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DORMA HSW/FSW
Planning ManualforHorizontal SlidingWalls
2 07/08
DORMA HSW – Transparent versatility
HSWHorizontal Sliding Walls
FSWFolding Sliding Walls
Horizontal sliding walls are used in a wide range of different project types, and for both internal and external applications.These partitions can be flexibly designed to suit the site of installation, structural conditions and design concept. They cansatisfy a broad spectrum of requirements in relation to styling, material and finish or colour, and can also be equipped withindividually fabricated panels to perform special functions. Additional utilisation of the DORMA substructure ensures flexibleplanning in the case of all system variants as well as providing for the simple installation, maximum reliability and outstandingsafety of the entire system.
HSW-GFully glazed with door rails
HSW-GPSingle-point fixings with standard track rail
HSW-GE BOXesAll-glas with patch fittings
FSW-GFully glazed with door rails
FSW-CRoller carrier position at door rail centre
FSW-C plusRoller carrier position at door rail centreplus full-width sliding folding panel
HSW-RFully framed for toughened safety glass,laminated safety glass or double glazing
HSW-ISOFully framed with thermal-break frameprofiles
DORMA HSW Horizontal Sliding Walls
FSW-G
FSW-C FSW-C plus
HSW Horizontal Sliding Walls, fully framed
Tech
nica
l sub
ject
s to
cha
nge
with
out
notic
e.
Page
Contents
4 - 13
14 - 15
16 - 21
74
75 - 80
81 - 84
86 - 87
24 - 33
34 - 37
38 - 47
48 - 51
52 - 57
58 - 64
66 - 72
88
89
07/08 3
1.0
2.0
4.0
5.0
1.1 Parking and Stacking
Example stacking
arrangements
Stacking track calculations
Niche parking
1.2 Track Rails
1.3 Substructure
2.1 HSW-G
2.2 HSW-GP
2.3 HSW-GE BOXes
2.4 FSW-G
2.5 FSW-C/C plus
2.6 HSW-R
2.7 HSW-ISO
4.1 Measuring Up
4.2 Portal Systems / Surface Finishes
4.1 Vertical Seals Overview
4.2 Vertical Seals
Fineline
Line
4.3 Floor Track
HSWSupport and Guide Elements
HSW / FSWPanel Types
GeneralInformation
Accessories
4 07/08
HSW Support and Guide Elements
Parking and stacking
Perfect parking every timeExisting structures or unusual layouts often requirespecial solutions, particularlyin the design of the stackingarea. DORMA HSW systemscan be parked in a range ofdifferent positions. The stackof panels can be aligned parallel or square to the frontage, be readily visiblefor effect or hidden behindcolumns etc. Another possibility is that ofparking the system in linebut out of the way, whetherbehind a wall or in a niche(see also pages 5 - 13).The panels can also performcertain functions when thefrontage is open, such asproviding the sides of internal store windows andshowcases, or, if providedwith the appropriate printingon the glass, for adding artistic value to a wall. The following pages showsome system solutions devised in answer to a widerange of different problems.
Stacking systems
07/08 5
Panels stacked 90° transverse to travel direction
Standard stacking arrangement.With pivoting end panel as possible access leaf (left or right, or left and right)
Stacking behind end panel.(Left or right, or left and right)
Niche parking.With pivoting end panel as possible access leaf (left or right, or left and right)
Stacking with reshuffle bypass(without pivoting end panel). Behind wall projection/fixed side screen(Left or right, or left and right)
Stacking in a box or niche,behind end panel.Sliding panels only, around 135° offset (left or right, or left and right)
Stacking at acute angle.All panels brought into position with rear track roller.
Stacking track 135°behind column. With end panel as possibleaccess leaf (left or right, or left and right)
HSW Support and Guide Elements
Example stacking arrangements
Stacking in a box/pocket.Sliding panels or double actionpanels only (left or right, or left and right)
6 07/08
HSW Support and Guide Elements
Example stacking arrangements
Panels parallel to travel direction
Stacking track at 5° anglefor small number of panels (up to 6)(left or right, or left and right)
Stacking track 135°(left or right, or left and right)
Max. system height 3 m
X
Detail X
Detail X
Sliding panel with final folding panel ready for
sliding into stacking track
Sliding panel with final folding panel in
closed wall
Fixed screens
Closed system
Sliding panel 1
Stacking track offset innichewith folding panel as wallconnection (left or right, or left and right)
Parallel stackingtrackfor large numberof panels (left or right,or left and right)
Parking behind fixed screens (left or right, or left and right)
Stacking track beyond offsetpivoting end panel(left or right, or left and right)
Stacking track 90°behind column
with pivoting endpanel as possibleaccess leaf (left or right, or left and right)
07/08 7
Special stacking arrangements
Stacking in front of 90° wall with 90° angle section without closing pivoting end panel
Stacking panels of varying width
Closed wall
Stacking without stacking trackwith 4 panels (2 pivoting end panels/2 sliding panels)
a80
6565
6565
8080
8080
8080
8080
8080
6565
6565
6565
a80
5
6565
6565
8080
8080
6565
6565
6565
8080
8080
8080
80a
80a
5
B
TT
B
for
HS
W-R
for
HS
W-G
for
HS
W-R
for
HS
W-G
15-092
gerade Laufschiene mit Park-
Bahnhofsberechnung
HSW-G und HSW-R
bei H
SW
-Gbe
i HS
W-R
T
scale 1:10 scale 1:1
15-092
bei H
SW
-Gbe
i HS
W-R
T
(printout DIN A4)(drawn)
b.) exceeding 6 panels
a.) up to 6 panels
B
B
01.01(gezeichnet)(Druck DIN A4)
B = Fluegelbreite - 130 - ((T-80) x 0,087)
B = Fluegelbreite - 130a = je nach Grifftiefe
a = je nach Grifftiefe
b.) ueber 6 Fluegel
M.: 1:1 M.: 1:10
a.) bis 6 Fluegel
position parallel zur Laufrichtung (90 ) to the direction of travel (90 )Straight track, with stacking area parallel
Calculating stacking areas
B = panel width - 130 - ((T-80) x 0,087)
a = depending on handle depthB = panel width - 130
01.01
a = depending on handle depth
HSW-G und HSW-R
95
140
140
140
95
140
Stacking at the wall in closed compartment behind pivoting end panel
8 07/08
HSW Support and Guide Elements
Stacking track calculations
Straight track rail with stacking position transverse to travel direction
a = depending on pull handle depthor 75 mm where profile cylinder provided at front-mounted slide bolt
b = 65 mm for HSW-G80 mm for HSW-R90 mm for HSW-ISO
* HSW-GPcannot be provided witha 95° branch
a = depending on pull handle depth b = 65 mm for HSW-G
80 mm for HSW-R and HSW-GP90 mm for HSW-ISO
B1 = Panel width – 130 mm T1 = T3 x 1.414
b
b
b 65
36
150100 100
T3 = T4 – 92
T4 = T1
92
95°*
65
92
B2
= B
1 –
19
2
T3
Wid
th o
f st
acki
ng t
rack
B1
= Pa
nel w
idth
– 1
20 m
m -
(0.
087
x T1
)
ba
a
T1
B1
B2 = B1 – 41
T1T2 = T1 – 41
T2 = T1–36
Straight track rail with stacking track parallel to direction of travel (135°)
10
0
bb
b
100100 41
135°10
0
07/08 9
* HSW-GPcannot be provided witha 95° branch
a = depending on pull handle depth or 75 mm where profile cylinder provided at front-mounted slide bolt
b = 65 mm for HSW-G80 mm for HSW-R90 mm for HSW-ISO
B1 = Panel width – 130 mm – ((T1 – 80) x 0.087)
a = depending on pull handle depth or 75 mm where profile cylinder provided at front-mounted slide bolt
b = 65 mm for HSW-G80 mm for HSW-R and HSW-GP90 mm for HSW-ISO
B1 = Panel width – 130 mm
36
36
100 100
92
T1
T1
T2 =
T1
– 1
00
T2 =
T1
– 1
00
13
0 10
0
5°
80
a1
30
bb
bb
80
ab
bb
bb
b
B1
B2 = B1 – 128
B1100
100
100
B2 = B1 – 136
95°*
90°
Straight track rail with stacking position parallel to travel direction (90°) with up to 6 panels
Straight track rail with stacking position parallel to travel direction (90°) with more than 6 panels
10
0
10 07/08
HSW Support and Guide Elements
Niche parking
Extended application possibilities
Practical system designDORMA-Glas offers a furtherstacking variant for fullyglazed sliding walls, namelythe niche parking system. This has all the advantagesinherent in the HSW-Gdesign - such as individualconfiguration of the slidingfrontage without a floortrack, or incorporation of aspecial sliding or stationarypanel as a single or doubleaction leaf.This version is ideal wherethe stacked panels of theHSW-G may constitute anobstruction or would not bein keeping with the overallappearance of the store. The glass panels are thusparked in line within a nichecomprising a double wall ora wall and other parts of thestore fixtures and fittings. Inthis way, they do not disruptthe overall appearance ofthe interior.With large systems, the pan-els can be stowed in parallelon two tracks instead of in asingle-track line.
User-friendlyAs direct access to the pan-els parked in the niche is notusually possible, a handcrank is used in order tomove the panels back to theentry point. From here theycan be pulled out manually,taken to the appropriate position and then securedwith their face-mounted floorbolts.
Convenient and safeFor added convenience wherethe system height exceeds3000 mm, an automaticpanel removal system is rec-ommended. The individual panels arebrought out to the niche entrance by means of a pushbutton-operated motor,enabling them then to bepulled out and positionedmanually. The motor stops assoon as the pushbutton isreleased.
PlanningIn the case of systems ofangular configuration, thecollision curve in the area ofthe angle has to be taken intoaccount during the planningphase, and this will havevarying radii depending onthe panel width. The internaldimension of the parkingpocket (i.e. the niche) variesdepending on the system layout and panel type (seepage 12). Together, the totalnumber of panels per trackshould not exceed an overallweight of 1000 kg.
Electric drive actuation
Collision curve and crank area must be kept free of structural and decorative elements
Approx.panelwidthShop frontage
Niche side
Electricdrive
Manualcrank
Approx.panelwidth
Manual actuation
Manualcrank
07/08 11
Example configurations
Single track
Single/double track combined
Shop frontage
Parking nichecladding
Parked panels
Par
king
nic
he d
epth
= S
yste
m w
idth
+ a
ppro
x. 3
00
mm
Par
king
nic
he d
epth
= S
yste
m
wid
th x
0.5
+ a
ppro
x. 3
00
mm
Par
king
nic
he c
ladd
ing
Collision curve
Maintenancehatch
Drive unit
Parking niche width,see page 12
Parking niche width,see page 12
Double track
Collision curve
Maintenancehatch
Maintenancehatch
MaintenancehatchThe panels parked in a sin-
gle or double line in theniche are transported by thedrive unit to the niche opening. From there they aremoved at an angle of 90° tothe shop frontage position.The maintenance hatch allows access to the turningarea and the drive unit.
The radius of the collisioncurve depends on the panelwidth. Two systems can be parkedtogether, either in a single ordouble line in a suitablydimensioned niche.
Par
king
nic
he c
ladd
ing
12 07/08
HSW Support and Guide Elements
Niche parking
Guide values for parking niche widths (electric or manual actuation)
The parking niche width depends onvarious factors:
Single or double-line parking
Type of functional components (door closers, locks)
Sequence or combination of panelslocated face to face
TS 92 = Door closer
RTS 85 = Transom door closer
RTS 85RTS 85
RTS 85
RTS 85
Electricdrive
Electricdrive
Electricdrive
Electricdrive
Electricdrive
Electricdrive
Electricdrive
Electricdrive
Electricdrive
Electricdrive
TS 92
TS 92
TS 92
TS 92
RTS 85
RTS 85RTS 85
200330
410
80 130 120
electric
200
280
80
200
120
370200
120290
80 90
370200
120290
80 90
390200
120310
100 90
200
280200
120220
300200
120
manual
electric
manual
370200
120290
80 90
electric
manual
electric
manual80
electric
manual
electric
manual
electric
manual
420200
120340
100 120
410200
120330
130
electric
manual
electric
80
manual
electric
100
manual
07/08 13
Actuation options
Rail arrangement
Electric drive actuation
Single-track, electric
Twin-track, manual
Manual actuation
Over-slungmotor
Centre distance 150 / 130 / 120 / 90
Under-slungmotor
224
224
14
6
14
6
13
8
7272 72 72 72
75 75
75
75
56
61
15 23
10 132132
500
80
500
80
500 560300 500
6060
300
Twin-track, electric
Belt guide length
Belt guide length
Crank endDirection of travel to the left
Crank endDirection of travel to the right
Electricdrive
Electricdrive
Views from above
Single-track, manual
14 07/08
HSW Support and Guide Elements
Track Rails
Track rails and modules
ø9
ø936
7572
3636
36
5050300150 150
40
30 30
60 60 40
40
Flexible and stableHorizontal sliding walls canbe constructed in a widerange of different configurations to suit the siteof installation, prevailingstructural conditions and theplanning concept. With DORMA HSW systems,a variety of designs can beimplemented with ease.Straight, segmented and curved track rails can becombined to produce virtually any serpentineshape required. The trackrails in the form of hollowsections combine all thevirtues of light weight, stability and torsional stiffness. And when combined with the HSW substructure, installationbecomes even easier.Flexibility and stability meanthat even unusual systemconfigurations can be implemented without prob-lem to give maximum functional reliability.
Straight track railFor a straight-line systemconfiguration, a drill holeinterval of 300 mm in thetrack rail is sufficient, whilethe stacking area requires aninterval of 150 mm. Wherethe track assumes an angleof 161-179°, the track rail ismitred, while at angles between 90 and 160°, a castcurve is incorporated. Thestandard modules availableare indicated in the adjacentillustrations.
Straight track rail
Stacking track rail Track rail at closed wall position
90° T-piece
135° T-piece
90° L-piece
Left or right
200
200
200
400
400
ø9
ø9
80
4040
36
60
60
90°
3636
curved section corneredoutside 85°/90°
curved section corneredoutside 45°
90° angle left/right
85°/90°45°
90°
22.5°
136 136
136
136
07/08 15
only non-pivoting slidingpanels may be installed inthe curved track rail section;the track rail must bestraight in the parking orstacking area;no top locking element canbe installed;each panel is provided withtwo face-mounted floorbolts;a 100 mm straight tracksection 1 is necessary asthe transition from the curved track rail to thestraight stacking track rail;blends from the curved con-figuration to a straight linecan be implemented usingstandard modules 2 ;the smallest curve radius is3500 mm (smaller radii onapplication) 3 ;the feasibility of ellipticsystem configurations mustbe considered on a case-by-case basis – for this, drawings will be necessary;the start and end points ofthe curve are alwaysprovided with a 90° saw cut(radial saw cut).
ø9
1
Segmented track railWith the segmented trackrail, it is possible to implement the DORMAHSW as a polygonal partition or frontage. In sodoing, it is essential to notethe following requirements:
Curved track railA curved track rail is alsoavailable where a curvedDORMA HSW system config-uration is required. Themost important technicalprerequisites for this are asfollows:
75
72
300
300
300
200
Countersunk screw DIN 7991 M6x10. A2
Collision curve
Curved track rail, bolteddouble shell construction
Rminof the neutral fibre = 3500 mm
50
300
1
2
3
the panel width and segment chord lengthmust be properly coordinated; segment panels are provided at the bottomwith locks or face-mount-ed floor bolts and the endface profile covers areequipped with additionalbuffers for collision protection;it is important to ensurethat the opening sweep ofsingle action and doubleaction panels does notgive rise to collisions.
16 07/08
HSW Bearing andLocating Elements
Substructure
The SystemProblems and solutions
Installing a horizontal slidingwall system invariablyrequires a certain set ofstructural conditions to beestablished. The system willneed to be precisely alignedvertically - usually sub-sequent to installation - aswell as being exactlyconfigured and securelylocated. Because DORMAHSW systems do not usefloor-level supports and floortracks, the systemrequirements and all theirtechnical properties must betaken into account whendesigning the substructureand its incorporation withinthe ceiling. This often verycostly planning process isnormally undertaken by thefabricator as the installationcompany, and alongside thecalculations there are manyindividual structural andinstallation proceduresinvolved. The new DORMAsubstructure system is ofmodular construction and isdesigned to significantlyreduce on-site installationcost and time. This conceptalso offers the particularflexibility required toovercome structuralconstraints, such as thepresence of air conditioningshafts or pre-existingelectrical systems in theceiling.
System design
The DORMA substructureconsists primarily of thefollowing components:substructure profile withmodules for branching tothe stacking area, threadedrods for suspension of theprofile(s), and standardsquare section tubes withappropriate fixings andceiling brackets for bracingand stiffening theconstruction.
M10 threaded rod
Fixing plate
Milled “U” recess
Track rail
Substructureprofile
Centre channel
Lateral bolting channel
Lower bolting channel
Pivot fixing
Pivoting angle bracket
Standard squaresection tubes
Upper bolting channel
07/08 17
Safety and flexibility
The DORMA substructurehas been developed on thebasis of extensive practicalexperience of therequirements involved inthis kind of system.Consequently, the profileincorporates features thatgreatly facilitate installationand ensure that pre-existingstructural factors can beaccommodated withmaximum flexibility. Various bolting channels runthe whole length of theprofile, allowing bolts to beinserted easily at anylocation within the systemconfiguration. So there is noneed for pre-drilling andthread cutting in order tomount the track rails ontothe substructure. Bolted connections can bemade directly through thelower bolting channel. Theproblem of removingdrillings and filings from thetrack rails is thus also athing of the past.Bolting channels on bothsides of the profile can beused e.g. for fixing thebrackets needed forattaching the ceilingretention elements. Inaddition, centering grooveson all main profile surfacesfacilitate overhead drilling,e.g. for accessoryattachment. Weldingbrackets designed forbolting onto the profileprovide another option,allowing the DORMA systemto be utilised for additionalcustomer-specificapplications.
The substructure profile issuspended from threadedrods. These are first placedin the U-recesses usingfixing plates that lock intothe upper bolting channel.Each pair of threaded rodsis regarded as constitutingone suspension point. Hereagain the system remainsexceptionally flexible: thestaggered U-recessespositioned at intervals of100 mm enhance the abilityof the system toaccommodate structuralconstraints. Depending onthe weight of the systemand the permitteddeflection, it is possible tospan a distance of up to 2.10 m between twosuspension points.Standard flat steel bars canbe inserted in the centrechannel to further stiffenthe profile, particularly inthe area of the joints. Thismeans that just onesuspension point in thevicinity of the joint can beprovided instead of the two -one either side of the joint -that are usually needed. Soexisting buildinginstallations of all types canbe effectively bypassed.Once the substructure hasbeen installed, the HSWsystem is vertically alignedand fixed directly via thethreaded rods. Subsequentadjustments, e.g. after thebuilding has settled into itsfoundations, can also becarried out by the samemeans.
The standard square sectiontubes offer extra safety,especially where the slidingpanels deviate from a straightline. Panel sway must beeffectively countered by thestructural design adopted atsuch locations. Diagonalstruts that counteract thepressure load stabilise thesystem in the area of thestacked panels. Thetelescopic square sectiontubes are connected asadditional bracing elements(struts) to the substructure bya pivot fixing. The struts arebolted to the ceiling usingthe appropriate anglebrackets.
The modular design of theDORMA substructure isprecisely matched to themodules of the DORMA HSWtrack rail. The structuralelements can be mixed andmatched as desired with theresult that a small number ofcomponent types is sufficientto create a complex, flexiblesystem that conforms fully toall safety requirements.A drawing of the requiredsubstructure can berequested from DORMA tosupplement the HSW systemdrawing always supplied withthe quotation.
The forces (shownby arrows) that occur
during opening andclosing of the sliding wallsystem must be absorbedby appropriately locatedbracing elements.
Table for the calculation of the max. distance dimension
F
60 kg/m
75 kg/m
90 kg/m
105 kg/m
120 kg/m
135 kg/m
150 kg/m
160 kg/m
AM
2050 mm
1900 mm
1750 mm
1750 mm
1600 mm
1600 mm
1450 mm
1450 mm
Force example:The distance dimension of108.98 kg/m = 1710 mm
AM max.
Front
F
Parking areaAM
F = ForceAM = Distance dimension
18 07/08
HSW Bearing andLocating Elements
Substructure
Planning detailsCalculating the suspension intervals
With a maximum load (panelweight) of 150 kg/m and apermitted deflection of thesubstructure with track rail of2 mm, the interval betweentwo suspension points mustbe no greater than 1.45 m.The table below shows othervalues for different loads.
Illustrative example of loadvalues
HSW-G characteristic valuesFormula for calculating the:
Glazing height= system height – 0.309 m= panel height – 0.193 m
Glazing weightGlass 10 mm = 25.00 kg/m2
Glass 12 mm = 30.00 kg/m2
Door rail weightAluminium = 12.00 kg/mBrass = 14.50 kg/mStainl. steel = 13.25 kg/m
Example systemHSW-G system in stainless steel
System height 3.50 mGlazing thickness 12 mm
CalculationLoad= glazing weight x glazing
height + door track weight= 30 kg/m2 x (3.50 m –
0.309 m) + 13.25 kg/m= 30 kg/m2 x 3.191 m +
13.25 kg/m= 108.98 kg/m
Max. 2 mm deflection between two suspension points
In order to prevent system sway, every second suspensionpoint must be reinforced by a strut. The substructure
profile ends (travel path and stacking area) should ideallybe directly connected to the masonry or to existing
structural members.
07/08 19
Stacking area designThe construction of thestacking area, assembledfrom substructure and trackrail modules, provides agood illustration of how thiswell-designed system can beutilised. The individualcomponents are coordinatedto ensure safe integration.Joints in the substructureare offset to those in thetrack rails so that individualjoints coincide withcontinuous material in allcases.Provided that the track railsare adequately bolted to thesubstructure, gaps of up to40 cm measured from onesuspension point to the nextare permitted in thesubstructure.
Joints reinforced by centralsteel bar only require onelocal suspension point.
Substructure Track rail Detachablesection
90° branch module
Strut
Strut
95° branchmodule
L-piece for95° branch
90° T-piece
1 suspension point= 2 threaded rods
View from above
Suspension points either side of joints not reinforced by central steel bar
Joint area reinforced using flat steel bars inserted inthe centre channel
View from below
View from below
20 07/08
HSW Bearing and Locating Elements
Substructure
Variants of connection/Details
UK-Profile
Profile connection with connection lugArt. No. 815.442.001.40
Wall connection with angeledconnection lugsArt. No. 815.442.001.40
Connection oppartunities to existing bearing structure like ceilings, balks, steel girder by dint of adapter plateArt. No. 815.435.001.40
Direct connection to ceiling
Welding connection to steel girder
Bending of connection lug on siteaccording to need
Connection to steel construction
Flexible connectioto ceiling
30
,5
30
.5
3050
01/08 21
Component parts, accessories
Component parts
1 Pivoting angle bracket Art. No. 815.437.001.40
2 Fixing plateArt. No. 815.434.001.40
3 Pivot fixingArt. No. 815.436.001.40
4 Adapter plateArt. No. 815.435.001.40
5 Basic substructure profile, stock length 6 mArt. No. 815.658.000.99Fixed lengthArt. No. 815.659.000.99
DIN and standard parts by others or on requestCSN = Company standard no.
A Threaded rod M10 x 1000CSN 800.01.470.3.30
B Hex nut DIN 439-2 M10CSN 800.03.001.3.30
C Washer ISO 7089-10CSN 800.04.009.3.30
D Hex nut DIN 934-M6CSN 800.03.005.3.30
E Hex socket screwDIN 933-M6x35CSN 800.01.337.3.30
F Telescopic strut top section, square section tube,galvanised steel 20x20x2CSN 800.16.025.4.32
G Drilling screw DIN 7504 ST4 8x16CSN 800.01.286.3.30
H Telescopic strut bottom section, square section tube,galvanised steel 25x25x2CSN 800.16.026.4.32
I Hex nut DIN 934-M6CSN 800.03.005.3.30
J Hex socket screwDIN 933-M6x40 CSN 800.01.319.3.30
K Self-tapping screwISO 7049-St4.8 x 13-C-HCSN 800.01.493.3.30
L Cheesehead screwfor fixing track rail to substructure profileDIN 912-M8x25CSN 800.01.018.3.30
Stock length 6 m200
100 100100
49
72
75
0.5 A
17+0
.2
11+0.2
Adapter plate forneutral connection
B
2
A
C
B
I
K3
J
1
D
E
F
G
H
5
4
L
G
HSW-GE BOXesFully glazed with patch fittings
HSW-GP HSW-GE BOXes
Panel types
This folding system with top and bottom glazing rails coordinates perfectlywith the HSW-G variant. The FSW-G operates without a separate stacking area,and instead folds together within the main frontage orpartition zone.
Example of an HSW-G systemFully glazed with door rails
Example of an FSW-G systemHinge-linked door rails
HSW/FSWPanel Types
HSW-G / FSW-G / HSW-GP / HSW-GE
22 07/08
HSW-G / FSW-G,C,CplusFully glazed with door rails
HSW-GPFully glazed with single-point fixings
HSW-G / FSW-GFSW-C/Cplus
In the case of the fullyglazed HSW-G system, thepanels create a continuous,transparent surface withoutany lateral framing.For a more sophisticated orintricate appearance, single-point fixings (HSW-GP) arealso available.
07/08 23
The all-round framing provided on the individualpanels of an HSW-R system not only offers high stability but also an excellent barrier to keep out external influences. The panels canbe constructed with laminated or toughenedsafety glass as required.
HSW/FSWPanel Types
HSW-RHSW-ISO
HSW-RFully framed
HSW-ISOFully framed with double glazing
Example of an HSW-R systemFully framed
or HSW-ISOFully framed with thermal-break frame profiles
24 07/08
HSWPanel Types
HSW-G
Within an HSW-G system,the individual panels can bedesigned to perform certainspecial functions. Theserange from simple slidingpanels to integrated doorswith a variety of door closers,or special panels for unusualinstallation situations. Andeach system can be assembledto suit individual requirements.
Horizontal sliding wallsFully glazed with glazing railstop and bottom
Max. panel sizes and weights
Max. system height
The individual panels can also be of differing widths.The largest width should not exceed max. 115% of the smallest width.
4000 mm
1250 mm
150 kg
4000 mm
1250 mm 1250 mm
150 kg 100 kg 75 kg 100 kg
950 mm 1250 mm
3000 mm 3600 mm3600 mm
Max. panel width
Max. panel weight
Singleaction/doubleaction end panelNon-sliding.Single actionpanel with floorpivot and TS 73door closer.Double actionpanel with floorpivot or BTSfloor spring.
Sliding panelFixed when frontage closed.
Single actionsliding panelSingle action sliding panelwith TS 92 cam-action door closer, operational when frontageclosed.
Double actionsliding panel *Double actionsliding panelwith BTS floor spring, operationalwhen frontageclosed.
Double actionsliding panel *With RTS transom doorcloser, operationalwhen frontageclosed.
HSW-G panel types and functions
* For these panel types please consider our notes on portal systems on page 89.
07/08 25
Irrespective of the function ofthe individual panels, anHSW-G system comprises thefollowing basic components:
1 Installation-efficient DORMA substructure toaccommodate track railmounting requirements(optional)
2 Track rail for bolting to thesubstructure.
3 Carrier4 Suspension assembly and5 bearing profile for safe and
easy sliding of the panels. 6 Top door rail and 7 bottom door rail, both
comprising base profileswith clip-on face and sidecovers.
8 Toughened safety glassortoughened laminatedsafety glass (by others)
HSW-G system design
72
33 ±5
35
25
32
Floorsurface
10
20
71
00
2.5
75
75
10
0
End-mounted pin bolt at wall
End-mounted pin bolt at wall
End-mounted slide bolt
Bottom door rail designsAll depicted combinations are also available asmirror arrangements
Face-mounted slide bolt
End-mounted pin bolt at wall
Deadlock
Recess for end-mounted slide bolt
Face-mounted slide bolt
Recess for end-mounted slide bolt
End-mounted slide bolt
Recess for end-mounted slide bolt
Deadlock
Deadlock End-mounted slide bolt
Face-mounted slide bolt
End-mounted slide bolt
Face-mounted slide bolt
Face-mounted slide bolt
Face-mounted slide bolt
Deadlock
1
2
3
4
5
6
8
8
7
26 07/08
HSWPanel Types
HSW-GSingle action/double action end panel
End panelNon-moving and alwaysequipped with a bottom deadbolt with the option of a top bolt or side-action dead-lock. Can be designed as a doubleaction or single action leaf.
Double action end panel with floor spring
Mounting dimensions
Double action end panelAssembly types:
Single action end panelwith stop-type covers top and bottom.Assembly types:
Floor pivot with roundspindleAs above, but withDORMA TS 73 or TS 92overhead door closerBTS 84 for panels up to 100 kg, with optionalhold-open at 90° dooropening angleBTS 80 for panels up to150 kg with adjustablehold-open device
Floor pivot with roundspindleBTS 84 for panels up to 100 kg, with optionalhold-open at 90° dooropening angleBTS 80 for panels up to150 kg with adjustablehold-open device
75
33
±5
35
2.5
10
01
00
20
7
25
45
Hei
ght
of g
lazi
ng
= T
otal
hei
ght
–30
8 m
m
19
4
4
63
36.5
Pivot bearing
End cover
36
27
65
63
Single action or double action end panel with floor pivot
b
4
a c
63
d
BTS 84
1084030651 -58
abcd
BTS 80
786034151-57
07/08 27
Additional locking devise
Data and features
Closing strength, variableNon-handedClosing strength continously adjustableClosing speed variable by valve adjustmentLatching speed adjustmentCushioned stay limit, mechanicalWeightLengthOverall depthHeight
TS 73 V
Size EN 2-4
via adjusting screw and arm hinge
via arm
1.8 kg233 mm
42.50 mm60 mm
TS 92
Size EN 2-4
via adjusting screw
via valve
1.9 kg281 mm47 mm65 mm
76
Single action end panel with TS 73 overhead door closer and additional locking device
Single action end panel with TS 92 overhead door closer and additional locking device
222
max.14
17
23
145.5 199 140
375
min. panel width 870 mm
205 140160
45
63
63
193.5
28 07/08
HSWPanel Types
HSW-GSliding panel
Sliding panelStationary when the frontageor partition is closed.
Sliding panelThe sliding panels are themoving elements. Once intheir closed position, theyare locked down. The components available forthis are provided in the bottom door rail in the formof face-mounted slide bolts,end-mounted slide bolts,end pin bolts or deadlocks.
Bottom door rail
Base profile with integral functional element (here: face-mounted slide bolt)
Base profile with functional element
(here: deadlock)
75
7
2.5
35
2520
33
±5
10
01
00
Gla
zing
hei
ght
= T
otal
hei
ght
– 3
08
mm Sliding panel
Track roller
Panel width
Eccentric bushing
End-mountedslide bolt
250 250
4
End coverSlidingpanel
07/08 29
HSWPanel Types
HSW-GSingle action sliding panel
Single-action sliding panelwith DORMA TS 92 cam-action door closerThis panel type is installedwhere doors only need to beopened in one direction. The pivoting sliding panelscan be fitted open inwardly oroutwardly. In both cases, thecam-action door closer is fixedto the inside face.
Standard assemblytop: Pivot bearing, TS 92
with slide channel, one locking device
bottom: Face-mounted slidebolt as pivot (releasedfor sliding function)and lock
Optional equipmenttop: Second locking device
(for reshuffle bypass)bottom: Optional second face-
mounted slide boltinstead of deadlock
75
ø7M
6ø1
0
15
max
. 2
.58
13
.5 4
4
73
53
3±5
10
01
00
129
60 110
73
2520
Gla
zing
hei
ght
= T
otal
hei
ght
– 3
08
mm
SlidingpanelTS 92 Single action sliding panel
Pivotbearing
Face-mounted slide bolt
Track roller
65
4
Eccentric bushing
Top pivot
Locking device
Single action sliding panelSwing panel with TS 92 cam-action door closer for operation as a single action door when the frontage isclosed.
30 07/08
HSWPanel Types
HSW-GDouble action sliding panelwith BTS floor spring
Double action sliding panelPivoting panel with BTS floorspring for operation as a dou-ble action door when thefrontage is closed.
Top pivot
Double action sliding panelwith DORMA BTS floor springThe combination of doubleaction sliding panels withDORMA BTS floor springs has become a classic solution. These panels are generallyequipped with a bottom dead-lock and top locking device.Assembly types: • BTS 84´Z´ for double action
sliding panels with BTS at80 kg, with optional hold-open at 90° door openingangle.
• BTS 80´Z´ for panels up to 150 kg with adjustable hold-open device.
The maximum weight for thedouble action sliding panelwith DORMA BTS floor springis 75 kg.
For these panel types pleaseconsider our notes on portalsystems on page 89. ø7
M6
ø10
15
max
. 2
.58
13
.5 4
129
60 110
73Locking device
75
47
35
33
±5
10
01
00
20
2520
Gla
zing
hei
ght
= T
otal
hei
ght
– 3
08
mm
Slidingpanel Double action sliding panel
BTS 80 = 341BTS 84 = 306
BTS 80´Z´ = 78BTS 84´Z´ = 108
BTS 80´Z´ = 51-57BTS 84´Z´ = 51-58
BTS
80
= 60
BTS
84
= 40
Pivot bearing
Track roller
65
4
07/08 31
HSWPanel Types
HSW-GDouble action sliding panel with RTS transom door closer
Double action sliding panelPivoting panel with RTS transom door closer for operation as a double actiondoor when the frontage isclosed.
Double action sliding panelwith integral DORMA RTStransom door closerDouble action sliding panelswith DORMA RTS transomdoor closers (patenteddesign) are characterised bytheir exceptional ease ofinstallation and operation; an excellent alternative to thesolution with the BTS floorspring because the RTS doesnot require a large recess inthe floor. These panels aregenerally equipped with a bottom deadlock and toplocking device plus a bottomface-mounted slide bolt operating as the pivot bearing(released for the sliding function).The standard solution takesthe form of the RTS 85 without hold-open, or as a special option, with a 90°hold-open.
For these panel types pleaseconsider our notes on portalsystems on page 89.
Locking device
75
32
46
37
33
±5
56
10
0
2020
Gla
zing
hei
ght
= T
otal
hei
ght
– 3
12
mm
Slidingpanel
Double action sliding panel
Track roller
65
RTS 85
RTS 85
RTS insert
4
Eccentric bushing
Face-mounted slide bolt
129 73
M6
8
ø7
58
3
ø7
14
.5
60 110max
. 2
.5
32 07/08
HSWPanel Types
HSW-GSpecial panels
Single action doorSingle action panel, non-sliding, operates independently of the rest ofthe system.
Fixed side screenNon-moving side screen,independent of the rest ofthe system.
The single action door withoffset pivoting arm assemblycan be swung around 180°,so leaving the entire operating zone free. A bottom deadlock securesthe closed leaf.
The fixed side screen is ofthe same basic design asthe sliding panels. And ifrequired, the fixings can bereplaced by a carrier systemto convert such a screeninto a sliding panel.
75
2.5
4
2 24 4
73
3±5
35
21
10
0
45
45
90° opening angleOffset pivoting end panel at wall
End cover
Top centreupper part
Top centrelower part
Bottomdoor arm
180° opening angleOffset pivoting end panelat fixed screen
Pivoting end panelviews as seen from below
180° opening angleOffset pivoting end panelat wall
End-mountedslide bolt withfixed pin
10
0
75
2.5
73
3±5
35
10
01
00
2520
Gla
zing
hei
ght
= T
otal
hei
ght
– 3
08
mm
Slidingpanel Fixed screen
End cover
Fixed screenfixing arrangement
65
4
07/08 33
Folding sliding panelHinged, with lock and slide bolt at the bottom, latchingbolts top and bottom for fixing the final folding panel to theslide panel.
Max. panel sizes and weightsMax. panel width 2 x 1000 mmMax. system height 3000 mmMax. panel weight 2 x 70 kg
End-mounted slide bolt Panel hinge
Magnetic door holderEnd-mounted slidebolt and panel hinge
Panel width
4
4
Panel width
75
33
-53
5
25
2.5
10
065
28 15
60
20
Roller carrierPanel hingeMagnetic door holder
30
30
42
72
FSW-C
FSW-C plus
Magnetic door holders top and bottom
34 07/08
HSWPanel Types
HSW-GP
The characteristic features of HSW-GP systems are thesingle-point fixings of theglass panels in combinationwith a conventional track railprofile. The design, featuringa high-grade stainless steelfinish and the distinctiveflush-mounted attachments,coordinates perfectly withcontemporary architecture.Even curved glazing can besecurely held by this system.And this can also be combined with curved trackrail profiles to produce unique configurations.
Fully glazed sliding walls withpoint-fixed track roller carriersengaging in standard track rail
Max. panel sizes and weights
Max. system height
Max. panel width
Max. panel weight
3000 mm
1200 mm
100 kg
3000 mm
1200 mm
100 kg
3000 mm
1200 mm
100 kg
3000 mm
1200 mm
100 kg
Single/doubleaction end panel
Non-sliding.With full-lengthpivot rod and offset pivot.Single actionpanel with floorpivot, roundspindle and stop.Double actionpanel with floorpivot or BTSfloor spring.
Sliding panel
Fixed when frontage closed.
Fixed screen
Non-sliding.Fixed side screen withretaining pins at the top andfixed screenstraps at thebottom.
Single/doubleaction end panel
Non-sliding.With centre pivottop and bottom.Single actionpanel with floorpivot, round spindle and stop.Double actionpanel with floorpivot.
HSW-GP panels and functions
The individual panels can also be of differing widths.The largest width should not exceed max. 115% of the smallest width.
07/08 35
The HSW-GP system consists of the followingbasic components:
1 installation-efficient DORMAsubstructure to accommodatetrack rail mounting requirements (optional).
2 track rail for bolting to the substructure.
3 roller,4 suspension assembly,5 strap with single-point fixings,6 toughened safety glass or toughened
laminated safety glass (by others), 7 bottom strap with end-mounted pin,8 bottom strap with face-mounted slide bolt.
HSW-GP system design
Inside Inside
Sliding panel with bottom end-mounted pin
Sliding panel with bottom face-mounted slide bolt
1
2
3
4
5
6
7
8
75
72
75
44
50
55
55
64
29
4
7
11
11
9
75
72
75
44
50
55
55
15.58.5
39
64
29
4
7
11
11
9
Floor surface
Gla
zing
hei
ght
= T
otal
hei
ght
– 1
26
mm
Tota
l he
ight
Gla
zing
hei
ght
= T
otal
hei
ght
– 1
26
mm
Tota
l he
ight
36 07/08
HSWPanel Types
HSW-GP
Glass drilling pattern Single/double action end panel with pivot rod
Single/double action end panel
HSW-GP panel types and glass drilling requirements
Visible corner notch
71
73
49
65
65
71
15
01
50
11
3
Ø 55
for deadlock
Leng
th o
f co
nnec
ting
tub
e = G
lazi
ng h
eigh
t –
53
5 m
m1
50
50
55
Glazing width
Gla
zing
hei
ght
= T
otal
hei
ght
– 1
26
mm
55
64
8
8
7
Pivot pin
Bottom bearing bush
Deadlock
Pull handle with sin-gle-pointfixings/Back-to-backpull handles
Pivot strap withfloor pivot
Pivot rod con-necting tube
Pivot rod, shorttype with single-
point fixings
Glass bore centres for pullhandle/back-to-back pullhandles
Pivot rod, shorttype, with single-
point fixings
Pull handle/Back-to-back pull handles
Countersunk bores
Countersunk bores
Deadlock
Strap with single-point fixings
41
65
41
65
50
64
55
55
Ø 55
for deadlock
Glazing width
Gla
zing
hei
ght
= T
otal
hei
ght
– 1
26
mm
Countersunk bores
Countersunk bores
15
60
±0
.3 10
40
±0
.3 520
±0.3
min. 65 mm
Glass drilling pattern
Glass bore centres for pullhandle/back-to-back pullhandles
15
60
±0
.3 10
40
±0
.3 520
±0.3
min. 65 mm
65
07/08 37
Glass drilling pattern
Special stop Pivot rods (short type) with single-pointfixings and con-necting tube
Bottom pivotfor pivot rods
Glass bores and notches
Sliding panel Fixed screen
Visible corner notches, bottom
Visible corner notches
Countersunk bores for single-point fixings for the pull handles and straps
±15 ±1562
41 41
41
67
416
4
64
50
55
15
55
55
50
55
R7
67
15
R7
Glazing width
Gla
zing
hei
ght
= T
otal
hei
ght
– 1
26
mm
41
50
55
55
64 8
8
Fixed screen strap
Countersunk bores
Bottom strap with face-mountedslide bolt
Bottom strap Fixed screen strap
Straps with single-pointfixings
Straps with single-pointfixings
Countersunk bores
3-0.2
10/12
10/12
Ø 2
6
Ø 2
2
90
°
Bores for pullhandle pairs
10/12
Ø 5
5
Bores for locks
Ø 3
2+0
.2
Pull handle with sin-gle-point fixings
Back-to-back pull handles
HSWPanel Types
HSW-GE BOXes
There are six different boxesavailable for your in-houseHSW system planning anddesign work. Aside from therequisite hardware and fit-tings, each box also containsthe necessary number ofeccentric bush-type keeps. The locks contained in theHSW-GE BOXes areequipped exclusively withdouble Europrofile cylindersso that no LH/RH handingdistinction needs to be madein the case of double-actionend panels.The bottom functional ele-ments can be installed oneither side of the panelsusing the different fittingsprovided. When designingstacking/parking areas,please ensure compliancewith the instructions provid-ed in this technical brochure(available under WN No.800.51.024.6.32)on pages 46 and 47.
Fully glazed sliding wallswith patch fittings
Max. panel sizes and weights
Max. system height
Max. panel width
Max. panel weight
HSW-GE BOXes panels and functions
38 07/08
3000 mm
1100 mm
80 kg
3000 mm
1100 mm
80 kg
3000 mm
1100 mm
80 kg
3000 mm
1100 mm
80 kg
Double actionend panel
Non-sliding.Double actionpanel with floorpivot or BTSfloor spring.
Sliding panel
Fixed when frontage closed.
Sliding panel
Fixed when frontage closed.
Fixed screen
Non-sliding.Fixed side screen withretaining pins at the top and at the bottom.
2 4 4 4 2
Box 1 Box 3 Box 5 Box 2
Double-action end panel,non-sliding. Equipped asstandard with a top pivotbearing, bottom vertical-action floor lock for doubleEuroprofile cylinder, and bot-tom pivot with round spindle.Suitable for RH and LHhanding. As an option, a BTS 84 floorspring may be used insteadof the bottom pivot. The BTS 84 is suitable forpanels weighing up to100 kgand can be provided with orwithout a hold-open devicefor retention at a 90° dooropening angle.
HSW-GE BOX 1
751
63
For glass preparation see page 45
Fittings can be used onboth sides. Note changes in glasspreparation/drilling
requirements!
Fitting components BOX 1
Double action end panel with floor point
Double action end panel optional with BTS floor spring
07/08 39
25 4092
75
51
51
72
2
7
63
63
33
±5
9240
32.5
25
HSW-GE BOX 2
40 07/08
Non-sliding side screen,installed independently ofthe rest of the system.Equipped as standard withtwo fixed screen mountingsat the top and two vertical-action floor locks for doubleEuroprofile cylinders at thebottom. The fixed screen isof the same visual design asthe sliding panels.If required, it can also beconverted into a sliding panelby replacing the fixed screenmountings with a roller carrier.
Fixed screen with retaining pins
Can also be used as a sliding panel by replacing the fixed screen mounting with a roller carrier.
For glass preparation see page 45
Fitting components BOX 2
Fittings can be used onboth sides.
75
51
51
72
2
7
63
33
±5
HSWPanel Types
HSW-GE BOXes
HSW-GE BOX 3
07/08 41
The sliding panels are heldin position once the systemis closed. Equipped as standard with a vertical-action floor lock for a doubleEuroprofile cylinder, and akeeper for an end-mountedslide bolt.
For glass preparation see page 45
Fittings can be used onboth sides.
Fitting components BOX 3
Sliding panel with lock
Next panel with bottom end-mounted slide-bolt
75
51
51
72
2
7
63
33
±5
42 07/08
HSW-GE BOX 4The sliding panels are heldin position once the systemis closed. Equipped as standard with a keeper for an end-mounted slide boltand with an end-mountedslide bolt.
Sliding panel with end-mounted slide bolt
For glass preparation see page 45
Fittings can be used onboth sides.
Fitting components BOX 4
Next panel with bottom end-mounted slide bolt
75
51
51
72
4
7
63
33
±5
HSWPanel Types
HSW-GE BOXes
07/08 43
HSW-GE BOX 5The sliding panels are heldin position once the systemis closed. Equipped as standard with a vertical-action floor lock for a doubleEuroprofile cylinder, and anend-mounted slide bolt.
Sliding panel with lock and end mounted slide bolt
For glass preparation see page 45
Fittings can be used onboth sides.
Fitting components BOX 5
Next panel with end mounted slide bolt receiver for end fixed locking bolt
75
51
51
72
2
7
63
33
±5
44 07/08
HSW-GE BOX 6The sliding panels are heldin position once the systemis closed. Always equippedwith two vertical-action floorlocks for double Europrofilecylinders.
Sliding panel with lock
For glass preparation see page 45
Fitting components BOX 6
Fittings can be used onboth sides.
75
51
51
72
2
7
63
33
±5
HSWPanel Types
HSW-GE BOXes
07/08 45
HSWPanel Types
HSW-GE Glass preparation
HSW-GE Glass preparation BOX 1- 6
Top glass panel preparation BOX 1- 6
Bottom glass panel preparation BOX 1
Glass cut-out for:- top patch fittings GE 20 and GE 30- bottom patch fitting GE 10 for floor bearing
Depending on version
Glass cut-out bottom for:- GE patch lock- end-mounted slide bolt- strike box for end-mounted slide bolt
Glass panel preparation bottom BOX 2 - 6
Glass width
Gla
ss h
eigh
t = t
otal
hei
ght
-11
5
(Tot
al h
eigh
t = t
op e
dge
trac
k to
FFL
)
36
43
37
20
68
148
148
R55
R80
161
R10
HSWPanel Types
HSW-GE BOXes Stacking track design data
46 07/08
Straight track rail with stacking position transverse to travel direction (90°)
a = Depending on length of handle
HSW-GE BOXes 90° Standard stacking track- Stacking track depth is designed for a maximum of 10 panels (1 x pivoting end panel and 9 x sliding panels).- In its as-delivered condition, the stacking track width accommodates the maximum panel width (b = 1100 mm).- Adjustment to actual panel width is accomplished using track rail section B2. This track rail section is non-welded
in its as-delivered condition and is connected to the track rail modules by means of pins (L = 50 mm).
900
864
656565100100100
10
0
10
0
72
100
90°
800
a
B2
= B
1 -
20
0
B2
B1
= p
anel
wid
th -
13
0
07/08 47
Straight track rail with stacking position parallel to travel direction
HSW-GE BOXes Standard stacking track parallel to direction of travel- The depth of the stacking track is designed for a maximum of 10 sliding panels.
A pivoting end panel is also envisaged as a means of accessing the parking position. - In its as-delivered condition, the stacking track width accommodates the maximum panel width (b = 1100 mm).- Adjustment to actual panel width is accomplished using track rail section B2. This track rail section is
non-welded in its as-delivered condition and is connected to the track rail modules by means of pins (L = 50 mm).
100
72
13
0
10
0
100
100
200
B2 = B1 - 100
B1 = panel width - 130
65
76
01
00
86
0
65
65
65
65
B2
48 07/08
FSWPanel Types
FSW-G
FSW folding sliding walls asfully glazed partitions and frontages, with door rails top and bottom, track rollerposition at the end of everysecond panel.
Max. panel sizes andweights
Max. system height 3000 mm
Max. panel width 1000 mm
Max. panel weight 70 kg
End panelwith top pivotand bottom floor pivot.
End panelwith top pivotand floor pivot.
Folding panelwith carrier andlocking devicetop and bottom.
1 Track rail2 Folding panel3 Folding hinge4 Roller
1 4
7
5
6
2
5 FSW end panel6 Top locking device7 Bottom locking device
Folding panelwith carrier andlocking devicetop and bottom.
FSW-G panel types and functions
Folding sliding walls are idealfor a straight-line system configuration. Because thepanels of an FSW system arevisually compatible with theHSW-G panels, both systemtypes can use the same trackrail construction and can beeffectively combined within asingle frontage. Consequently,an FSW system can also becomplemented through theaddition of a free-standingHSW double action or singleaction end panel.
An FSW system essentiallycontains the following hingedcomponents:
1 FSW end assembly with1 or 3 folding panels
Two counter-running systemscan be combined to createfrontages with 8 panels.
6
3
52
07/08 49
The FSW-G system consists of the followingbasic components:
End panel Folding panel
1 installation-efficient DORMAsubstructure to accommodatetrack rail mounting requirements (optional).
2 track rail for bolting to the substructure.
3 top pivot,4 roller,
5 top locking device,6 suspension assembly and7 carrier profile for safe
and easy sliding of thepanels.
8 folding hinge,9 top door rail and
10 bottom door rail, both
comprising base profiles with clip-on face and side covers.
11 toughened safety glass ortoughened laminated safe-ty glass (by others),
12 floor pivot,13 face-mounted slide bolt
FSW-G system design
25
1
2
43
7
89
1310
5
83
11
5
8
12
6
4.58.5Door rails cut to size
33
35
32
10
20
71
00
2.5
75
75
10
0
Floorsurface
72
±5
50 07/08
FSWPanel Types
FSW-G
FSW-G assembly types
Type 1 Type 2
Type 3
Type 1a 2 folding panels left (as drawn)Type 1b 2 folding panels right
(mirror arrangement)Type 1c 4 folding panels (2 panels left
and 2 panels right)
Type 2a 4 folding panels left (as drawn)Type 2b 4 folding panels right
(mirror arrangement)Type 2c 8 folding panels
(4 panels left and 4 panels right)
Type 3a 6 folding panels as drawn (4 panels left and 2 panels right)
Type 3b 6 folding panels, mirror arrangement (2 panels left and 4 panels right)
min
. 1
20
mm
min
. 1
20
mm
07/08 51
Type 4
min
. 1
20
mm
Type 4a 2 folding panels left and 1 access leaf right (as drawn)
Type 4b 2 folding panels right and 1 access leaf left (mirror arrangement)
Type 5a 4 folding panels left and 1 access leaf right (as drawn)
Type 5b 4 folding panels right and 1 access leaf left (mirror arrangement)
HSW end panel(Access leaf)
52 07/08
FSWPanel Types
FSW-C
Folding sliding walls, fullyglazed, with door rails top andbottom, track roller position inthe panel centre.
Large spans can be implemented with the FSW-C.The number of panels persystem can be freely selectedbetween 3 and 8. Thanks tothe central suspension point,pairing is not necessary. Dou-ble systems with two counter-running assemblies can alsobe installed.The panels are guided on asturdy track rail fixed to theceiling. An additional floortrack is not necessary, so thefloor covering can be laidwithout interruption.Folding sliding walls require ahalf-width base panel fittedwith pivot bearings, to whichthe folding panels are con-nected. In order to maintain system symmetry,the final folding panel without a track roller is alsoof half-width design.
Max. panel sizes andweights
Max. system height 3000 mm
For assembly options, see pages 44/45
Max. panel width 1000 mmWidth of the base panel= half panel width + 63 mm
Max. panel weight 70 kg
Number of panels 3 to 8
Finalfoldingpanelwithlockingdevicestop andbottom.
Basepanelwith floor pivot and lockingdevicebottom.
Folding panelwith carrier,locking devicestop and bottom.
1 Track rail2 Final folding panel3 Folding hinge4 Locking device
14
4
3
8
3
4
82
34
5
34
5
6
7
5 Folding panel6 Base panel7 Floor pivot8 Roller
Folding panelwith carrier andlocking devicebottom.
Folding panelwith carrier andlocking devicebottom.
FSW-C panels and functions
The hinges exhibit a slightpivot offset. This ensuresthat the folded assembly isparticularly compact whileat the same time providingfor good stability.
07/08 53
The FSW-C system consists of the following basic components:
1 installation-efficient DORMAsubstructure to accommodatetrack rail mounting requirements (optional).
2 track rail for bolting to thesubstructure.
3 roller,
4 suspension assembly and 5 carrier profile for safe
and easy sliding of thepanels.
6 top door rail and 7 bottom door rail, both
comprising base profiles
with clip-on face and sidecovers.
8 top latching bolt,9 toughened safety glass
or toughened laminatedsafety glass (by others),
10 bottom latching bolt.
Bottom hinge
FSW-C system design
33
±5
35
25
35
35
32
30
30
42FSW-C
FSW-C
72FSW-C plus
72-C plus
42
Floorsurface
10
1528
20
71
00
2.5
75
10
0
1
2
3
45
6
8
7
10
9
Latchingbolts top andbottom
Folding panel/final folding panel with latching bolts top and bottom7
5
72
20
End-mounted slide bolt,bottom
Glass panes
Face-mountedslide bolt
54 07/08
FSWPanel Types
FSW-C
FSW-C assembly types
Type C21 final folding panel
(narrow)3 folding panels 1 base panel (narrow)
Type C11 single action end panel
(narrow)3 folding panels1 base panel (narrow)
1/2 FB+ 63
1/2 FB
Inside
74
42 mm between the door rails
64 mm between the glass panes
42
74
42 mm between the door rails
64 mm between the glass panes
42
Inside
Inside
Inside
4 4 4 4
1/2 FB+ 63
1/2 FB
FB
FB = Flügelbreite
FB FB
FB = Panel width
07/08 55
Type C31 access leaf
(final folding panel)2 folding panels1 base panel (narrow)
Type C3 double (counter-running) systemLeft:1 base panel (narrow)2 folding panels1 access leaf (final folding panel)
Right:1 access leaf (final folding panel)2 folding panels1 base panel (narrow)
74
42 mm between the door rails
64 mm between the glass panes
42 mm between the door rails
64 mm between the glass panes
42
74
42
Inside
Inside
FB = Panel width
4 4 4
1/2 FB+ 63
1/2 FB
FB FB FB
56 07/08
FSWPanel Types
FSW-C plus
Access with convenience – theplus with the FSW-C.
The FSW-C model offers thepossibility of using the finalfolding panel as an accessdoor when the frontage is closed – with all the convenience offered by theDORMA TS 93 G door closer.In this case, the special bottom locking device and the top clamp-mounted stopstabilise the first foldingpanel, while the top anglestop ensures that the closedfinal folding panel is in thecorrect position.The folding hinges connectingthe access leaf to the foldingpanel have a large pivot pointoffset in order to create roomfor the door closer and pullhandles. All the other foldingpanels are equipped with astandard folding hinge androller.
Max. panel sizes and weights
Max. system height 3000 mm
Max. panel width 1000 mmWidth of the base panel= half panel width + 63 mm
Max. panel weight 70 kg
Number of panels 3 to 8
FSW-C plus
Type Cp11 access leaf (final folding panel
with TS 93 G door closer)1 folding panel1 base panel (narrow)
Type Cp1 double (counter-running) systemLeft:1 base panel (narrow)1 folding panel1 access leaf (final folding panel
with TS 93 G door closer)
Right:1 access leaf (final folding panel
with TS 93 G door closer)1 folding panel1 base panel (narrow)
104
42 mm between the door rails
64 mm between the glass panes
42 mm between the door rails
64 mm between the glass panes
72
72
104
Inside
inside
Inside
4 4
1/2 FB+ 63
1/2 FB
FB FB
FB = Panel width
07/08 57
Type Cp2 double (counter-running) systemLeft:1 base panel (narrow)2 folding panels1 access leaf (final folding panel
with TS 93 G)
Right:1 access leaf (final folding
panel with TS 93 G)2 folding panels1 base panel (narrow)
Type Cp21 access leaf (final folding panel
with TS 93 G)2 folding panels1 base panel (narrow)
1/2 FB
104
42 mm between the door rails
64 mm between the glass panes
72
42 mm between the door rails
64 mm between the glass panes
72
104
Inside
Inside
Inside
4
FB
4 4
1/2 FB+ 63
FB FB
FB = Panel width
Daten and features
Closing strength/SizeClosing strength, variableClosing speed, variable
Same specification forDIN-L and DIN-RLatching speed adjustmentCushioned stay limitadjustableFixing adjustableWeightLengthOverall depthHeight
TS 93
EN 2 - 5via adjusting
screw
via valve
via valve
80° - 120°
75° - 150°3,5 kg
275 mm53 mm60 mm
HSWPanel Types
HSW-R
HSW-R panel types and functions
58 07/08
Robust profile frames withtop, bottom and side sealsfor elevated resistance tomechanical loading and protection against weathering, heat loss anddraughts. Available withtoughened safety glass, lam-inated safety glass, doubleglazing or special glazing;standard fixing profile for8 to 22 mm, other glazingthicknesses on application.
Max. panel sizes and weights
Max. system height
The individual panels can also be of differing widths.The largest width should not exceed max. 115% of the smallest width.
3000 mm
1100 mm
100 kg
3000 mm
1100 mm 1100 mm
100 kg 100 kg 100 kg
1100 mm
3000 mm3000 mm
Max. panel width
Max. panel weight
Single/doubleaction end panelNon-sliding.Single actionpanel with floorpivot and TS 73door closer.Double actionpanel with floorpivot or BTSfloor spring.
Sliding panel
Fixed when frontage closed.
Single action sliding panelWith integratedconcealed doorcloser type ITS96, Size 3-6;operational whenfrontage closed.Minimal panelwidth 870 mm.
Double action sliding panel *With integratedconcealed doorcloser type ITS96, Size 3-6;operational whenfrontage closed.Minimal panelwidth 870 mm.
Horizontal sliding walls, fully framed,for toughened safety glass,laminated safety glass ordouble glazing
* For these panel types please consider our notes on portal systems on page 89.
HSW-R system design
07/08 59
72
33 ±5
60
50
60
7
50
19
15
1915
FFL
22
Toughened safe-ty glass version
8
75
75
1
2
3
4
5
6
8
7
9
8
6
10
Irrespective of the function ofthe individual panels, an HSW-R system comprises thefollowing components:
1 Installation-efficient DORMA substructure toaccommodate track railmounting requirements(optional)
2 Track rail for bolting to thesubstructure
3 Carrier4 Suspension assembly5 Adapter frame 6 Glazing frame profile,
horizontal7 Glazing rail8 Glazing frame profile,
vertical9 Toughened safety glass,
laminated safety glass or sealed double glazing units(by others)
10 Bottom rail
7
22
2250
HSWPanel Types
HSW-R Single/Double Action End Panels
60 07/08
End panelNon-moving and alwaysequipped with bottomdeadbolt with the option of atop bolt or side action dead-lock. Single action or doubleaction options.
Double action end panel with floor spring
Mounting dimensions
Double action end panelAssembly types:
Floor pivot with roundspindleBTS 84 for panels up to 100 kg, with optionalhold-open at 90° dooropening angleBTS 80 for panels of 100-150 kg, providedwith hold-open as standard
Single action end panelwith stop plates at the top bolt.Assembly types:
Floor pivot with round spin-dleAs above, but with DORMA TS 73 or TS 92overhead door closerBTS 84 for panels up to 100 kg, with optionalhold-open at 90° door opening angleBTS 80 for panels of 100-150 kg, provided with hold-open as standard
75
75
60
15
15
50
50
33
±5
7
45
Hei
ght
of g
lazi
ng =
To
tal
heig
ht –
32
9 m
m
19
8
8
63
ac
36.5
Pivot bearing
36
27
65
63
63
d
BTS 80
7860
34151-57
abcd
BTS 84
10840
30651-58
Single action or double action end panel with floor pivot
b
8
07/08 61
Single action end panel with TS 73 overhead door closer and additional locking device and door stop
Single action end panel with TS 92 overhead door closer and additional locking device
Additional locking device
222
140160205
45
63193.5
Ø7
Ø1
0
50
M6
3.5
Data and features
Closing strength /size
Closing strength, variable
Closing speed adjustment
Non-handed
Latching speed adjustment
Cushioned stay limit adjustment
Hold-open adjustment
Weight
Length
Overall depth
Height
TS 73 V
EN 2-4
via adjusting screw
and arm hinge
via valve
via arm
75°-180°
75°-160°
1.8 kg
233 mm
42.50 mm
60 mm
TS 92
EN 2-4
via adjusting screw
and arm hinge
via valve
via arm
80°-120°
75°-150°
1.9 kg
281 mm
47 mm
65 mm
145.5 89
199
375
63
min. panel width 870 mm
62 07/08
HSWPanel Types
HSW-RSliding Panels
Sliding panelFixed when partition is closed.
Sliding panelsThe sliding panels are mov-ing elements. Once in theirclosed position, they arelocked down. The components availablefor this are provided in thebottom rail in the form offace-mounted floor bolts ordeadlocks.
Sliding panel to panel connections
75
75
48
±5
60
15
min
.3
0
15
50
50
33
±5
8-1
0
Gla
zing
hei
ght
=
Tota
l he
ight
- 3
29
mm
Ø 25 Ø 8
67
Sliding panel
Sliding panel
Sliding panel
Eccentric bushing
Sliding panel Sliding panel
Sliding panel
±2.5
Sliding panel Engaging the panel in the strike plate
Engaging the panel in eccentric bushing
Ø 25Ø 8
Strike plate
Double actionsliding panel
Sliding panel
Sliding panel
Panel to wall connection
Wall
Wall
Slidingpanel
67
6
51 51
10516
651
90-170°
Abutment with articulated joint
SealPanel width
Glass width = Panel width - 75 mm
Brush profileBrush profile
Wall connection profilewithbrush profile
Sliding panel Single action sliding panel
07/08 63
Single action sliding panelwith integrated DORMA ITS 96 concealed door closer, size 3-6This panel type is used wherepassdoors only need to beopened in one direction.The single action sliding panelcan be configured for eitherinward or outward opening.
Standard assemblytop: Pivot bearing,
ITS 96, size 3-6, one locking device
bottom: Face-mounted floorbolt as pivot (released for slidingfunction)
Optional equipmenttop: Second locking device
(for reshuffle bypassstacking)
bottom: Optional second face-mounted floorbolt or deadlock
ø7M
6ø1
0
15
8
13
.5
43.5
129
60 110
73
50
Single action sliding panel
Top pivot
Face-mountedfloor bolt
Track roller
Locking device
HSWPanel Types
HSW-R Single Action Sliding Panels
75
75
60
15
min
.3
0
15
6
50
50
33
±5
8-1
0
Gla
ss h
eigh
t =
Tota
l he
ight
- 3
29
mm
Eccentric bushing
±2.5
Ø 25Ø 8
Single action sliding panelSingle action sliding panelwith integrated ITS 96, size 3-6 concealed door closer for operation as singleaction door when the frontageis closed.
64 07/08
HSWPanel Types
HSW-R Double Action Sliding Panels ITS
Double action sliding panelwith integrated DORMA ITS 96 concealed door closer, size 3-6Double action sliding panelswith DORMA ITS 96, size 3-6door closers are characterisedby their exceptional ease ofinstallation and operation.These passdoor panels aregenerally equipped with a bottom deadlock and top lock-ing device plus a bottom floorbolt operating as the pivotbearing (released for the slid-ing function).The ITS 96 does not feature a hold-open function as standard.
For these panel types pleaseconsider our notes on portalsystems on page 89.
ø7M
6ø1
0
15
8
13
.5
43.5
129
60 110
73
50
Double action sliding panel
Top pivot
Face-mountedfloor bolt
Track roller
Locking device
75
75
60
15
min
.3
0
15
6
50
50
33
±5
8-1
0
Gla
zing
hei
ght
=
Tota
l he
ight
- 3
29
mm
Eccentric bushing
±2.5
Ø 25Ø 8
Double action sliding panelWith integrated ITS 96, size 3-6 concealed doorcloser, for operation as double action passdoor whenthe frontage is closed.
HSW Notes
07/08 65
HSWPanel Types
HSW-ISO
Double glazing withthermal-break frame profiles.
HSW-ISO panel types and functions
66 07/08
Panel typesThese double-glazed panelswith their frames of thermal-break profiles (frame material group 2.1)offer outstanding protectionagainst the influences of theweather, effective thermalinsulation and comfortabletemperatures - even close tothe frontage surface - duringseasonal changes and in thewinter months. And all theseeffects are ideally enhancedby laterally arranged, interlock-ing multiple-lip seals plusautomatically extending topand bottom rubber seals thatare pressed against the trackrail and floor when thefrontage is closed.Glass thickness 8-49 mm.
Max. panel sizes and weights
Max. system height
The individual panels can also be of differing widths.The largest width should not exceed max. 115% of the smallest width.
3000 mm
1100 mm
120 kg
3000 mm
1100 mm 1100 mm
120 kg 120 kg 120 kg
1100 mm
3000 mm3000 mm
Max. panel width
Max. panel weight
Single actiondoorSingle actionpanel, non-sliding,equipped with TS 92/93 doorcloser(optional)
Sliding panel
Fixed when frontage closed.
Single action sliding panelSingle action sliding panel for door accesswhen frontageclosed; with ITS 96 EN 3-6concealed cam-action door closer, or with TS 92/TS 93cam-action doorclosers ifrequired.
Fixed screen
Non-sliding side screen withtop retainingbrackets and bottom rail.
HSW-ISO system design
07/08 67
72
33
±5
67
45
37 1
04
59
12
8
71
06
22
16
2216
FFL
64
8
75
75
1
2
7
8
3
4
5
6
6
5
7
9
Irrespective of the function of the individual panels, an HSW-ISO system comprisesthe following basic components:
1 Installation-efficientDORMA substructure toaccommodate track railmounting requirements(optional)
2 Track rail for bolting to the substructure.
3 Carrier4 Suspension assembly and
bearing profile for safe and easy sliding of thepanels
5 Glazing rail6 Sealed double glazing
unit (by others)Glass thickness 8-49 mm
7 Automatically extendingrubber seal
8 Insulating strips in thethermal-break profile
9 Bottom frame profile
8-49
HSWPanel Types
HSW-ISOSingle action door
68 07/08
Single action door with wallconnection profileSingle action panel, non-sliding, operates independently of the rest of the system.
Glaz
ing
heig
htFr
ame
heig
htPa
nel h
eigh
t ins
ide
Tota
l hei
ght
59
22
5
22
16 16
22
22
64
64
59595
59 595
5
37
37
81
81
6
428 150
160 140
Single action door with wall connection
Single action door with wall connection
Inward opening
Outside
Outside
InsideInside
Outward opening
The single action door withwall connection arm assemblycan be swung round 170°, soleaving the entire operatingzone free. The closed panel issecured by a mortise centrelock.
In order to provisionally determine the glazing area per panel, please applythe following formula:Approx. glazing area per panel = Panel width x total height x 0.78
The precise dimensions of the sealed double glazing units to be orderedshould be exclusively taken from the approval drawing released by DORMA-Glas.
07/08 69
Glaz
ing
heig
htFr
ame
heig
htPa
nel h
eigh
t ins
ide
Tota
l hei
ght
Outside
Inside
Outside
Inside
Fixed screen with wall connection profile
In order to provisionally determine the glazing area per panel, please apply the following formula:Approx. glazing area per panel
= Panel width x total height x 0.78
The precise dimensions of the sealed double glazingunits to be ordered should be exclusively taken from the approval drawing released by DORMA-Glas.
Fixed screenNon-sliding side screen thatdecouples from the rest ofthe system.
The fixed screen has thesame appearance as the sliding panels.Instead of the automaticallyextending bottom rubberseal, it features a bottomrail.
5916
16
5
64
64
5976
59 54
77 37
22
22
Fixed screen with wall connection
Date and features
Closing strength/size
Closing force, variable
Closing speed adjustment
Non-handed
Latching speed adjustment
Cushioned stay limit adjustment
Hold-open adjustment
Weight
Length
Overall depth
Height
TS 93TS 92
EN 2-4
via adjusting screw
via valve
yes
via valve
80°-120°
75°-150°
1.9 kg
281 mm
47 mm
65 mm
EN 2-5
via adjusting screw
via valve
yes
via valve
80°-120°
75°-150°
3.5 kg
275 mm
53 mm
60 mm
EN 5-7
via adjusting screw
via valve
yes
via valve
80°-120°
75°-150°
5.2 kg
285 mm
62 mm
71 mm
Thermal and sound insulationTable (extract) for determining the k-value ofvarious types of glazing installed in conjunction with frame material group 2.1.Measurements performed by the Institut fürFenstertechnik e.V. (Inst. of Window Technology) of Rosenheim, Germany using an installed 4-panel system revealed a soundreduction level of min. 27 dB.
Double glazingwith …mm air gap
Glazing
kv
Windows and french doors including framekF
> 6 to < 8
> 6 to < 10
> 10 to < 16
2 x > 6 to < 8
2 x > 8 to < 10
3.4 W/m2K3.2 W/m2K3.0 W/m2K2.4 W/m2K2.2 W/m2K
3.2 W/m2K3.0 W/m2K2.9 W/m2K2.5 W/m2K2.3 W/m2K
70 07/08
HSWPanel Types
HSW-ISOSliding Panel
Sliding panelFixed when the frontage orpartition is closed.
Sliding panelsThe sliding panels are themoving elements. Once intheir closed position, theyare locked down. Face-mounted floor bolts areavailable as an option forthe bottom glazing rail.
Glaz
ing
heig
htFr
ame
heig
htPa
nel h
eigh
t ins
ide
Tota
l hei
ght
6
Horizontal sections of the sliding panels with connection details
59 5422
16
64
775
659 76
22 22
16 16
64
77 595
6
37
Outside
Sliding panel to wall connection profile
Outside
Sliding panel to sliding panel
Inside Inside
In order to provisionally determine the glazing area per panel, please applythe following formula:Approx. glazing area per panel = Panel width x total height x 0.78
The precise dimensions of the sealed double glazing units to be orderedshould be exclusively taken from the approval drawing released by DORMA-Glas.
07/08 71
Single action sliding panel with DORMA ITS 96, size 3-6cam-action door closer
This panel type is installedwhere doors need to be opened in one direction. Thecam-action door closer can befitted so that the single actionpanel is either inward or outward opening.
Standard assemblytop: Pivot bearing,
ITS 96, size 3-6one locking device
bottom: Face-mounted slidebolt as pivot (releasedfor sliding function)
Optional equipmenttop: Second locking device
(for reshuffle bypass stacking)
bottom: Optional second face-mounted slide bolt
HSWPanel Types
HSW-ISO Single Action Sliding Panel
Horizontal section of single action panels,inward or outward opening
Function of the top locking device
129
Status of lockingdevice for dooroperation
Status of lockingdevice for sliding
129
64
81
81
2222 22
22 1616
59
595
5
Outward opening
Inward opening
Glaz
ing
heig
ht
6
300 184
Fram
e he
ight
Pane
l hei
ght o
utsi
de
Tota
l hei
ght
ITS 96 door closer integrated in the profile (concealed installation)
Single action sliding panel with integrated ITS 96
72 07/08
HSWPanel Types
HSW-ISOReshuffle Bypass Stacking
Stacking in the reshufflebypass configurationThis special stacking arrangement is applied whenthe panels should be parked ina niche and no single actionend panel should be visible inthe frontage.Please also see the followingillustrations.
Sliding panel in bypass travel mode (sliding end panel)
Single action sliding panel in bypass travel mode (outward opening only)
DORMA HSW Notes
07/08 73
74 07/08
HSWAccessories
Vertical Seals Overview
Seals retrofittable Seals individually customised
The following retrofittable profiles are available to provide the necessary lateral sealing so that the horizontal sliding can bemade draught-proof for winter operation.
Aluminium alloy profile with brush
for 10 mm glass
Finelinewith brush seal (pages 75-80)
for 10 mmand 12 mm glass
Line Single action door with brush seal (page 81)
for 10, 12 and 13.5 mm glass
Line Sliding door with rubber seal (pages 82-84)
for 10, 12 and 13.5 mm glass
Clear plastics profile(not for single/double action end panelsor double action sliding panels)
for 10 mm glass
for 12 mm glass
for 12 mm glass
These frame profiles for rendering doors draught-proof areindividually manufactured and therefore need to be takeninto account when designing the horizontal wall system.All the relevant specifications must be provided with thesystem order.
4
4
4
4
10
12
10
12
30
32
33
.5
32
13
.5
10
/12
10
12
13
4
4
7
54
Silicone joint
Bond with silicone
151
1
1
Silicone joint
33
.5
32
13
.5
10
/12
4
54
15
07/08 75
End panelNon-moving and alwaysequipped with a bottom deadbolt with the option of an additional top bolt orside-action deadlock. Can be designed as a singleaction or double action door.
When fitting the glazing rails, please ensure that the glass protrusion is even over the full length.Prior to profile machining, first hang the panels from the overhead track and thenalign.
Calculation of the glass width= Panel width – 16 mm
As-delivered condition:Cut lengths supplied fromfactory = Partition height – 100 mmHoles and recesses are pre-machined in the profilefor the bottom glazing railonly.Any further machining workrequired for connection tothe top glazing rail has to beperformed on site.
Single action or double action end panel with floor pivot
Installation instructions
Fineline Seal
ø 9.8
Adap
ted
4
7 1
13
M4
Bottom drill hole or recess for end-mounted floor bolt machined by DORMA-Glas
63
25
20
32
57
.5
As-
deliv
ered
len
gth
(tot
al h
eigh
t –
70
)
Pro
file
len
gth
adap
ted
on s
ite
HSWAccessories
Vertical SealsFineline
76 07/08
HSWAccessories
Vertical SealsFineline
Sliding panelFixed when the frontage orpartition is closed. The sliding panels are themoving elements. Once intheir closed position, they arelocked down. The componentsavailable for this are providedin the bottom glazing rail inthe form of face-mountedfloor bolts, end-mounted floorbolts, end pin bolts ordeadlocks.
When fitting the glazing rails, please ensure that the glass protrusion is even over thefull length.Prior to profile machining, first hang the panels from the overhead track and thenalign.Use the factory-stamped recesses in the bearing profile for accurate adjustment of thetop Fineline profile.
Calculation of the glass width = Panel width – 16 mm
As-delivered condition: Cut lengths supplied fromfactory = Partition height – 100 mmHoles and recesses are pre-machined in the profilefor the bottom glazing railonly.Any further machining workrequired for connection tothe top glazing rail has to beperformed on site.
Sliding panel
Installation instructions
ø 9.8 Adap
ted
4
Sliding panel
71
13
M4
Bottom drill hole or recess for end-mounted floor bolt machined by DORMA-Glas
25
20
32
18.5
As-
deliv
ered
len
gth
(tot
al h
eigh
t –
13
0)
Pro
file
len
gth
adap
ted
on s
ite
07/08 77
Sliding panels in segmentedconfigurationsFixed when frontage or partition closed.The sliding panels are themoving elements. Once in their closed position, they arelocked down. The componentsavailable for this are providedin the bottom glazing rail inthe form of face-mounted floorbolts, end-mounted floor bolts,end pin bolts or deadlocks.
When fitting the glazing rails, please ensure that the glass protrusion is even overthe full length.Prior to profile machining, first hang the panels from the overhead track and thenalign.
Calculation of the glass width = Panel width – 16 mm
As-delivered condition:Cut lengths supplied fromfactory = Partition height – 100 mmHoles and recesses are pre-machined in the profilefor the bottom glazing railonly.Any further machining workrequired for connection tothe top glazing rail has to beperformed on site.
Installation instructions
Sliding panels in segmented configurations
ø 9.8
Adap
ted
4
7 1
13
M4
Brush 13
Profile toupper face ofbrush carrier
25
20
32
57
.5
As-
deliv
ered
len
gth
(tot
al h
eigh
t –
70
)
Pro
file
len
gth
adap
ted
on s
ite
Sliding panel
78 07/08
Double action sliding panelDouble action panel with RTStransom-concealed door closerfor door access when frontageor partition closed.
When fitting the glazing rails, please ensure that the glass protrusion is even overthe full length.Prior to profile machining, first hang the panels from the overhead track and thenalign.
Calculation of the glass width = Panel width – 16 mm
As-delivered condition: Cut lengths supplied fromfactory = Partition height – 100 mmHoles and recesses are pre-machined in the profilefor the bottom glazing railonly.Any further machining workrequired for connection tothe top glazing rail has to beperformed on site.
Double action sliding panel
Installation instructions
HSWAccessories
Vertical SealsFineline
Adap
ted
7
4
1
13 52
65
M4
RTS 852
02
0
32
As-
deliv
ered
len
gth
(tot
al h
eigh
t –
16
5)
M4x25
Slidingpanel
Double action slidingpanel with RTS
Pro
file
len
gth
adap
ted
on s
ite
07/08 79
Folding sliding panelHinged, with lock and slidebolt at the bottom, latchingbolts top and bottom forfixing the final folding panelto the sliding panel.
When fitting the glazing rails, please ensure that the glass protrusion is even overthe full length.Prior to profile machining, first hang the panels from the overhead track and thenalign.
Calculation of the glass width= Panel width – 16 mm
As-delivered condition:Cut lengths supplied fromfactory = Partition height – 100 mmHoles and recesses are pre-machined in the profilefor the bottom glazing railonly.Any further machining workrequired for connection tothe top glazing rail has to beperformed on site.
Folding sliding panel
Installation instructions
Lock with lever handle and strike box optional.11
80
11
1 17
4
17
89
32
10
50
7
50
ø50Milled
Mill
ed
80 07/08
HSWAccessories
Vertical SealsFineline
Fineline SealProfile machining This is performed by DORMA-Glas for the end-mounted andface-mounted slide bolts.
Fineline seal with end-mounted slide bolt
Fineline seal with face-mounted slide bolt
12 13
28
ø16
60
42
M4x30M4x18
30
37
7
4
1
20
45
70
70
33
20
33
52
97
65
30
13
7
4
1
07/08 81
Single action or double actionend panelsNon-moving and alwaysequipped with a bottom deadbolt with the option of an additional top bolt or side-action deadlock.Can be designed as a singleaction or double action door.
When fitting the glazing rails, please ensure that the glass protrusion is even overthe full length.Prior to profile machining, first hang the panels from the overhead track and thenalign
Calculation of the glass width = Panel width – 30 mm
As-delivered condition: Cut lengths supplied fromfactory = Partition height – 100 mmHoles and recesses are pre-machined in the profilefor the bottom glazing railonly.Any further machining workrequired for connection tothe top glazing rail has to beperformed on site.
Single action or double action end panel with floor pivot
Installation instructions
Line Seal
ø 9.8
Adap
ted
M4
634
25
20
57
.5
As-
deliv
ered
len
gth
(tot
al h
eigh
t –
70
)
Pro
file
len
gth
adap
ted
on s
ite
Bottom drill hole orrecess for end-mountedfloor bolt machined by DORMA-Glas
HSWAccessories
Vertical SealsLine
82 07/08
HSWAccessories
Vertical SealsLine
Sliding panelFixed when the frontage or partition is closed. The sliding panels are themoving elements. Once in their closed position, they arelocked down. The components available for this are providedin the bottom glazing rail in the form of face-mounted floor bolts, end-mounted floorbolts, end pin bolts ordeadlocks.
When fitting the glazing rails, please ensure that the glass protrusion is even overthe full length.Prior to profile machining, first hang the panels from the overhead track and thenalign.
Calculation of the glass width = Panel width – 30 mm
As-delivered condition: Cut lengths supplied fromfactory = Partition height – 100 mmHoles and recesses are pre-machined in the profilefor the bottom glazing railonly.Any further machining workrequired for connection tothe top glazing rail has to beperformed on site.
Sliding panel
Installation instructions
ø 9.8
Adap
ted
M4 Sliding panel
4
25 15
25
20
33
.5
13
.5
As-
deliv
ered
len
gth
(tot
al h
eigh
t –
13
0)
Pro
file
len
gth
adap
ted
on s
ite
Bottom drill hole or recess for end-mounted floor boltmachined by DORMA-Glas
07/08 83
Double action sliding panelDouble action panel with RTS transom-concealeddoor closer for door accesswhen frontage or partition closed.
When fitting the glazing rails, please ensure that the glass protrusion is even overthe full length.Prior to profile machining, first hang the panels from the overhead track and thenalign.
Calculation of the glass width = Panel width – 30 mm
As-delivered condition: Cut lengths supplied fromfactory = Partition height – 100 mmHoles and recesses are pre-machined in the profilefor the bottom glazing railonly.Any further machining workrequired for connection tothe top glazing rail has to beperformed on site.
Double action sliding panel
Installation instructions
Adap
ted
15
4
25 40
65
M4
RTS 852
02
03
3.5
13
.5As-
deliv
ered
len
gth
(tot
al h
eigh
t –
16
5)
M4x30
Slidingpanel
Double action slidingpanel with RTS
Pro
file
len
gth
adap
ted
on s
ite
Profile machining This is performed by DORMA-Glas for the end-mounted and face-mounted slide bolts.
Line seal with end-mounted slide bolt
Line seal with end-mounted slide bolt
84 07/08
HSWAccessories
Vertical SealsLine
45
65 30
30
15
4
M4x40
M4x35
25
15
425
ø2512
45
33
20
70
33
38,3
33.5
13.5
85 30
30
65
HSW Notes
07/08 85
86 07/08
A floor track in the form of a stainless steel channel section (U-profile) is alsoavailable as an option. This can be used for HSW-Gand HSW-R sliding panelsirrespective of the partitionlayout. In special cases andafter technical clarification, it may also be used withHSW-GP sliding panels. Forthis, the end-mounted floorbolt usually applied forstraight-line partition configurations is replaced bya combination of guide pinand end pin. The guide pin must be vertically below the track roller and is adjustable in therange +/- 10mm. For abutment to singleaction/double action endpanels and also in the case of angled configurations, a face-mounted floor bolt isreplaced by a bottomdeadlock.
The floor track is available inthree designs:
Straight 90° curve 135° curve
The individual track sectionsare abutted and fixed in placeby means of a stainless steelconnector. In its as-delivered condition,the floor track comes with awelded flange for fixing to theunfinished floor. This can beremoved if not required.
Sliding panel
Straight
90° curve 135° curve
Floor Track for sliding panels
HSWAccessories
Floor Track
9
14.5
65
65
4
Sliding panel
Hex head boltM6 x 35, 10 mm A/F
35
2.5
25
20
21
33
±5
75
10
01
00
7
Gla
ss h
eigh
t = T
otal
hei
ght
– 3
08
07/08 87
Floor track Stacking track detail
Floor track Floor track connector
Floor fixing flangeCan be removed if not required
50
Max
. le
ngth
3 m
HSW floor track configuration with a parallel stacking track arrangement
HSW floor track configuration with a 90° stacking track arrangement
HSW floor track configuration with a 135° stacking track arrangement
(10.5}
12.5±1 (14.5)
12.5+0.3
90°
90°
135°
R1 91°
R1
20
11 10
40
40
40
R100
R100
40
21
41
20
214
276
1
1
(19
)
88 07/08
HSW / FSW Miscellaneous
Measuring up
Important site measurements
Height ofstructural ceiling
Substructureheight
HSW system heighttrack height
TrackHeight of
suspended ceiling
1-metre datum line (site reference dimension)
Top surfaceof structural floor
FFL Top surface offinished floor
Clear width (finished wall)
Wall frontage/closed wall system
Reshuffle bypass
Stackingtrack depth
Stac
king
tra
ckw
idth
07/08 89
Notes on portal systems FinishesDeviations in colour due to production procedures cannot betotally excluded.
HSW systems with surface finishes 502, 503, 700 and 701contain different component materials.In the case of FSW (folding /sliding) systems, for example,the folding hinges are always of aluminium, while thestandard surface finish for brush profiles and end covers isblack anodised (E6/C35). These various components andalso the top locks can also optionally be anodised orpowder-coated so that they resemble the ordered surfacefinish.Owing to the use of different materials and processes,variations can occur in the appearance of the surfacefinishes and colours.
Finishes
Aluminium DORMA-Glas similar similarDescription No. Eloxal l Eloxal ll
Alumin. mill finish 100Alumin. silver 101 EV1 C 0Alumin. similar satin stainl. steel 107Alumin. similar satin stainl. steel 113 C 31(for profile material)Special anodised 199
Coated colours DORMA-Glas similar similarDescription No. HEWI-Nr. RAL
Alumin. white 300 99 9016Special coated colour 399
Brass DORMA-GlasDescription No.
Brass polished varnished 502Brass polished 503
Stainless steel DORMA-GlasDescription No.
Satin stainless steel 700Polished stainless steel 701
Maintenance recommendation for high-frequency HSW systems
Horizontal glass walls have been developed in order to pro-vide retail outlets with generous and enticing frontages –entrances that offer easy accessibility and an invitingappearance for customers. When the frontages are closed,they can double up as expansive shop windows.
In cases where double-action sliding panels are used formain entrances as a portal system (i. e. shopping malls orsimilar operated HSW systems) they are submitted to veryhigh daily traffic volumes and usage frequency rates. Thedoor closers and pivot bearings used by DORMA-Glas havebeen successfully tested in accordance with the require-ments of EN 1154. EN 1154 specifies 500,000 test cyclesfor manually operated closing devices. High-frequency portalsystems such as the above can reach this number of cyclesafter just a few months. Consequently, DORMA-Glas recom-mends that such units be regularly maintained. The higher the usage levels, the more frequently the equip-ment should be serviced by either the installation firm or asimilarly specialised fitter.
General care instructions
The surface finishes of the fittings are not maintenance-free and should be cleaned according to their material and design.For metallic surfaces (anodised finishes, stainless steel) please use appropriate cleaning agents without abrasive additives only.For varnished surfaces please use appropriate solvent-free cleaning agents only.Brass surfaces (without surface protection) have to be treated with an appropriate maintenance agent on occasion, to avoid tarnishing.
Planning tools
For planning of intelligent glass solutions weoffer you several planning tools which allow youto create secure and professional solutions forany kinds of glass doors and toughend glass assemblies.
The planning tools DGES and MANET COMPACT enable youto prepare designs and cost calculations quickly, reliablyand professionally. The software provides you with all necessary documentation such as dimensioned technicaldrawings, glass sizes and preparation measures.
Your benefits:
Easy to operateProfessional and error-free preparation of offersRapid response to incoming requests for quotationsHighly reduced planning costs for time and moneysavings
DGES Fittings (for internal doors and toughend glass assemblies), Art. No. 800.51.248.6.32
DGES HSW (for horizontal sliding walls), Art. No. 800.51.247.6.32
DGES Showers (for glass shower cubicles), Art. No. 600.51.600.9.03
MANET COMPACT planning tool (for MANET pivoting and sliding doors), Art. No. 800.51.329.6.32
Division GlasbeschlagtechnikGlass fittings and accessoriesDORMA-Glas GmbHPostfach 32 68D-32076 Bad SalzuflenMax-Planck-Straße 33 - 45D-32107 Bad SalzuflenTel. +49 5222 924-0Fax +49 5222 21009www.dorma.com
WN 800.51.181.6.32 · 07/08 · GB · 2 · BD · 08/08