pdfStudform Kwikloc – Seismic Installation Guide

pdfStudform Kwikloc – Seismic Installation Guide
Inspired
solutions.
AX
600 M
art
50 2 P
KLSEI1 all angle
w
t
floating
bracke
ts
e
riv
2x 5/32
sion
suspen
4.0mm 424-4 clip
h2
rod wit
m²
as <81
e
r
for a
e
Main te
00
A/B 36 all
ASTS
w
g
n
ti
a
o
fl
2 Part
t
e
k
rac
angle b
n
nectio
all con
w
r
a
b
tee
le
g main
: 1:4
ng ang
Floatin
SCALE
to floati
n
o
ti
c
e
e conn ion required.
dary te
s
(Secon ut no suspen 600mm).
b
is
th
g
n
le
similar
imeter
r
e
p
x
Ma
Studform
I N S P I R E D
S O L U T I O N S
Stage 1
FIXED
FIXED
Mitred corners
(Refer photo of
external type
fixed/floating
Mitred corners
junction)
(Refer photo of
Wall
structure
FIXED
FIXED
Wall
structure
FLOATING
FLOATING
external type
fixed/floating
junction)
FLOATING
FLOATING
note
for best
practices
(*Refer (*Refer
note 'c'
for'c'best
practices
for nominating floating sides).
for nominating floating sides).
PLAN
PLANSTAGE 1
SCALE: 1:50
STAGE 1
SCALE: 1:50
STAGE 1 - Nominate fixed & floating sides for each separate ceiling area.
a.
Define each ceiling area into separate four sided open areas where possible.
b. Nominate
sides &sides
two floating
sides or
refer to engineered
STAGE 1 - Nominate
fixedtwo
&fixed
floating
for each
separate
ceiling drawings
area. if available.
a.
Define each
area into separate
fourinclude:
sided shop
openfronts,
areas
where
possible.
* ceiling
Note considerations
for floating side
soffits,
curtain
walls, bulkheads, etc.
i.e. in most of these cases the floating side should be at these points.
Fixed side should be off full height partitions, solid walls, etc. that have had prior design to
Nominate two fixed sides & two floating sides or refer to engineered drawings if available.
withstand ceiling load incurred.
(Note: In Australia with the Kwikloc Seismic ceiling system, wall partition continuous noggin
Note considerations
floating
sidenotinclude:
fronts,
soffits,
curtain
walls,
at ceilingfor
level
is generally
required shop
in the stud
partition
due to
the Kwikloc
wallbulkheads, etc.
diagram).side should be at these points.
i.e. in most of angle
thesestrength.
casesRefer
the floating
b.
*
Fixed sidec.should
be off full height partitions, solid walls, etc. that have had prior design to
Fixings at max 600 centres. Use 8 gauge screws or 6.5mm x 40 metal pin anchor to
withstand ceiling
load
masonry. incurred.
(Note: In Australia with the Kwikloc Seismic ceiling system, wall partition continuous noggin
at ceiling level is generally not required in the stud partition due to the Kwikloc wall
angle strength. Refer diagram).
R e v i s i o n n o t e s:
Rev:
-
c.
Date:
-
Drawn by:
Fixings at max 600 centres. Use 8 gauge screws or 6.5mm x 40 metal pin anchor
to
D.M
Notes:
masonry.
Client:
Rev:
Date:
-
-
Notes:
-
Dr
S
-
S
D.M
-
Client:
-
Pg 1
K
-
Drawn by:
R e v i s i o n n o t e s:
Pr
Wall studs
Wall studs
Wall studs
ers
of
pe
ing
on)
Wall angle
Plaster board
Wall angle
Wall studs
Plaster board
FIXED
Wall angle
Wall studs
Wall studs
Plaster board
For Australia,
ISOMETRIC
noggin
at ceiling
NOGGIN
DIAGRAM in
level
not
required
Wall angle
SCALE: N.T.S
general
For Australia,
noggin at ceiling
level not required in
general
ISOMETRIC
NOGGIN DIAGRAM
N.T.S ISOMETRIC
FIXED
For Australia,
SCALE:
Plaster board
noggin at ceiling
level not required in
Wall angle
Wall angle
general
Plaster
board
Plaster
board
Note: Rubber spacers to be removed on
completion of grid installation,
to tiling.
Note:prior
Rubber
spacers to be removed on
NOGGIN DIAGRAM
SCALE: N.T.S
prior
to tiling.
Floating wall angle as supplied completion of grid installation,
Note: Rubber
spacers
to be removed on
For Australia,
ISOMETRIC
with rubber spacers
completion of grid installation,
prior to tiling.
noggin at ceiling
wall
(length and spacings Floating
diagramatic
only)angle as supplied
NOGGIN
DIAGRAM
level
not
required
in
Floating
wall angle
as supplied
with rubber spacers For
Australia,
For Australia,
SCALE: N.T.S
ISOMETRIC
general ISOMETRIC
with
spacers
noggin
at rubber
ceiling noggin
at ceiling
(length and spacings
diagramatic
only)
(length
and
spacings
diagramatic
only)
NOGGIN
DIAGRAM
NOGGIN
DIAGRAM
level not requiredlevel
in not required in
SCALE: N.T.S SCALE: N.T.S
general
general
Note: Rubber spacers to be removed on
Fixings
at 600 max
completion
of grid installation, prior to tiling.
centres
Fixings at 600 max
ea.
Note:
Rubber
spacers
Note:
to
Rubber
be removed
spacersonto be removed on
Floating wall angle as supplied
centres
completion
of grid
completion
installation,
of prior
grid installation,
to tiling.
prior toFixings
tiling. at 600 max
ossible.
with
rubber spacers
centres
at 600 max
(lengthFixings
and spacings
diagramatic only)
Fixings
at
600
max
Floating
wall angle as supplied
Floating wall angle
as supplied
centres
rawings if available. ASTS3600
centres
Fixings at 600with
max
with rubber spacers
rubber spacers
(length
and spacings
(length and spacings
diagramatic
only)diagramatic only)
centres
n walls, bulkheads, etc.
ASTS3600
had prior design to
ASTS A/B 3600
Fixings at 600 max
ASTS3600 Fixings at 600 max
centres
on continuous noggin
centresELEVATION
Kwikloc
lable. wallELEVATION
Fixings at 600 max
Fixings at 600 maxASTS A/B 3600
e.
Fixings
at 600
max
Fixings
at 600WALL
max ANGLE
ASTS A/B
3600
FLOATING
centres
centres 1:1
SCALE:
ELEVATION
ASTS3600
ASTS3600
FIXED WALL ANGLE
eads,
etc.
gs if available.
SCALE: 1:1
pin anchor to
ign to
c.s, bulkheads, etc.
noggin
prior
r o j e c t: design to
D a t e:
ELEVATION
KWIKLOC SEISMIC CEILING INSTALLATION GUIDE
ntinuous noggin
Drawn ASTS3600
by:
oc wall
r a w i n g T i t l e:
D.M
STAGE 1
-
nchor to
SHEET 1 OF 3
-
P- r o j e c t:
ient:
-
FIXED WALL ANGLE
ELEVATION
SCALE: ELEVATION
1:1
Client:
P r o j e c t:
D r a w i n g T i t l e:
2/03/15
P r o j e c t:
S c a l e @ A3:
D a t e:
D a t e:
2/03/15
S c a l e @ A3: D a t e:
AS NOTED
AS
NOTED
2/03/15
KWIKLOC SEISMIC
SEISMICGUIDE
CEILING
INSTALLATION
GUIDE
D r a w i n CEILING
g T i t l eKWIKLOC
: INSTALLATION
STAGE 1
STAGE 1
SHEET 1 OF 3
ASTS
A/B 3600 FLOATING WALL ANGLE
S c a l e @ A3:
ELEVATION
SCALE:ELEVATION
1:1
AS NOTED
D r a w i n g T i t l e:
KWIKLOC SEISMIC CEILING INSTALLATION GUIDE
-
ASTS A/B 3600
ASTS A/BR e3600
FLOATING
WALL
ANGLE WALL ANGLE
ASTS3600
FIXED WALL ANGLE
ASTS3600 FIXED
WALL
A/B 3600
FLOATING
STAGE 1 ANGLE
v i s i o n: ASTS
SHEET 1 OF
3
SCALE: 1:1
SCALE:
SCALE: 1:1
SCALE: 1:1
D a t e: 1:1
-
P r o j e c t:
KWIKLOC SEISMIC CEILING
INSTALLATION GUIDE
D.M
ASTS A/B 3600
ASTS A/B 3600 FLOATING WALL ANGLE
SCALE: 1:1
S c a l e @WALL
A3:
FIXED
ASTS A/B
3600 FLOATING WALL ANGLE
PANGLE
r o j e c t:
D a t e:
ASTS A/B 3600 ASTS A/B 3600
ELEVATION
ELEVATION
AS NOTED
2/03/15
KWIKLOC SEISMIC CEILING INSTALLATION GUIDE
SCALE: 1:1
SCALE: 1:1
D.M
Drawn by:
centres
ELEVATION
ELEVATION
2/03/15
R e v iASTS3600
s i o n:
Client:
awn by:
ASTS3600 FIXED WALL ANGLE
1:1
ASTS3600
ASTS3600 SCALE:
centres
SHEET 1 OF 3
D r a w i n g T i t l e:
D r a w i n g T i t l e:
-
STAGE 1
STAGE 1
-
SHEET 1 OF 3
SHEET 1 OF 3
l e @ A3: R e v i s i o n:
R e v i sSi coan:
-
AS NOTED
-
2/03/15
S c a l e @ A3:
AS NOTED
R e v i s i o n:
R e v i s i o n:
-
-
Pg 2
Stage 2
Denotes seismic
clip KLSEI175
Denotes hanger
600
MAX
Denotes hanger
600
MAX
Denotes seismic
clip KLSEI175
600
MAX
Wall
structure
600
MAX
FIXED
600
MAX
FIXED
600
MAX
Secondary tees
FIXED
FLOATING
FIXED
FLOATING
Wall
structure
Main tees
Secondary tees
Main tees
600
MAX
600
MAX
KLSE
S
FLOATING
FLOATING
PLAN
PLAN
STAGE 2
STAGE
2
SCALE:
1:50
SCALE: 1:50
STAGE 2 - Install main grid tees & spacers
main
tees grid
& spacers
off fixed side wall angle.
STAGEa.2 - Install
Install
main
teesleading
& spacers
a.
b. Use
A90S
brackets
to fixedleading
wall angle
2x 5/32
rivets to grid and
Install
main
tees
& spacers
offwith
fixed
sidealuminium
wall angle.
b.
Use
bracketsbrackets
to fixed
angle
with with
2x 5/32
aluminium
rivets to grid and
c. A90S
Use KLSEI150
to wall
floating
wall angle
2x 5/32
aluminium rivets.
8 gauge screw to wall angle.
8 gauge screw to wall angle.
d.
Max distance from wall to main tee to be 600mm.
c.
Use KLSEI150 brackets to floating wall angle with 2x 5/32 aluminium rivets.
d.
Max distance from wall to main tee to be 600mm.
e.
(Refer to inset 3D detail).
Use 4.0mm
suspension rod and 2424-4 suspension clips to main tees except where
areas
greater
than
81m²,to revert
to 2.5mm
wire
installation.
g. Max hanger
spacings
be 1200mm
betweentwitched
and 600mm
from
perimeter to first hanger.
e.
f.
Use 4.0mm suspension rod and 2424-4 suspension clips to main tees except where
areas greater than 81m², revert to 2.5mm twitched wire installation.
Insert KLSEI175 seismic clips to all main tee / secondary tee connections.
h. KLSEI175
Suspension fixings
to soffit
or purlins
as per tee
engineer's/site
specifications.
Insert
seismic
clips
to all main
/ secondary
tee connections.
(Refer
to
inset
3D
detail).
R e v i s i o n n o t e s:
f.
Rev:
Date:
-
-
g.
h.
Notes:
Drawn by:
D.M
Max hanger
spacings to be 1200mm between and 600mm from perimeter to first hanger.
Suspension fixings to soffit or purlins as per engineer's/site specifications.
Client:
-
Drawn by:
R e v i s i o n n o t e s:
Rev:
Date:
-
-
Notes:
-
D.M
-
Client:
Pg 3
-
FIXED
FIXED
Main tee
ASTS3600 wall angle
Secondary tees
Main tees
KLSEI175 Seismic Clip
SCALE: N.T.S
600
600
MAX
MAX
Cross tee
600
Main tee
KLSEI175
Fixed main tee bar wall connection
SCALE: 1:4
(Secondary tee connection to fixed angle
MAX
similar but no suspension required.
Max perimeter length is 600mm).
600 MAX
Cross tee
600 MAX
Main tee
KLSEI175
A90S Bracket
2x 5/32 rivets
2.5mm twitched
wire for areas >81m²
A90S Bracket
2x 5/32 rivets
nd
A90S Bracket
2x 5/32 rivets
Remove rubber
spacers on
completion of grid
installation
Main tee
Main tee
Main tee
ASTS3600 wall angle
KLSEI175 Seismic Clip
SCALE:
Fixed
mainN.T.S
tee bar wall connection
irst hanger.
-
P r o j e c t:
600 MAX
otes seismic
KLSEI175
600 MAX
4.0mm suspension
rod with 2424-4 clip
for areas
<81m²
KLSEI150
2 Part
STAGE 2
KLSEI150 2 Part
floating wall angle
600
bracket
MAX
2x 5/32 rivets
2/03/15
S c a l e @ A3:
AS NOTED
D r a w i n g T i t l e:
SHEET 2 OF 3
floating wall angle
bracket
2x 5/32 rivets
600
MAX
bber
rs on
f grid
ation
-
D a t e:
KWIKLOC SEISMIC CEILING INSTALLATION GUIDE
Client:
-
Fixed main tee bar wall connection
Floating main tee bar wall connection
SCALE:SCALE:
1:4 1:4
SCALE: 1:4
Fixed main tee bar wall connection
(Secondary
tee connection
to fixed
angleangle
(Secondary
tee connection
to floating
(Secondary tee connection to fixed angle SCALE: 1:4
but no suspension
required.
similar but no suspension required.
similar butsimilar
no suspension
required.
(Secondary tee connection to fixed angle
Max perimeter length is 600mm).
Max perimeter length is 600mm).
similar but no suspension required.
Max perimeter length is 600mm).
Max perimeter length is 600mm).
Drawn by:
D.M
Main tee
ASTS A/B 3600
2 Part floating wall
angle bracket
ASTS3600 wall angle
EI175 Seismic Clip
SCALE: N.T.S
4.0mm suspension
rod with 2424-4 clip
for areas <81m²
KLSEI150 2 Part
floating wall angle
2.5mm twitched
bracket
wire for areas >81m²
2x 5/32 rivets
ASTS3600 wall angle
where
2.5mm twitched
wire for areas >81m²
600 MAX
Remove rubber
Main tee
spacers on
completion of grid
Remove rubber
Wall
installation
spacers on
ASTS
A/B 3600
structure
2 Part floating wall completion of grid
ASTS A/B 3600
angle bracket
installation
2 Part floating wall
angle bracket
600 MAX
R e v i s i o n:
4.0mm
suspension
rod with 2424-4 clip
Cross tee
forKLSEI150
areas <81m²2 Part
Main teefloating wall angle
KLSEI175
bracket
2x 5/32 rivets
Main tee
4.0mm suspension
rod
600 MAXwith 2424-4 clip
for areas <81m²
2.5mm twitche
wire for areas
A90S Bracket
2x 5/32 rivets
Main tee
FIXED
Main tee
ASTS A/B 3600
Floating main tee bar wall connection
2 Part floating wall
SCALE: 1:4
Floating main tee bar wall connection
ASTS3600 wall angle
angle bracket
(Secondary tee connection to floating angleSCALE: 1:4
Secondary
tees required.
similar but
no suspension
(Secondary tee connection to floating angle
Max perimeter length is 600mm).
similar but no suspension required.
Main tees
Max perimeter length is 600mm).
Floating main tee bar wall connection
KLSEI175 Seismic Clip
Fixed main tee bar wall connection
SCALE: N.T.S
SCALE: 1:4
SCALE: 1:4
D a t e:
GUIDE
2/03/15
P r o j e c t:
D a t e:
AS NOTED
600
MAX
S c aSEISMIC
l e @ A3: CEILING INSTALLATION GUIDE
KWIKLOC
D r a w i nR
g eTvi ti lsei:o n:
S c a l e @ A3:
AS NOTED
STAGE- 2
R e v i s i o n:
SHEET 2 OF 3
ngle.
(Secondary tee connection
to floating
(Secondary
tee angle
connection to fixed angle
similar but no suspensionsimilar
required.
but no suspension required.
Max perimeter length is 600mm).
Max perimeter length is 600mm).
2/03/15
-
P r o j e c t:
KWIKLOC SEISMIC CEILING INSTALLATION GUIDE
600 MAX
D a t e:
2/03/15
S c a l e @ A3:
D r a w i n g T i t l e:
STAGE 2
SHEET 2 OF 3
KLSEI150 2 Part
floating wall angle
bracket
2x 5/32 rivets
AS NOTED
R e v i s i o n:
-
Remove rubber
4.0mm susp
rod with 242
for areas <8
Pg 4
9000
180003 & 4
Stage
Light fitting with
additional spacer tee*
18000
A/C cushion box with
additional spacer tee*
9000
9000
Light fitting*Note:
with
KSEI175
additional spacer tee*
18000
9000
seismic
clips not required for
A/C & intermediate
A/C cushionlight,
box with
additional spacer
tee*spacer tees.
600mm
18000
3-Way
Bracing
*Note: KSEI175 seismic
clips not required for
light, A/C & intermediate
600mm spacer tees.
3-Way
Bracing
i
2x 8-18 tek screw
Notchf
into vertical stud (ty
Notch or pack to accom
top of T-Bar profi
Ceili
PLAN
PLAN
STAGE 3
STAGE1:150
3
SCALE:
SCALE: 1:150
STAGE 3 - Installation of bracing and fittings
3-way bracing of
required
for areas
as shown. Max 9m x 9m spacings or as indicated
STAGE 3a.- Installation
bracing
and>81m²
fittings
on engineered drawings.
a.
3-way bracing required for areas >81m² as shown. Max 9m x 9m spacings or as indicated
b. Note areas
of this size require suspension hanger type of 2.5mm twitched wire.
on engineered
drawings.
b.
Note areas
of this
sizeend
require
hanger
typeexceeding
of 2.5mm
lanyards
at each
of fittingsuspension
(refer diagram).
Light fittings
7kgtwitched
per fitting wire.
c.
Install light fittings as per manufacturer's specifications and secured to main grid tees via
d. Install foam A/C cushion boxes up to 6kg as shown. Where weight of A/C boxes exceeds
lanyards
at each end of fitting (refer diagram). Light fittings exceeding 7kg per fitting
6kg per unit, independent suspension from the building soffit or roof structure is required.
require independent suspension from the building soffit or roof structure.
d.
c.
require independent suspension from the building soffit or roof structure.
STAGE 4
Install
A/C
cushion/ sign
boxes
to 6kg as shown. Where weight of A/C boxes exceeds
a. foam
Arrange
inspection
off asup
required.
6kg per unit, independent suspension from the building soffit or roof structure is required.
b.
STAGE 4c.
Pg 5
Install light fittings as per manufacturer's specifications and secured to main grid tees via
Remove rubber spacers from 2-part floating wall angles.
Load ceiling tiles.
a.
Arrange inspection / sign off as required.
b.
Remove rubber spacers from 2-part floating wall angles.
c.
Load ceiling tiles.
TYPICAL A/C FI
SCALE:
Pro
KW
Dra
ST
SH
Lanyard to main
tee each end of
light fitting
ng with
Light fitting with
al
additional
tee* spacer tee*
e* spacer
Lanyard to main
Lanyard to main
Lanyard to main
tee
tee each end
teeofeach end
ofeach end of
light fitting light fitting light fitting
Lanyard to main
tee each end of
light fitting
hion
boxcushion
with
box with
h A/C
al
additional
tee* spacer tee*
e* spacer
45°
with
SEI175
mic*Note:
seismic
KSEI175 seismic
pacer
tee*
r required
clips
not
for required for
C
diate
& light,
intermediate
A/C & intermediate
nspacer
with
. box
600mm
tees.spacer tees.
pacer tee*
45°
45°
45°
Lanyard to main
tee each end of
light fitting
Folded web
Fixing to structure as
specified by engineer
45°
45°
45°
175 seismic
quired for
intermediate
2x
8-18 tek screw fixings
45°
acer
intotees.
vertical
stud screw
(typical)
2x 8-18 tek 2x
8-18fixings
tek screw
2x 8-18fixings
tek screw fixings
into vertical into
studvertical
(typical)
into
studvertical
(typical)stud (typical)
hfixings
or pack to accommodate
ypical)
Notch
or pack to accommodate
Notch or pack
to accommodate
Notch
or pack
to accommodate
ing tile
Folded webFolded web Folded web
Fixing4to
asstructure
Fixing to
Fixing to
asstructure as
5°structure
specified byspecified
engineerbyspecified
engineerby engineer
45°
45°
Folded web
Fixing to structure as
specified by engineer
76mm x 0.75 BMT
stud section (typical)
45° 76mm x 0.75
76mm
76mm
BMT x 0.75 BMT
BMT x 0.75
sectiontrimmed
(typical)
stud
section
(typical)
stud section
(typical)
Vertical
studstud
flanges
76mm x 0.75 BMT
stud section (typical) Vertical studVertical
to accommodate
ceiling
tiles
flanges
stud
trimmed
Vertical
flangesstud
trimmed
flanges trimmed
to accommodate
to accommodate
ceilingtotiles
accommodate
ceiling tiles ceiling tiles
Vertical stud flanges trimmed
Top of T-Bar
to accommodate ceiling tilesTop of T-BarTop of T-BarTop of T-Bar
76mm x 0.75 BMT
Top of T-Bar
stud section (typical)
top of T-Bar profile. TBC
mmodate
ile. TBC
Folded web
Fixing to structure as
specified by engineer
of T-Bar
top of T-Bartop
profile.
TBCtop
of T-Bar
profile.
TBCprofile. TBC
2x 8-18 tek screw fixings
into vertical stud (typical)
Vertical stud flanges trimmed
Ceiling tile Ceiling tile Ceiling tile Bottom of T-Bar
Bottom of T-Bar
2x
screw
8-18 tek screw
8-18 tek
screw
tile
to accommodate
ceiling
tiles
Bottom
of T-BarBottom of T-Bar 2x 8-18 tek
NotchCeiling
or pack to
accommodate
2x
8-182x
tek
screw
T-Bar
web to stud
T-Barweb to T-Bar
Ceiling tile Ceiling tile Ceiling tile stud web tostud
BottomTBC
of T-Bar
top of T-Bar profile.
2x 8-18 tek
to T-Bar
Ceiling
tilescrew
Topconnection
ofstud
T-Barweb
connection
connection
stud web to T-Bar
Ceiling tile
connection
ELEVATION
ELEVATION
ELEVATION
SIDE ELEVATION
SIDE ELEVATION
SIDE ELEVATION
connection
ELEVATION
SIDE ELEVATION
ELEVATION
SIDE ELEVATION
TYPICAL
3-WAY BRACING
TYPICAL 3-WAY
TYPICAL
BRACING
3-WAY
BRACING
1:5 tek screw
SCALE: 1:5SCALE: 1:5SCALE:
Bottom of T-Bar
2x 8-18
TYPICAL 3-WAY BRACING
TYPICAL 3-WAY BRACING
stud
web
to T-Bar
Note:
Options
Note:
available
Options
as
available
approved
as
by
approved
engineer.
by engineer.
Note:
Options
available
as
approved
by
engineer.
Ceiling
tile
SCALE: 1:5
SCALE:
1:5 tube
connection
Telescopic
aluminium
Telescopic
aluminium
3-way brace
tube 3-way brace
Telescopic aluminium
tube
3-way
brace
Note: Options available as approved by engineer.
also
available
also
from
available
Studform
Pty
Studform
Ltd.
Pty Ltd.
also available
from
Studform
Pty
Ltd. from
ELEVATION
SIDE ELEVATION
available
as
approved
by engineer.
Telescopic aluminium tubeNote:
3-way Options
brace
also available from Studform Pty Ltd.
Telescopic
aluminium
tube
3-way
brace
TYPICAL 3-WAY BRACING
Ceiling tile
or
edas indicated
wire.
A/C foam
cushion box
agrid tees via
er fitting
Fasten through
sides of tee bars
with 2/8x12 drill
point screws each face
also available
SCALE:from
1:5 Studform Pty Ltd.
foam Options available as approved by engineer.
A/C foam A/C foam A/C Note:
cushion boxcushion boxcushion boxTelescopic aluminium tube 3-way brace
also available from Studform Pty Ltd.
Fasten through
Fasten through
Fasten through
A/C
foam
bars of tee bars
sides of tee sides
bars of tee sides
drill 2/8x12 drill
with
2/8x12 with
drill 2/8x12 with
cushion
box
point
screws
eachscrews
face each face
point screws
each
face point
A/C
foam
cushion box
Fasten
through
T-Bar Grid T-Bar Grid T-Bar Grid
ds
oxes exceeds
d.
e is required.
sides ofFasten
tee bars
through
T-Bar
Grid
TYPICAL
TYPICAL
FIXINGA/C
DETAIL
FIXING DETAIL
TYPICAL
A/C
FIXINGA/C
DETAIL
sides ofdrill
tee bars
with
2/8x12
SCALE: 1:5SCALE: 1:5SCALE: 1:5
IXING DETAIL
with 2/8x12
drillface
point screws
each
point screws each face
1:5
Drawn by:
D.M
Drawn by:
D.M
P r o j e c t:
P r o j e c t:
T-Bar
Grid
Grid
P r o j e cT-Bar
t:
D a t e:
D a t e:
FIXING
DETAIL
TYPICAL A/CTYPICAL
FIXINGA/C
DETAIL
SCALE:2/03/15
1:5
SCALE: 1:5
Client:
Client:
D r a w i n g T i t l e: D r a w i n g T i t l e: D r a w i n g T i t l e:
o j e c t:
WIKLOC SEISMIC CEILING INSTALLATION GUIDE
S c a l e @ A3:
-
-
-
-
a w i n g T i t l e:
wn
by: 3 & 4
TAGE
HEET 3 OF 3
M
D a t e:
2/03/15GUIDE
2/03/15GUIDE
KWIKLOC SEISMICKWIKLOC
CEILING SEISMIC
INSTALLATION
KWIKLOC
CEILING
GUIDE
INSTALLATION
SEISMIC CEILING
INSTALLATION
STAGE 3 & 4
STAGE 3 & 4
AS NOTED
SHEET 3 OF 3
SHEET 3 OF 3
P r o j e c t:
R e v i s i o n:
P r o j e c t:
STAGE 3 & 4
SHEET 3 OF 3
S c a l e @ A3:
S c a l e @ A3:
AS NOTED
AS NOTED
AS NOTED
R e v i s i o n:
R e v i s i o n:
R e v i s i o n:
-
STAGE 3 & 4
STAGE 3 & 4
SHEET 3 OF 3
D a t e:-
-
KWIKLOC SEISMIC CEILING INSTALLATION GUIDE
D a t e:2/03/15
-
D r a w i n g T i t l e:
D r a w i n g T i t l e:
2/03/15
S c a l e @ A3:
KWIKLOC SEISMIC CEILING INSTALLATION GUIDE
nt:
D a t e:
SHEET 3 OF 3
S c a l e @ A3:
2/03/15
AS NOTED
S c a l e @ A3:
R e v i s i o n:
AS NOTED
-
R e v i s i o n:
-
Pg 6
The Kwikloc Seismic ceiling system
hosts unique advantages in ultimate
seismic ceiling design. The wall bracket
system facilitates fixing one side and
floating on the opposite side of both
plane directions in a ceiling installation.
Through the use of a patented two part
wall angle system and sliding bracket
assembly, the system provides the
unique feature of the maintenance
of a flat, even plane for accurate tile
nesting throughout the entire installation.
This is particularly important in health
projects, ie hospitals, medical centres,
laboratories etc, where hygiene
standards are of high importance.
The Kwikloc Seismic ceiling system
brings to the industry new levels of
seismic ceiling performance, having
sustained up to 3G tested forces with
100% vertical uplift. This represents
25–30% increased performance when
compared to other ceiling systems
available on the market today.
As a representative of the testing facility
in New York state, USA commented,
“this system was tested to the limits
of our equipment and the only way we
could see the ceiling failing is if it was on
top of the St Andrews fault in California
with the largest earthquake that could
ever occur.” And further, from the
engineering reporter / photographer
“this is a very good system. Best we’ve
seen. Normally systems fail at 2.0 to
2.25” (it should be noted that standard
testing requirements include 67%
vertical uplift).
Another major feature / breakthrough
represented in the Kwikloc Seismic
system is significantly lessened three
or five way strutting requirements.
Extrapolated engineering reports
confirm that areas up to 81m2 free of
bracing requirements are appropriate.
This greatly alleviates congestion
in ceiling cavity areas, effectively
maintaining adequate space for
important building function services,
ie mechanical ventilation, electrical,
plumbing and other important
services particularly with respect
to health facilities.
Testing facility in
New York state.
Contact us:
Studform Pty Ltd
South Australia:
4 Scott Court Mt Gambier
Phone: 08 8726 2000
Fax: 08 8725 6800
Freecall: 1800 352 366
www.studform.com.au
The ultimate seismic solution.
Available from
Seismic installation guide
v1.1 March 2015
0800 POTTERS
www.potters.co.nz
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