EP2113617A1 - Bande de support destinée à la fabrication de la sécurité contre la pluie d'une construction de sous-toiture - Google Patents
Bande de support destinée à la fabrication de la sécurité contre la pluie d'une construction de sous-toiture Download PDFInfo
- Publication number
- EP2113617A1 EP2113617A1 EP09450090A EP09450090A EP2113617A1 EP 2113617 A1 EP2113617 A1 EP 2113617A1 EP 09450090 A EP09450090 A EP 09450090A EP 09450090 A EP09450090 A EP 09450090A EP 2113617 A1 EP2113617 A1 EP 2113617A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- barrier layer
- roof structure
- backing sheet
- layer
- membrane layer
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
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- 239000010426 asphalt Substances 0.000 claims description 22
- 239000012720 thermal barrier coating Substances 0.000 claims description 22
- 239000000853 adhesive Substances 0.000 claims description 16
- 238000010276 construction Methods 0.000 claims description 15
- 238000007789 sealing Methods 0.000 claims description 10
- 230000000284 resting effect Effects 0.000 claims description 4
- NIXOWILDQLNWCW-UHFFFAOYSA-M Acrylate Chemical compound [O-]C(=O)C=C NIXOWILDQLNWCW-UHFFFAOYSA-M 0.000 claims description 3
- 238000004519 manufacturing process Methods 0.000 claims description 3
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Images
Classifications
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04D—ROOF COVERINGS; SKY-LIGHTS; GUTTERS; ROOF-WORKING TOOLS
- E04D12/00—Non-structural supports for roofing materials, e.g. battens, boards
- E04D12/002—Sheets of flexible material, e.g. roofing tile underlay
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04D—ROOF COVERINGS; SKY-LIGHTS; GUTTERS; ROOF-WORKING TOOLS
- E04D13/00—Special arrangements or devices in connection with roof coverings; Protection against birds; Roof drainage ; Sky-lights
- E04D13/16—Insulating devices or arrangements in so far as the roof covering is concerned, e.g. characterised by the material or composition of the roof insulating material or its integration in the roof structure
- E04D13/1606—Insulation of the roof covering characterised by its integration in the roof structure
- E04D13/1662—Inverted roofs or exteriorly insulated roofs
Definitions
- the invention relates to a backing sheet for producing the rainproofness of a substructure comprising a constructed of any number of layers of material, permeable membrane layer, and at least one partially attached to the membrane layer, preferably made of a bitumen conceptionigen material, impermeable barrier layer, according to the preamble of Claim 1 and to a reverse roof structure according to claim 14.
- underlays are well known and serve to protect a roof construction of a building against rain and moisture drench.
- the underlays on a respective existing sub-roof structure e.g. a wooden formwork mounted before peripheral roofing elements such as a counter battens and roof tiles or other cover elements are attached to the roof construction.
- underlays do not come as the outermost layer of a roof construction for use, but are covered in ready assembled state each by any number of roofing elements such as fiber cement boards, metal sheets, clay, concrete, sheet metal or plastic shingles, which the peripheral completion of each Constituting the roof and exposed to weather conditions.
- roofing elements and stones or gravel beds can be used, these directly to the underlay web according to the invention be heaped up and ensure a secure fixation of the underlay on Unterdachied according to their weight.
- Moisture or rainwater which overcomes the overlapping roofing elements or creeps through the roofing elements in the overlapping area is prevented from advancing to the subfloor structure by the underlying underlays and is directed to defined collection points, e.g. derived in the form of roof drains.
- Generic underlays also serve as rainproof cover for non-ventilated roof structures of buildings, which are still in the shell state or are not yet covered with roofing elements.
- Such diffusion-open backing sheets have a membrane layer, which is composed of several mostly textile material layers including any binder layers.
- the membrane layer is composed of two to four textile material layers.
- the usually transported in the rolled-up state underlay web is first loosely placed or rolled out on the under-roof structure and then anchored windproof by means of mechanical attachment such as nailing.
- so many underlays lined up overlapping each other until the entire surface of the under-roof structure is covered.
- the overlapping areas of the backing sheets are either subsequently glued tightly with adhesive tapes, or there are already applied at the sides of the backing sheets seam tapes, so that only the transverse to the longitudinal sides of the head joints or the cut end portions of the backing sheets glued with an adhesive tape Need to become.
- a further problem area is that the water absorption capacity of the membrane layer upon contact with wood preservatives, such as those present in such as wood cladding executed under-roof structures, due to the surfactants present in the wood preservatives is increased undesirably.
- underlays causes a low mechanical resistance to architectural practices such as handling slats, roof tiles and various tools, so that a particularly gentle handling of already laid underlays is required.
- a required gentle handling of the underlays is, however, unrealistic in the construction practice, so that in the course of construction occurring injuries or cracks in the underlays at the time of a finished roofing difficult to localize moisture into the building can cause.
- sub-roof sheets In contrast to described diffusion-open sub-roof sheets made of textile fabric, sub-roof sheets also find application, which are made of bitumen or polymer bitumen. Depending on their layer thickness, such bitumen sub-roof sheets have a significantly higher mechanical resistance and thus greater resistance to injury. In addition, decades of durability or moisture resistance of bituminous sub-roof sheets attached to the substructure is in practice demonstrated.
- self-adhesive bituminous membranes or polymer bituminous membranes with sufficient layer thickness increase the rain protection of the under-roof structure, as a penetrating the sub-roof fastening nail or a fastening screw of the bitumen material is elastically or plastically enclosed and thus enters a self-healing effect against tears in the nail area.
- bitumen materials require a pronounced vapor pressure resistance in full-surface bituminous layers, so that already bitumen membranes of 1 mm layer thickness must be described as vapor-retarding and no longer open to diffusion.
- bitumen membranes of 1 mm layer thickness must be described as vapor-retarding and no longer open to diffusion.
- water vapor diffusion equivalent air layer thickness water vapor diffusion equivalent air layer thickness
- roof structures with particularly high stress e.g.
- special altitude > 1000 m above sea level
- special weather conditions increased precipitation amounts (alpine areas) or flat-inclined roof coverings
- the above circumstances increase the probability that rainwater or melt water (due to ice accumulation) penetrates through the roof cover elements which are usually laid overlapping and therefore has to be diverted to a greater extent from the substructure or from the sub-roof tracks resting thereon.
- underlay webs are also known which are constructed from an upper and a lower textile membrane layer, between which strip-shaped bitumen fillings are arranged. The sandwiched between the membrane layers bituminous fillings to increase the mechanical strength of the backing sheet, but do not fulfill a sealing or adhesive function. It is also known to perform narrow marginal areas such underlays partially self-adhesive.
- a disadvantage of such underlay webs according to the prior art is that their predominant area fraction is still exclusively formed by the (diffusion-open) membrane layers, which furthermore requires a relatively high sensitivity of the underlay webs to damage or tears as well as the risk of increased moisture sanding.
- a special field of application of diffusion-open membrane layers are reverse roof constructions in the flat roof area.
- a heat-insulating layer made of a moisture-insensitive material, such as extruded polystyrene, is arranged in a known manner on a flat-roof structure provided with, for example, a bitumen-containing sealing strip.
- Umledgedach initialten is accepted that from outside accumulating driving rain or meteoric water passes over butt joints of the thermal insulation elements under the thermal barrier coating to be derived there to drainage facilities.
- the disadvantage here is that the passing under the thermal barrier coating and draining water already passes through a heat-protected area of the roof structure and causes such a loss of heat of the respective building. According to this heat loss, the layer thickness of the thermal insulation layer designed for winter operation must be larger.
- thermal barrier coating must be weighted with a relatively large (gravel) load in order to prevent buoyancy of individual thermal insulation elements in the event of a strong water rush.
- the thermal insulation elements in heavy rainfall raise and lower again due to the water reaching under the thermal insulation elements, the thermal insulation elements sometimes being moved away from their laying position and no longer fittingly sink back into this.
- the usually end-to-end e.g. By means of a stepped rebate toothed thermal insulation elements drift apart, so that arise between originally adjacent thermal insulation elements thermally undesirable joint gaps.
- the present invention is therefore based on the object to avoid the disadvantages mentioned and to provide a backing sheet, which has an increased resistance to moisture penetration and damage or tears, but with sufficient diffusion openness or permeability of the backing sheet for the purpose of removal from within the rooms of a building existing humidity is to be maintained.
- a buoyancy of the thermal barrier coating and a thermally undesirable formation of joint gaps between adjacent thermal insulation elements of the thermal barrier coating should be prevented.
- a generic underlay for the production of rainproofness of a roof structure comprises one of a Any number of material layers constructed, permeable membrane layer and at least one partially attached to the membrane layer, preferably consisting of a bitumen-containing material, impermeable barrier layer.
- the at least one barrier layer is attached to a bottom side of the membrane layer facing the under-roof structure in mounting position and has a contact side provided for support on the under-roof structure, wherein any number of recesses formed by the barrier layer is provided, within which vapor diffusion is possible by the backing sheet, wherein (viewed in the mounting position of the backing sheet) located above the recesses Dampfdiffusionsareale the membrane layer of the contact side of the barrier layer, ie a distance in the mounting position of the backing sheet the sub-roof structure or its surface corresponding level are distanced by a distance measure.
- a barrier layer penetrated by recesses is applied to the underside of the membrane layer, whose layer thickness is so great that sagging of the recesses covering the vapor diffusion areas of the membrane layer in the mounting position of the backing sheet, which contacting the surface of the under-roof structure by the membrane layer and thus in If a moisture run would have caused unwanted capillary action or an adhesive force-induced full suction of the membrane layer with liquid would result is prevented.
- the membrane layer of an underlay structure according to the invention located in the assembly position is thus decoupled from the under-roof structure or spaced therefrom and it is thus decoupled from the under-roof structure or spaced therefrom and it is Thus, in the area of the recesses not covered by the barrier layer, the membrane layer can be bathed with air from above as well as from below, and therefore dried quickly and naturally if necessary.
- the distancing of the membrane layer to the contact side of the barrier layer or to the sub-roof structure further prevents contact of the membrane layer with any wood preservatives or impregnations contained in the substructure, which could lead to an undesirable tendency of the membrane layer to moisture.
- the vapor diffusion areas of the membrane layer are formed so that, although a vapor diffusion through the backing sheet is possible, while a fluid passage through the backing sheet is prevented.
- said distance dimension, by which the membrane layer is spaced in the mounting position from the surface of the sub-roof structure corresponds to the layer thickness of the barrier layer.
- the vapor diffusion areas of the membrane layer are so stretched or held according to a corresponding arrangement of the surrounding barrier layer that they do not sag in the mounting position of the backing sheet in the direction of the contact side of the barrier layer or in the direction of the under-roof structure.
- the undersides of the membrane layer vapor diffusion areas thus run substantially in a common plane with an upper side of the barrier layer opposite the contact side.
- the layer thickness of the barrier layer is preferably greater than 0.8 mm.
- the functions of a vapor-permeable sub-roof sheet are combined with the properties of a robust bitumen sub-roof sheet, by providing in a particularly preferred embodiment of the backing sheet, that the barrier layer covers more than 50% of the surface of the membrane layer bottom.
- the barrier layer attached to the underside of the membrane layer thus covers the predominant surface area of the membrane layer and prevents moisture penetration in these impermeable areas.
- the more the surface of the membrane layer is provided with the barrier layer the greater the mechanical resistance of the underlayment is. In a particularly preferred embodiment of the invention, it is therefore provided that more than 90% of the surface of the membrane layer is covered with the barrier layer.
- the barrier layer or the contact side of the barrier layer is made self-adhesive and is provided with a release liner for transport and storage purposes.
- a simple and windogêtête fix the underlay on the under-roof structure to allow met, and a use of fasteners and tools for mounting the backing sheet on the sub-roof structure can be omitted.
- a waterproof bonding of the underlays with each other in their overlapping areas as well as attachment to arrival and completion elements of the under-roof structure such as roof windows, ventilation elements or Kaminverblechungen is possible without the use of additional adhesive would be required.
- the recesses already mentioned are distributed in a preferred embodiment of the invention in the form of a matrix-like pattern over the surface of the membrane layer.
- matrix-like patterns are understood as meaning regular or repetitive as well as irregular or non-repeating arrangement patterns.
- the recesses are arranged in the form of mutually offset rows. Such a series arrangement can be clearly defined and allows an easy-to-implement manufacturing process.
- the recesses are arranged equidistant from each other.
- a distribution of the recesses over the surface of the membrane layer is achieved, in which a reliable removal of room-humidity in the roof or building periphery is ensured in each area of the backing sheet.
- the recesses of the barrier layer are bounded on all sides, a particularly effective support or voltage of the vapor diffusion areas of the membrane layer can be achieved so that the vapor diffusion areas do not sag in mounting position of the backing sheet or not touch the substructure.
- support for the membrane layer vapor diffusion areas is achieved by a circular configuration of the recesses.
- the underlay web has one or more defined regions in which the membrane layer has no recesses or which are completely covered with the barrier layer.
- Such defined with the barrier layer defined areas which is provided in a preferred embodiment, at least along one longitudinal side of the backing sheet, preferably along both opposite longitudinal sides of the backing sheet allow a reliable sealing connection of adjacent or overlapping underlays. Through such defined areas and fastening elements such as nails or screws can be driven without a leak in the backing sheet must be feared.
- a driven in the defined areas through the sub-roof fastener is of the preferably made of a bitumen material barrier layer elastically or plastically enclosed and prevents such a penetration of moisture in the critical mounting area.
- At least one additional barrier layer of preferably bitumen-containing material is arranged on the upper side of the membrane layer, wherein the vapor diffusion areas of the membrane layer are recessed in relation to an application of the additional barrier layer.
- Claim 14 is directed to a reverse roof construction, in which a underlay according to the invention is used according to one of the preceding claims.
- a thermal barrier layer is arranged on which a gravel is applied to secure the thermal barrier to wind and atmospheric influences such as UV radiation, temperature fluctuations or hailstorm according to the effect of a cover layer.
- the backing sheet is disposed on a top of the thermal barrier coating facing gravel pile. In this way, a large part of sudden rainfall or meteoric water can be derived from the top of the thermal barrier coating to defined drainage facilities. Underspray the thermal barrier coating can be prevented or significantly reduced.
- the thermal barrier coating consists of a plurality of juxtaposed thermal insulation elements, wherein mutually adjacent thermal insulation elements are connected to one another by means of a self-adhesive backing sheet applied to their upper sides.
- thermal insulation elements are to be distended in the event of a particularly high water contortion, they can not slide over one another as a result of their surface-side bonding and retain their original laying position relative to adjacent thermal insulation elements.
- Such a fixation of the thermal insulation elements also makes it possible to reduce the gravel bed quantitatively or to secure the thermal barrier coating and the backing sheet with a lower load.
- a reduction in the gravel fill or the ballast has an advantageous effect in static terms and also allows lower construction heights of the roof structure and various connection elements.
- Another advantage of a possible by the self-adhesive backing sheet fixation of the thermal insulation elements in their respective laying position is to state that no significant thermally disadvantageous joint gaps can arise between the thermal insulation elements.
- Fig.1 is an inventive diffusion-open backing sheet 1 in cross-sectional view can be seen.
- Such underlay sheets 1 are provided for attachment to a sub-roof structure 2 (see Fig.2 ), wherein the sub-roof structure 2 is a stickable substrate, for example a timber formwork or a concrete surface or another diffusible substrate.
- a sub-roof structure 2 of a substantially horizontal flat roof or pent roof is visible.
- underlay webs 1 according to the invention can also be used on under-roof structures 2 of pitched roofs such as pitched roofs, barrel roofs, domes or other structures.
- roofing elements 11 may be any cover elements such as fiber cement boards, metal sheets, clay, concrete, sheet metal or plastic bricks are used.
- the underlay sheet 1 according to the invention has a membrane layer 3, which is constructed from any number of layers of material including any binder layers.
- the material layers from which the membrane layer is constituted are a plurality of superimposed organic or inorganic textiles or tissue layers, each of which is diffusion-open insofar as it is, for example, a diffusion layer. is derived due to rain liquid flow at the membrane layer, while a passage of water vapor or humidity is still possible.
- the objective diffusion-openness of the membrane layer 3 can have specific characteristics depending on the choice of material or the field of use, wherein a wide variety of types or degrees of permeability can be provided.
- the membrane layer 3 can be semipermeable or selectively permeable, possibly also partially omnipermeable.
- the membrane layer 3 is embodied such that a transport of moisture or moisture from a lower side 8 facing the lower roof structure 2 in the mounting position in the direction of the upper side 7 facing away from the lower roof structure 2 the diaphragm layer 3 (that is to say from a space located below the under-roof structure 2 in the direction of the building periphery) is permitted, while liquid transport in the opposite direction (ie located from the building periphery in the direction of the under-roof structure 2) is prevented or at least slowed down.
- the material layers of the membrane layer 3 can be connected to one another with any number of binder layers.
- textile fabric it is also conceivable to constitute one or more of the material layers of a film-shaped material, possibly also of a thin plastic layer, provided that it is designed to be open to diffusion in the sense described.
- individual material layers of the membrane layer 3 can also be a bitumen-containing layer.
- the layer thickness of this bitumen-containing material layer must be made so thin that even a sufficient permeability of the membrane layer 3 is ensured and should therefore be only a few tenths of a millimeter.
- the membrane layer 3 is in its mounting position (see Fig.2 ) the underside structure 2 facing bottom 8 partially with at least one, in the present embodiment of bitumen dockigem existing impermeable, thus preventing diffusion of moisture barrier layer 4. Due to the area-wise application of the barrier layer 4 on the membrane layer underside 8 is not covered by the barrier layer 4 recesses 5 or lying over these recesses 5 vapor diffusion areas 3a of the membrane layer 3, in which further moisture diffusion through the membrane layer 3 or through the backing sheet 1 is made possible in the direction of the roof periphery.
- the barrier layer 4 has a contact side 13 provided for resting on the under-roof structure 2, wherein-viewed in the mounting position of the underlay 1-the vapor diffusion areas 3a of the membrane layer 3 situated above the recesses 5, thus covering the recesses 5, are separated from the contact side 13 of the barrier layer 4, Thus, from a in mounting position of the backing sheet 1 the sub-roof structure 2 and the surface corresponding level are distanced by a distance measure x.
- the distance dimension x corresponds to the layer thickness of the barrier layer 4, which means that the vapor diffusion areas 3a of the membrane layer 3 are held or stretched by the barrier layer 4 in such a way that they are in the assembly position of the membrane layer 3
- Underlay web 1 does not sag in the direction of the contact side 13 of the barrier layer 4 or in the direction of the under-roof structure 2.
- the undersides 8 of the membrane layer vapor diffusion areas 3a thus extend substantially in a common plane with an upper side 14 of the barrier layer 4 opposite the contact side 13 (ie, in accordance with FIG Fig.2 in a horizontal plane).
- An inventive spacing of the membrane layer 3, the vapor diffusion areas 3a membrane layer 3 to the substructure 2 causes the advantageous effect that the membrane layer 3 in the area of the vapor diffusion areas 3a and the not covered with the barrier layer 4 recesses 5 both from above and from below with air and dried.
- a kapillar convinceder moisture accumulation in the membrane layer 3 and the scenario a liquid-soaked membrane layer 3 is therefore largely prevented or a moisture accumulation in the region of the membrane layer 3 lasts only briefly in a backing sheet 1 according to the invention.
- the number and the size of the recesses 5 formed by the barrier layer 4 can be chosen as desired according to the respective requirements respectively according to the respectively desired degree of diffusion of the underlay web 1.
- about 50-100 recesses 5 per m 2 of the backing sheet 1 are provided, wherein the recesses 5 are each circular and have a diameter between one and five centimeters, preferably a diameter of two centimeters.
- the barrier layer covers more than 50% of the area of the membrane layer underside 8, preferably more than 90% of the area of the membrane layer bottom 8 (the latter embodiment variant is in FIG Figure 3 shown).
- the layer thickness of the barrier layer 4 is more than 0.8 mm in order to ensure impermeability or moisture impermeability of the barrier layer 4.
- Moisture or rainwater which overcomes the contacting roofing elements 2 or trickles past at butt joints of the roofing elements 2, can be reliably prevented by the underlay 1 according to the invention from advancing to the substructure 2, according to which the recesses 5 or by these bounded Vapor diffusion areas 3a of the membrane layer 3 nevertheless a sufficient diffusion openness of the backing sheet 1 is ensured.
- the barrier layer 4 is designed as a self-adhesive bituminous compound, which is laminated with a release liner 9.
- the backing sheet 1 according to the invention can be attached directly to the under-roof structure 2 without the aid of further fastening means or tools on the self-adhesive contact side 13 of the barrier layer 4 ( Fig.2 ).
- the underlay sheet 1 has a preferably rectangular ground plan shape and can be rolled up into a roll and transported in this form.
- a widthwise extension 12 of the underlay 1 may be e.g. 1 m.
- the recesses 5 (and thus the vapor diffusion areas 3 a of the membrane layer 3) are arranged distributed in the form of a matrix-like pattern over the surface of the membrane layer 3.
- the geometric configuration of the recesses 5 and the barrier layer 4 can be made in any desired manner.
- the recesses 5 can be made approximately in circular or polygonal shape.
- the recesses 5 within the barrier layer 4 preferably matrix arrangements are used, through which an approximately uniform distribution of Recesses 5 is ensured over the entire surface of the membrane layer 3 and the backing sheet 1, so that in each district of the backing sheet 1 is given a sufficient permeability to humidity.
- the statistical distribution of the recesses 5 over the total area of the membrane layer 3 or the underlay web 1 is selected such that substantially uniform scattering of the recesses 5 -in particular in the middle region of the underlay web 1-results.
- the total sum of the area formed by the recesses 5 ( ⁇ 50%, preferably ⁇ 10% of the area covered by the barrier layer 4) is thus divided into a multiplicity of recesses 5 preferably bounded peripherally by the barrier layer 4, which thus extend over the total area of the membrane layer 3 are distributed, that in all relevant areas of the backing sheet 1, a removal of steam or humidity in the direction of the top 7 of the membrane layer 3 is possible.
- An ideal distribution of the recesses 5 over the total area of the membrane layer 3 can be achieved, in particular, if the majority of the recesses 5 are arranged substantially equidistant from each other.
- the recesses 5 are preferably arranged in the form of staggered rows.
- the backing sheet 1 and the Membrane layer 3 one or has a plurality of defined regions 6, in which no recesses 5 are provided or which are completely covered with the barrier layer 4 (see Figure 3 ).
- Such defined areas 6 covered with the barrier layer 4 are provided at least along one longitudinal side 10a of the underlay web 1, preferably along both opposite longitudinal sides 10a, 10b of the underlay web 1. Likewise, a circumferential arrangement of defined regions 6 around the entire peripheral region of the underlay web 1 is possible.
- the barrier layer 4 of the backing sheet 1 according to the invention need not necessarily consist of a bitumen material but can also be made of butyl rubber, acrylate or other suitable impermeable materials in an alternative embodiment.
- the material acrylate is a plasto-elastic sealant based on acrylate polymer plastics, which hardens by drying out and is suitable for the present application due to its weather resistance and long durability.
- an additional impermeable barrier layer of preferably bitumen-containing material may be arranged on the upper side 7 of the membrane layer 3 (not shown). In this case, only the vapor diffusion areas 3a of the membrane layer 3 are recessed with respect to an application of this additional barrier layer.
- FIG 4 shows a specific application example of the application of the backing sheet 1 according to the invention in connection with an inverted roof structure 20.
- an inverted roof structure 20 comprises a flat roof structure 20, which is constituted for example of a reinforced concrete slab or concrete planks.
- the flat roof structure 20 has a low, not shown inclination. To ensure the rain-tightness of the flat roof structure 20, this is provided with a primer 18, a leveling layer 19 and a sealing strip 15.
- the sealing strip 15 is usually a water-impermeable bitumen or plastic sheet.
- a thermal barrier coating 16 is arranged, which is composed of any number of plate-shaped thermal insulation elements 16 ', 16''.
- the thermal insulation elements 16 ', 16 are fixed relative to one another in their laying position.
- a significantly increased surface stability of the thermal barrier coating 16 can be achieved as in previously practiced loose laying way.
- thermal insulation elements 16 ', 16' 'of the thermal barrier coating 16 in the case of a particularly large Wasserandranges still be distended, then the thermal insulation elements 16', 16 '' according to their surface-side bonding do not push over each other and retain their original installation position. Between two adjacent heat-insulating elements 16 ', 16 "thus no joint gap 21 of thermally relevant size can occur.
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- Engineering & Computer Science (AREA)
- Architecture (AREA)
- Civil Engineering (AREA)
- Structural Engineering (AREA)
- Roof Covering Using Slabs Or Stiff Sheets (AREA)
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
AT0025008U AT10699U1 (de) | 2008-04-28 | 2008-04-28 | Unterlagsbahn zur herstellung der regensicherheit eines unterdachaufbaus |
Publications (3)
Publication Number | Publication Date |
---|---|
EP2113617A1 true EP2113617A1 (fr) | 2009-11-04 |
EP2113617B1 EP2113617B1 (fr) | 2011-12-28 |
EP2113617B8 EP2113617B8 (fr) | 2012-03-28 |
Family
ID=40707573
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP09450090A Active EP2113617B8 (fr) | 2008-04-28 | 2009-04-28 | Bande de support destinée à la fabrication de la sécurité contre la pluie d'une construction de sous-toiture |
Country Status (2)
Country | Link |
---|---|
EP (1) | EP2113617B8 (fr) |
AT (2) | AT10699U1 (fr) |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2024015206A1 (fr) * | 2022-07-15 | 2024-01-18 | Ddp Specialty Electronic Materials Us, Llc | Écran ignifuge pour toiture inversée |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE29715790U1 (de) * | 1997-09-03 | 1997-10-23 | Basf Ag, 67063 Ludwigshafen | Umkehrdach |
DE19819085A1 (de) | 1998-04-29 | 1999-11-11 | Braas Gmbh | Wasserdichtes wasserdampfdurchlässiges Flachmaterial |
WO2000037751A1 (fr) | 1998-12-21 | 2000-06-29 | Icopal A/S | Pare-vapeur d'eau et son procede de fabrication |
WO2004051019A1 (fr) * | 2002-12-03 | 2004-06-17 | Bakor Inc. | Membrane autocollante barriere contre l'air et l'humidite et permeable a la vapeur d'eau |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP1632345A3 (fr) * | 2004-09-06 | 2008-05-21 | Silu Verwaltung AG | Feuille multicouche à perméabilité ajustable à la vapeur d'eau |
-
2008
- 2008-04-28 AT AT0025008U patent/AT10699U1/de not_active IP Right Cessation
-
2009
- 2009-04-28 AT AT09450090T patent/ATE539207T1/de active
- 2009-04-28 EP EP09450090A patent/EP2113617B8/fr active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE29715790U1 (de) * | 1997-09-03 | 1997-10-23 | Basf Ag, 67063 Ludwigshafen | Umkehrdach |
DE19819085A1 (de) | 1998-04-29 | 1999-11-11 | Braas Gmbh | Wasserdichtes wasserdampfdurchlässiges Flachmaterial |
WO2000037751A1 (fr) | 1998-12-21 | 2000-06-29 | Icopal A/S | Pare-vapeur d'eau et son procede de fabrication |
WO2004051019A1 (fr) * | 2002-12-03 | 2004-06-17 | Bakor Inc. | Membrane autocollante barriere contre l'air et l'humidite et permeable a la vapeur d'eau |
Also Published As
Publication number | Publication date |
---|---|
ATE539207T1 (de) | 2012-01-15 |
EP2113617B8 (fr) | 2012-03-28 |
AT10699U1 (de) | 2009-08-15 |
EP2113617B1 (fr) | 2011-12-28 |
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