DK148064B - DEFORMABLE SHEET MATERIALS, NECESSARY FOR USE IN ROOF SEALING - Google Patents

DEFORMABLE SHEET MATERIALS, NECESSARY FOR USE IN ROOF SEALING Download PDF

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Publication number
DK148064B
DK148064B DK365080AA DK365080A DK148064B DK 148064 B DK148064 B DK 148064B DK 365080A A DK365080A A DK 365080AA DK 365080 A DK365080 A DK 365080A DK 148064 B DK148064 B DK 148064B
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Denmark
Prior art keywords
sheet material
material according
metal foil
plate
protective layer
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DK365080AA
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Danish (da)
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DK365080A (en
DK148064C (en
Inventor
Stig Ernst Jeppesen
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Rasmussen Holding As V Kann
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Priority claimed from DK159880A external-priority patent/DK145509C/en
Application filed by Rasmussen Holding As V Kann filed Critical Rasmussen Holding As V Kann
Priority to DK365080A priority Critical patent/DK148064C/en
Priority to NO811304A priority patent/NO157670C/en
Priority to ES1981257713U priority patent/ES257713Y/en
Priority to AT81301672T priority patent/ATE41193T1/en
Priority to DE8181301672T priority patent/DE3176996D1/en
Priority to EP81301672A priority patent/EP0038222B1/en
Publication of DK365080A publication Critical patent/DK365080A/en
Publication of DK148064B publication Critical patent/DK148064B/en
Publication of DK148064C publication Critical patent/DK148064C/en
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Classifications

    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04DROOF COVERINGS; SKY-LIGHTS; GUTTERS; ROOF-WORKING TOOLS
    • E04D3/00Roof covering by making use of flat or curved slabs or stiff sheets
    • E04D3/24Roof covering by making use of flat or curved slabs or stiff sheets with special cross-section, e.g. with corrugations on both sides, with ribs, flanges, or the like
    • E04D3/30Roof covering by making use of flat or curved slabs or stiff sheets with special cross-section, e.g. with corrugations on both sides, with ribs, flanges, or the like of metal
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04DROOF COVERINGS; SKY-LIGHTS; GUTTERS; ROOF-WORKING TOOLS
    • E04D13/00Special arrangements or devices in connection with roof coverings; Protection against birds; Roof drainage ; Sky-lights
    • E04D13/14Junctions of roof sheathings to chimneys or other parts extending above the roof
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04DROOF COVERINGS; SKY-LIGHTS; GUTTERS; ROOF-WORKING TOOLS
    • E04D13/00Special arrangements or devices in connection with roof coverings; Protection against birds; Roof drainage ; Sky-lights
    • E04D13/14Junctions of roof sheathings to chimneys or other parts extending above the roof
    • E04D13/147Junctions of roof sheathings to chimneys or other parts extending above the roof specially adapted for inclined roofs
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04DROOF COVERINGS; SKY-LIGHTS; GUTTERS; ROOF-WORKING TOOLS
    • E04D3/00Roof covering by making use of flat or curved slabs or stiff sheets
    • E04D3/35Roofing slabs or stiff sheets comprising two or more layers, e.g. for insulation

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Roof Covering Using Slabs Or Stiff Sheets (AREA)
  • Laminated Bodies (AREA)
  • Catalysts (AREA)

Description

i 148064in 148064

Ved udvendigt blikkenslagerarbejde på bygninger, eksempelvis ved tilvejebringelse af en vand- og snetæt tilslutning mellem et ovenlysvindues inddækning og en tagbeklædning af teglsten eller bølgeplader, anvendes i 5 vid udstrækning valset med en tykkelse på omkring 1 mm blyplade på grund af dette materiales gode vejrbestandighed og dets meget lave elasticitetskoefficient og strækbarhed, som muliggør en vidtgående formgivning af en plan plade til dobbeltkrumme faconer, der yder-10 ligere nemt kan tilklippes eller tilskæres efter behov. Disse gode egenskaber ledsages imidlertid af ulemper af både økonomisk og miljømæssig art, idet bly dels er et relativt dyrt råmateriale og på grund af den høje vægt tillige er dyrt i transport-15 omkostninger, dels frembyder en vis forgiftningsfare.For exterior plumbing work on buildings, for example, by providing a water and snowproof connection between the roof of a skylight and a roof covering of bricks or corrugated sheets, 5 rolls are used extensively with a thickness of about 1 mm lead plate due to the good weather resistance of this material and its very low elasticity coefficient and extensibility, which allows for a wide shaping of a flat plate for double curved shapes, which can be further easily cut or cut as needed. However, these good properties are accompanied by disadvantages of both economic and environmental nature, since lead is partly a relatively expensive raw material and because of its high weight is also expensive in transport costs and partly presents a certain poisoning hazard.

Til visse arbejder kan der i stedet for blyplade anvendes et eksempelvis fra beskrivelsen til engelsk patent 1 095 393 kendt sandwich-materiale, som består af en folie af aluminium eller en termo-20 plast og en tykkere, trykklæbende belægning af bitumen og et med dette foreneligt, fleksibelt polymermateriale samt et afriveligt dæklag eller beskyttelsespapir. Dette materiale tåler imidlertid ikke at blive strakt og bukket til en dobbeltkrum facon, 25 som der eksempelvis er behov for ved inddækning af overgangen mellem en plan flade og en buet eller bølget tagbelægning. Det pågældende, kendte materiale anvendes primært som en vejrbestandig klæbestrimmel til tætning af fuger og revner.For certain works, instead of lead plate, a sandwich material known from the specification of English patent 1,095,393 can be used, which consists of an aluminum foil or a thermoplastic film and a thicker, pressure-adhering coating of bitumen and one with the same. compatible, flexible polymer material as well as a tear-off cover or protective paper. However, this material does not withstand being stretched and bent to a double curved shape, which is required, for example, by covering the transition between a flat surface and a curved or corrugated roofing. The known prior art is primarily used as a weatherproof adhesive strip for sealing joints and cracks.

30 Gennem opfindelsen sigtes der navnlig mod at anvise et materiale med forbedrede egenskaber i henseende til formbarheden ikke blot i forhold til det ovennævnte sandwich-materiale, men også i forhold til konventionel blyplade, som ved anbringelse på en bølget tagplade må ham-35 res på plads ved slag mod bølgetoppene, hvorved det er vanskeligt at styre den endelige pladetykkelse og risiko for beskadigelse af materialet, så der opstår revner eller brud. I forhold til det nævnte sandwich-materiale 148064 2 tilsigtes endvidere at opnå tætningsegenskaber, der på samme måde som ved konventionel blyplade ikke forudsætter en permanent fastklæbning til underlaget.The invention aims, in particular, to provide a material with improved properties in terms of formability not only in relation to the above-mentioned sandwich material, but also in relation to conventional lead plate, which, when applied to a corrugated roof plate, must be hammered on. space at impact against the corrugated peaks, making it difficult to control the final plate thickness and the risk of damage to the material resulting in cracks or fractures. In addition to the said sandwich material 148064 2, it is also intended to achieve sealing properties which, in the same way as with conventional lead plate, do not require a permanent adhesion to the substrate.

Opfindelsen angår således et navnlig til brug ved 5 tagtætningsarbejder bestemt,deformerbart plademateriale af den art, der i det mindste delvis består af metalblik eller en metalfolie. Ifølge opfindelsen er dette plademateriale ejendommeligt ved, at det er bølgekorrugeret i fortløbende S-form, i hvilken tvær-10 målet af hver bugt er større end bredden af bugtens spaltemunding.Thus, the invention relates to a deformable sheet material of a kind, which is at least partially made of metal sheet or a metal foil. According to the invention, this sheet material is peculiar in that it is corrugated in continuous S form, in which the transverse dimension of each bay is greater than the width of the bay gap mouth.

Denne specielle korrugering medfører, at det tynde metalblik tåler en vidtgående, lokal eller varieret strækning til dobbeltkrum facon uden lokale knæk eller 15 brud, idet bugternes eller bølgernes flanker kan krumme sig mere eller mindre og herved kan "sluge" en varierende materialemængde, uden at der herved sker nævneværdige ændringer i pladens udseende.This special corrugation means that the thin metal sheet can withstand a wide, local or varied stretch to double curved shape without local cracks or breakage, as the flanks of the bays or waves can curl more or less and thereby "swallow" a varying amount of material. in this way there are significant changes in the appearance of the plate.

Til yderligere forbedring af formbarheden kan 20 der i toppen af bugterne være tværliggende indpræg-ninger med en indbyrdes afstand af samme størrelsesorden som bølgelængden. Sådanne tværliggende ind-prægninger gør bølgerne mindre længdestive og bryder desuden bølgernes stribemønster, idet de modificerer 25 det i retning af et vaffelmønster, som i betydelig grad slører lokale defomationer.To further improve the formability, there may be transverse indentations at the top of the bays at a distance of the same magnitude as the wavelength. Such transverse embossings make the waves less rigid and further break the stripe pattern of the waves, modifying it in the direction of a waffle pattern which significantly blurs local defomations.

Pladematerialet ifølge opfindelsen kan som helhed bestå af metalblik, f.eks. bly, hvorved der kan benyttes 30 en væsentlig mindre pladetykkelse end ved konventionel blyplade, hvor tykkelsen skal være tilstrækkelig til at tillade den nødvendige deformation ved strækning af materialet. Monteringen på en bølget tagflade kan herved udføres alene ved manuel bearbejdning af materialet uden 35 hamring og de dermed forbundne lokale tykkelsesvariationer, der kan føre til revner eller brud.The sheet material according to the invention may as a whole consist of metal sheet, e.g. lead, whereby a substantially smaller plate thickness can be used than with conventional lead plate, the thickness of which must be sufficient to allow the necessary deformation when stretching the material. The mounting on a corrugated roof surface can hereby be carried out only by manual machining of the material without hammering and the associated local thickness variations which can lead to cracks or fractures.

Pladematerialet kan dog ifølge opfindelsen bestå af en sandwich af metalfolie, fortrinsvis alumini- 148064 3 umsfolie og mindst ét dertil fastgjort, spændingsdæmpende og/eller stabiliserende beskyttelseslag til beskyttelse af metalfolien mod mekaniske, klimatiske og/eller kemiske påvirkninger. Herved undgås anvendelsen af bly og de her-5 med forbundne ulemper.However, the sheet material according to the invention may consist of a sandwich of metal foil, preferably aluminum foil and at least one attached, stress-suppressing and / or stabilizing protective layer for protecting the metal foil against mechanical, climatic and / or chemical influences. This avoids the use of lead and the associated disadvantages.

I en første udførelsesform for et sådant sandwichformet plademateriale ifølge opfindelsen kan beskyttelseslaget have en sammensætning af omtrent samme karakter som det fra førnævnte engelske patent kendte materiale og omfatter et på me-10 talfoliens ene side påført, ikke-hærdnende klæbemasse-lag samt en dækfolie på dette klæbemasselag. Den dæmpende og stabiliserende virkning opnås her som følge af klæbemasselaget, og ved valg af specielt en egnet dækfolie kan pladematerialet i denne udførelsesform også i 15 andre henseender ækvivalere bly som inddækningshjælpemiddel. Til udvendig brug bør dækfolien således være vejrbestandig, herunder være bestandig over for forureninger i atmosfæren samt over for sollys samt høje og lave temperaturer, og ligeledes bør dækfolien have 20 en passende stor rivestyrke. Som eksempel på et sådant foliemateriale kan nævnes PVF-folie.In a first embodiment of such a sandwich-shaped sheet material according to the invention, the protective layer may have a composition of approximately the same nature as the material known from the aforementioned English patent and comprises a non-curing adhesive layer applied on one side of the metal foil as well as a cover film of this adhesive layer. The attenuating and stabilizing effect is achieved here as a result of the adhesive layer, and by selecting a particularly suitable cover film, in this embodiment, the sheet material can also equate lead as a coating aid in 15 other respects. Thus, for exterior use, the cover film should be weather resistant, including being resistant to atmospheric pollution, sunlight and high and low temperatures, and the cover film should also have a suitably high tear strength. An example of such a film material is PVF film.

1 en anden udførelsesfonn opnås den dæmpende og stabiliserende virkning samt modstandsdygtighed over for mekaniske, klimatiske og/eller kemiske påvirkninger med 25 et beskyttelseslag, der omfatter mindst et til i det mindste den ene side af metalfolien fastgjort lag af et elastomert materiale, fortrinsvis naturligt eller syntetisk gummi.In another embodiment, the damping and stabilizing effect and resistance to mechanical, climatic and / or chemical stresses are achieved by a protective layer comprising at least one layer of at least one side of the metal foil of an elastomeric material, preferably natural or synthetic rubber.

Fortrinsvis omfatter beskyttelseslaget i dette 30 tilfælde et elastomert vulkaniserbart materiale på begge sider af metalfolien, hvilke lag til forbindelse med folien er vulkaniseret til hinanden gennem perfora tioner i folien.Preferably, in this case, the protective layer comprises an elastomeric vulcanizable material on both sides of the metal foil, which layers for connection with the foil are vulcanized to each other through perforations in the foil.

Til brug som inddækningsmateriale er det ofte hen-35 sigtsmæssigt at tildanne materialet i strimmelform og til opnåelse af en nedtyngning af en sådan inddækningsstrimmel på samme måde som ved anvendelse af bly, kan det være hensigtsmæssigt, hvis der i strimme- 148064 4 lens ene langside ved ombukning af sandwich*en er indlagt et strimmel- eller trådformet lod, f.eks. af bly.For use as a covering material, it is often convenient to form the material in strip form and to obtain a weighting of such a cover strip in the same way as using lead, it may be convenient if in one longitudinal side of the strip when folding the sandwich * a strip or filamentous solder is inserted, e.g. of lead.

Opfindelsen forklares nærmere under henvisning til tegningen, hvor fig. 1 og 2 i stort målestoksforhold 5 viser et pladeudsnit af to udførelsesformer for pladematerialet ifølge opfindelsen, medens fig. 3 og 4 illustrerer anvendelsen af henholdsvis konventionel blyplade og pladematerialet ifølge opfindelsen.The invention is explained in more detail with reference to the drawing, in which fig. 1 and 2 in large scale ratio 5 shows a plate section of two embodiments of the sheet material according to the invention, while FIG. 3 and 4 illustrate the use of conventional lead plate and the sheet material according to the invention, respectively.

Pladematerialet ved udførelsesformen i fig. 1 er en 10 sandwich med en samlet tykkelse på ca. 0,35-1,5 mm og bestående af en aluminiumfolie 1 med en tykkelse på f.eks. ca. 0,1 mm og et beskyttelseslag omfattende en dækfolie 2 med de ovenfor angivne egenskaber samt et mellemliggende klæbemasselag 3 af ikke-hærdnende, 15 bituminøs art. Denne sandwich er fremstillet i plan tilstand og er derpå blevet korrugeret, f.eks. mellem et par fortandede valser, til den viste skikkelse i form af fortløbende, S-formede bølger eller bugter, hvis største tværmål a er noget større end bredden b af den til-20 hørende spaltemunding. Korrugeringsmønsteret er dog ikke bundet til netop den på tegningen viste facon, idet der eksempelvis i stedet for det jævnt krummede forløb kan vælges et mere kantet tværsnitsmønster.The plate material of the embodiment of FIG. 1 is a 10 sandwich with a total thickness of approx. 0.35-1.5 mm and consisting of an aluminum foil 1 having a thickness of e.g. ca. 0.1 mm and a protective layer comprising a cover film 2 having the above characteristics and an intermediate adhesive layer 3 of non-curing, bituminous type. This sandwich is made in a flat state and has then been corrugated, e.g. between a pair of toothed rollers, to the shape shown in the form of continuous, S-shaped waves or bays, whose largest cross-section a is somewhat larger than the width b of the associated gap mouth. However, the corrugation pattern is not tied to exactly the shape shown in the drawing, for example, instead of the evenly curved course, a more angular cross-sectional pattern can be chosen.

Samtidig med korrugeringen er der i toppen af bøl-25 gerne eller bugterne frembragt tværliggende indprægnin-ger 4, hvis indbyrdes afstand er af nogenlunde samme størrelse som bølgebredden, men dog kan være noget større eller noget mindre end denne. Som vist ligger indpræg-ningerne 4 på den ene pladeside hensigtsmæssigt i hvert 30 fald hovedsageligt midt mellem indprægningerne 4 på den anden pladeside.At the same time as the corrugation, at the top of the waves or bays, transverse indentations 4 are formed, the spacing of which is approximately the same size as the wavelength, but may be somewhat larger or somewhat smaller than this. As shown, the embossings 4 on one plate side are conveniently located at least midway between the embossments 4 on the other plate side.

Ved udførelsesformen i fig. 2 omfatter sandwich*en ligesom ved udførelsesformen i fig. 1 en aluminiumfolie 1' med en tykkelse på omkring 0,1 mm. I dette tilfælde 35 er der imidlertid anvendt beskyttelseslag omfattende lag 5 og 6 af elastomert materiale, fortrinsvis naturligt eller syntetisk gummi, på begge sider af folien 1'.In the embodiment of FIG. 2, the sandwich * comprises, as in the embodiment of FIG. 1 is an aluminum foil 1 'with a thickness of about 0.1 mm. However, in this case 35, protective layers comprising layers 5 and 6 of elastomeric material, preferably natural or synthetic rubber, are used on both sides of the foil 1 '.

148064 5148064 5

Det elastomere materiale kan f.eks. være butylgummi eller den syntetiske gummi fra Dupont med det registrerede varemærke "Hypalon".The elastomeric material can e.g. be butyl rubber or the synthetic rubber from Dupont with the registered trademark "Hypalon".

Beskyttelseslagene 5 og 6 kan være fastgjort til 5 aluminiumfolien 1' ved hjælp af et egnet klæbemiddel.The protective layers 5 and 6 may be attached to the aluminum foil 1 'by a suitable adhesive.

Ved anvendelse af vulkaniserbart elastomert materiale som f.eks. ovennævnte materialer kan risikoen for lagdeling af sandwich under langtidspåvirkning imidlertid undgås og dermed levetiden forlænges ved som antydet punkteret 2Q at forsyne aluminiumfolien 1' med perforationer 7 og vulkanisere beskyttelseslagene 5 og 6 til hinanden gennem disse perforationer.When using vulcanizable elastomeric material, e.g. however, the above-mentioned materials can avoid the risk of laying sandwiches under long-term influence and thus extend the life by providing, as indicated by dotted 2Q, the aluminum foil 1 'with perforations 7 and vulcanizing the protective layers 5 and 6 to each other through these perforations.

Korrugeringen af sandwich’en er ved udførelsesformen i fig. 2 udført på samme måde som forklaret ovenfor under 25 henvisning til fig. 1, ligesom sandwich’en på begge sider er forsynet med indprægninger 4'.The corrugation of the sandwich is in the embodiment of FIG. 2 performed in the same manner as explained above with reference to FIG. 1, just as the sandwich on both sides is provided with indentations 4 '.

I praksis kan pladematerialet tildannes i form af en strimmel med tværgående korrugering. Til nedtyngning kan der i den ene langside af en sådan strimmel indlæg-20 ges et strimmel- eller trådformet lod, eksempelvis af bly, f.eks. ved ombukning af strimmelen langs den punkterede linie 8 i fig. 2.In practice, the sheet material can be formed in the form of a strip of transverse corrugation. For thinning, in one long side of such a strip, a strip or filamentous solder may be inserted, for example lead, e.g. by folding the strip along the dotted line 8 in FIG. 2nd

Pig. 3 og 4 illustrerer anvendelsen af henholdsvis konventionel blyplade 9 og et plademateriale 10 i-25 følge opfindelsen ved tætningsarbejde på en bølget tagflade 11.Pig. 3 and 4 illustrate the use of conventional lead plate 9 and sheet material 10 respectively in accordance with the invention in sealing work on a corrugated roof surface 11.

Den konventionelle blyplade 9 bruges til at følge tagfladen 11*s form ved hamring med slag som vist ved en pil 12 mod bølgetoppene i forbindelse med nedpres-30 ning i de mellemliggende bølgedale, hvorved der opstår ret betydelige lokale tykkelsesvariationer, som ikke kan forudbestemmes og kan medføre revner og brud.Conventional lead plate 9 is used to follow the shape of the roof surface 11 * by hammering with punches as shown by an arrow 12 against the wave peaks associated with depression in the intermediate wave valleys, resulting in quite significant local thickness variations which cannot be predetermined and can cause cracks and fractures.

Til forskel herfra kan pladematerialet 10 ifølge opfindelsen bringes til at følge tagfladen 11’s form 35 ved ren manuel bearbejdning uden anvendelse af hamring, således at tykkelsen er i alt væsentligt den samme på bølgetoppene og i de mellemliggende områder.In contrast, the sheet material 10 of the invention can be made to follow the shape 35 of the roof surface 11 by pure manual machining without the use of hammering, so that the thickness is substantially the same on the wave peaks and in the intermediate regions.

Foruden som sandwich-materiale kan pladematerialetIn addition to as sandwich material can the sheet material

Claims (6)

1. Deformerbart plademateriale, navnlig til brug ved tagtætningsarbejder, hvilket materiale i det mindste delvis består af metalblik eller en metalfolie, k e n - 15 detegnet ved, at pladematerialet er bølgekorru-geret i fortløbende S-form, i hvilken tværmålet (a) af hver bugt er større end bredden (b) af bugtens spaltemunding.A deformable sheet material, particularly for use in roof sealing work, which material consists at least in part of metal sheet or metal foil, characterized in that the sheet material is corrugated in continuous S shape, in which the cross-section (a) of each bay is greater than the width (b) of the bay's gap mouth. 2. Plademateriale ifølge krav 1, kendeteg- 2o net ved, at der i toppen af bugterne er tværliggende indprægninger (4, 4’) med en indbyrdes afstand af samme størrelsesorden som bølgelængden.Plate material according to claim 1, characterized in that at the top of the bays there are transverse indentations (4, 4 ') with a spacing of the same order of magnitude as the wavelength. 3. Plademateriale ifølge krav 2, kendetegnet ved, at de tværliggende indprægninger (4, 4') på 25 den ene pladeside ligger hovedsagelig midt mellem ind-prægningerne på den anden pladeside.Plate material according to claim 2, characterized in that the transverse indentations (4, 4 ') on one plate side are located substantially in the middle between the indentations on the other plate side. 4. Plademateriale ifølge krav 1, 2 eller 3, kendetegnet ved, at det består af en sandwich af metalfolie, fortrinsvis aluminiumsfolie (1, 1') og mindst 3o ét dertil fastgjort, spændingsdæmpende og/eller stabiliserende beskyttelseslag til beskyttelse af metalfolien mod mekaniske, klimatiske og/eller kemiske påvirkninger.Sheet material according to claim 1, 2 or 3, characterized in that it consists of a sandwich of metal foil, preferably aluminum foil (1, 1 ') and at least 30 to one, stress-dampening and / or stabilizing protective layer for protecting the metal foil against mechanical , climatic and / or chemical influences. 5. Plademateriale ifølge krav 4, kendetegnet ved, at beskyttelseslaget omfatter et på metal- 35 foliens (1) ene side påført, ikke-hærdnende klæbemasselag (3) samt en dækfolie (2) på dette klæbemasselag.A sheet material according to claim 4, characterized in that the protective layer comprises a non-curing adhesive layer (3) applied to one side of the metal foil (1) and a cover film (2) on this adhesive layer. 6. Plademateriale ifølge krav 4, kendetegnet ved, at beskyttelseslaget omfatter mindst et tilSheet material according to claim 4, characterized in that the protective layer comprises at least one more
DK365080A 1980-04-15 1980-08-26 DEFORMABLE SHEET MATERIALS, NECESSARY FOR USE IN ROOF SEALING DK148064C (en)

Priority Applications (6)

Application Number Priority Date Filing Date Title
DK365080A DK148064C (en) 1980-04-15 1980-08-26 DEFORMABLE SHEET MATERIALS, NECESSARY FOR USE IN ROOF SEALING
NO811304A NO157670C (en) 1980-04-15 1981-04-14 FORMABLE, CORRUGATED PLATE MATERIAL.
ES1981257713U ES257713Y (en) 1980-04-15 1981-04-14 DEFORMABLE SHEET MATERIAL, ESPECIALLY USABLE FOR ROOF TIGHTNESS
EP81301672A EP0038222B1 (en) 1980-04-15 1981-04-15 Deformable roof sealing material
AT81301672T ATE41193T1 (en) 1980-04-15 1981-04-15 DEFORMABLE ROOFING MATERIAL.
DE8181301672T DE3176996D1 (en) 1980-04-15 1981-04-15 Deformable roof sealing material

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
DK159880A DK145509C (en) 1980-04-15 1980-04-15 DEFORMABLE SHEET MATERIALS, NECESSARY FOR USE IN ROOF SEALING
DK159880 1980-04-15
DK365080 1980-08-26
DK365080A DK148064C (en) 1980-04-15 1980-08-26 DEFORMABLE SHEET MATERIALS, NECESSARY FOR USE IN ROOF SEALING

Publications (3)

Publication Number Publication Date
DK365080A DK365080A (en) 1981-10-16
DK148064B true DK148064B (en) 1985-02-18
DK148064C DK148064C (en) 1985-07-29

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DK365080A DK148064C (en) 1980-04-15 1980-08-26 DEFORMABLE SHEET MATERIALS, NECESSARY FOR USE IN ROOF SEALING

Country Status (5)

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EP (1) EP0038222B1 (en)
DE (1) DE3176996D1 (en)
DK (1) DK148064C (en)
ES (1) ES257713Y (en)
NO (1) NO157670C (en)

Cited By (1)

* Cited by examiner, † Cited by third party
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Also Published As

Publication number Publication date
EP0038222B1 (en) 1989-03-08
DK365080A (en) 1981-10-16
EP0038222A2 (en) 1981-10-21
ES257713Y (en) 1982-05-01
DE3176996D1 (en) 1989-04-13
DK148064C (en) 1985-07-29
NO157670C (en) 1988-04-27
EP0038222A3 (en) 1981-12-23
ES257713U (en) 1981-11-01
NO811304L (en) 1981-10-16
NO157670B (en) 1988-01-18

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