters, wherein said rooftop fall protection system comprises:a stanchion comprising first, second, and third stanchion sections, wherein said first and third stanchion sections are maintained in spaced relation and interconnected by said second stanchion section, wherein said first stanchion section extends upwardly from said second stanchion section further than said third stanchion section, and wherein said stanchion further comprises a second rafter edge surface engaging section; a facia board mounting bracket interconnected with said stanchion, wherein when said stanchion is mounted on said first facia board side surface via said facia board mounting bracket, said first stanchion section extends at least upwardly relative to said plurality of rafters on a side of said facia board towards which said first facia board side surface projects, said second stanchion section is disposed below said facia board, said third stanchion section extends upwardly relative to said plurality of rafters on a side of said facia board towards which said second facia board side surface projects, and said second rafter edge surface engaging section engages a portion of said second rafter edge surface of one of said plurality of rafters, wherein said facia board mounting bracket comprises an at least substantially U-shaped section through which said first stanchion section slidably extends and which in turn comprises a pair of side sections and an interconnecting end section, said facia board mounting bracket further comprising means for drawing said pair of side sections toward each other, wherein a portion of said first stanchion section is disposed between said end section and said means for drawing; and a plurality of cross-member mounts interconnected with and vertically spaced along said first stanchion section.
- 16. A system, as claimed in claim 15, wherein:said first, second, and third stanchion sections are integrally formed such that there is no joint therebetween.
- 17. A system, as claimed in claim 15, wherein:said stanchion further comprises first and second free ends, wherein said first free end is an upper extreme of said first stanchion section and said second free end is said second rafter edge surface engaging section.
- 18. A system, as claimed in claim 15, wherein:said second stanchion section is semi-circular, wherein said first stanchion section extends from one side of said second stanchion section and said third stanchion section extends from an opposite side of said second stanchion section.
- 19. A system, as claimed in claim 18, wherein:said second stanchion section is defined by a radius of about 3.75 inches.
- 20. A system, as claimed in claim 15, wherein:said first, second, and third stanchion sections define a generally J-shaped configuration.
- 21. A system, as claimed in claim 15, further comprising:a rafter mounting bracket attached to said third stanchion section which interfaces with a first rafter side surface of one of said plurality of rafters which extends between and interconnects said first and second rafter edge surfaces of said one of said plurality of rafters; and at least one attachment member which extends through said rafter mounting bracket end at least into said one of said plurality of rafters.
- 22. A system, as claimed in claim 15, wherein:said plurality of cross-member mounts comprises at least generally U-shaped pocket.
- 23. A system, as claimed in claim 15, further comprising:means for allowing said stanchion to be used with any said facia board having a height for said first facia board side surface which is no more than about 10 inches and for any pitch of said rafters which is within a range from about 0 to about 12, all while maintaining said first stanchion section in an at least substantially perpendicular orientation relative to a horizontal reference plane.
- 24. A system, as claimed in claim 15, wherein:said means for drawing comprises a threaded bolt and a nut.
- 25. A system, as claimed in claim 15, wherein:said faciaboard mounting bracket comprises at least one engagement member which extends through said mounting bracket and into said facia board, and means for clamping said stanchion to said facia board mounting bracket.
- 26. A method for protecting personnel on a roof, said roof comprising a facia board and a plurality of rafters, wherein said facia board comprises first and second oppositely disposed facia board side surfaces, wherein each of said plurality of rafters comprises a first rafter end which engages said second facia board side surface, extends upwardly and away from said facia board at a first angle relative to a horizontal reference plane, comprises a first rafter edge surface on which roofing materials may be installed, and comprises a second rafter edge surface which is disposed directly opposite said first rafter edge surface, and wherein said facia board is attached to each of said plurality of rafters, said method comprising the steps of:mounting a fall protection system on a first said roof having a first magnitude for said first angle, comprising the steps of: executing a plurality of installing steps at spaced locations along said facia board, wherein each said installing step comprises: interconnecting a stanchion with said facia board, wherein said interconnecting step comprises attaching a mounting bracket to said facia board with at least one fastener, wherein said mounting bracket comprises an aperture through which a first portion of said stanchion extends; engaging a second portion of said stanchion against said second rafter edge surface of one of said plurality of rafters; and sliding said first portion of said stanchion through said aperture in said mounting bracket to move an entirety of said stanchion relative to said mounting bracket, wherein said sliding step allows said mounting bracket to be aligned with said facia board and said second portion of said stanchion to be engaged against said second rafter edge surface, and wherein slidably mounting said mounting bracket on said first portion of said stanchion further accounts for said first magnitude of said first angle; and mounting at least one cross-member between said first portion of each adjacent pair of said stanchions from said executing a plurality of installing steps.
- 27. A method, as claimed in claim 26, wherein:said interconnecting step further comprises collapsing said mounting bracket around a portion of said first portion of said stanchion.
- 28. A method, as claimed in claim 27, wherein:said mounting bracket comprises a collar through which said first portion of said stanchion extends and which includes said aperture, wherein said collapsing step is executed after said sliding step.
- 29. A method, as claimed in claim 26, wherein:said engaging step comprises disposing said first portion of said stanchion outwardly from said first facia board surface, directing a third portion of said stanchion under a lower extreme of said facia board, and directing said entirety of said stanchion upwardly to engage said second portion of said stanchion with said second rafter edge surface of said one of said plurality of rafters.
- 30. A method, as claimed in claim 26, further comprising the step of:establishing contact between said second portion of said stanchion and said second rafter edge surface of said one of said plurality of rafters at a location which is about five inches from said second facia board surface measured perpendicularly to said second facia board side surface.
- 31. A method, as claimed in claim 26, further comprising the step of:exerting a force on at least one of said cross-members which is at least generally directed away from said roof; and exerting an upwardly directed force on said second rafter edge surface of at least two of said plurality of rafters by said engaging step associated with at least two of said stanchions; and retaining a fixed relative positional relationship between said stanchions and said facia board during said exerting step.
- 32. A rooftop fall protection system, comprising:a roof, said roof comprising a facia board and a plurality of rafters, wherein said facia board comprises first and second oppositely disposed facia board side surfaces, wherein each of said plurality of rafters comprises a first rafter end which engages said second facia board side surface, extends upwardly and away from said facia board at a first angle relative to a horizontal reference plane, comprises a first rafter edge surface on which roofing materials may be installed, and comprises a second rafter edge surface which is disposed directly opposite said first rafter edge surface, and wherein said facia board is attached to each of said plurality of rafters; a stanchion comprising first, second, and third stanchion sections, wherein said first and third stanchion sections are maintained in spaced relation and interconnected by said second stanchion section, wherein said first stanchion section extends upwardly from said second stanchion section further than said third stanchion section, and wherein said stanchion further comprises a second rafter edge surface engaging section; a facia board mounting bracket interconnected with said stanchion and attached to said first facia board side surface, wherein said first stanchion section extends at least upwardly relative to said plurality of rafters and is disposed on a side of said facia board towards which said first facia board side surface projects, said second stanchion section is disposed below said facia board, said third stanchion section extends upwardly relative to said plurality of rafters on a side of said facia board towards which said second facia board side surface projects, and said second rafter edge surface engaging section engages a portion of said second rafter edge surface of one of said plurality of rafters, wherein said facia board mounting bracket comprises an aperture through which said first stanchion section slidably extends, wherein slidably mounting said facia board mounting bracket on said first stanchion section accounts for a magnitude of said first angle of said plurality of rafters by allowing for a movement of an entirety of said stanchion relative to said facia board mounting bracket to in turn provide for engagement between said second rafter edge surface engaging section and said second rafter edge surface, as well as a positioning of said facia mounting bracket in alignment with said facia board when installing said stanchion on said roof; and a plurality of cross-member mounts interconnected with and vertically spaced along said first stanchion section.
US Referenced Citations (15)
Foreign Referenced Citations (1)
Number |
Date |
Country |
2243397 |
Oct 1991 |
GB |