U.S. patent application number 12/710766 was filed with the patent office on 2011-08-25 for sidewalk sheds.
Invention is credited to Mark BOWMAN.
Application Number | 20110204307 12/710766 |
Document ID | / |
Family ID | 44475737 |
Filed Date | 2011-08-25 |
United States Patent
Application |
20110204307 |
Kind Code |
A1 |
BOWMAN; Mark |
August 25, 2011 |
SIDEWALK SHEDS
Abstract
The present invention provides a sidewalk shed system for use
with a scaffold which includes a plurality of vertical posts and a
horizontal platform, the temporary fencing system comprising at
least two channels, at least one channel-post coupler for coupling
a first channel to a lower part of the plurality of vertical posts
forming a first lower channel, at least one channel-platform
coupler for coupling a second channel to the horizontal platform
forming a second lower channel, at least two quadrangular panels,
wherein a lower edge of a first panel is to be inserted into the
first lower channel, thereby forming a fence adjacent to the
plurality of vertical posts, and a lower edge of a second panel is
to be inserted into the second lower channel, thereby forming a
parapet perpendicular to the horizontal platform.
Inventors: |
BOWMAN; Mark; (Harrogate,
GB) |
Family ID: |
44475737 |
Appl. No.: |
12/710766 |
Filed: |
February 23, 2010 |
Current U.S.
Class: |
256/24 |
Current CPC
Class: |
E04G 21/3209 20130101;
E04G 21/3204 20130101; E04G 5/12 20130101 |
Class at
Publication: |
256/24 |
International
Class: |
E04H 17/16 20060101
E04H017/16 |
Claims
1. A temporary fencing system for use with a scaffold, the
temporary fencing system comprising: at least one channel; at least
one coupler for coupling the at least one channel to the scaffold;
and at least one quadrangular panel, wherein the channel is adapted
to receive a lower edge of the at least one panel, thereby forming
a fence adjacent to the scaffold.
2. A temporary fencing system for use with a scaffold which
includes a plurality of vertical posts, the temporary fencing
system comprising: at least one channel; at least one channel-post
coupler for coupling the at least one channel to a lower part of
the plurality of vertical posts so as to form a lower channel; and
at least one quadrangular panel, wherein the channel is adapted to
receive a lower edge of the at least one panel, thereby forming a
fence adjacent to the plurality of vertical posts.
3. The temporary fencing system according to claim 2 comprising a
plurality of channel-post couplers for coupling a further channel
to the plurality of vertical posts above and aligned with the lower
channel, so as to form an upper channel, wherein the upper channel
is adapted to receive the upper edge of the panel, the lower
channel, the upper channel and the panel forming a substantially
vertical plane.
4. The temporary fencing system according to claim 2, further
comprising at least one end coupler for coupling a channel to the
vertical posts at the two ends of a row, where the plurality of
vertical posts are arranged in at least one row.
5. The temporary fencing system according to claim 4, wherein the
at least one end coupler includes a left end coupler for coupling a
channel to the vertical posts at the left end of a row.
6. The temporary fencing system according to claim 4, wherein the
at least one end coupler includes a right end coupler for coupling
a channel to the vertical posts at the right end of a row.
7. The temporary fencing system according to claim 2, further
comprising at least one corner coupler for coupling a channel to
the vertical post at the corner where two rows of vertical posts
perpendicular to each other meet, where the plurality of vertical
posts are arranged in at least two rows.
8. The temporary fencing system according to claim 7, wherein the
at least one corner coupler includes an external corner coupler for
coupling a channel to the vertical post at the corner on the
outside of the corner.
9. The temporary fencing system according to claim 7, wherein the
at least one corner coupler includes an internal corner coupler for
coupling a channel to the vertical post at the corner on the inside
of the corner.
10. A soffit infill system adapted for use with the temporary
fencing system according to claim 3, comprising at least one infill
bracket and at least one infill sheet, for coupling the at least
one infill sheet to the upper channel, so as to extend the height
of the fence.
11. The temporary fencing system according to claim 2, further
comprising a cantilever mechanism for extending the temporary
fencing at right angle to a row of vertical posts.
12. The temporary fencing system according to claim 3, wherein the
lower channel, the upper, channel, and a plurality of panels are
arranged such that at least two panels are overlapped along the
channels.
13. The temporary fencing system according to claim 10, wherein the
panels and the infill sheet are made of metal.
14. A temporary fencing system for use with a scaffold which
includes a horizontal platform, the temporary fencing system
comprising: at least one channel; at least one channel-platform
coupler for coupling the at least one channel to the horizontal
platform so as to form a lower channel; and at least one
quadrangular panel, wherein the channel is adapted to receive a
lower edge of the at least one panel, thereby forming a parapet
perpendicular to the horizontal platform.
15. The temporary fencing system according to claim 14, wherein the
at least one channel-platform coupler couples a further channel,
arranged to be mounted above and aligned with the lower channel, to
the horizontal platform, so as to form an upper channel, wherein
the upper channel is adapted to receive an upper edge of the at
least one panel.
16. The temporary fencing system according to claim 15, wherein
each channel-platform coupler comprises a vertical member onto
which a lower channel bracket and an upper channel bracket are
mounted, the lower channel bracket being adapted for holding an
upward-facing channel to form the lower channel, and the upper
channel bracket being adapted for holding a downward-facing channel
to form the upper channel.
17. The temporary fencing system according to claim 15, wherein the
upper channel bracket of each channel-platform coupler is arranged
to allow vertical sliding motion along the vertical member so as to
enable height adjustment.
18. The temporary fencing system according to claim 15, wherein
each channel-to-platform coupler comprises a horizontal member for
affixing the coupler to the platform.
19. The temporary fencing system according to claim 15, wherein
each channel-platform coupler is provided with a reinforcing bar
having one end affixed against the vertical member and the other
end affixed against the horizontal member.
Description
BACKGROUND OF THE INVENTION
[0001] 1. Field of the Invention
[0002] The present invention relates to sidewalk sheds used as a
temporary barrier around construction sites for protecting
pedestrians on the sidewalk and preventing debris from falling onto
the sidewalk.
[0003] 2. Description of Related Art
[0004] A typical sidewalk shed known in the art is a timber fence
that surrounds a construction site, which is provided with a
reinforced timber and steel roof surrounded by a timber parapet to
prevent debris from construction processes falling onto the
pedestrians on the sidewalk.
[0005] Conventionally; a sidewalk shed is fixed to the scaffold
structure erected around the construction site, either for the sole
purpose of supporting such a sidewalk shed, or as part of the
scaffold that provides access during the construction of a
building.
[0006] For safety reasons, fire-retardant timber is used for
building sidewalk sheds. However, the timber used for building such
sidewalk sheds, and thus the classification stamped onto the
timber, is often painted over and/or covered by bill posts, and
documents certifying the timber as fire-retardant may be misplaced,
making it difficult to ensure such a safety procedure has been put
in place.
[0007] Moreover, during construction work, timber panels and planks
are likely to deteriorate with the weather or get damaged through
the activity at the site, making them unsuitable for reuse. Often,
when the construction is complete and the sidewalk shed is no
longer required, the timber would be scrapped.
[0008] It is therefore desirable to provide sidewalk sheds that are
not only fireproof but also durable and require little maintenance.
In addition, it is desirable to provide a system for erecting
sidewalk sheds that takes advantage of durable materials and allows
the structure to be reused.
SUMMARY OF THE INVENTION
[0009] The present invention provides a system and a method for
erecting temporary fencing or hoardings in the form of sidewalk
sheds which surround a construction site. The temporary fencing is
compatible with conventional scaffold structures and so no
adaptations to existing scaffold structures and conventional
scaffolding methods are required.
[0010] A temporary fencing system, for use with a scaffold,
comprises at least one channel, at least one coupler for coupling a
channel to the scaffold, and at least one panel having at least one
straight edge, wherein the channel is adapted to receive the
straight edge of the at least one panel, thereby forming a fence
adjacent to the scaffold. The channel and the panel are preferably
formed from metal, in particular steel.
[0011] In particular, the scaffold may include a plurality of
vertical posts. Thus, a temporary fencing system for use with a
scaffold which includes a plurality of vertical posts comprises at
least one channel, at least one channel-post coupler for coupling a
channel to a lower part of the plurality of vertical posts so as to
form a lower channel, and at least one panel having at least one
straight edge, wherein the lower channel is adapted to receive the
straight edge of the at least one panel, thereby forming a fence
adjacent to the plurality of vertical posts.
[0012] The scaffold may include a horizontal platform. Thus, a
temporary fencing system for use with a scaffold which includes a
horizontal platform comprises at least one channel, at least one
channel-platform coupler for coupling a channel to the horizontal
platform so as to form a lower channel, and at least one panel
having at least one straight edge, wherein the lower channel is
adapted to receive the straight edge of the at least one panel,
thereby forming a parapet perpendicular to the horizontal
platform.
[0013] Thus, the present invention provides a sidewalk shed system
for use with a scaffold which includes a plurality of vertical
posts and a horizontal platform, the temporary fencing system
comprising at least two channels, at least one channel-post coupler
for coupling a first channel to a lower part of the plurality of
vertical posts forming a first lower channel, at least one
channel-platform coupler for coupling a second channel to the
horizontal platform forming a second lower channel, at least two
quadrangular panels, wherein a lower edge of a first panel is to be
inserted into the first lower channel, thereby forming a fence
adjacent to the plurality of vertical posts, and a lower edge of a
second panel is to be inserted into the second lower channel,
thereby forming a parapet perpendicular to the horizontal
platform.
[0014] The present invention also provides a method of erecting a
sidewalk shed for an existing scaffold, which includes a plurality
of vertical posts and a horizontal platform, using the
above-described temporary fencing system, the method comprises the
steps of coupling a channel to a lower part of the plurality of
vertical posts to form a first lower channel, coupling a channel to
the horizontal platform to form a second lower channel, inserting
at least one panel into the first lower channel, and inserting at
least one panel into the second lower channel.
BRIEF DESCRIPTION OF THE DRAWINGS
[0015] The present invention is described by way of example with
reference to the accompanying drawings, in which like reference
numbers and designations refer to like elements.
[0016] FIG. 1 is a mid-section channel-post coupler in accordance
with an embodiment of the present invention.
[0017] FIG. 2 is a stop-end channel-post coupler in accordance with
an embodiment of the present invention.
[0018] FIG. 3 is the top view of an external corner channel-post
coupler in accordance with an embodiment of the present
invention.
[0019] FIG. 4 is the front and rear view of the external corner
channel-post coupler of FIG. 3.
[0020] FIG. 5 is an internal corner channel-post coupler in
accordance with an embodiment of the present invention.
[0021] FIG. 6 is a soffit infill system in accordance with an
embodiment of the present invention.
[0022] FIG. 7 is a parapet bracket channel-platform coupler in
accordance with an embodiment of the present invention.
[0023] FIG. 8 is a cantilever reveal mechanism in accordance with
an embodiment of the present invention.
[0024] FIG. 9 is an exemplary sidewalk shed constructed by
implementing some of the components of the embodiment.
DETAIL DESCRIPTION OF THE INVENTION
[0025] An embodiment of the temporary fencing system according to
the present invention comprises a range of brackets and clamps for
coupling a plurality of steel channels, into which steel panels or
sheets are inserted, to an existing scaffold structure around a
construction site. The steel panels/sheets will typically be
straight-edged and rectangular in shape, although it would be
possible for the free edge of the panel/sheet to have a sloping or
curved shape. The term "channel" refer to any elongated member,
typically in the form of a strip having a U-shaped section,
suitable for receiving an edge of a sheet so as to retain the same.
The steel panels thus mounted may therefore provide a continuous
barrier around the construction site. Below, the term "fence" is
used, for convenience, to refer to any such barrier structure.
[0026] A plurality of channel brackets are affixed to a row of
scaffold posts using standard stud clamps near the ground and above
head-height. FIG. 1 to FIG. 5 show a range of channel brackets used
in the embodiment.
[0027] FIG. 1 shows a mid-section channel bracket 10 viewed from
the side (left drawing) and a perspective view of the mid-section
channel bracket 10 (right drawing). The mid-section channel bracket
10 comprises a body 11 onto which a bracket 12 is attached (for
example welded). The body 11 has two holes 14 to allow a stud clamp
to be fitted onto the body 11. On either side of the body 11, two
lock nuts 13 are provided to the bracket 12 for securely locking a
channel placed within. A mid-section channel bracket 10 is used
anywhere along a row of scaffold posts, except on the scaffold post
at either end of the row or on the two posts between which an
opening is required.
[0028] FIG. 2 shows a stop-end channel bracket 20, which is used at
the two ends of a row of scaffold posts. Similar to the mid-section
channel bracket 10, the stop-end channel bracket 20 comprises a
body 21, a bracket 22, two lock nuts 23 on the bracket 22 on either
side of the body 21, and two holes 24 for fitting a stud clamp onto
the body 21. In addition, the stop-end channel bracket 20 comprises
an end piece 25, which is a piece of metal (steel in this case)
welded to one open end of the bracket 22 or made as part of the
bracket 22 to stop the channel from sliding. Two types of stop-end
channel bracket 20 are therefore possible, which has an end piece
25 on one of the two open ends of the bracket 22. The use of either
type of stop-end channel bracket 20 thus depends on which end of a
row of scaffold posts it is to be placed.
[0029] At the end of a row of scaffold posts, another row of
scaffold posts may continue at right angle following a corner of a
building or construction site. In this case, either an external
corner channel bracket or an internal corner channel bracket can be
used at the corner to bring the channels on either side of the
corner together.
[0030] A top view of an external corner channel bracket 30 is shown
in FIG. 3, and the front and rear view of the external corner
channel bracket 30 are shown in FIG. 4. The external corner channel
bracket 30 comprises a body 31 and an L-shaped bracket 32. The
L-shaped bracket 32 is welded onto the body 31 with the corner of
the L pointing outward away from the body 31. Each arm of the
bracket 32, on either side of the body 31, is provided with a lock
nut 33 for locking steel panels inserted therein. The body 31 has a
hole 34 to allow a stud clamp 100 to be fitted.
[0031] A top view, the front view and the rear view of the internal
corner channel bracket 50 are shown in FIG. 5. The internal corner
channel bracket 50 comprises a body 51 and an L-shaped bracket 52.
The L-shaped bracket 52 is welded onto the body 51 with the corner
of the L pointing inward towards the body 51. Each arm of the
bracket 52, on either side of the body 51, is provided with a lock
nut 53 for securing steel panels inserted therein. The body 51 has
a hole 54 to allow a stud clamp 100 to be fitted.
[0032] Once the channel brackets are in place, an upward-facing
steel channel is laid inside the channel brackets along the ground
and a downward-facing steel channel is laid inside the channel
brackets above. The lower and upper channels are then secured in
place by fastening the lock nuts of the respective channel
brackets, and the channels in turn provide the means for securing a
plurality of steel panels to the scaffold posts.
[0033] Box-profile (hollow) steel panels, used in the embodiment
for a strong yet light-weight fencing, are placed along the
channels. The upper steel channel is preferably deeper than the
lower steel channel. A panel is first inserted into the upper
channel; when the steel panel is inserted, it is lifted above and
over the front edge of the lower steel channel. Once the panel
clears the front edge of the lower channel, it is dropped into the
lower steel channel.
[0034] When the panels are in place, the upper steel channel is
lowered onto the panels by loosening the stud clamps 100 and
adjusting the height of the channel brackets along the scaffold
posts. The stud clamps 100 are then tightened to secure the upper
channel above the panels. Thus, by means of the stud clamps 100,
channel brackets 10, 20, 30, 50, and a plurality of steel panels, a
strong and durable temporary fencing can be erected easily.
[0035] In general, a scaffold structure along a length of sidewalk
comprises two rows of scaffold posts, one row on either side of the
sidewalk, with a timber platform built across the two rows of
scaffold posts which prevents debris from falling onto pedestrians
on the sidewalk.
[0036] The timber platform of the scaffold may be built at a height
above that of the fencing panels, leaving a gap between the top of
the temporary fencing and the platform. It is therefore desirable
to provide a system for flexibly filling the gap between the top of
the fencing panels and the timber platform.
[0037] In the embodiment, a soffit infill system is provided which
includes a plurality of infill brackets and a plurality of steel
infill sheets, wherein the plurality of infill brackets are
configured to accept the plurality of infill sheets and to the
upper steel channel, which is coupled to the scaffold posts as
described above.
[0038] An example of such infill bracket is shown in FIG. 6, where
each infill bracket 60 consists of a vertical steel bar 61 (the
body), preferably flat and with a return at both ends for holding
steel infill sheets, and a channel bracket 62 coupled to the steel
bar 61 for mounting the infill bracket onto the upper steel
channel.
[0039] The channel bracket of an infill bracket 60 may either be
the same as a channel bracket 10 that is used in conjunction with a
stud clamp 100 for coupling a channel to a scaffold post, or a
bracket adapted to the size and shape of a steel channel and
specifically configured as a part of an infill bracket 60 such as
the channel bracket 62.
[0040] According to the present embodiment, the channel bracket 62
is detachably coupled to the body 61, fastened for example with a
lock nut 66, to allow the channel bracket 62 to slide freely along
the length of the body 61, such that when the infill bracket 60 is
mounted onto the upper channel, the coverage of the infill sheet
held by the returns of the body 61 can be flexibly adjusted to suit
different sized gaps between the upper channel and the
platform.
[0041] For convenience, a handle 63 is provided and attached to the
top side of the body 61, such that when the infill bracket 60 is
mounted onto the upper channel, the body 61 of the infill bracket
60 can be easily adjusted to the optimum position by pushing the
handle 63 up to the platform. However, the handle 63 is not
essential to the infill bracket 60.
[0042] Moreover, a lock mechanism such as the lock nuts 61-1 and
61-2 is provided at the return at the top and bottom ends of the
body to ensure that an infill sheet is secured in place.
[0043] The safety of the pedestrians on the sidewalk can be further
improved by providing a parapet around the platform, such that
falling debris from construction work is prevented from bouncing
off the platform onto pedestrians using the sidewalk.
[0044] Thus, in the embodiment, a plurality of parapet clamps are
provided, an example of which is shown in FIG. 7, which are affixed
to one or both sides of the platform 300 along the sidewalk.
[0045] Each parapet clamp 70 comprises a lower channel bracket 72-1
and an upper channel bracket 72-2, such that, once the plurality of
parapet clamps 70 are in place, an upward-facing steel channel may
be laid in and secured by the lower channel bracket 72-1, and a
downward-facing steel channel may be placed in and secured by the
upper channel bracket 72-2, of the parapet clamps 70 along the
platform 300, providing means for securing a plurality of steel
panels perpendicular to the platform.
[0046] In particular, the parapet clamp 70 comprises a body 71,
onto which a lower channel bracket 72-1 and an upper channel
bracket 72-2 are coupled (but not necessarily fixed). Two lock nuts
73-1 and 73-2 are provided to the lower channel bracket 72-1 and
upper channel bracket 72-2 respectively for securing steel panels
in place. The parapet clamp 70 is provided with a horizontal member
74 welded onto the body 71. A reinforcing bar 75 is provided, with
one end welded onto the body 71 and the other onto the horizontal
member 74 thus forming a triangle, to reinforce the parapet clamp
70.
[0047] Box-profile steel panels are again used, which are inserted
into steel channels held by the lower channel brackets 72-1 and
upper channel brackets 72-2 of a plurality of parapet clamps 70.
However, the box-profile steel panels used here may not necessary
be the same depth or height as the box-profile steel panels used
for constructing temporary fencing.
[0048] The parapet clamp 70 is configured to allow a small range of
vertical sliding motion of the upper channel bracket 72-2 by means
of a slot in the body 71 and a locking mechanism 76, which can be a
bolt or a lock nut. Once a steel panel is inserted into the lower
steel channel, the sliding motion of the upper channel bracket 72-2
allows the upper steel channel to be lowered onto the steel panel
to secure it in place.
[0049] By placing a plurality of steel panels along the length of
the lower and upper steel channels coupled to the timber platform
by means of a plurality of parapet clamps 70, a parapet can be
easily erected along a timber platform of an existing scaffold
structure above a sidewalk.
[0050] It is common to erect a scaffold in front of a building
which is still in use while construction takes place on the
exterior of the building, for example, construction work which
takes place above a shop may erect a scaffold in front of the shop.
In this case, the temporary fencing that surrounds the scaffold
structure must allow access to the inside of the shop while clearly
indicating to the public the areas of restricted access.
[0051] Therefore, the present embodiment includes a cantilever
system for easily extending the temporary fencing at right angle
into an opening, to create an access to the opening while fencing
off the region between the opening and the scaffold structure.
[0052] An example of such cantilever system is shown in FIG. 8, in
which the left-hand drawing shows a view perpendicular to an
opening, and the right-hand drawing shows a view looking into the
opening. A cantilever brace tube 80 is used to extend the temporary
fencing 500 perpendicularly into an opening. One end of the
cantilever brace tube 80 is coupled to a scaffold post 200 by a
stud clamp 100, while the other end is coupled to a stop-end
channel bracket 20.
[0053] The cantilever brace tube 80 allows the distance from the
scaffold post 200 to the stop end channel bracket 20 to be
adjusted. Further down the scaffold post 100 below the stud clamp
100, an external corner channel bracket 30 is coupled to the
scaffold post 100 parallel to the stop end channel bracket 20. A
steel channel 400 is then cut to length and placed horizontally
across the external corner channel bracket 30 and the stop end
channel bracket 20, in which a steel panel can be inserted.
[0054] An example of how the embodiment may be used in combination
is shown in FIG. 9, viewed from the side of the scaffold structure
down the length of a sidewalk, at a point where a public access is
created for an opening on the right.
[0055] The scaffold posts 200 and the platform 300 form the support
structure of the temporary fencing. On the right side of the
structure, two external corner channel brackets 30, one near the
ground and the other further up the same scaffold post 200, are
used to secure a first lower channel and a first upper channel
running into the page on the left side of the right scaffold post,
and a second lower channel and a second upper channel running
across the page on the right side of the right scaffold post. Two
stop end channel brackets 20 are positioned parallel to the two
external corner channel bracket, each supported by a cantilever
brace tube 80 coupled to the scaffold post 200. Two steel channels
(second lower channel and second upper channel) cut to length are
placed in the two sets of external corner channel bracket 30 and
stop end channel bracket 20, into which a box-profile steel panel
500 is inserted.
[0056] Since the top of the steel panels 500 cannot reach the
height of the platform 300, an infill bracket 60 is used to fill
the gap between the top of the steel panel 500 and the platform
300. The infill bracket 60 is mounted onto the first upper channel
behind the top external corner bracket 30 by means of its channel
bracket (shown as a dashed line). A plurality of infill brackets 60
(not shown) are mounted onto the first upper channel along its
length. The body of each of the plurality of infill brackets 60 is
then pushed towards the platform 300 and secured into position (by
lock nut 66, not shown). Steel infill sheets are inserted into the
returns of infill brackets 60 and secured (by means of lock nuts
61-1 and 61-2, not shown) forming an extension to the fencing
covering the gap.
[0057] On the left side of the scaffold structure, a parapet clamp
70 is affixed to the platform 300 by means of horizontal member 74.
A plurality of parapet clamp 70 (not shown) are similarly affixed
to the platform 300 along the length of the platform. A third lower
channel is placed inside and secured by the lower channel bracket
of each of the plurality of parapet clamp 70, and a third upper
channel is placed inside and secured by the upper channel bracket
of each of the plurality of parapet clamp 70. A plurality of
(smaller-sized) box-profile steel panels are then inserted into the
third lower and upper channel, forming a parapet along the length
of the platform 300.
[0058] It should be noted that while the embodiment of the present
invention has been described using steel as the main material,
those of ordinary skill in the art will appreciate that other
metal, metal alloy, or any suitable material may be used as
desired. Moreover, whilst steel sheets are used in the panels of
the described embodiment, the use of continuous sheet material is
not essential, and an open mesh or the like may be employed
instead.
[0059] Although a specific embodiment of the present invention has
been described, it will be understood by those skilled in the art
that there are other embodiments equivalent to the described
embodiment. Accordingly, it is to be understood that the invention
is not to be limited by the specific illustrated embodiment, but
only by the scope of the appended claims.
* * * * *