Wall structure and retainer

A removable wall construction system and fastener for same. Wall panels are mounted to aperture vertical studs via one-piece fasteners. The fasteners comprise a piercing means for attaching the fasteners to the edges of the wall panels, and aperture penetrators for attaching the fasteners to the studs. The aperture penetrators comprise transversely deflectable side arms or projections removably insertable into the stud apertures. These deflectable side arms are provided with inwardly bent distal end portions for improved retention in place following insertion.

FIELD OF THE INVENTION 
The present invention relates to a one-piece fastener for a demountable 
panel construction system wherein wall panels are removably secured to a 
supporting structural framework by a series of fasteners attached to the 
edges of the wall panels, and to a system incorporating such fasteners. 
BACKGROUND OF THE INVENTION 
It is common to construct demountable partitions in office buildings from 
drywall panels. These panels are usually mounted onto vertical studs via 
edge fastening clips. Traditionally, these clips have been provided with 
prongs for attachment to the edges of the wall panel. The clips were in 
turn attached to the vertical studs by screws or nails. These prior clips 
were capable of mounting the wall panels to the supporting studs in a 
coplanar fashion such that the clips themselves remained hidden behind the 
edges of the wall panels. These wall panel clips, however, required the 
wall panels to be mounted to the supporting studs in a progressive 
fashion. Weinar, U.S. Pat. No. 4,221,095 discloses a typical wall assembly 
system requiring the progressive attachment of wall panels to their 
supporting studs, in which the clips are secured to studs by means of 
screws. Subsequently, clips adapted to clip onto the edges of the wall 
supporting studs were introduced. See e.g. Ragland, U.S. Pat. No. 
4,377,060 and Wendt, U.S. Pat. No. 4,567,706, which both disclose wall 
fastening systems involving metal clips or fasteners which are provided 
with gripping flanges. Although these panel clips permitted the wall 
panels to be mounted to the studs in a manner permitting the easy 
disassembly of the wall panels, the clips often tended to slip off the 
supporting studs. These clips also required the wall panels to move 
laterally during their assembly. This significant hindrance in the 
assembly of partition walls, particularly at corners where lateral 
movement of wall panels is not possible. 
Adams, U.S. Pat. No. 4,149,353 discloses a clip-type fastener that avoids 
some of the aforementioned problems, but the Adams fastener suffers from 
lack of gripping symmetry in penetrating the wall stud, and provides a 
resilient stud-gripping engagement along only one side thereof. This 
necessitates the sequential use of oppositely oriented Adams fasteners in 
a series of spaced stud apertures in order to balance the gripping 
engagement of the studs with the fasteners. 
SUMMARY OF THE INVENTION 
Accordingly, the present invention provides a system for constructing a 
removable wall from demountable wall panels. The system includes a series 
of vertical support means such as studs for supporting the wall panels in 
a coplanar arrangement. The studs have a longitudinal front face provided 
with spaced apertures. Fasteners are provided for fastening the wall 
panels by their side edges to the vertical support means. The fasteners 
have piercing means for engaging the side edge of the wall panel, and 
support attachment means comprising deformable projections for insertion 
into a mating aperture of the studs. The projections of the fastener are 
each transversely deflectable toward their central axis, i.e. their 
effective width can be reduced in the act of penetrating the mating 
aperture. These projections accordingly are dimensioned and configured to 
be deflected upon insertion into the apertures of the vertical support 
means such that once within the aperture, the projections resist removal 
from the aperture. 
The subject system preferably comprises a series of vertical support means 
such as studs, each support means being vertically mounted between the 
floor and the ceiling, the vertical support means being horizontally 
separated from one another by a distance equal to the width of the 
standard-sized wall panels used. A row of coplanar wall panels are mounted 
to the vertical support means, such that the joint between two adjacent 
wall panels is aligned directly in front of a vertical support means. 
The vertical support means may comprise a vertical member having a front 
face and a rear face separated by a centrally disposed web portion. The 
front face of the vertical support means is provided with a series of 
apertures located towards either side of the web portion. 
Each fastener is an integral (i.e. one-piece, made from a single piece of 
material) fastener for engaging both the wall panel and the stud and 
removably attaching the panel to the stud. The fastener has rear panel 
edge-penetrating prongs and panel face-engaging legs or the like which, 
with the prongs, forms a clip-type bracket for firm gripping of the side 
edge of the panel, the fastener when in place being almost invisible as 
seen from the front of the panel. 
The rear portion of the fastener is provided with an aperture penetrator 
for matingly penetrating any of the apertures in the stud. The aperture 
penetrator has spaced resilient sides each capable of flexing transversely 
toward the centre axis of the penetrator. The sides of the penetrator in 
rest position outside the aperture are spaced apart at the point of 
maximum width by a distance slightly exceeding the width of the aperture, 
so that to penetrate the aperture, the sides must flex toward the centre 
axis of the penetrator. This flexing creates a force of gripping 
engagement between the edges of the aperture and the resilient side of the 
penetrator. 
The resilient sides of the aperture penetrator are bent toward the 
centre-axis of the penetrator at a point between the nose of the 
penetrator and the rear panel-engaging legs of the bracket, to facilitate 
gripping of the penetrator by the aperture.

DESCRIPTION OF THE PREFERRED EMBODIMENT 
Referring first to FIG. 1, the wall panel system of the present invention 
comprises vertical support means such as the stud identified generally as 
12, fasteners such as the one identified generally as 14, and wall panels 
such as the one identified generally as 50. The stud 12 and wall panel 50 
are shown only as fragments. 
More specifically, the vertical support means comprises an I-shaped stud 12 
having a front face 16, an intermediate web 18, and a rear face 20. The 
web 16 separated the faces 16 and 20 so that a space exists between front 
face 16 and rear face 20. Regularly spaced apertures 22 are provided on at 
least the front face 16 of stud 12. Desirably, for symmetry and 
convenience of use, identically arrayed apertures are provided on rear 
face 20 also. In the preferred embodiment of the present invention, the 
apertures 22 are formed as a series of longitudinally (vertically) spaced 
pairs of longitudinally extending slots, each aperture of a given pair 
being located on either side of web portion 18, symmetrically about the 
longitudinal axis of the stud 12. 
Referring now to FIGS. 3 and 4, the one-piece fastener 14 comprises a 
planar rear panel-engaging surface 42 having spaced parallel outside legs 
30 whose proximal portions are integrally connected together by 
intermediate planar portion 43. Projecting aperture penetrator thrust bars 
36 extend horizontally inwardly and generally perpendicular to planar 
portion 43, when inserted into the stud aperture 22. 
A clip or bracket generally indicated as 45 comprises a bracket base 44, 
generally perpendicular to rear panel-engaging surface 42, that surface 
42, and prongs 28 which extend generally parallel to leg portions 30. Leg 
portions 30 are provided at their distal ends with raised toes 32 which 
are set at angle B from the plane of leg portions 30. Prongs 28 are 
slightly inwardly inclined to form an acute angle C relative to bracket 
base 44. In the preferred embodiment of the present invention, angle C is 
at least about 80.degree.. 
It can be seen that the bracket clip 45 can firmly grippingly engage the 
side wall of the panel, as illustrated in FIG. 2. The prongs 28 penetrate 
the side edge 52 of the panel 50 at about midway between its front and 
rear surfaces. The bracket base 44 in such assembled position is in planar 
contact with side edge 52. The rear panel-engaging surface 42 is in planar 
contact with the rear surface 56 of the panel 50. 
Another way of looking at the bracket clip 45 is to perceive it as 
comprising at each end a thumb and extended finger in gripping 
configuration, the thumb being a prong 28, and the finger being a leg 30. 
The thumb (prong) 28 penetrates the side edge of the panel whilst the 
finger (leg) 30 affords vertical stability by snugly pressing against the 
rear surface 56 of the panel 50. 
Projections or thrust bars 36, 37 of aperture penetrators 35 are integral 
extensions of intermediate planar surface 43. Thrust bars 36, 37 project 
rearwardly from planar panel-engaging surface 42, between legs 30. The two 
thrust bars 36, 37 are spaced from one another. At their distal ends, 
noses 34 are formed that continue as flexible resilient side elements 38, 
39 respectively. The noses 34 form about a relatively sharp acute angle A. 
The resilient arms 38, 39 are bent transversely inwardly toward the centre 
axis of the penetrator (in line with thrust bars 36, 37) at 60, 61. Thus 
the free distal ends of the resilient arms 38, 39 tend to grippingly 
engage the apertures 22 when they are inserted therein. These distal ends 
of arms 38, 39 terminate in transverse extensions or flanges 40. 
The manner of use of the fastener 14 is apparent by reference to FIG. 2. To 
assemble the wall panel system, fasteners 14 are first attached to a wall 
panel 50 at side edge 52 thereof as illustrated in FIG. 2. The toes 32 
slightly splayed outwardly facilitate positioning the fastener 14 against 
rear face 56 of panel 50. Prongs 28 are driven into edge 52 of panel 50 
such that rear surface 56 of wall panel 50 presses against leg portions 
30. Side edge-contacting bracket base 44 of fastener 14 touches the edge 
52 of wall panel 50 when prongs 28 are fully inserted. Fasteners 14 are 
fastened to wall panel 50 such that when rear face 56 of wall panel 50 is 
brought towards front face 16 of vertical support means 12, projections 34 
and 35 of fasteners 14 are aligned with associated mating apertures 22. 
The aperture penetrators 35 are then forcibly inserted into apertures 22. 
In this position, side edge-contacting bracket base 44 of each of the 
fasteners 14 is aligned with the central axis of front face 16 of stud 20. 
The diameter width of apertures 22 is less than the maximum distance 
between arms 38 and 39 of fastener 14. Upon insertion, arms 38 and 39 are 
deflected transversely inwardly towards thrust bars 36, 37 respectively. 
The aperture penetrators 35 enter associated apertures 22 until the 
portions of front face 16 adjacent the apertures 22 engage transversely 
extending flanges 40 located at the distal ends of resilient arms 38 and 
39. Those portions of the arms 38 and 39 which lie behind front face 16 
then tend to bulge transversely outwardly away from the distal ends of 
arms 38, 39. This "recoil" of arms 38 and 39 results in their exerting a 
gripping force against the front face 16 near apertures 22 which in turn 
tends to retain the aperture penetrators 35 in place within apertures 22. 
If lateral movement of wall board 50 occurs during the assembly of the wall 
system, and the flexibility of the aperture penetrators 35 admits a 
limited amount of accommodation. 
To create a continuous wall, a series of wall boards 50 are attached to a 
series of vertical studs 12 such that the side edges 52 of adjacent wall 
boards abut one another directly in front of an associated stud 12. 
To disassemble the wall construction, a specific wall panel may be removed 
by pulling the panel outward at panel edge 52 away from the vertical 
support means 12 with sufficient force to deflect the arms 38, 39 towards 
their associated thrust bars 36, 37. This forces the aperture penetrators 
35 to exit their associated apertures 22 and, therefore, release the wall 
panel 50 from stud 12. This procedure is repeated with each fastener 14 
located along side edges 52 of wall panel 50. 
In the preferred embodiment, a partition wall may be constructed from a 
single series of studs 12 by parallel mounting of a pair of wall panels 50 
to front face 16 and to rear face 20 respectively of stud 12 via a 
plurality of fasteners 14. 
Referring to FIGS. 5A, 5B, 6 and 7, one-piece fastener 100 includes spaced 
bracket clips 102 each made up of a leg 112, prong 122 and an intermediate 
bracket base 120. Fastener 100 also comprises and aperture penetrator 116 
extending away from intermediate planar portion 114 and generally 
perpendicular to legs 112. Legs 112 are provided at their distal ends with 
splayed toes 124 which are at a slight outward angle to the plane of the 
legs 112. 
Aperture penetrator 116 includes thrust bars 126 and 128 extending 
perpendicular to legs 112. A wide resilient member 130 forms a 
reverse-angled nose at spaced nose portions 104,106 constituting 
respective continuations of thrust bars 126 and 128. In the preferred 
embodiment, a narrower central resilient member 132 is located between 
thrust bars 126 and 128, and extends as a continuation of a central 
portion of wide resilient member 130 about reverse-angled central nose 
portion 108 and thence forwardly to the other side (in a transverse sense) 
of thrust bars 126 and 128. Nose portions 104, 106, 108 are aligned so 
that they function as a single thrusting entity when penetrating an 
associated aperture 22. 
As best shown in FIG. 7, resilient members 130 and 132 are bent 
transversely inwardly at 133 and 135 respectively. They terminate distally 
in lips or flanges 138,140 at the distal ends 134 and 136, which are 
slightly inwardly inclined relative to thrust bars 126 and 128. 
Resilient arms 130,132 are transversely deflected when they are inserted 
into a stud aperture 22. Upon insertion of penetrator 116, resilient 
members 130 and 132 are deflected toward each other due to the fact that 
the maximum width of penetrator 116 at 133, 135 is greater than the width 
of the aperture 22. With the relative dimensions illustrated, resilient 
member 130 is not deflected to the same extent as resilient member 132. 
During insertion, resilient members 130 and 132 each press against the 
edge of the aperture with a transverse force approximately perpendicular 
to the longitudinal central axis of aperture penetrator 116. Because of 
the balanced symmetrical configuration and relative location of the 
resilient members 130, 132, the transverse force created by deflection of 
the wide resilient member 130 is balanced by the transverse force created 
by deflection of the narrow resilient member 132; therefore, torsion of 
the projection does not occur. This is in contrast to the fastener 14 of 
FIG. 3, which because of the lack of symmetry along the central axis of 
the aperture penetrator is subject to torsional forces. 
The bends at 133 and 135 of resilient members 130, 132 permit the portions 
of resilient members 130 and 132 which are behind the stud aperture 22 to 
partially "recoil" away from each other after insertion such that the 
width of the penetrator 116 behind the aperture 22 is wider than the width 
of the aperture 22 itself. The recoil of resilient members 130 and 132 
results in a gripping engagement force being applied by aperture 
penetrator 116 to the front face of the stud 12 adjacent the aperture 22. 
This longitudinally acting force (relative to the aperture penetrator 
axis) resists the removal of penetrator 116 from the aperture 22 and 
thereby maintains penetrator 116 in place within the aperture. Stop lips 
138 and 140 engage the front face of the stud 12 adjacent the aperture 22 
so as to prevent resilient members 130 and 132 from being fully inserted 
into the aperture. With resilient member 130 and 132 being only partially 
inserted into the aperture, removal of penetrator 116 from the aperture 
can be achieved by applying an outwardly directed force to the fastener, 
said force being of sufficient magnitude to overcome the longitudinal 
gripping force exerted by penetrator 116. 
In an alternative embodiment (not shown), penetrator 116 may take the form 
of three or more separate projections each having a portion perpendicular 
to the legs 112 and a resilient member, the resilient members being so 
arranged that upon insertion of the penetrator, the transverse forces 
created by the resilient members pressing against the edges of the 
aperture are balanced and no torsion of the projection occurs. 
Further alternative structures are illustrated in FIGS. 8 and 9. FIG. 8 
illustrates a one-piece fastener generally similar to that of FIG. 5A 
except having a single continuous folded sheet portion as the aperture 
penetrator 180, as illustrated. The structure of FIG. 8 is considered 
inferior to that of FIG. 5A, because the relative flexibility of one side 
of the penetrator, joined to the bracket clip, is less than that of the 
other, whose distal end is free. 
FIG. 9 illustrates a further one-piece fastener whose overall configuration 
is similar to that of FIG. 8, but which is formed by doubling the sheet 
material (typically steel) of which the fastener is made about the distal 
end of the toe of the leg. 
The FIG. 9 embodiment is less desirable than that of FIG. 8, since it 
requires the use of a greater amount of material; further, it may be 
unduly stiff. 
In other alternative embodiments of the present wall construction system, 
stud 12 may assume a shape other than an I-beam, provided that it 
comprises a front face and a web portion arranged so as to create a space 
directly behind the front face in order to receive projections 34 and 39 
of fastener 14. For example, the support means could be a C-shaped member 
having front and rear surfaces, a Z-shaped member having front and rear 
surfaces, or a T-shaped member having only a front face. Apertures 22 may 
be circular or oval in some embodiments, while in other embodiments of the 
present invention, apertures 22 may not be oriented in pairs. 
If the side edge 52 of the panel 50 were provided with spaced slots, prongs 
28 could be replaced by tongues removably engaging such slots. 
While the present invention has been described and illustrated with respect 
to the preferred embodiments, it will be appreciated that further 
variations of the preferred embodiments may be made without departing from 
the subject invention, the scope of which is defined in the appended 
claims.