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B l i c k p u n k t D e c k e – A k t i o n s r a u m O W A
OWAcoustic®
Installation InstructionsGuidelines for Planning and Installing OWAcoustic®-Ceilings
INDEX
Section Page
1.0 General Advice 41.1 Introduction and edition date
(See title page) 41.2 Quality-Characteristics 4
Quality Standards – OWAcoustic 4OWAcoustic Products 4Overview Manufacturing program 5
1.3 Site Conditions 51.3.1 Relative humidity 6
Relative humidity table 61.4 Humidity limits for
OWAcoustic tiles 71.5 OWAcoustic-Mavroc
Moisture resistant ceiling tiles 71.6 Reinforcing splines for large tiles 72.0 Technical Data 102.1 DIN 18 168 Part 1 / BS 8290 Part 1 102.2 Direct fixed ceiling 3.0 Fire Protection DIN 4102, BS 476 114.0 Corrosion resistant sections 134.3 Ceilings exposed to outside air 14
Perimeter details 155.0 Wide span sections 186.0 OWAcoustic Ceilings under
Warm and Cold Roofs 196.1 Unventilated roofs 196.2 Ventilated roofs 197.0 Fixings and Suspension Elements 207.8 OWA-Sanitas Hygienic areas 217.9 OWAlux in Clean-Rooms 218.0 Ventilation and Air-Conditioning 229.0 OWAcoustic-Tiles 24
LoadingsCuttingPackaging
9.5 OWAcoustic Edge Details 259.6 Cut perimeter Tiles 259.7 Effect of direct lighting on ceilings 259.8 Flatness tolerances 25
10.0 Pre Installation Planning 2610.1 Site inspection 2610.2 Fire protection requirements
DIN 4102 / BS 476 (See point 3.0) 2610.3 Lightweight ceilings compliance
(See point 2.1) 2611.0 Metal Suspension Systems 2611.1 Basic systems 26
11.2 Ceiling loadings 2611.3 Ceilings in areas subject to wind pressure 26
12.0 Suspension hangers 2712.2 Loading capacities and specificcation 27
Hanger types DIN 18168 Part 2 28
Section Page
13.0 Perimeter Trim Alternatives 2913.2 Standard perimeter specification 2913.3 Hand cutting mitres on shadow trim 3013.4 Internal / External mitres 3013.5 Standard perimeter wall details 3113.6 Fire rated perimeter details 3213.7 Ventilated perimeter detail 3213.8 Sloping ceiling perimeter detail 3213.9 Wall Angle sections / dimensions 33
14.0 OWAcoustic-Systems S 1 / S 1a / S 9 36
14.1 Basic construction details 3714.2 Primary carrier section No. 70 37
15.0 Suspension SystemS 1 / S 1a 38
16.0 System S 1 / S 1a Direct Fixing Method 39
17.0 Fixing the last tile 4018.0 Replacing / Access Tile 4119.0 Visible Access Tile
in Concealed Ceiling 4220.0 Retro Fit Steel Access
Frame No. 8033 4221.0 Retro Fit Steel Access
Frame No. 8033 4322.0 OWAcoustic-System S 9 4423.0 OWAcoustic-System S 3a / S 15a 4624.0 OWAcoustic-System S 3a / S 15a 4924.2 Shadow perimeter / Contura blocks 49
25.0 OWAcoustic-System S 6 / S 6b / S 6c 5125.1.1 Wall angle sections – Maximum loadings 52
25.2 System 6a, Concealed demountable 5225.3 System 6b and 6c, Exposed demountable 53
26.0 System 18 Parallel Bandraster Pan Grid 54
26.1 Bandraster profile dimensions 5426.3 Suspension – Pressure and shear table 5526.5 Horizontal bracing 5526.9 OWAcoustic edge details for Bandraster 56
26.10 Panel supporting sections 5726.12 Bandraster lighting systems 5727.0 Recessed and surface mounted
lighting 5827.2 Fire Protection of Recessed Lights 60
28.0 Renovation and Painting of Standard Tile Surfaces 61
28.9 Cleaning surface marking from tiles 6228.9.2 Cleaning tiles with surface needling 63
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General AdviceSite ConditionsFire Protection
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OWAcoustic® CeilingsEdge DetailsMetal SuspensionHangersPerimeter Trims
Technical DataBS 8290 and DIN 18168Fire Protection BS 476 / DIN 4102Corrosion ProtectionCeilings in Exposed Areas
Wide Span SectionsVentilated and Unventilated RoofsTop FixingsVentilated Ceilings
OWAcoustic® Ceiling SystemsS 1 / S 1a / S 9 / S 3 / S 15 / S 3a / S 15a / S 6a / S 6b / S 6c / S 18 / S 18cLight FittingsRedecorationCeiling Fixing Tools
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1.0
OWAcoustic® Ceiling Systemscontain materials that have beeninspected and verified as being incompliance with standards DINISO / EN 29001.
Material characteristics, dimen-sions, density and thickness areimportant perameters for staticloading, fire and noise control.
The warranty which operates wit-hin the framework of our termsand conditions of sale appliesonly to those structural andsystem components referred to inOWA printed literature, test certifi-cates, invoices and tables andreports.
In the event of other componentsbeing used, the statements madein test certificates, reports andtechnical data lose their validity.
Mavroc:
radial:
Janus:
OWAplan:
Excell:
Honeycomb:
Lamellen:
Mirror Tiles:
Large Format Tiles:
Textile Face Tiles:
Sanitas:
OWAlux:
Molinari:
General Information
1.1 Introduction
The information contained in this publication relates to the current status oftechnology in respect of relevant British, German and other European stan-dards currently in force. The publication date of this brochure can befound on the cover page.
1.2 Quality Standards
OWAcoustic® ceilings consist of wet felted mineral wool tiles and panelstogether with an appropriate metal grid suspension system suspended fromthe building structure by the correct method of attachment. OWAcoustic® cei-ling tiles and panels are manufactured from natural materials and do not con-tain any harmful substances such as asbestos or formaldehyde. OWAcoustic® ceilings are complete systems tested to the latest standardsand regulations. 50 years experience of continuous production of mineralwool tiles means that OWA has kept pace with the ever changing demandsof the ceilings market.
OWAcoustic® quality standards:
OWAcoustic® ceiling tiles are manufactured from high quality materials and finis-hed with latex base paint. Of significant importance, the OWA white wool fib-res have tested Bio-persistence (Bio-solubility) levels that fully comply with theEuropean directive 97/69/EC (Certificate available on request) and are there-fore free from health risk.OWAcoustic® ceilings are quick and simple to install, conceal services withinthe cavity void and will facilitate the integration of essential services such aslighting, air handling and sprinkler systems within the membrane.The Owacoustic® programme contains products that have numerous appli-cations for many types of situations. A selection can be made from the follo-wing list.
OWAcoustic® products with features for special applications.
Ceiling tiles for high humidity up to 99%Brochure No. 900EDeckenplatten für RundbautenDruckschrift: “Großer Bogen” und “Das Haus der Decken”Panels for high sound insulation up to RL,W 49 dBLeaflet No. 570Ceiling tile base for acoustic plasters, fire rated to F 120Brochure No. 900E and 864Open / closed cell ceilingsBrochure 900E and 863Large open / closed cell ceiling systems.Brochure No. 900E and system guides S 8 and S 10Ceiling elements for acoustic controlBrochure No. 900E and system guide S 12Decor and acoustic mirror tilesBrochure No. 900E and system guide S 3Ceiling tiles up to 1200 x 1200 with reinforcing splines Brochure No. 900E and system guides S 18, S 18b, S 18cTextile faced tilesBrochure No. 900ECeiling tiles for sterile and hygenic areas in hospitals and food preparationareas.Brochure No. 900E and leaflet 848Ceiling tiles with aluminium foil facings for hygienic areas and kitchens.Leaflet No. 861Pastel coloured ceiling tilesLeaflet L 1/97 and No. 871
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Self contained Fire Protection Elements
Fire protecting element F 30 (30 min. Fire protection from above and below).Element thickness approx. 95 mm, weight approx. 0.150 kN/m2
Leaflet No. 912Fire protecting element F 30 (30 min. Fire protection from above andbelow).Element thickness approx. 40 mm, and 70 mm, weight approx.0.175 kN/m2
Leaflet No. 911Fire protecting element F 30 (30 min. Fire protection from above and below).Element thickness approx. 94 mm, weight approx. 0.20 kN/m2. Free span-ning to 2500 mm.Leaflet No. 916Fire protecting element F 90 (90 min. Fire protection from above and below).Element thickness approx.110 mm, weight approx. 0.35 kN/m2. Free span-ning to 2500 mmLeaflet No. 918Fire protecting ceiling F 30Leaflet No. 915
Fire protection to Roofs
F 90 ceiling in combination with profiled sheet steel roof decking - unventila-ted.Element thickness 40 mm, weight approx. 0.175 kN/m2
Leaflet No. 904F 30 in combination with nailed corrugated sheet roofs - ventilated.Standard System S 3. Surface weight 0.07 kN/m2
Leaflet No. 906
Manufacturing and delivery Programme:
The perlite variationLeaflet No. 201Speciality Ceilings and suspensions in GRG and Aluminium profiles.Leaflets Nos. 401, 410Metal CeilingsLeaflets Nos. 302 - 315 - 320 - 380System 2000Steel ceiling tiles for renovation, reconstruction and relocationLeaflet No. 320Clip SystemLeaflet No. 301 - Metal ceiling - clip systemSuspension sections and accessoriesLeaflets Nos. 602 - 603 - 631 and OWAconstruct delivery program.Access trapsStandard LightingPan Grid LightingWall Angles - Infill strips for Systems S 3 and S 15Leaflet Infill StripsAlu-Flex - Angles - Curved aluminium anglesLeaflet Alu - Flex Angles
1.3 Site conditions
The installation of an OWAcoustic® ceiling forms part of the interior dry finis-hing phase of construction.
The installation of an OWAcoustic® ceiling should, ideally, take place in a nor-mal environment (temperature range 10°C to 30°C and relative humidity bet-ween 30 - 70% r.h.). Wet trades such as plastering and screeding should becompleted and dry.The building should be weather tight with all windows glazed and exteriordoors in place.
F 30 DUO:
F 30 SOLO:
BSE 30:
BSE 90:
Barrier:
F 90 Profiled Steel Roofs:
F 30 Nailed Corrugated Sheet Roofs:
Fire Boxes:
Standard Ceilings:
OWAsigna:
OWAspectra:
OWAtecta:
OWAconstruct:
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It is recommended that installation should take place at a temperature closeto that which will prevail in the area during subsequent occupation.OWAcoustic® 15 and 20 mm thickness tiles can be used in conditions of upto 95% relative humidity (14 mm nominal up to 90%) at temperatures notexceeding 30ºC. In case of doubt over relative humidity or in known severeenvironments e.g. conditions that are outside normal limits (including ceilingsopen to the external atmosphere) we recommend the use of MAVROC® highhumidity tiles.
1.3.1 Relative Humidity
The relative humidity is always dependent on the temperature. A drop in tem-perature in an enclosed area causes an increase in the relative humidity.In new buildings, there should always be a free airflow available to ensure thatdamp air is evacuated from the area into the open air.
In a situation where the installed ceilings in a new building are in areas withnormal room temperatures at 20ºC and relative humidity at 70% and thetemperature at nights and weekends drops by 5ºC to 15ºC and assumingthat all doors and windows are closed. The calculation of the relative humi-dity in these areas can be calculated from Chart 1 using the followingmethod.
The reading of 12.10 is taken at the crossing point of 20ºC and 70% relativehumidity on Chart 1. This means that there is 12.10 g moisture / m3 air at20ºC / 70% r.h.
With a temperature drop of say 15ºC, the relative humidity increases. If youfollow the 15ºC temperature line to the closest value to the air saturation figu-re of 12.10g you find that the relative humidity has risen to approx. 95%. Insuch circumstances it requires that high humidity resistant panels such asOWAcoustic® "Mavroc” are used.
Note:Red shaded areas are reference points for Example 1.
Temperature in Relative Humidity in %°C 50 60 70 80 85 90 95 100
10 4.70 5.60 6.50 7.50 8.00 8.50 9.95 9.4011 5.00 6.00 6.95 8.00 8.53 9.05 9.55 10.0512 5.30 6.40 7.40 8.50 9.05 9.60 10.15 10.7013 5.65 56.85 7.95 9.10 9.68 10.25 10.83 11.4014 6.00 7.30 8.50 9.70 10.30 10.90 11.50 12.1015 6.40 7.75 9.00 10.30 10.5 11.60 12.23 12.85
16 6.80 8.20 9.50 10.90 11.60 12.30 12.95 13.6017 7.25 8.70 10.10 11.60 12.33 13.05 13.78 14.5018 7.70 9.20 10.70 12.30 13.05 13.80 14.60 15.4019 8.15 9.80 11.40 13.05 13.88 14.70 15.53 16.3520 8.60 10.40 12.10 13.80 14.70 15.60 16.45 17.30
21 9.15 11.05 12.85 14.65 15.60 16.55 17.45 18.3522 9.70 11.70 13.60 15.50 16.50 17.50 18.45 19.4023 10.30 12.40 14.45 16.45 17.50 18.55 19.58 20.6024 10.90 13.10 15.30 17.40 18.50 19.60 20.70 21.8025 11.55 13.85 16.20 18.50 19.65 20.80 21.95 23.10
26 12.20 14.60 17.10 19.60 20.80 22.00 23.20 24.4027 12.90 15.45 18.10 20.70 21.98 23.25 24.55 25.8528 13.60 16.30 19.10 21.80 23.15 24.50 25.90 27.3029 14.40 17.25 20.20 23.05 24.50 25.95 27.40 28.8530 15.20 18.20 21.30 24.30 25.85 27.40 28.90 30.40
Absolute Humidity in g/m3 air
Example: 1
Table 1Calculation chart for temperatures 10 to 30ºC andrelative humidity 50 to 100%
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For high humidity levelsat temperatures over 25ºC(See point 1.3)
Reinforcing Spline No. 8040Spline length example.
Module– 6 mm =Tile length– 5 mm =
spline length
Module
Tile length– 25 mm =spline length
Clip No. 8041
1.4 Humidity Levels - OWAcoustic Tiles
OWAcoustic® Standard and Sanitas 15 and 20 mm thickness panelscan be used in humidity levels up to ≤ 95%
1.5 OWAcoustic® - Panels "Mavroc”(High humidity resisting)
All standard sizes can be exposed to relative humidity conditionsup to ≤ 95% permanent
1.6 Reinforcing Spline No. 8040 / 8041
The reinforcing back spline is fixed to the reverse face at the centre of thepanel parallel to the long edge. A barbed clip No. 8041 is positioned in eachslot along the spline and is tapped through the slot into the board. The spli-ne can be used to support panels up to 1500 mm in length in an exposedor concealed suspension system. The exact length of the reinforcing splineNo. 8040 varies with the suspension system (see drawings).
Examples of spline length required for exposed and concealed systems:
Exposed Systems : S 3, S 3a, S 15, S 15aModule size 600 x 1200 mmPanel length = Module - 6 mm
= 1200 mm - 6 mm = 1194 mmSpline length = Panel length - 5 mm
= 1194 mm - 5 mm = 1189 mm
Concealed Systems : S 1, S 1aS 1 Module size 600 x 600 mmSpline length = Module - 25 mm = 575 mm
On site application of reinforcing splinesNo. 8040 Triangular flanged sections slotted at 150 mm centres fixed to cen-tre of panel in longest direction by means of clip No. 8041 tapped into boardthrough every slot in the spline to ensure maximum panel support.
Clips required = approx. 7 clips per linear metre of spline.
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OWAcoustic® ceiling S 3a Contura
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General AdviceSite ConditionsFire Protection
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OWAcoustic® CeilingsEdge DetailsMetal SuspensionHangersPerimeter Trims
Techniccal DataBS 8290 and DIN 18168Fire Protection BS 476 / DIN 4102Corrosion ProtectionCeilings in Exposed Areas
Wide Span SectionsVentilated and Unventilated RoofsTop FixingsVentilated Ceilings
OWAcoustic® Ceiling SystemsS 1 / S 1a / S 9 / S 3 / S 15 / S 3a / S 15a / S 6a / S 6b / S 6c / S 18 / S 18cLight FittingsRedecorationCeiling Fixing Tools
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2.0
The DIN-Norm:The code of practice standard DIN18168 parts 1 and 2 was laid downin 1981.This standard sits along side otherrelevant technical standards 4102 -Fire protection 4108 - Humidity in buildings 4109 -Acoustical Control
Direct Fix Ceiling
Suspended Ceiling
Technical data
2.1 DIN 18168 Part 1 / BS 8290 Part 1
These standards deal mainly with the code of practise and design criteria forsuspended ceilings.
2.2 Direct Fixed Ceilings
Direct fix ceilings are those which can be fixed to timber battens that aresecurely located onto the soffit by mechanical non-adjustable fixings.OWAcoustic System S 1 with direct fixing clamps is a directly fixed ceiling.
2.3 Suspended Ceilings
Are suspended or lowered ceiling systems by means of metal hanger suspen-sion with a static loading capability and which is adjustable and correspondsto the description in point 2.5.
2.4 It should be ensured that there are no transverse or torque forceswhich can be transferred onto the suspension system. To ensure that thisdoes not occur there are available wide span sections that can be used as aprimary suspension bearer. (See point 5.0) The maximum deflection of a cei-ling between the suspension points must not exceed 1/500 of the span (e.g.span > 1200 mm max. Deflection = 2.4 mm). Total maximum Span / deflec-tion allowed = 4.0 mm
2.5 DIN 18168 part 1 abbreviated
a) Range of applications - Suspended Ceilings with self loadings up to 0.5 kN/m2 ~ 50 kg/m2
b) Metal suspension components must have a certified static loading.Maximum deflection of metal sections should be no more than 1/500 of the span between supports (e.g. hanger distances) and not more than 4.0 mm in total
c) In the event of failure or loss of support the suspension system must not be subject to continuos collapse.
d) If partition walls are fixed to the ceiling the resulting lateral forces must be supported by additional structural components.
e) Suspended ceilings should be designed to accommodate structuralforces so that in the event of any non-ascertainable wind stress, no collapse of the membrane or any loosening of the suspension hangers occurs.
f) Sub-structures, which serve as free support must be secured against lateral movement
g) There must be at least one suspension hanger for every 1.5 m2 of ceiling membrane surface.
h) Only certified tested and approved fixings are to be used foranchoring the suspension hangers. Anchoring onto wooden laths set in concrete is not permitted.
i) Reference must be made to the appropriate DIN / BS standards forfire, insulation and soundproofing requirements.
j) Table 1 denotes the minimum material thickness of metal suspensionhangers (see Point 12.1).
k) Table 2 denotes the minimum requirements for protection against corrosion for metal structural components (see Point 4.0).
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Fire protection to DIN 4102,parts 1 and 2,BS 476 parts 6, 7, 21 and 23
3.1 Building Material Classification DIN 4102Parts 1 and 2 / BS 476 parts 6 and 7(Reaction to Fire)
OWAcoustic® ceiling tiles and panels are manufactured from a base boardconsisting of high temperature resisting mineral wool fibres and natural bin-ders. Under DIN 4102 part 1 the board is classified as being either A2 -Incombustible with the test mark PA.111 4.143 or B1 Highly flame resistantwith the test mark PA.111 2.840.
Under British standard BS 476, part 7 all boards are classified as class 1 andunder BS 476, part 6 all boards are classified as class 0 in accordance withApproved Document B to the Building Regulations.
3.2 The appropriate prescribed test mark can be found on the packlabels and on the reverse of OWAcoustic® tiles and panels.
3.3 Fire Protection Classification F 30 ... F 120 –DIN 4102 Part 2 / BS 476 parts 20, 21 and 23(Resistance to Fire)
OWAcoustic® ceilings have been tested to the relevant DIN and BS stan-dards. The ceiling must be installed in accordance with the details shown inthe test documents. Any deviation from that shown on the test certificate canonly be made with the consent of the testing authority. The basis for mosttesting is generally based upon the regulations of the particular country.
3.4 The fire protection certification and expert assessments issuedagainst the results of many tests on OWAcoustic® ceilings represents officialdocumentation of compliance with DIN 4102 and BS 476. They contain fulldetails of the testing methods and results obtained. If any changes aremade in the construction of the ceiling, spans of sections or sizes of tiles,etc.., the onus of proof of compliance rests with the person who sanctionedthose changes.
3.5 Notice
The described fire-protection-notice and structural designs only take intoaccount the available technical basic facts for preventive fire protection asper DIN 4102, Part 2. Building physics or other require-ments, which canresult from appropriate norms, rules or other regulations,etc. are not takeninto account. They are in addition to be observed in the planning for fire pro-tection.
3.0
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Corrosion ProtectionSections and SuspensionHangers
4.1 The moisture content of a room primarily affects the ceiling in-fillmaterial. A suspended ceiling does not however consist of only in-fill panels,but also of the suspension – structure. This consists principally of cold-rolledsteel sections, which must have a suitable corrision protection according tothe environmental conditions in which it is installed. An unequivocal perfor-mance standard can be found in DIN 18168 Part 1, in Table 2.
Table 2 – from DIN 18 168, Part 1:
4.2 The OWAconstruct® corrosion resistant suspension system has a zinclayer thickness of 7 to 10 µm + primer 7 µm and can therefor be allocated toline 1 of the aforementioned table. Only the OWA system S 3e with an addi-tional polyester coating of 20 µm meets the requirements of ASTM D 2247and other tests denoting suitability for use in swimming pool atmospherese.g. (Test Institute of thte University of Ghent)The use of system S 3e can be implemented for component parts from line 2of the table, subject to client consent. All cuts though the corrosion protectionmust be post-treated with Zink or other similar commercial aluminium-zincspray application.
4.0
13
2Col 1 2 3 4Line
Sections, Suspension Hangers, Connecting Elements
Metallic layer and coating
Environmental Zinc coating 1) Coating Galvanised Coating2) CorrosionConditions as DIN 17162 Zinc2) Protection for
Part 1 as DIN 50961 aluminiumor hot dip materialsgalvanising2) (see DIN 4113as DIN 1548 Part 1)
Coating thickness Coating thicknessin µm in µm
1 Building components in 7 Not 52) Not Notclosed rooms e.g. Offices, required required requiredschools, retail shops, hospitals, clinics, kitchensand bathrooms.
2 Building components in open 20 + 204) 52) + 80 Passive orareas to which outside air coated with has access, e.g. open bays, primer and walkways, closable garages. 20 µm baseBuilding components in coating closed rooms with high humidity often at normal temperatures, e.g. commercial kitchens in wet areas, swimming baths and launderies.Building components which are regularly exposed tocondensation and chemical attack as DIN 4030.
3 Building components which High level of corrosion as per DIN 55928 Part 8 Anodised oxide are exposed to exceptionally 20 µm or coating corrosive elements, e.g. due consisting ofto permanent influence of base primer,aggressive gas or salt 20 µm basic condensation or strong coating andchemical attack as per ≥ 20 µm deckDIN 4030. coating.
1) 1 µm single side corresponds to approx. 14 g/m2 zinc plating separated on both sides of the strip.2) 1 µm single side corresponds to approx. A single zinc plating of 7 g/m2.3) Minimum deck coating as per DIN 55928 Part 8, issue of March 1980 Chart 4 required; galvanised components stored
outside to be given an additional coating.4) 20 µm galvanised strip + 20 µm coating on each side to corrosion protection class 111 of DIN 55928, Part 8 Issued
March 1980.
4.3 Suspended ceilings exposed to outside airDIN 18168, Part 1 and DIN 1055.
OWAcoustic® Ceilings can be installed in areas exposed to the open atmos-phere so long as the effects of humidity, wind pressure and suction are takeninto account. The criteria is detailed in DIN 1055 under design loads in buil-ding construction. The client should be made aware that the level of corrosi-on protection for suspension components is in accordance with DIN 18168,Part 1 as detailed in point 4.2
OWAcoustic® Mavroc panels and metal grid suspension
Taking account of the factors mentioned in 4.2, the following materials arerecommended when installing an OWAcoustic® ceiling in an exposed situati-on.
a) Infill tiles and panels:
OWAcoustic® Mavroc® humidity resisting mineral wool panels (up to 99% RH)
Panel Thickness : Approx.15 mmSize :(maximum) 1200 x 300 mm (Module).Material classification :B1 to DIN 4102 / Class O Bldg Regs Doc.BEdges:Edge detail Square 3 orreveal Edge 6
b) Construction:
Exposed grid system S 3e - 24 mm wide tee system resistant to salt depo-sits as per ASTM B 117 and D 2247.
Components: Qty/m2
1 Suspension hanger No. 9411 3.0 NoL = 1000 mm, 9412 incl. M6 nuts No. 9414 3.0 No
2 Main tee No. 9850 - L = 3750 mm 3.2 lm3 Cross tee No. 9851- L = 312.5 mm 0.8 lm 4 Wall angle 24/24 mm - Nr. 9410 - L = 3050 mm ca. 0.9 lm5 Main tee spacings = 312.5 mm6 Hold down clips No. 44/20 10.0 No
System 3 e – Saltresisting to ASTM B 117 and D 2247
All cuts and connections should be treated with Alu-Zinc spray.
Edge 3
Edge 6
Panel Size
Corrosion protection of sections:
Corrosion protection of hangers:(Aluferrite coated)
14
PolyesterEpoxy primer
Zink coatingSheet steel
1515
1538
24
1250
312.5
1
23
4
5
6
2
Perimeter Wall detail
Perimeter tiles must be secured with springs or batten strips.
Notes:
Extra special care must be taken when installing ceilings that are open to theoutside air.
The recommended procedures should be agreed on site for each particularinstallation and assessed on their individual merits. If necessary additionalsafety precautions should be taken. In certain circumstances normal holddown clips No.44/20 may not be adequate for the conditions. In such casestop hat sections should be used. See drawing
Hold down clips should be spaced at 200 mm centres on all sections.
All cuts and connections should be treated with Alu-Zinc spray.
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Fire resisting strips
Section No. 9850or No. 9851
Wall angle No. 9410
Wall spring No. 52 or F. R. strips
Wall channel No. 57 (20 x 40 x 20 mm)
Section No. 9850 or No. 9851
20
40
1515
20
Hold down clip No. 44/20
Section No. 9850 or 9851
Top hat section 1.5 mm
M6 Nut & Bolt
Section No. 9850 or 9851
Example
1515
25
20 20
10
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Sichtbares Einlegesystem – S 3 –
Parallel-Bandrasterdecke – S 18 –
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General AdviceSite ConditionsFire Protection
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OWAcoustic® CeilingsEdge DetailsMetal SuspensionHangersPerimeter Trims
Technical DataBS 8290 and DIN 18168Fire Protection BS 476 / DIN 4102Corrosion ProtectionCeilings in Exposed Areas
Wide Span SectionsVentilated and Unventilated RoofsTop FixingsVentilated Ceilings
OWAcoustic® Ceilings SystemsS 1 / S 1a / S 9 / S 3 / S 15 / S 3a / S 15a / S 6a / S 6b / S 6c / S 18 / S 18cLight FittingsRedecorationCeiling Fixing Tools
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e e
5.0
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2
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4
1 e = Centres of spanning section2 Spanning Section
max. deflection L/3003 Hangers must be staggered4 System deflection L/500
Absolute max. 4.0 mm
Wide spanning sections
5.1 Spans up to 6 metres can be bridged with metal sections. These sec-tions will span between structural steelwork and can be used to suspend alowered ceiling. They can support certain loadings which are brought to bearonto the structure via connections, e.g. brackets or suspension hangers.The connectiong or suspension points should coincide with the respectivespanning sections. Fixing should be carried out with care.The wide spanning carriers should be arranged so that they can be used tosuspend the lowered ceilings. Further measures are to be taken when fixingthe ceiling membrane. (See point 2.2)Sections spanning over 2 metres should be secured against torque effect.
(See printed documentation on wide spanning sections)
No. 6100Maximum span 6 Meters
18
350
35
100
t = 2 x1,0 mm
Achsabstand in cm
600
550
500
450
80 90 100 110 120125
Spa
nnw
eite
in c
m
t = 2 x 1.0 mm
Spa
n in
cm
Centres in cm
Wide Span Section No. 6100
Span distance L/300
Loadings:
OWA-System S 3 (B1, 15 mm) 0.067 kN/m2
Loading (Light fittings) 0.015 kN/m2
Total 0.082 kN/m2
Installation ofOWAcoustic® Ceilings underWarm and Cold Roofs
6.1 Used with single skin non ventilated Roof (Warm Roof)
OWAcoustic® ceilings provide good heat insulation and therefore can beused to control the dew point.
To avoid the formation of condensation it is recommended that a heat insu-lation / dew point calculation is made. In Part 3 of DIN 4108, it is noted thatthere are no negative influences by the sub-sequent building in of additionalheat insulation providing it does not involve more than 20% of the thermalresistance being on the warm side of the vapour barrier (thermal conductioncoefficient 0.063) otherwise ventilation of the roof space will be necessary.
6.2 Used with double skin ventilated roof(Cold Roof).
The structure of a double skin roof generally consists of :
a) Weather resisting outer skinb) Ventilated zonesc) Heat insulation zonesd) Airtight damp coursee) Suspended ceiling (fire proofing / sound proofing / hygiene etc.)
A ventilated or cold roof has an airflow zone in the roof space (between theoutside skin and the insulation layer) connected to the outside air. (See also DIN 4108 Parts 3 + 7 and BS 5250 : 1989 section 3)
6.3 The free airflow in these zones is mainly dependent on the pitch anddepth of thte roof. The air-out ventilation openings in the roof ridge area mustbe larger than the air-in ventilation openings on both sides of the eaves.
The exact ventilation area required, can be calculated or taken from DIN 4108Part 3 or BS 5250 section 2. Attention must also be paid to the diffusionequivalent thickness of the air layer sd. This is dependent on the roof pitchand rafter length and can be up to sd = 10 m.The provision of a vapour seal on the “warm side” of the structure is therefo-re necessary. Energy saving legislation requires that proof of airtightnessmust be given. To check the functionality of such a roof structure requires theadvice of a specialist in building physics.
6.4 In ventilated ceilings it is recommended that the heat insulation layerand the suspended ceiling membrane be seperated from each other so thatthe suspended ceiling can fulfil other functions such as fire protection, soundcontrol, support for light fittings and other installations and most importantly,appearance.For planning and installation recommendations, the basic rules of DIN V4108-7 and BS 5250 section 2 should be applied.
Principle of building physicsTechnical and other requirements related to building physics and fire protec-tion, flow from the relevant specifications. Thermal protection requirementsand other relevant legislated functional standards are not taken into account.They must be observed during the course of planning. The manufacturer ofthe suspended ceiling system assumes no responsibility in this connection.
6.0
1 Outer skin2 Insulation3 Damp membrane4 Roof deck5 OWAcoustic® ceiling
Unventilated (warm) roof
Ventilated (cold) roof
19
1234
5
3
7.0
No. 97
No. 13 No. 8013
Hollow RivetNo. 97/14
Hollow Rivet
Hanger
Soffits and Roofs
7.1 Connecting and fixing elements
In order to make a frictional connection between the soffit (roof) and anOWAcoustic® suspended ceiling system, only tested and approved metalanchors and fastenings should be used (See DIN 18168 Part 1 and BS 8290: Part 2 : 1989).
7.2 Solid concrete soffits
The connection between the suspension hangers and a solid concrete sof-fit should only be made with tested and approved metal drill anchors. Themanufacturers instructions should be followed.
Testing figures for anchor fixing pull-outs should be noted and agreed with theMechanical Engineers to ensure the correct fixing requirements for the instal-lation.Suitable fixings are KKM-drill anchors No. 97, drill No. 98 or other approvedand tested metal drill anchors.
7.3 Fixing to roof steelwork
The suspension hangers are generally fastened onto the steel girders bymeans of caddy-clips.Suitable are:OWA-suspension clips No. 13OWA-flange clip No. 8013
7.4 Porous and light aggregate soffits
Approved metal inserts such as No. 97/9 should be used. Precise fixinginstructions and technical data should be requested from the manufacturers.
7.5 Profiled sheet roofs
If there is no alternative to a direct fastening of the hanger to the profiledsheeting, then only the vertical ridges are to be utilised. Tight screwing downof the fixing is necessary. The hanging of wire hooks into drill holes is not per-mitted.The main supporting sections of the suspended ceiling should run transver-se to the direction of the profiled sheeting in order to achieve a balanced loaddistribution.Suitable fixings are: Approved profiled sheet bolts or hollow rivets No. 97/14
Notes:Under unfavourable weather conditions the effect of wind pressure or suc-tion can cause oscillation of the roof which can be transferred through thesuspension components onto the ceiling.
This can cause gaps to open in the ceiling and structural noise may occur insome cases where the metal parts or panels rub against each other. Aremedy could be to make the ceiling independent from the roof by using aprimary wide spanning support between steelwork (See point 5.0)
20
3
Dübelzange Nr. 89/3
No. 8036 No. 97/7
Hanger No. 10or Nonius hangerNo. 17/80
Nut & boltM6
7.6 Structural-borne noise and vibration –Isolating hangers
A non-interacting noise and vibration ceiling system is necessary in noisy orvibrationally intensive areas. Suitable in such situations are OWA isolatinghanger No. 8036 or isolating anchor No. 97/7.
7.6.1 In vibrationally intensive manufacturing areas and similar situations,it is recommended that only through bolted suspension hangers are used.Suitable are slotted suspension hangers which are tightly bolted through themain supporting section.Push on friction hangers are not suitable.
7.7 In situations where appliances such as refrigerators, freezers etc, cancreate excessive humidity levels, OWAcoustic® Mavroc panels arerecommended (see point 1. 5) or standard OWAcoustic® panels can beequipped with rear side reinforcements (see point 1.6). All panels must besecured in the corners with hold down clips No. 44/20 - 2 No. per panel side.
7.8 OWAcoustic® "Sanitas"- panels for hygienic areas.
In hospitals and areas where enhanced levels of hygiene are required the cei-ling should have good fungastatic and bacteriostatic properties on the expo-sed face.
OWAcoustic® Sanitas panels comply with DIN 4102 building material class A 2incombustible and are treated with an active anti-fungi and anti-bacterial sub-stance. By using a concealed grid suspension system, e.g. System 9 - Plainor 68/0 Cosmos without needling, the requirements for sterile areas aremet, see leaflet No. 848.
7.9 OWAlux – clean rooms
OWAlux standard and OWAlux 2000 provide an excellent smooth non-sporous and non-abrasive surface which is ideal for clean room areas and willcomply with Directive 2083 "Clean room technique”
a) OWAlux white painted aluminium foil without needling should be used
b) All OWAlux panels must be silicone sealed into grid and perimeters.
c) Design related junctions and joints with other sections must be sealed.
Note:In the case of ongoing wet cleaning or disinfection of ceilings, OWAcoustic®
OWAlux surface design white 64/08 without surface needling isrecommended.
21
3
unneedled 64/2, 64/4, 64/6
unneedled 64/8
Hold down clip No. 44or No. 44/20Main T-sectionor Cross tee
Sealing stripSilicone sealantOWAlux Alu-faced tile(Unneedled)
Hold down clipNo. 44 or No. 44/20
OWAluxceiling tile
T-section
Sealing stripNo. 8900
8.0
Hold down clipNo. 44 or No. 44/20
OWAcoustic®
Ceiling tile
T-section
Sealing stripNo. 8900
Sealing recommendations
For clean rooms of class ≥ 10.000 and according to US standard 209 E andfor sterile rooms in hospitals such as operating theatres, wash rooms, dialy-sis and other rooms of this type.For clean rooms of class 100.000 and 1.000.000 according to US standard209 E as well as food processing areas in hospitals and for medical treat-ment rooms, intensive care units (see also point 7.8).
7.10 Building expansion and movement joints
In principle, these are to be provided when covering planning soffits and sus-pended ceilings.
Note:For ventilation options of suspended ceilings, see point 13.7
Climate Control Ceilings
8.1 If the ceiling cavity is to be used as a pressurised plenum and the airinput and extraction is made via openings (air vents) in the ceiling then thefollowing procedures must be observed, for example in a System S 3 instal-lation.
a) All panels must be sealed permanently into the grid by elasticatedfoam sealing strips applied to the flanges of the T-sections and the perimeter trims and any fittings etc..
b) The air speed must not exceed 1.5 m/sec.
c) The relative humidity in the ceiling void and the area below the ceiling must conform to the humidity limitations of OWAcoustic panels dependant on design and size (see points 1.4 to 1.6).
d) Owacoustic panels laid into exposed grid systems must be fitted with hold down clips No. 44 or No. 44/20 - at the rate of 6 no. per m2.
e) The upper and lower pressures in the ceiling void should not exceed 15 Pa, (Approx. 1.5 kp/m2).
22
3
3
General AdviceSite ConditionsFire Protection
2
OWAcoustic® CeilingsEdge DetailsMetal SuspensionHangersPerimeter Trims
Technical DataBS 8290 and DIN 18168Fire Protection BS 476 / DIN 4102Corrosion ProtectionCeilings in Exposed Areas
Wide Span SectionsVentilated and Unventilated RoofsTop FixingsVentilated Ceilings
OWAcoustic® Ceiling SystemsS 1 / S 1a / S 9 / S 3 / S 15 / S 3a / S 15a / S 6a / S 6b / S 6c / S 18 / S 18cLight FittingsRedecorationCeiling Fixing Tools
4
5
1
9.0 OWAcoustic® Mineral Wool Panels
The nature of the ingredients of mineral wool tiles dictates that the surfacemay show slight surface striations (scratches) caused by the surface sandingprocess. These small imperfections are unavoidable and are, to a certainlevel, considered tolerable. The paint surface may show some shade variation between different pro-duction batches.
OWAcoustic® ceiling tiles can be supplied, with a few exceptions, in BuildingMaterial Class A2 - Incombustible and B1 - High Fire Resistance - as per DIN4102 and relevant BS 476 part 6 and 7. (See product range)These materials will withstand short term exposure to humidity levels up to ≤95% r.h. (See point 1.4)
OWAcoustic® MAVROC panels which can withstand levels ≤ 95% permanentr.h. can be supplied in Building Material Class B1 only. (See point 1.5)
OWAcoustic SANITAS tiles are only supplied in Building Material Class A 2non-combustible and will tolerate short term exposure up to ≤ 95% r.h. (Seepoint 1.4)
9.1 Loading on OWAcoustic® tiles
Normally OWAcoustic® tiles should not be subjected to additional loadingother than lightweight mineral wool overlays with a bulk density maximum of200 N/m3 and a thickness of 50 mm (10 N. m2). In cases when it is necessary to exceed these loading levels there are speci-al procedures to be followed (e.g. supporting the overlay on wires across thegrid system or the use of reinforcing metal splines on the back of the tiles.See point 1.6).
Example:Supporting excess loading of sound insulating overlay materials.
Alternatively the hanger centres can be reduced or a supporting sub-sus-pension could be installed to carry the sound insulation mat.
9.2 Cutting and working OWAcoustic® mineral tiles
OWAcoustic® tiles can be cleanly cut with an OWA or other retractable bladedknife.
9.3 Direction arrow
On the reverse of every OWAcoustic tile there is a machine run dotted direc-tion arrow. Care should be taken that the tiles are installed with the directionarrows pointing the same way. (Except when laying the tiles in a chequerbo-ard pattern.)
9.4 Packaging and handling of cartons
Do not drop, roll or place cartons on their edges. Store flat on an even sur-face in a dry location. The tiles are packed face to face.
When removing tiles from the packaging always take two tiles face toface. The packaging should always be cut open to avoid damaging thetiles during removal.
Always handle tiles with both hands during installation.
Mixing of tiles from different production batches should be avoided asthis can lead to paint shade variations in the ceiling.The production date code is printed on the outside of each carton anda date stamped on the reverse of each tile as well as the Building classreference . (See points 3.1 and 3.2)
Storage and handling instructions for OWAcoustic tiles are enclosed witheach packaging unit.
24
max. 2
50 m
m
T-section No.45
Wire No.14
T-sectionNo.45
Re-inforcingSplineNo. 8040
4OWA Locking Blade Safety KnifeCode-No. 99/01Suitable for cutting 15 mm and20 mm OWA tiles.
Spare BladesCode-No. 99/2110 pieces
Edge 1
Edge 1a
Edge 2p
Edge 3
Edge 4
Edge 6s
Edge 6
Edge 15
Example
Not recommended layout plan
Recommended layout plan
9.5 OWAcoustic® tiles – edge details
Edge 1: (for System S 1)Bevel, Kerfed and Rebated.Tile Thickness approx. 15 or 20 mm
Edge 1a: (for System S 1a)Undercut Bevel, Kerfed and Rebated.Tile Thickness approx.15 or 20 mm
Edge 2:Square, Kerfed and Rebated.Only used with OWAplan as a base for plaster coatings.Tile Thickness approx. 20 mm. See OWAplan leaflet)
Edge 3: (for System S 3, S 15, S 6c)Square cutTile Thickness approx.15 or 20 mm
Edge 4: ( for System S 9)Shiplap bevelled edges.Tile Thickness approx. 20 mm
Edge 6s: (for System S 18)Square revealTile Thickness approx.15 or 20 mm
Edge 6: (Contura edge for Systems S 3a and S 6)Bevelled revealTile Thickness approx.15 or 20 mm
Edge 15: (Contura edge for System S 15)Bevelled revealTile Thickness approx.15 or 20 mm
9.6 Border or cut size tiles
The perimeter trim panels will be dependent on the size of the room. Oftenarchitectural aspects of the layout will dictate that the division of the perime-ter tiles are in an unfavourable ratio to the field tiles. This can also result fromspecial size luminaires / grilles etc..If the above mentioned points do not apply, then it is recommended that theperimeter or border tiles are installed using the following procedures.
The perimeter tiles should be of equal size if possible on both opposing sides ofthe room and always larger than half a tile.
For example, in a room with a width of 2.5 m and when using tiles size 600x 600 mm the layout example results.
In the recommended layout method, there are three full tiles and two cut tothe perimeter, rather than four tiles with one cut to the perimeters. Whilst thenumber of tiles used in each case is the same the recommended method isaesthetically more pleasing as well as being more economical. (see exam-ple.)
9.7 The effect of lighting or luminaires onsuspended ceilings
For visual reasons direct light onto concealed suspended ceilings should beavoided. This also applies to glazed facades where the glazing extends tothe lower edge of the suspended ceiling. In such cases an uneven lippingeffect can appear at the tile joints due to the shadow effect of the direct light.
9.8 Flatness tolerances of suspended ceilings
These are set out in DIN 18202 and BS 8290.
25
Negative
Positive
21
9
4,5
4
3000 mm
625 625 625 625 250
250
625 625562,5 625 562,5
26
Pre-installation planning
10.1 Site inspection to ascertain area location, proportions and to checkmeasurements, etc, is an essential requirement. The layout design and arran-gement of luminaires, fixtures, etc, should be established with the architect.
10.2 Fire protection as per DIN 4102 / BS 476
If the OWAcoustic® ceiling has to meet fire protection requirements in accor-dance with such standards as DIN 4102 or BS 476, then the ceiling must onlybe installed in accordance with the details contained in the relevant test cer-tificates. Divergence from these details must be avoided (See also point 3).Suspension head fixings may only be carried out with approved and testedfire compliant metal anchors.
10.3 Light weight suspendend ceilingsaccording to DIN 18168
If correctly installed, OWAcoustic® ceilings correspond to DIN 18168.(See point 2.0)
OWAcoustic® Metal suspension systems
11.1 Basic Systems
There are detailed system leaflets available for all OWAconstruct® metal sus-pension systems.Technical data, spans, loadings, etc, are shown in these leaflets.
Prior to the planning and installation of an OWAcoustic® ceiling, it mustbe ensured that the leaflet in question is up-to-date and correspondswith the latest technical developments.
11.2 Ceiling Loading – additional loading
The concept of OWAcoustic® ceilings is that the load of the ceiling tiles, inclu-ding the suspension system, is taken within the safety loading of the con-struction. Additional loads, such as integral and built on luminaires, airhandling vents, grilles, insulation overlays, curtain rails, partition walls,etc..must be in every case independently suspended or supported by means ofstrengthening of the supporting structure. Furthermore, care must be takento ensure that additional loadings are not imposed on the suspension grid(such as electric / service trays and cables etc.) (See point 9.1)
11.3 Installation in rooms ventilated by swivellingor tilting windows or skylights
When installing OWAcoustic® ceiling tiles, care should be taken to ensure thatthe perimeter tiles, especially when subject to apparent wind pressure orsuction, chiefly in the vicinity of the windows, are firmly clipped into place.The exposed grid systems should be secured with No. 44 or 44/20 holddown clips.
10.0
11.0
4
27
4
12.0
No. 78 nail Securing pinbent for No. 76security
Suspension Hangers
12.1 Suspension hangers make the connection between the soffit (roofdeck, steelwork, etc) and the suspended ceiling. Under DIN 18168 thesestatic bearing components have a permitted load force in 3 load bearingcapacity classes. Verification is either by calculation or reference to certificati-on by a recognised testing authority. As a fundamental principle, suspension hangers should be set vertically.
Offset or angled suspension are only to be utilised in exceptional circum-stances. Wire suspension hangers should be secured in such a way thatsubsequent unhooking is not possible.
12.2 Load bearing capacity classes:
Permitted F = 0,15 kNPermitted F = 0,25 kNPermitted F = 0,40 kN
The minimum material thickness of the different materials for suspensionhangers are set out in table 4 of DIN 18168.
Minimum dimensions for suspension hangers as per DIN 18168, Part 1
Material Mindestmaße
Thickness or Cross sectionDiameter
mm
Zinc coated wire 2.0 —
Zinc coated adjustable wire hangers 4.0 —
Spring steel 0.5 —
Threaded steel rods 6.0 —
Steel strip 0.75 7.5 mm2
Aluminium strip 1.5 10 mm2
A minimum of 1 hanger for every 1.5 m2 of ceiling area should be used.(For fixing methods of hangers see point 7.0).
Note :If the adjustable type hangers are only loaded in tension, a No. 78 nail or No.76 securing pin is sufficient.With pressure and tension loads two securing components should be used.
Permitted bearing force (static) = 0.265 kN ≈ 25 kp.
OWAcoustic® suspension hangers conforming to DIN 18168 Part 2
Minimum TestHanger Type hanger depthCode Load Thickness
No.No. kN mm
Hanger 200 mm 12/45 0.15 1.5 174.1.85includingwire 14/... 0.15 4.0
Hanger 220 mm 12/10 0.15 1.5 174.2.85includingwire 14/... 0.15 4.0
Hanger 120 mm 11 0.15 1.5 174.6.85for M 6 and 92Slotted strap 15 1.5
Hanger 120 mm 10 0.15 1.5 174.6.85
Nonius hanger 240 mm 17/45 0.25 1.2 174.3.85
Nonius hanger 240 mm 17/10 0.25 1.2 174.4.85
Rapid hanger 200 mm 12/.../2 0.25 4.0 1176/341with doubleadjustment
Hanger 100 mm 09/45 0.25 1.2 106.1.88
Hanger 125 mm 09/10 0.25 1.2 106.1.88
28
4
29
4
13.0
Dimension Table (height)
OWAcoustic® tile andT-section overlap
Adjustable hangerWall connection
Current practice
Perimeter trims
13.1 The fixing of the perimeter angle trim constitutes the first operation ofa suspended ceiling installation.
A coloured chalk line should be struck along the outer perimeter wall at therequired level. It is advisable to put the chalk line at the level of the top flan-ge of the wall angle trim to eliminate the need for cleaning pre-decorated wallsurfaces
Example:
The perimeter trim wall fixings should be at approx. 300 mm centresdepending on the load.
For fire protection ceilings the fixings should be a maximum of 250 mmcentres
Steel nails, impact dowels or steel anchors are suitable perimeter trim fixingsdependant in each case on the fixing background material.
13.2 Internal and external mitres should be cut true or, alternatively, speci-al cover strips (OWA No. 54, 54/50) can be used.Unevenness in the walls should be filled and painted. Alternatively a timbershadow batten can be used.The written specification should clearly establish the rules.All reinforcing sections and tiles must overlap the perimeter trim by ≥ 2/3 ofthe flange width.
Example: Section and tile overlap on perimeter trim. (See illustration)
When perimeter trims are fixed to timber, wood based materials, exposedconcrete or other potential shrinking backgrounds, the fixing points mustallow for background movement without distortion of the perimeter trimoccurring. i.e. by using pre-slotted wall trim.
Fixing alternativesa) Use perimeter trims No. 51/20 or 53 with elongated slotted holes.b) Use Main tee section No. 45 on sliding hangers.
Butt-jointed trims are current practice. Mitres should be used in situations ofstep wall details.
If the unevenness of the walls is in excess of the tolerances in DIN 18202 orBS 8290 and necessitate filling and smoothing this should be considered anextra cost.
Perimeter trim
Code No. Height H = mm
50 2553 25
50/15 3350/22 33
56 4556/20 4556/21 45
51 5051/1 35 or 5051/20 5051/08 50
57 4057/10 31.58034 3556/72 6056/23 4556/35 45
Chalkline height(See Table)
= Ceiling height + H
Ceiling height
2/3
3/3
No. 45
ExampleNo. 56/20
Right hand snipsCode-No. 90/02,Left hand snipsCode-No. 90/03,Straight cut snipsCode-No. 90/04
13.3 Cutting mitres on stepped shadow wall trimusing “tin snip” shears
Cutting procedure:The desired mitre cut should be drawn on the upper side of the section. Thepencil lines dimensioned as shown in the drawings A and B (see table).Using right hand shears the 45° and vertical cut is made starting from point I.Using left hand shears the 45° cut is made starting from point II.The cut stepped wall section is fixed to the wall. The abutting section is laidon the cut mitre, its outline drawn, cut out and fixed.
It is however simpler to make mitre cuts using a circular metal saw – see illu-stration. These saws are available with suitable attachments for all sectioncuts.
Table:Mitre cuts – stepped shadow wall sections – measurements
Shadow Angle Dimensions Thickness Recommendedmm mm mm Cutting Tool
A B
50/15 15 15 0.5 Hand Snips / Rotary Saw
50/17 15 15 0.5 Hand Snips / Rotary Saw
50/22 15 15 1.0 Rotary Saw
56 12 20 0.6 Hand Snips / Rotary Saw
56/20 20 20 0.6 Hand Snips / Rotary Saw
56/21 20 20 1.0 Rotary Saw
56/22 20 20 2.0 Rotary Saw
56/23 20 20 1.5 Rotary Saw
56/35 20 20 0.6 Hand Snips /Rotary Saw
13.4 Inner and outer corners
For various wall sections, pre-formed inner and outer corners are available
Corner sections with flange widths of 19 mm:Inner corners No. 54Outer corners No. 54/50
Corner sections with flange widths of 24 mm:Inner corners No. 54/1Outer corners No. 54/50/1
Stepped wall sections No. 50/15Inner corners No. 55/1Outer corners No. 55/2
30
4
31
No. 50No. 51No. 51/20No. 53
No. 50No. 51No. 51/20No. 53
No. 56
No. 45
No. 8030/13No. 8030/15No. 8030/19
No. 56/20No. 56/21No. 56/23No. 56/35
No. 8030/13No. 8030/15No. 8030/19
No. 51/1No. 51/08
No. 1456
No. 50/22
No. 50/15No. 50/17
No. 57/10 No. 51 No. 56/21
No. 51 No. 51/1
4
Perimeter trim examples:13.5 Normal perimeter details for non fire rated ceilings.
13.6 Perimeter trims – Fire protection methods –
Application examples for fire protecting ceilings F 30 ... F 120.
Perimeter trim fixings: Steel nails, steel impact dowels and metal anchors.
Distance between fixings maximum 250 mm.
13.7 Ventilated perimeter trims – non fire protecting
Examples of ventilated trims in areas of high humidity or non ventilated plenums (Warm roof).
Perimeter trim No. 56/35with ventilation slotsOpen area = 30 cm2/m(only suitable with forced airventilation)
13.8 Sloping Ceiling
In order to be able to apply transverse loads from the suspended ceiling;provided the ceiling is parallel to the roof slope, in the area of the wall,and to form stable supports.A wall angle section ≥ 1.0 mm thickness should be used.This method to be adopted for ceiling inclinations of ≥ 10°(See also notes on suspensions).
32
OWAcoustic®-ceiling tale
≤ 220
100
≥30
20 open cell Aluminiumpanel or light louvre
No. 50No. 51No. 51/20No. 53No. 51/1No. 51/02
Promatect Fireboard
No. 50 No. 57No. 51 No. 57/10No. 51/20 No. 25125No. 53 No. 25127No. 51/1No. 51/02No. 51/08
No. 50No. 51No. 51/20No. 53
No. 50/15No. 50/17No. 50/22
4
No. 56/35
T-section No. 45
� ≥ 10°
No. 51 or 51/20
Wall angle supportof Timber or silicate board)
13.9 Wall angle sections
Galvanized rolled steel – Painted matt white
No. 50 No. 50/15 0.5 mm No. 50/17 0.5 mm No. 50/22 1.0 mm0.6 oder 0.5 mm punched
No. 51 0.7 mm No. 51/1 1.0 mm No. 51/02 2.0 mm No. 51/08 1.0 mm
No. 51/20 1.0 mm No. 53 0.6 mm No. 56 0.6 mm No. 56/20 0.6 mmNo. 56/21 1.0 mm No. 56/23 1.5 mm
No. 56/22 2.0 mm No. 57 0.5 mm No. 57/10 0.6 mm No. 1456 0.5 mm
No. 8030/13 0.5 mm No. 8030/15 0.5 mm No. 8030/19 0.5 mm No. 8034 2.0 mmAlu
No. 45 0.4 mm No. 25125 2.0 mm No. 25127 2.0 mm
33
4
34
4
3
General AdviceSite ConditionsFire Protection
2
OWAcoustic® CeilingsEdge DetailsMetal SuspensionHangersPerimeter Trims
Technical DataBS 8290 and DIN 18168Fire Protection BS 476 / DIN 4102Corrosion ProtectionCeilings in Exposed Areas
Wide Span SectionsVentilated and Unventilated RoofsTop FixingsVentilated Ceilings
OWAcoustic® Ceiling SystemsS 1 / S 1a / S 9 / S 3 / S 15 / S 3a / S 15a / S 6a / S 6b / S 6c / S 18 / S 18 cLight FittingsRedecorationCeiling Fixing Tools
4
5
1
14.0
No. 70
OWAcoustic®
Concealed metal suspension for systems S 1, S 1a, S 9
14.1 The above concealed systems have a common metal suspension gridcomprising the following components.
Head fixingsOnly approved metal anchors (no plastic) or types recognised as testedshould be utilised, see point 7.0....7..6.1 or DIN 18168
Suspension hangersSuspension hangers should be selected in accordance with the type of sus-pension point available (see point 12). The maximum permitted load forcemust not be exceeded. The spacing between each hanger should be set inaccordance with the maximum permitted load and the load carrying capaci-ty of the metal section based on DIN 18168 - a minimum of one suspensi-on hanger must be installed for every 1.5 m2 of ceiling area (see point 2.5).Maximum suspension hanger centres 1200 mm and no more than 450mm from any perimeter wall.In the area of section couplings the hanger centres should be closed up (seepoint 2.5).
Additional loadingsSee points 11.2 and 9.1
Perimeter trimsSee point 13.0
Fire protection as per DIN 4102See points 3.0, 3.5 and 10.2.
Main suspension section No.70The main section No. 70 should be installed parallel straight and level atmaximum centres of 1200 mm and no more than 450 mm from any peri-meter wall.Section No. 70 is supplied in mill lengths of 3, 5 and 6 metres.
36
Edge detail for
System S 1 System S 1a System S 9Edge 1 Edge 1a Edge 4
combined with edge 10
Negative
Positive
5
The first and last hangers should be a maximum of 450 mm from the peri-meter walls.
Arrangement of hangers and section No. 70
Fire ProtectionCalculation of expansion allowance for No. 70
Area length less 2% ( Expansion)
Example:Room length = 5 lm ./. Gives a profile length of 4.9 lm.This rule of thumb can be applicable for continuous runs of profile up to 15lm.
14.2 Arranging the main carrier section.(Suspension section No. 70)
The primary or main carrier section No. 70 is levelled in (by laser or other level-ling device) horizontally and firmly secured to the suspension hangers. Theunderside of the section No. 70 must be set at the correct height above theperimeter wall angle trim to allow for the Z-sections and OWAcoustic tiles.This will be between 28 - 65 mm depending on the system.
Clearance height for Z-sections:
System leaflet No. 1 1 a 9
– A –mm 28 28 65
Connector No. 77:The No. 70 sections are joined together with coupling component No. 77.After connection they are crimped into place.Suspension hangers should be positioned either side of the connectors.
Perimeter trim:The lower flange of the perimeter wall trim provides the level of the suspen-ded ceiling. It should be levelled in accurately.The internal and external corners should be mitred. (See point 13.2).The standard perimeter wall trim is section No. 50 with dimensions of 25 x20 x 0.6 mm.The fixing of the perimeter wall angle should be spaced according to the loa-ding up to a maximum of 300 mm centres.
Fire protection ceilingsMaximum centres ≤ 250 mm.
For further technical standards see points 13.0....13.5
37
Hanger
No. 70
≤ 400 mm ≤ 1250 mm ≤ 1250 mm ≤ 400 mm
A
5
Hanger
No. 70
No. 50
No. 77
No. 50
15.0
Z-section No. 20 or No. 58black
Connector No. 25
10 – 15 mmspacing
HangerWire clip No. 60
Primary section No. 70
Z-section No. 20
LOADINGmax. 7.0 kp
No. 23
No. 24
No. 27
No. 52 Compression
Compression
OWAcoustic® Ceiling systemsS 1, S 1a
The individual tiles in these systems are non - demountable.There are however fixed access traps available which are described in moredetail in points 18.0, 19.0, and 20.0.
Z- Sections galvanised No. 20 or black painted No.58The Z-sections support the OWAcoustic® tiles which are slotted onto theflanges of the Z-sections which are fixed at right angles to the primary sec-tion No.70.The Z-sections are normally supplied in 3.0 m lengths, they are joined byconnector No. 25. The connectors should be staggered.
Fire protectionAt the point of connection the Z-sections should not be butted together. Anallowance for expansion of approx. 10 to 15 mm should be made.
Wire Z- clip No. 60The Z-sections are secured to the primary section No. 70 with wire clip No.60. The maximum load on this 3.0 mm diameter clip is 7.5 kp.
No. 60
T-section No. 23, Spline No. 27, L-Section No. 24The cross joints of OWAcoustic® ceiling tiles must be reinforced with metalsections. Splines can be used up to 300 mm and T-sections from 400 mmupwards. Demountable tiles are reinforced with L-sections.
Wall spring clip No. 52Wall spring clips are used at the perimeter to provide the compression requi-red to prevent the joints on the border tile opening.
Wall springs are only to be used on the cut sides of the tiles that abut theperimeter wall angle.With tiles up to 300 mm wide use I clip per tile. When using 600 mm widetiles 2 clips per panel are required.
Note:To ensure alignment of the joints the first row of tiles in a concealed systemmust be installed extremely accurately.
The alignment should be adjusted to an accurately positioned "string line”.
Each individual panel must be accurately scribed into the perimeter wall withno margin for error.
A wall spring is inserted at the ends of each row of OWAcoustic® tiles andon every tile at the perimeter. For fitting of the "final tile” see point 17.
38
17
180
30 3.0
19
21 m
m
5
16.0
ClampNo. 62
Clamp No. 62
C-Profile No. 57/10
Z-Profile No. 21 (white)
3 mm bevelhand-formed
OWAcoustic® Ceiling Systems S 1, S 1a – direct application with metal clamp No. 62
In cases where there is a restricted height situation, OWAcoustic® ceilingsystems described under point 15.0 can be installed "tight up” by direct fixingof the Z-sections to timber battens using metal clamp No. 62 .
The timber battens should be securely fixed to the soffit at a maximum of1200 mm centres. Otherwise the principles set out in point 14.0 should beobserved.
Structural heights for direct fixing of Z-sections
Z-section No.
20 22 58 69
H = mm 28 40 28 52
Wall Perimeters:See point 13.0
Shadow reveal:Channel section No. 57/10 can be used to create a floating effect at the peri-meter walls. Suitable for systems S 1, S 1a and OWAplan ceiling S 7.
Edge 1 kerfing tool No.99/07Kerfing and rebating of cut size panels can be effected with this toolThe bevel is formed by hand and whitened with chalk or paint.
39
Reverse side of tile
Edge 1 cutter
Saw blade
Sand paper Face side of tile
40
20
24
2932
max.1250 m
ax.1250
H
5
C-ProfileNo. 57/10
Z-ProfileNo. 21 (white)
ClampNo. 62
Wall spring clip No. 52
20
25
2828
17.0
Penultimate tile
Corner tile
Last tile (Corner tile)
Fixing the last tile
The fixing of the final tile is carried out as follows:When the penultimate tile is in position the measurement of the final tile isacurately taken in the corner (See Fig.A).
The final corner tile is cut approx. 10 mm shorter (See Fig.B)The penultimate tile is removed and the final tile is put in place and the wallspring clips pushed as flat as possible (See Fig.B).
By doing this sufficient room is made for the penultimate tile to be replacedin position (See Fig.C).The penultimate tile is therefore the last tile to be fixed.The unsupported edges are reinforced with L-sections No. 24
Note:This procedure will require 1 extra wall spring clip No. 52 and 4 No. L-sec-tions No. 24 per ceiling installation
40
5
18.0
Fig.1
Fig. 2a
Fig. 2b
Fig. 2c
Fig. 2 Fig. 2d
Fig. 3
Fig. 4
Fig. 5
Concealed access traps andretro-fitting replacement tiles
In a concealed grid system it is often required that a tile be taken out or adamaged one replaced. With system S 1 it is possible to provide access at pre-determined points(See Figs.1....5).This method is designed to give a 600 x 600 mm opening.The OWAcoustic® tile is removed at the designated position (Fig.1.) The reinforcing T-sections No. 23 are removed and replaced with L-sectionsNo. 24.A new tile is prepared for insertion using the following method. Care shouldbe taken to maintain the existing installation layout e.g. fissured che-querboard design.
On the replacement tile (Fig.2a) the rear surface edge that runs parallel to theZ-section is cut away to the depth of the kerf, creating a deep rebate (Fig.2b).It is then necessary to re-cut the kerf, using a hand saw, to accommodatethe L-section (Fig.2c). L-section No. 24 is then pushed into the newly cut kerf(Fig.2d)
2 No. 32 L-sections cut 40 mm shorter than the module ( i.e. 560 mm for 600x 600 module) are then inserted into the cross kerfed edges to provide thelocking mechanism as per figs. 3 and 4.
The prepared unit is then fitted into the ceiling and locked into position by sli-ding the tab so that the opposite end of the L-section is pushed over the tableof the Z-section as per fig. 5.
The reverse procedure is used to de-mount the tile by pulling the tabs torelease the tile from the grid.
Material required for one access / replacement unit is:3 x L-section No. 242 x L-section No. 321 x OWAcoustic® ceiling tile.
41
Section length = Module - 40 mm
5
19.0
20.0
Retro Access Frame
B
A
Z-section No. 20C
Visible inspection / access tilesand planks in concealed systems
The tile or panel selected must be undercut and bevelled (see illustration). Theedges at right angles to the Z-section have L-sections inserted in the kerfsinstead of T-sections. When forming an access into linear planks it may benecessary to re-cut the kerfs into the short edges.
The tiles / planks are prepared and repainted on site.
The access tile / plank is removed by lifting the rebated edge and lifting it clearfrom the Z-section.
Retro-Fitted steel access frameNo. 8033 for concealed system S 1
Installation:
1) The selected tile in an existing ceiling is cut or broken out from the grid.
2) The T-sections No. 23 are removed from the adjacent tiles and replacedwith L-sections No. 24.
3) Ensure that the replacement tile is following the direction of the surfacepattern e.g. fissured chequerboard layout.
4) On one edge which runs parallel to the Z-section, cut away the backedge to the depth of the kerf to form a rebate.
5) Cut a new kerf in the rebated edge with a hand saw.
6) The edge in the area of the locking tabs must be cut back to allow freesliding of the tabs (see B).
7) Push the metal frame onto the prepared tile (see A).
8) Insert the unworked edge of the tile into the Z-section and close the reba-ted edge onto the opposite Z-section and lock into place by sliding thetabs forward (see C).
Module sizes:
Frames for 600 x 600 and 625 x 625 mm
42
Installation
Direction
5
43
5
21.0
Installation examples:
1 Suspension types2 Securing tabs3 OWAcoustic® tile4 Grid module5 P.K. screw for
concealed system
Installation in concealed system S 1
Installation in concealed demountable system S 9
Installation in exposed system S 3
Installation in exposed system S 15
Steel Access trap No. 8032
Cut away the tile Bend up the 4 tabs View of accessedge to an exact ➁ Insert the tile trap from below.fit for the lock. from the back and
bend tabs over.
Technical data:
Code No.: 8032
Modules: 625 x 625 mm / 600 x 600 mmOther sizes on request
Material: Galvanised steel
Colour: white painted
Weight: 2.0 kg
This heavy duty steel trap door is designed for use in ceilings where regularaccess is required at pre-determined points.The unit has been designed for use with OWAcoustic® mineral wool tiles andis manufactured from galvanised steel to withstand frequent use withoutdamage.It is suitable for use with OWAcoustic® concealed systems S1 and S9 as wellas exposed grid systems S3 and S15. All exposed parts are white painted.
The advantage of this access trap is that it can be built in with the same sur-face on the door as the rest of the ceiling. When closed only the white framesurround is visible.
Installation
The same principles for support as for luminaires apply. The access trapshould have independent suspension hangers on each of the four corners.The suspension points are located on the access trap framing.After hangers are installed the frame is p.k screwed onto the table of the Z-sections.
When installing in an exposed grid system independent suspension of theaccess trap on all four corners is still necessary.
A locking key is supplied with each access trap No. 8032.
Fire protectionWhere fire protection is to be maintained a fire box must be built over theaccess trap (see Point 26.3).
2 1
3
45
2 1
3
45
2 1
3
4
2 1
3
4
➁
22.0
System S 9
Longitudenal section
Cross section
L-Profile No. 24
No. 50
Perimeter trim
Direct fixing with Clamp No. 62
44
OWAcoustic® ceiling system S 9Concealed demountable tiles
1 Suspension 7 L-section No. 242 Hanger No. 12/10 or 17/10 8 Metal Clamp No. 623 Primary section No. 70 9 Timber battens4 Connector No. 77 10 Tile width5 2 wire clips No. 60 11 Tile length6 Stepped Z-section No. 63 12 Z-connector
The loading of the grid is as per point 14.0
The S 9 system is a unique concealed system in that it allows each individu-al panel to be removed and replaced. It is recommended that removal ofdemountable ceiling tiles is carried out by a qualified ceiling fixer.
22.1 Stepped Z-section No. 63
The design of this section allows for a concealed ceiling tile to be removedwithin the space between the Z-sections. The sections are clipped onto theprimary carrier with two wire clips No. 60. The Z-section No. 63 should befully aligned before the clips are secured.
The OWAcoustic® concealed demountable tiles have two shiplapped edges(Edge 4) and two BKR (Edge 1) - see point 9.5.
During installation care should be taken that the tiles are installed in a "loosebond” to facilitate removal and replacement at a later date.
The two BKR edges are supported by L-section No. 24
The quality of the appearance of the finished ceiling will be dependant on theaccuracy of the installation of the first row of tiles. The tiles in this row, as forthe rest of the ceiling, must not be pushed tight together.
Small repairs can be effected with OWA repair kitsNo. 99723 for standard paint finishNo. 99724 for Cosmos paint finish
22.2 Perimeter trims - See Point 13.0
The standard perimeter trim section is No. 50 (25 x 20 x 0.6 mm). The peri-meter tiles are fixed without wall spring clips. The tiles should be cut to theperimeter wall with a gap of ≥ 1.0 mm.
22.3 OWAcoustic® ceiling system S 9Direct fixing with clamp No. 62
Where there is a restriction on suspension height the Z-section No. 63 canbe fixed using 2 no. 62 metal clamps screwed to a timber batten. See Point16.0
22.4 Additional loading See point 9.1
22.5 Fire protection See point 3.0 ... 3.3 und 10.2
11
12
1
4
7
11
7
10
8 9
10
7
10
6
5
6
2
3
56
2 3
5
6
23
≤ 1.0 mm
20
45
40
max. 1250
65
max.
1250
5
22.6 system S 9 Assembly method
Section A – A
The stepped Z-sections in this area are to be located as fixed points byscrewing. The individual panels must be fitted with great accuracy.
45
5
Primary section see 14.0
≤ 1.0 mm
Perimeter panel Module panel
for Example 625 mm
23.0
System S 3 or S 15
Cross section of grid
1 Hanger2 Main tee No. 45 or 45/153 Cross tee
No. 46, 46/15, 47, 47/15,48 or 48/15
4 Perimeter trim No. 505 Module distance
Minimum suspension height75 – 100 mm depending onsoffit.
Minimum suspension heightfor ease of removal is 120 mm.
No. 45 No. 45/1545/20
Main T-section
OWAcoustic® ceiling systemsS 3 and S 15
23.1 Exposed grid lay-in systems
Exposed grid lay-in systems are economical, easy to install and give simpleaccess to the ceiling void.Both systems, S 3 and S 15 are installed in an identical manner. The onlydifference between the two systems being the width of the T-section flangewidths.
For further system variants such as S 3-SNAP, S 3-G or S 3e (increasedcorrosion protection) request the relevant system data sheets.
Technical specification details can deviate from the suspension detailsdescribed.
Edge 3 OWAcoustic® tilesSquare edge Square edge
System 3 System 15
No. 45, 46, 47 and 48 No. 45/15, 46/15, 47/15 and 48/15
The suspension grid is comprised of the following components:
23.2 Steel anchors and other head fixings
Only approved metal head fixings to be used (no plastic).See point 7.0 ... 7.6 or DIN 18168.
23.3 Hangers
For every 1.5 m2 of ceiling area there must be at least one suspension hanger.The maximum distance between hangers must not exceed 1200 mm cent-res in both directions and must be no more than 450 mm from the perime-ter walls. Additional suspension hangers must be provided at primary carrierjunctions and to support other fixtures.The standard hanger is type No.12 /45.
23.4 Additional loadings
See point 9.1
23.5 Fire protection as per DIN 4102 and BS 476
See points 3.0 ... 3.3 and 10.2.
23.6 Main T-sections No. 45 and No. 45/15
The main T-sections are pre-punched at 150 mm centres to receive 600 or1200 mm cross tees.
Main T-section No. 45 3.6 m lengths slotted 150 mm centres
Main T-section No. 45/15 3.6 m lengths slotted 150 mm centres
Main T-section No. 45/20 3.2 m lengths slotted 100 mm centres
46
38 38
24 15
1
23
4
5
23
5
5fire expansion relief
24 15
Cross section
Slot distancefor cron section
couplingslot
The main T-sections have end connectors to lock abutting sections together. The slots in the main T-sections receive the cross T-sections which are con-nected at the required intervals.
In the area of the fire expansion joints there should be no intrusive elements,such as light fittings.
23.7 Cross T-sectionsNo. 46, 47, 48 and No. 46/15, 47/15 or 48/15
The cross tees provide the transverse grid to the main tees. These haveconnectors on both ends that locate into the slots on the main T-sections.Cross tees are available in the following sizes.
No. 46 and 46/15 600 mm length
No. 47 and 47/15 1200 mm length.
No. 48 and 48/15300 mm length.
Cross tees No. 47 and 47/15 have a central slot for additional cross teeconnection.
Loadings - Exposed grid systems are designed to carry a ceiling infill tile only.Any additional loading on the grid will require extra suspension hangers.
23.8 Hold down clips No. 44 and No. 44/20
In areas of high humidity, under cold roofs and where pivot windows are inuse it is recommended that hold down clips are used - see point 11.3 andDIN 18168.
No. 44 clips can be removed by applying pressure on the tile surface.
Cross tee
Cross teeconnection
at right anglesto mainT-section.
Cross connection of grid
No. 44
Pressure
No. 44/20
47
5
No. 50
Wall Clamp No. 1499
Perimeter infill stripin position
23.9 Perimeter wall trims
The standard perimeter trim is wall angle No. 50 (25 x 20 x 0.6 mm). Seepoint 13.0.The exposed grid system sits onto the wall perimeter trim. With square edgetiles the gap can be filled with infill strip No. 8060.Lateral movement of the main or cross tees can be prevented by using wallclamp No.1499.
23.91 Wandklammer Nr. 1499
Aufgelegte Profile, hauptsächlich Verbindungsprofile sind gegen seitlichesVerschieben mit der Wandklammer Nr. 1499 zu sichern.
23.92 Grid lay-out examples for625 x 625 mm or 600 x 600 mm
Proportion of hangers Proportion of hangersApprox. units /m2 = 1.1 Approx. units /m2 = 0.7
Example I Example II
Example 1 is for situations where additional loads such as thermal insulati-on overlays, etc, are carried by the ceiling grid (See point 9.1).Example 2 is the more economical and it is this lay-out that is subject to firetest evaluations
23.93 Infill strips No. 8060for filling perimeter gaps between tees.
Technical dataColour: whiteLength: Module ./. 28 mmCode No.: 8060 for module 625 mmCode No.: 8060/1 for module 600 mmPacking: 200 No. per carton
48
No. 46 No. 46 No. 47
No. 45No. 45
62.5 Tragprofilabstand 125 Tragprofilabstand
125
150
hangershangers
5
24.0
Querschnitt der Konstruktion
1 Abhängung2 Tragprofil Nr. 45 oder 45/153 Verbindungsprofil
Nr. 46 oder Nr. 46/15, Nr. 47 oderNr. 47/15, Nr. 48 oder Nr. 48/15
4 Wandprofil Nr. 50/155 Achsabstand
Mindestabhängehöhe75 - 100 mm (abhängig vonder vorhandenen Rohdecke)
Contura infill blockNo. 42/24 bzw. No. 42/15
1
23
4
5
OWAcoustic® ceiling systemsS 3a and S 15a Contura ceilings
24.1 The suspension construction is similar to S3 and S15 so the detaildescriptions remain the same as those given in points 23.0...23.8 with theexception of the wall perimeter detail.
Due to the different edge detail of OWAcoustic® Contura tiles there are parti-cular perimeter wall details required.
Edge 6 Edge 15Contura edge for Contura edge for24 mm grid 15 mm grid
24.2 Perimeter trim
Shadow angle trim No. 50/15
Perimeter angle trim No. 50/15 can be used for both systems S 3a and S15a .
The border tiles are square cut onto the bottom flange of the wall angle. Thegrid section sits 8 mm higher on the top flange.
Contura infill blocks No. 42/15 and 42/24
The trapezoidal spaces below the T-sections that run into the perimeter walltrim No. 50/15 can be closed off by inserting infill blocks that are specificallydesigned to fit the individual width of the grid T-sections.
Contura infill block No. 42/15 Contura infill block No. 42/24for system S 15a for system S 3a
49
No. 50/15
1524
33
8 8
24
8
25
15 15
5
2
3
9 4,5
5
Perimeter trim No. 50 (Contura)
Hand rebating the contura tiles onto the trim with Contura tool No. 99/11 isa costlier option but produces a neater wall perimeter detail.
To form a rebate on the border tile each one must be cut and fitted into thegrid.
The tile is then marked on the face with a pencil line which must be more than9 mm from the square cut edge. The tile is then cut 9 mm from the line withOWA bladed knife No. 99/01.
The rebate on the edge is then formed using Contura cutting tool No. 99/11.The bevel formed in this process must be whitened using OWA chalk.
Perimeter trim No. 50 alternative detail
As an alternative to the contura edge detail, a simple square rebate can beformed on the border tile edge using OWA knife No. 99/01
50
The tile is marked alongthe trim edge
9
9
9 mm
9
5
No. 50
No. 50
OWAcoustic-tile
Contura tool No. 99/11
No. 50
25.0
No. 510.7 mm thick
No. 56/231.5 mm thick
No. 56/222.0 mm thick
No. 51/022.0 mm thick
No. 50/221.0 mm thickpre-punched
No. 51/11.0 mm thick
No. 51/201.0 mm thickpre-punched
No. 56/211.0 mm thick
Wall Clamp No. 1499
35
50
35
508
30
15 15
OWAcoustic® ceiling systemsS 6a, S 6b and S 6c
Clear or free spanning ceiling systems are suitable for use in corridors orrooms up to a maximum span of 2500 mmThe total loading is taken on a stronger than normal perimeter trim angle sec-tion rolled from ≥ 1.0 mm.
25.1 Perimeter wall trim forclear spanning systems
Wall angle – or trims are fixed to perimeter walls.Wall angle sections of a material thickness of 0.7 mm and above are suitablefor this purpose.For basis of measurement see Table 15.11.The wall angle sections should be fixed at ≤ 300 mm centres with non-com-bustible fixings.
The fire protection requirements for System S 6a only have fixings intervalsof ≤ 250 mm.
The following connections can be replaced by sections illustrated in the table,taking into account load values.
1 Wall angle No. 51/20 20/50 mmWall angle No. 51/1 35/50 mm
2 Shadow Angle No. 56/21 20 mm Shadow angle3 Shadow Angle No. 50/22 for System 6b
The exposed tee section sits on the perimeter trim lower flange. The gap bet-ween the tile and the trim can be filled by inserting filler piece No. 8060.(See point 23.93)
The OWAcoustic® panels and long edge support sections must, in the caseof clear spanning, systems sit on ≥ 2/3 of the wall angle section, with at least12 mm of the section supported on the wall section flange. Every 5th longedge supporting section should be mechanically fixed to the perimeter wall.
The corners of the wall angle sections must fit cleanly at the mitres.
51
5025
2025
20
20 20
25
2020
20
5020
25
20 20
1 1
2 3
5
Loading Principle
Attention:The combination of C-, L- and Z-sections can cause different deflec-tions because of the different elastic-modulus, although the maximumdeflection according to DIN 18168has not exceeded.
25.11 Table: Wall anglesmaximum line loads
Wall angle Thickness Deflection L line loadsNo. mm mm N/m kp/m
50/22 1.00 30 125.0 12.5
51 0.70 25 100.0 10.0
51/1 1.00 35 109.0 10.9
51/02 2.00 35 182.0 18.2
51/20 1.00 20 132.0 13.2
56/21 1.00 40 109.0 10.9
56/23 1.50 40 140.0 14.0
56/22 2.00 40 173.0 17.3
The permissible loads of this table take into consideration that the wall angleswill be loaded with line loads. In case of point loads like S 6b/S 6c the per-missible loads had to be reduced for 10%.
25.2 System 6a – Demountable planks
The spanning distance of the supporting sections depends on the width andthickness of the OWAcoustic® Planks. See table under point 25.4.
1 Z-section No. 19/10 combined with2 C-section No. 36/70
Z-section depths
Note:The supporting sections No. 36 and 36/70 are used back to back. The 10mm flange is inserted in the kerfs of the OWAcoustc® planks.
Fire protection:Plank width 300 mmSupporting section No. 19/10 or 36/70
Perimeter trims:See point 25.1
Material thickness:1.0 mm
Construction cross sectionExample: Every 5th plank demountable
Where accessible C-sections No. 36 or 36/70 are used the panels are fullydemountable.
52
2 x No. 36/70 or2 x No. 36
No. 19/10
4 5 1 2 3 4 5 1
1 2
5
line load N/m
line load N/m
sagf = L/300
sagf = L/300
1/3
1/3
2/3
2/3
L = mmDeflection
L = mmDeflection
Fullydemountable
Fullydemountable
non demountable
No.
20
No.
22
No.
69
No.
19
19 19 10 10 10
21 m
m33
mm
45 m
m70
mm
No. 19/1070
50
70
25L-Profile No. 37
C-Profile No. 36
C-Profile No. 36/70
19
45
No. 19/45
25.3 System S 6b and S 6c - Demountable Planks
System 6b System 6c
3 Main tee section No. 40 white4 Main tee section No. 45 white5 Main tee section No. 8570 white
Fire protection:There is no fire ratingwith systems S 6b and S 6c
25.4 Section span table for clear spanning sections with 2 point support layout (also valid for OWA system S 18)Non fire rated systems.The section lengths are identical to the panel lengths. (See also point 25.1)
NoteThe span distances in the above table allow for maximum permissible bowing of 2.5 mm. The maximum permissiblebowing under DIN 18168 can be up to 1/500 of the span but max. 4.0 mm.When mineral wool overlays are to be used the span distance should be reduced. Every 5th section must be fixed to thewall to secure against pressure and compression.
53
3 3 44
70 m
m
24 2424
6.5
38 m
m 75 m
m11 m
m
5
3
4
5
Maximum span in mm / Planck thickness in mm
Code Section Height Thick. 300 mm width 400 mm widthNo. Description B1 A2 B1 A2 B1 A2 B1 A2
in mm in mm 15 mm 15 mm 20 mm 20 mm 15 mm 15 mm 20 mm 20 mm
20 Z-Section (galvanised) 21 0.5 1490 1460 1400 1370 1410 1390 1330 1300
22 Z-Section (galvanised) 33 0.5 1910 1870 1800 1760 1810 1770 1700 1670
69 Z-Section (galvanised) 45 0.5 2290 2240 2160 2110 2170 2130 2040 2000
19 Z-Section (galvanised) 70 0.5 2500 2500 2500 2500 2500 2500 2500 2500
19/10 Z-Section (galvanised) 70 0.6 2500 2500 2500 2500 2500 2500 2500 2500
19/45 Z-Section (galvanised) 45 0.6 2310 2260 2180 2130 2190 2150 2070 2020
45 T-Section (white) 38 2 x 0.4 2010 1970 1900 1860 1910 1870 1800 1760
45 G T-Section (white) 38 2 x 0.4 1940 1900 1820 1790 1840 1800 1730 1690
40 T-Section (white) 70 0.6 2500 2500 2500 2500 2500 2500 2500 2500
8570 T-Section (white) 75 2 x 0.5 2500 2500 2500 2500 2500 2500 2500 2500
37 L-Section (galvanised) 25 0.6 1600 1570 1510 1470 1520 1480 1430 1400
36 C-Section (galvanised) 50 0.5 2500 2500 2500 2500 2500 2500 2500 2500
36/70 C-Section (galvanised) 70 0.6 2500 2500 2500 2500 2500 2500 2500 2500
System 18 - Parallel Pan Grid (Bandraster)
The parallel pan grid system S 18 suits situations where the flexibility of re-locatable partitions are required to provide variable work space areas in, forexample, administration buildings, schools, hospitals and many other publicand commercal buildings. The intervals of the pan grid sections can be adap-ted within the existing building modules.
Lighting is designed on an optimum basis and can be easily integrated intothe system as well as air-conditioning outlets and information technologywork stations.
The pan grid sections can be used for locating partition walls and will provi-de a great deal of scope to suit individual plans for adapting usable space.
Detail: System 18 - Parallel Pan Grid (Bandraster)
26.1 Pan Grid sections (Bandraster)
Code Length b h a d
No. all dimensions in mm
80/50 3750 50 35 11.5 0.6
80/75 3750 75 35 11.5 0.6
80/100 3750 100 35 11.5 0.6
80/125 3750 125 35 11.5 0.7
80/150 3750 150 35 11.5 0,7
8025/100 3750 100 35 25 0.6
Other lengths on request
26. 2 Vernier suspension Hanger:
The suspension hanger consists of a lower part which forms the connectionto the ceiling suspension sections and an upper part which transmits the cei-ling load to the structural soffit, roof or primary supporting construction e.g.a wide spanning carrier section.
The adjustable connection between the upper and lower parts of the hangeris via a safety split pin No. 76 or a connecting nail No. 78 which is bent overafter levelling.
When using a safety split pin or a connection nail a static tensile load up to amaximum of 0.25 kN (25 kp) is permitted.
For dynamic suspension load (tension and pressure) two safety split pins orconnection nails are required on each hanger. Load erosion also depends onthe length of the suspension hanger.(See table 26.3)
The number of suspension points is governed on the one hand by DIN 18168T 1 and on the other hand by the maximum permitted suspension load andthe pan grid carrying capacity.
26.0
1 Nonius hanger2 Pan grid section (Bandraster)3 Coupling4 C-section or5 Z-section
54
5
1
1
2
3
5
4
Fixing Nonius-extensionSecuring pin No. 76
Nonius hanger
Pan grid section(Bandraster)
Pressure and shear load
26.3 Pressure and shear values for Vernier suspensions
Pressure and shear values including triple safety with pressure-resi-sting OWA braced suspension (per suspension point) in kN.
Hanger depth Profile Width Loading / forcemm mm kN kN kN
1 � 2 � 2 �
200 100 0.22 0.55 0.13
500 100 0.14 0.26 0.095
1000 100 0.6 0.12 0.05
Other profile widths max. deviation ± 10 %.
26.4 Hänger- und Bandrasterabstände für Standardraster.
Standard: DIN 18 168, T 1 (1 Hanger per 1,5 m2 ceiling area).
Pan grid (Bandraster) centresin mm
1200 1250 1375 1500 2400
Hangercentres 1250 1200 1090 840 630in mm
26.5 Horizontal bracing
Parallel strip grid sections which are not interconnected, require angled sus-pension or horizontal bracing against lateral movement.The selection of bracing is determined by individual usage. See point 2.5 orDIN 18168.
The OWA range offers the following options:
1. Angled bracing with Nonius hanger No. 17/80 (See point 26.3)
2. Splice plate No. 99
3. Horizontal bracing with C-Profiles
Horizontal bracing introduced independently of the vertical suspensionhangers (See point 2.5)
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Splice plate No. 99
C-ProfileScrew fixing
26.7 Wall connector No. 75
By using wall connector No. 75 it is possible to fix the pan grid sectionsaccurately and securely to the perimeter walls.The wall connectors are screwed to the perimeter walls to resist pressureand drag.
Which wall anchor to use with which Bandraster section?
Wall anchor for BandrasterNo. 75/50 for No. 80/50No. 75/75 for No. 80/75 or No. 8025/100No. 75/100 for No. 80/100No. 75/125 for No. 80/125No. 75/150 for No. 80/150No. 75/76 for No. 8025/100 or No. 80/75
26.8 Pan grid (Bandraster)
When the Pan grid (Bandraster) sections are laid directly on the wall angle itis advisable to use OWA infill strips No. 8060 (See also point 23.92) or self-adhesive sealing strip No. 8900. The Pan grid (Bandraster) sections must bemovement- and pressure resistant.
26.9 OWAcoustic® panels, which are mainlyused for Bandraster grid ceilingshave the following edge configurations.
Long Edges
Edge 1 Tile Thickness 25 or 20 mmBevelled, kerfed and rebated
Edge 6 Tile Thickness 25 or 20 mmReveal edge
Edge 3 Tile Thickness 25 or 20 mmSquare edge
Short edges
Edge 6 Tile Thickness 25 or 20 mmReveal edge
Edge 3 Tile Thickness 25 or 20 mmSquare edge
Panel Widths:300 mm, 312.5 mm or 400 mm (See manufacturing programme)
Panel Lengths:300 mm, 312.5 mm or 400 mm (See manufacturing programme)
Reaction to Fire: B1 or A2 (See Brochure No. 500)
Resistance to Fire: to F 90 (See Brochure No. 500)
Note:For information on tiles, profiles and Contura Edge 6, see System Installationbrochure S 18d.
Clearance distance between Bandraster sections = opening + 20 mm
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9
Wall anchorNo. 75/...
Bandraster SectionNo. 80/...
TileFace side
BandrasterFace sideFiller strip
No. 8060orSealant strip
SecuringScrews
Band-raster No. 80/...
0.5 ... 1.0 mmAdjustment
Clear distance10 10
Length and cross-section
Lamp cross-sectionfor concealed positioning
Longitudinal lamp section:OWA Pan grid (Bandraster) light fit-tings are available to suit standardmodule dimensions.
26.10 Panel supporting sections
The weight of the panels is transmitted to the Bandraster grid sections byload-bearing support sections. These in turn transfer the load to the suspen-sion hangers. A check on the suspension load is recommended. Every 5th
supporting section is to be mechanically fixed to the Bandraster grid to pro-vide resistance to pressure and drag.
Z-Profile Z-Profile L-Profile C-Profile C-ProfileNo. 20 No. 19/10 No. 37 No. 36 No. 36/70No. 22 Tile Tile TileNo. 69 Demount- Demount- Demount-No. 19 able able able
T-Profile T-Profile T-Profile T-Profile T-ProfileNo. 40 No. 45 No. 45 No. 8570 No. 8570
Contura Not Not Slotted Slotted
Contura
The fixing of the panel support sections depends on the panel length, widthand class of building in fill material. (See table of section widths, point 25.4)
26.11 System S 18 b/c - Grid CeilingS 18 d - BanduraS 18 e - Trackline
These Pan grid (Bandraster) systems are variations but technically compara-ble with the system S 18 described earlier.
26.12 Pan grid (Bandraster) System integrated lighting
OWA-Terra (standard lighting) and UWA-Opta (BAP supported)(See leaflet No. 631)
Light fittings are available for various applications and are supplied to fit stan-dard modular Pan grid (Bandraster) ceilings, see point 26.4, or as specials upto 2400 mm in length. Fixing is by integralsuspension brackets fitted to thefront of the fittings which locate directly onto the Pan grid (Bandraster)sections. The diffuser panels are laid directly onto the grid.
The lamp widths are 300 mm or 312.5 mm. Lengths up to ≤ 2400 mm areavailable.
When using light fittings in excess of 1600 mm in length additional hangersshould be located in the area of the fitting.
Lamp lengths of ≥ 1600 to ≤ 2400 mm are normally suspended from their cen-tre. Fixing brackets are available on the body of the light fitting.
In the case of fire protecting category F 30 – F 90, the principles of therecommendations in point 27.2 should be observed.
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Modulmaß312,5
Leuchtenmaß variabel
LichtmaßAchsmaß
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27.0
a) Direct Suspension
b) Suspension with extra hangers
c) Support from C-sectionor timber batten
d)
Integrated light fittings
Wiring and installation of light fittings is generally the task of an electrical con-tractor but it is, however acceptable for the ceiling contractor to position lightfittings into the grid system.
Important principles:No electric cables can be fixed to the suspension system.
The cabling of electrical leads into or onto the grid suspension system shouldbe avoided.
Single cables, which provide connection direct to the light fittings can beattached to the hangers by agreement with the ceiling contractor
Applicable VDE regulations must be observed.
27.1 Any additional load, which is transmitted to the ceiling suspensionsystem must be independently suspended. There are various options fordoing this.
It is important not to overload the suspension system or the hangers.
a) To suspend the fitting directly
or
b) To ensure that the ceiling grid structure is fitted with additional suspensi-on hangers. The total additional loading must be evaluated in terms of pos-sible section overloading.
c) A further method is to install an independent supporting structure with C-sections or fire treated timber batten.
d) When installing recessed luminaires it is advisable to install a supportingstructure similar to that under point c)
or558
C-Profile
C-Profile
Timber
e) To secure the luminaires by threaded support brackets attached to theexposed T-sections as per systems S3, S3a and S15, and S15a, it isimportant that the a hanger is positioned below the threaded bracketsupport. (See points 23.7, 23.4 and leaflet No.885)
27.1.1 Downlights, Speakers and other inbuilt items
Downlights weighing ≤ 2.5 N can be fixed directly on the OWAcoustic® cei-ling panels.
For loads up to 35 N per item support frames or yokes must be used, itemNo. 8069 see leaflet 605. The load distribution in the ceiling structure / sus-pension must be tested. (See also point 12)The build-in options take only symmetrical loads into account.
Asymmetrical and higher loads must be suspended directly from the struc-tural soffit.
27.1.2 Built-in light fittings and Downlights
OWA can suply light fittings and spotlights. See publications:
Leaflet No. 630 Standard Light FittingsNo. 631 Bandraster Light Fittings No. 632 DownlightsNo. 633 Built in / direct and indirect lightingNo. 605 Assembly frames for Downlights
e) For surface mounted light fit-tings. Hanger and caddy bracket with M6 threaded nut and bolt Part No. 8095.Load: 0,3 kNHanger to befixed to soffit.
Surface mounted lights.Twist clip with M6 x 16 orM6 x 30 threaded bolt andwing nut.Part No. 95, 95/15
or
Twist clip No. 95/10 with eyelet.Loading 0,1 kN. With appropriategrid suspension.
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Assembly:
Length: 594 mm (600 mm module)Length: 619 mm (625 mm module)
AdjustableGuide rails 20 x 390 x 1 mm
Spotlight or speaker
OWAcousticTile
Fire proof box closed
Fire proof box back-ventilated
27.2 Fire protection of recessed luminaires
In order to maintain the fire protection of an OWAcoustic® ceiling in the areaof recessed light fittings, it is necessary to implement the following protec-tive measures:-
a) Install additional suspension hangers. (See note under point 26.1)
b) Encase the luminaire in a ventilated fire proof enclosure using mineral wool Minowa panels.
Sizes of Minowa mineral wool panels:Length: 2500 mmWidth: 1250 mmThickness: Approx. 15 or 20 mm Building material class: A2 non-combustible oder B1 high fire resistance
27.3 Closed fire boxes
Suitable for luminaires with open louvres that allows the heat build up of theluminaire to escape downwards.
A fire box will also maintain the sound insulating qualities of the ceiling.
The installation of closed or ventilated fire protection enclosures should beagreed with the electrical engineer.
InstallationThe size of the fireproof enclosures will be dictated by the size of the lumi-naires. In general the enclosure should be 30 - 50 mm larger than the fitting.The Minowa panels are cut to size and secured together with nails (nailsapprox. 50 mm long at 100 mm centres).
Assembly of fire boxes for built-in units should be in compliance with therelevant test certificate.
27.4 Back-ventilated fire boxes
The installation of back-ventilated fire boxes is required when the heat buildup is channelled through the back of the light fitting and there is no require-ment for maintaining the sound insulation.
InstallationLow-melt rigid foam strips (e.g. styrene) approx. 20 x 20 mm x body widthare laid on the body of the light fitting.
A framing of mineral wool panels to suit luminaire size is fixed around the 4sides approx. 10 mm lower than the top of the rigid foam strips. A Minowacover board, overlapping the sides by 50 mm all round, is placed onto therigid foam strips.
In the event of fire the rigid foam strips will melt and the Minowa cover panelwill settle onto the Minowa framework surround and prevent the penetrationof fire into the ceiling void.
Test Cert. No. 781498 Test Cert. No. 2306381 78Data sheet No. 503 A Data sheet No. 535
Assembly of fire boxes for built-in units should be in compliance with therelevant test certificate.
27.5 Cable leads
If the holes drilled into the fire box are no larger than the diameter of thecable the fire rating of the box will be unaffected.
Assembly of fire boxes for built-in units should be in compliance with therelevant test certificate.
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Rahmen Deckplatte Styrodur
Renovation and painting standard surface OWAcoustic®
ceiling tiles
Standard surface patterns that can be colour painted:
1 – Regular Perforated3 – Constellation5 – Structura6/0 – Combed Unneedled9 – Plain60 – Futura66/0 – Luna Unneedled72 – Harmony68/0 – Cosmos Unneedled40 – Moderato41 – Andante 142 – Andante 247 – Largo31 – Excell33 – Variation 3335 – Variation 3544 – Forte43 – Quartett67 – Rilled70/O – Sandila Unneedled91 – Domino
Renovation of
6/N – Combed needled65 – Universal66/N – Luna needled68/N – Cosmos needled70/N – Sandila needled
See Punkt 28.92.
28.1 General
OWA ceilings consist of OWAcoustic® mineral wool tiles and metal sections.The tile surface and exposed surfaces of the metal sections are suppliedwhite painted.
OWAcoustic® ceilings can be re-decorated in a simple operation using stan-dard emulsion paint and working tools. The decorator should adhere to thefollowing instructions:
28.2 Humidity
The tiles must not become too damp as in this condition they may deflectfrom the level plane (bow). Care should be taken to apply no more paint thannecessary (See also point 1.4) !
28.3 Cleaning
Dirt stained or dusty ceilings should be cleaned down before re- painting.This will not be necessary when painting new ceilings.
28.4 Priming
The tiles, whether old or new, will require a priming coat to seal the surfaceto prevent the colour fading and the tiles from taking up too much moisture.A PVA adhesive such as Uni-bond mixed in a ratio as per manufacturersinstructions will be suitable. The sealer coat should be allowed to dry, depen-ding on humidity levels, for 12 - 24 hours.
28.5 Equipment
For application of priming and paint coats it is recommended that short hairmohair rollers - not lambs wool - should be used. This is because the paintshould not be thickly applied which would fill the small needle perforationsand degrade the acoustic properties of the tile surface.
28.0
Constellation 3
Harmony 72
Futura 60
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28.6 Painting
After the priming coat has dried the finish colour may be applied. Depending on the colour tone more than one coatmay be required.It is recommended that the bevel edges are pre painted with a brush.
28.7 Spraying apparatus
If the paint is to be sprayed on Air-less procedures should be observed.Several coats will be required.
28.8 Colours
For renovation or production of coloured OWAcoustic® panels a dispersed pigment paint with acrylic or polyvinyl aceta-te binders is recommended
Exposed grid system S 3 or S 15Renovation recommendation for panels and sections parts:
Small colour damage can be treated with OWA touch up paint, see supply range
For standard matt white panel surfaces No. 99723For white Cosmos surfaces No. 99724
AcousticsSome OWAcoustic® panels have surface needling for acoustical reasons. The needling must remain open even after re-decoration as the closing these holes will reduce the absorption values by 30 to 40 %.
28.9 Water, oil, grease or rust spots must be treated before painting. The application guidelines by Caparol listed in thetable below are recommended.
1. Light applications:IsoDeck rapid paint. Specially suitable for sensitiveareas where it is necessary to work rapidly. Odourfree and environmentally-friendly.
2. Medium applications:Standard universal painting. Gloss, matt, structuredor entirely solvent-free and emission-freeELF coatings.
3. Specialized painting:Primer undercoat + Indeko-W or Malerit-WA special system with a fungicidal top-coatingspecially suitable for foodstuff processing and prepa-ration, also damp room operations (Indeko-W) aswell as kitchens and bathrooms (Malerit-W).
4. Difficult painting:Filter primer Isodek-WAn aqueous environmentally friendly paint system,particularly suitable for canteens.Iso-Deck is solvent and odour-free.
5. Extreme painting requirements:Dupa-inn or Dupa-mattA proven solvent based rapid redecoration paint foruse where other products fail. Particularly suitable forareas which must be re-occupied rapidly.
More detailed information is available direct frommanufacturers.
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1. 2. 3. 4. 5.IsoDeck Primer base Primer base Primer base Dupa-Inn
rapid redeco- +individual + IsoDeck-W + IsoDeck-W + Dupa-mattration paint, top coating or Malerit-W aqueous, rapid redeco-solvent-free universal special system environmentally- ration paint,
system with mould friendly paint odour freeprotection system
Re-painting normal middle middle difficult extremeproblemsNicotinedeposits • •Water stains • • •Water stains andfungal growth in kit- •*
chens and bathrooms
Water stains in dampprocessing areas (danger •**
of mould growth)
Oil and grease spots • • •Nicotine deposits • •in bars / restaurants
Dirty •workshops
Soot deposits • • •after fires
28.91 Exposed grid metal sections
Can be cleaned with conventional cleaners.
Small damage on surfaces can be treated with OWA section paint No. 99/18.
28.92 Renovation of OWAcoustic® ceiling tileswith micro-perforated surfaces
Surface patterns with micro-perforated are:
6/N – Combed Needled65 – Universal66/N – Luna Needled68/N – Cosmos Needled70/N – Sandila Needled
On visual and acoustic grounds it is not recommended that the above surfa-ce patterns with micro needling are re-painted as the smaller holes will beco-me blocked.If renovation by cleaning is necessary it is recommended that the surface ofthe ceiling be chemically cleaned by an approved contractor.
OWA section paintNo. 99/18
Combed Needled 6/N
Universal 65
Luna Needled 66/N
Cosmos Needled 68/N
Sandila Needled 70/N
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Working tools
OWA Locking Blade Safety KnifeSuitable for cutting 15 and 20 mm OWA-tiles. Code No. 99/01
Spare blades Code No. 99/2110 pieces
Tin snipsfor cutting metal sectionsCode No. Right hand snips 90/02
Left hand snips 90/03Streight cut snips 90/04
Slot Punch Code No. 99/09for punching extra slots in exposed grid T-sections.
Spare punch Code No. 99/19for 99/09
OWA-Sponge Code No. 99/06for cleaning OWAcoustic® ceiling tiles
Hole punch Code No. 99/08for punching holes in metalsections
Punch Code No. 9993Perimeter trim punch forconnection of NOVALINESystem 3900 with wallangle No.1456.
Contura rebate cutter
Contura cutter for Edge 6Code No. 99/11/6Contura cutter for Edge 15Code No. 99/11/15Contura cutter for 20 mmfor 20 mm thick Edge 6Code No. 99/11/20for 20 mm thick Edge 15Code No. 99/11/21
Spare blade for Contura cutter Code No. 1808
Edge 1 cutter Code No. 99/07for cutting slots andrebate for concealedSystem S 1.
Chalk line Code No. 99/03For making dry colour lines.with 15 m line and colouredchalk
Spare chalk for Chalk lineApprox. 50 gCode No. 99/13 (blue)Code No. 99/14 (red)
Hole cutter Code No. 99/15For cutting round holes in OWAcoustic® tiles.Max. Diameter 400 mm
Hole cutterCode No. 99/31Drill attachement set forcutting holes 20 – 163 mmdiameter.
Spare blade setCode No. 99/32
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Working tools
OWA - fixing glovesCode No. 99/20
OWA - Powder paintFor touch up of damagedtile surfaces
Standard paint Code No. 99/23Cosmos paint Code No. 99/24
Weight: Approx. 135 g/Dose
TrennFix Guillotine Code No. 99/17For cutting wall angle mitres andsuspension sections etc.
Metal section saw For cutting barrier panels, Bandraster grids,wall sections etc.
Liefernachweis:Jäger GmbH & Co. KGHochstraße 6a – 64385 ReichelsheimTelefon 0 61 64 / 93 00 50Telefax 0 61 64 / 93 00 69E-Mail [email protected]
OWA - Metal section paintCode No. 99/18Contents 200 mlColour: weißWeight: 240 g
Adhesive for OWA fire boxesCode No. 99/22Contents 5 LiterWeight: 7 kg/can
Metal chop-sawBrown 250For cutting metal grid sections etc.
Liefernachweis:Jürgen Noll GmbHAn der Dohne 163811 StockstadtTelefon 0 60 27 / 30 36-37Telefax 0 60 27 / 15 53
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Notes
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Technical Data
OWAcoustic® – Mineral Wool tiles and panels
Tile/Panel Thickness Approx. 15 and 20 mm
Weight of B1-Tiles Approx. 5.2 and 7.0 kg/m2
Weight of A2-Tiles Approx. 6.0 and 8.0 kg/m2
Weight of Suspension Approx. 2 kg/m2
Thermal Conductivity � 0.063 W/(m,K)
Wasserdampf-Diffusionswiderstandszahl � 5.0
This installation instruction will advise you. The recom-mendations are based on practical experiances to thebest of our knowledge without prejudice.
With publication of a reissue this brochure becomes inva-lid. The general and assembly information are also validfor suspended ceiling systems in conjunction with oursystem brochures S 8 – S 10 – S 12.
Slight design modifications are shown in our system bro-chures. Ask for an additional installation guide in case ofour system S 7 – OWAplan jointless ceilings.
For further questions ask our technical department:Tel: + 49 - 93 73 - 2 01- 0Fax: + 49 - 93 73 - 2 01- 111E-Mail: [email protected]
Notes
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Odenwald Faserplattenwerk GmbHDr.-F.-A.-Freundt-Straße 3D-63916 AmorbachTelefon: +49 (0) 93 73 / 2 01-0Telefax: +49 (0) 93 73 / 2 01-130www.owa.de · E-Mail: [email protected] Br
ochu
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0504
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OWAcoustic®
Installation Instructions
OWA (UK) Ltd.23/25 Elmshott LaneCippenham, Slough/Berks SL1 5QSTel: (0 16 28) 66 37 97Fax: (0 16 28) 66 21 67www.owa-ceilings.co.ukE-Mail: [email protected]