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Description  |
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TECHNICAL FIELD
The present invention relates generally to glazed panel wall constructions,
such as curtain walls, storefronts, and the like. More specifically, the
present invention relates to a temporary retainer for engaging the edges
of glazing panels to retain the panels within their respective glazing
recesses during assembly of the glazed panel wall.
BACKGROUND OF THE INVENTION
Storefront and curtain wall constructions are known which employ a snap-on
cover member to maintain glazing panels in place. Such wall constructions
typically comprise a frame member having a channel formed on its front
face and glazing recesses defined on either side thereof. A glazing clip,
usually comprised of a thermally insulating material, engages the channel
in the front face of the frame member and projects outwardly therefrom.
The snap-on cover member includes an inwardly projecting flange which
couples to the glazing clip to fasten the cover member to the frame
member. Glazing gaskets disposed along the rear edges of the cover member
engage marginal portions of the outer surface of the corresponding glazing
panels to maintain the glazing panels in place within their respective
glazing recesses.
While such wall constructions are generally easy to erect, there exists a
problem during assembly with respect to how to retain the glazing panels
in place prior to installation of the snap-on cover member. Since a number
of glazing panels are typically placed in position before the snap-on
cover members are installed, a means must be provided to temporarily
retain the glazing panels within their respective glazing recesses until
such time as it is appropriate to install the cover members.
Prior art construction procedures generally call for pressure plates to be
screwed into the front face of the frame member at spaced intervals to
maintain the glazing panels in place prior to the cover members being
installed. However, this procedure suffers certain disadvantages. First,
the step of attaching the pressure plates to the frame members is time
consuming, as it requires driving a screw through the pressure plate and
into the face of the frame member. Further, when it is time to mount the
cover members, the pressure plates must be removed.
Thus, there is a need for an apparatus and method for temporarily retaining
glazing panels within their respective glazing pockets until such time as
it is appropriate to install the cover members which does not require
screwing a pressure plate into the front face of the underlying framing
member.
There is a further need for an apparatus and method temporarily retaining
glazing panels which does not require the step of removing the retaining
apparatus prior to installing the snap-on cover member.
SUMMARY OF THE INVENTION
As will be seen, the present invention overcomes these and other
difficulties associated with prior art glazed panel wall constructions.
Stated generally, the present invention comprises an improved apparatus
and method for temporarily retaining glazing panels within their
respective glazing pockets until such time as it is appropriate to install
the cover members. The apparatus and method of the present invention does
not require screwing a pressure plate into the front face of the
underlying framing member. Further, the glazing panels are retained in
such a manner that the retainer apparatus need not be removed prior to the
installation of the cover member, thereby eliminating a step in the
erection process.
Stated somewhat more specifically, in a first aspect the present invention
pertains to a glazed panel wall construction. A frame member has a channel
formed in its outer face and has glazing recesses formed on either side
thereof. A glazing clip engages the channel in the outer face of the frame
member and projects forwardly therefrom. A pair of glazing panels each
have an edge disposed within a corresponding one of the glazing recesses.
A glazing panel retainer engages the glazing clip and has bearing surfaces
which engage a mutually facing marginal portion of the outer surface of
each of the glazing panels to retain the glazing panels within the glazing
recesses during assembly of the curtain wall construction. A cover member
engages the glazing clip, the cover member comprising means for retaining
the glazing panels within the glazing recesses. When the cover member is
installed, the glazing panel retainer is concealed beneath the cover
member such that the glazing panel retainer does not have to be disengaged
from the glazing clip prior to the cover member being engaged with the
glazing clip.
In a disclosed embodiment, the glazing clip comprises an outer portion and
an inner portion narrower than the outer portion. The glazing panel
retainer has a keyhole-shaped aperture formed therein. The keyhole-shaped
aperture has a first portion whose width is wider than the inner portion
of the glazing clip but narrower than the outer portion of the glazing
clip. The keyhole-shaped aperture has a second portion whose width is
greater than the outer portion of the glazing clip. To engage the retainer
with the glazing clip, the second portion of the keyhole-shaped aperture
is advanced over the outer portion of the glazing clip. When the retainer
has been advanced beyond the outer portion of the glazing clip, the first
portion of the keyhole-shaped aperture is advanced over the inner portion
of the glazing clip and beneath the outer portion of the glazing clip.
In another aspect, the present invention comprises a glazing panel retainer
for use with a glazed panel wall construction which includes a frame
member having a channel formed in its outer face and having glazing
recesses formed on either side thereof, a glazing clip engaged within the
channel in the outer face of the frame member and projecting forwardly
therefrom, a pair of glazing panels each having an outer surface and
having an edge disposed within a corresponding one of the glazing
recesses, and a cover member which engages the glazing clip, the cover
member comprising means for retaining the glazing panels within the
glazing recesses. The glazing panel retainer comprises a means for
engaging the glazing clip and bearing surfaces which engage a mutually
facing marginal portion of the outer surface of each of the glazing panels
when the glazing panel retainer is engaged with the glazing clip to retain
the glazing panels within the glazing recesses during assembly of the
curtain wall construction. The glazing panel retainer is configured to be
concealed beneath the cover member such that the glazing panel retainer
does not have to be disengaged from the glazing clip prior to the cover
member being engaged with the glazing clip.
Thus it is an object of the present invention to provide an improved
apparatus and method for erecting glazed panel wall constructions such as
curtain walls, storefronts, and the like.
Other objects, features, and advantages of the present invention will
become apparent upon reading the following specification, when taken in
conjunction with the drawings and the appended claims.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1A is a perspective view of a preferred embodiment of a temporary
glazing panel retainer according to the present invention.
FIG. 1B is a front view of the retainer of FIG. 1A.
FIG. 1C is an end view of the retainer of FIG. 1A.
FIG. 2A is an exploded top view of a prior art curtainwall construction of
the type with which the retainer of FIGS. 1A-1C is intended to be used.
FIG. 2B is a top view showing the curtainwall construction of FIG. 2A
assembled.
FIGS. 3-7 are perspective views illustrating the assembly of a curtain wall
construction using the retainer of FIGS. 1A-1C.
FIG. 8 is a top view of a curtainwall construction assembled according to
the procedure depicted in FIGS. 3-7 and employing the retainer of FIGS.
1A-1C.
FIG. 9 is a perspective view of an alternate embodiment of a temporary
glazing panel retainer according to the present invention.
DETAILED DESCRIPTION OF THE DISCLOSED EMBODIMENT
Referring now in more detail to the drawings, in which like numerals
indicate like elements throughout the several views, FIGS. 1-3 illustrate
a preferred embodiment of a temporary glazing panel retainer 10 according
to the present invention. The retainer 10 comprises a front panel 12 and
side panels 14 extending rearwardly from opposing lateral edges of the
front panel 12. An outwardly turned flange 16 is formed at the rear edge
of each side panel 14. The rearward facing surfaces 18 of the flanges 16
comprise bearing surfaces, whose function and purpose will be more fully
explained below. A keyhole-shaped opening 20 is formed in the front panel
12 of the retainer 10. The keyhole-shaped opening 20 comprises an upper
portion 22 having a width .omega..sub.1 and a wider lower portion 24
having a width .omega..sub.2.
FIGS. 2A and 2B illustrate a prior art wall construction 40 of the general
type with which the glazing panel retainer 10 of the present invention is
adapted for use. The wall construction 40 comprises a frame member 42
having a channel 44 formed in its forward edge. Glazing recesses 46 are
formed on either side of the frame member 42. A pair of glazing panels 50,
each of which comprises an outer surface 52 and a lateral edge 54, are
mounted to the frame member 42. The lateral edges 54 of the glazing panels
50 are received within the glazing recesses 46 of the frame member.
A glazing clip 60 has a base 62 formed at its inner end for engaging the
channel 44 in the face of the frame member 42. The glazing clip 60 of the
disclosed embodiment is disclosed in U.S. Pat. No. 4,750,310, which patent
is incorporated herein by reference, and hence the installation and
operation of the clip will not be described here in great detail. The
glazing clip 60 is formed from a thermally nonconductive material, such as
plastic. The outer portion of the clip 60 comprises a pair springable snap
legs 66. Downwardly and inwardly beveled lead-ins 68 are formed at the
outermost ends of the snap legs 66, the inner edges of the lead-ins
defining opposing flanges 70 on the inwardly facing surfaces of the snap
legs.
A recess on the lateral surfaces of the snap legs 66 of the glazing clip 60
defines a waist portion 72 which is narrower than the outer portion 74 of
the clip. The waist portion 72 of the glazing clip 60 is slightly narrower
than the width .omega..sub.1 of the upper portion 22 of the keyhole-shaped
opening 20 of the retainer 10. The outer portion 74 of the clip 60 is
slightly narrower than the width .omega..sub.2 of the lower portion 24 of
the keyhole-shaped opening 20 of the retainer 10 and slightly wider than
the width .omega..sub.1 of the upper portion 22 of the keyhole-shaped
opening 20. The significance of these relationships will be more fully
appreciated when the installation of the retainer 10 is hereinbelow
explained.
With further reference to the glazing clip 60, a stem 76 connects the snap
legs 66 and the base 62. When the base 62 of the glazing clip 60 is
installed within the channel 44 in the face of the frame member 42, the
clip projects forwardly from the frame member.
A cover member 80 has an outer surface 82 and a concave inner surface 84.
Gasket raceways 86 are formed at the rear edges of the cover member and
provide a means by which rearwardly facing gaskets 88 are mounted to the
cover member 80. The cover member 80 further comprises a rearwardly
projecting flange 90 having shoulders 92 formed thereon. The flange 90 of
the cover member 80 is adapted to be inserted between the springable snap
legs 66 of the glazing clip 61), the flanges 71) on the inner surface of
the snap legs 66 engaging the shoulders 92 formed on the flange 90 of the
cover member 80 to couple the cover member to the glazing clip 60.
Assembly of a curtain wall construction utilizing the temporary glazing
panel retainer 10 of the present invention is illustrated in FIGS. 3-7.
Referring first to FIG. 3, a frame member 42 is erected, and a glazing
clip 60 is installed into the channel 44 on the front edge of the frame
member. Depending upon the design of the glazing clip and logistics of a
particular application, the glazing clip may be installed onto the face of
the frame member at the job site after it is erected, or it may have been
installed onto the frame member at the factory prior to being shipped to
the job site. With the framing member and glazing clip in place, glazing
panels are set into place on either side of the frame member.
Referring now to FIG. 4, the glass panels 50 are set into place on either
side of the frame member 42, the lateral edges 54 of each glass panel
being inserted into their corresponding glazing recesses 46.
FIGS. 5 and 6 illustrate the installation of the temporary glass retainer
10 to retain the glass panels 50 in place. To install the retainer 10, the
retainer is first oriented with the wide portion 24 of the keyhole-shaped
aperture 20 below the narrow portion 22. The retainer 10 is then
positioned such that the wide lower portion 24 of the keyhole-shaped
aperture 20 is aligned with the glazing clip 60, as shown in FIG. 5. The
retainer 10 is then inserted over the glazing clip 60 as shown in FIG. 6,
the clip being received through the wide lower portion 24 of the
keyhole-shaped aperture 20 in the front panel 12 of the retainer, and the
retainer is advanced until the bearing surfaces 18 of the flanges 16 abut
the margins of the front surfaces 52 of the adjacent glazing panels 50.
With the retainer 10 in the position shown in FIG. 6, the front panel 12 of
the retainer is positioned behind the wide upper portion 74 of the clip
60, and the keyhole-shaped aperture 20 is aligned in the same vertical
plane as the narrower waist portion 72 of the clip. The retainer 10 is now
slid downwardly in the direction indicated by the arrow 98, the narrower
upper portion 22 of the keyhole-shaped aperture 20 being advanced down
over the narrow waist portion 72 of the glazing clip 60 and behind the
outer portion 74 of the clip. Because the narrow upper portion 22 of the
keyhole-shaped aperture 20 is narrower than the relatively wide upper
section 74 of the glazing clip, the retainer 10 is captured behind the
upper section of the glazing clip and is thus held securely in place. In
turn, the bearing surfaces 18 of the flanges 16 of the retainer 10 bear
against corresponding marginal portions of the front surfaces 52 of the
adjacent glazing panels 50, thereby retaining the glazing panels within
their respective glazing recesses 46.
The final step in the assembly sequence the installation of the snap-on
cover member 80, as shown in FIG. 7. The flange 90 of the cover member is
aligned between the arms of the glazing clip 60 and advanced until the
shoulders 92 of the flange advance past the beveled lead-ins 68 of the
outwardly projecting arms 66 of the glazing clip. At this point the arms
66 of the glazing clip 60 snap inwardly to bring the flanges 70 of the
glazing clip into engagement with the shoulders 92 of the flange 90 of the
cover member 80. This mechanical engagement between the flange 90 of the
cover member and the arms 66 of the glazing clip 60 retains the cover
member in place. In turn, the glazing gaskets 88 on the outer rear edges
of the cover member 80 bear against the outer surface 52 of the respective
glazing panels 50. As shown in the assembled top view of FIG. 8, the width
of the temporary retainer 10 is sufficiently narrow that the cover member
80 can be installed over the retainer and conceal the retainer from view.
Thus the retainer 10 need not be removed before the cover member 80 is
installed, thereby eliminating an installation step.
In a typical storefront or curtain wall installation, glazing clips 60 will
be mounted to the frame members 42 at approximately 12 inch intervals.
However, it is not necessary to fasten temporary retainers 10 to every
glazing clip. Rather, it has been found that two retainers 10 spaced along
each vertical edge and one retainer 10 spaced along each horizontal edge
of each framed opening are sufficient to maintain the glazing panels 50 in
place until the cover members 80 can be installed.
FIG. 9 is a front view of an alternate embodiment 100 of a temporary
glazing panel retainer according to the present invention. The retainer
100 is identical in most respects to the retainer 10 previously described,
except that a single narrow slot 102 is formed in the front panel 104 of
the retainer, rather than a keyhole-shaped aperture as disclosed in the
earlier embodiment. The slot 102 extends all the way to the lower edge 106
of the retainer 100 and has a width .omega..sub.1 which is narrower along
its entire length than the outer portion 74 of the glazing clip 60 and
slightly wider than the waist portion 72 of the glazing clip. The
installation of the retainer 100 is also slightly differently from the
installation of the retainer 10 previously described. Rather than
inserting the retainer 100 over the glazing clip 60 from the front, the
retainer 100 is placed above the clip and behind the outer section 74 of
the clip and is slid downwardly around the narrow waist portion 72 of the
glazing clip. Once installed, the retainer 100 is captured behind the
outer section 74 of the glazing clip 60 and retains the glazing panels 50
in place in the same manner as hereinabove described with respect to the
retainer 10.
The retainers 10 and 100 of the disclosed embodiment afford significant
advantages over the prior art. First, the retainers are configured to be
hung on existing glazing clips. Hanging the retainers on the clips is not
only significantly faster than driving a screw into the face of the frame
member but also obviates the need for parts such as the screws and for
mounting tools such as the screwdriver needed for driving the screws.
Further, the retainers are configured to be concealed beneath the cover
member. Thus, the cover members can be installed without having to remove
the retainers, thereby eliminating a step in assembly.
While the retainers 10 and 100 of the disclosed embodiments are especially
dimensioned for use with a glazing clip 60 having a waist portion 72, it
will be appreciated that the invention is not limited to a retainer
configured for use with such a glazing clip having a waist portion and
that other clip configurations which afford a wide outer portion and a
narrower inner portion can be employed. For example, a retainer could be
configured to fit around the stem of a glazing clip and below the main
body portion of the clip, rather than having a reduced area formed in the
main body portion, and achieve the same results as the disclosed
embodiments.
Finally, it will be understood that the preferred embodiment has been
disclosed by way of example, and that other modifications may occur to
those skilled in the art without departing from the scope and spirit of
the appended claims.
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