EP4092239A1 - Baguette de crépi pour un système composite d'isolation thermique, système composite d'isolation thermique et procédé de fabrication d'un système composite d'isolation thermique - Google Patents

Baguette de crépi pour un système composite d'isolation thermique, système composite d'isolation thermique et procédé de fabrication d'un système composite d'isolation thermique Download PDF

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Publication number
EP4092239A1
EP4092239A1 EP21174221.8A EP21174221A EP4092239A1 EP 4092239 A1 EP4092239 A1 EP 4092239A1 EP 21174221 A EP21174221 A EP 21174221A EP 4092239 A1 EP4092239 A1 EP 4092239A1
Authority
EP
European Patent Office
Prior art keywords
plaster
thermal insulation
strip
profile
adhesive
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.)
Withdrawn
Application number
EP21174221.8A
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German (de)
English (en)
Inventor
Oliver Hartmann
Reiner Fürstner
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Sto SE and Co KGaA
Original Assignee
Sto SE and Co KGaA
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Sto SE and Co KGaA filed Critical Sto SE and Co KGaA
Priority to EP21174221.8A priority Critical patent/EP4092239A1/fr
Publication of EP4092239A1 publication Critical patent/EP4092239A1/fr
Withdrawn legal-status Critical Current

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Classifications

    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B1/00Border constructions of openings in walls, floors, or ceilings; Frames to be rigidly mounted in such openings
    • E06B1/62Tightening or covering joints between the border of openings and the frame or between contiguous frames
    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B1/00Border constructions of openings in walls, floors, or ceilings; Frames to be rigidly mounted in such openings
    • E06B1/62Tightening or covering joints between the border of openings and the frame or between contiguous frames
    • E06B2001/624Tightening or covering joints between the border of openings and the frame or between contiguous frames with parts to be embedded in the stucco layer or otherwise linked to this layer
    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B5/00Doors, windows, or like closures for special purposes; Border constructions therefor
    • E06B5/10Doors, windows, or like closures for special purposes; Border constructions therefor for protection against air-raid or other war-like action; for other protective purposes
    • E06B5/16Fireproof doors or similar closures; Adaptations of fixed constructions therefor

Definitions

  • the invention relates to a plaster strip for a thermal insulation composite system for forming a connection in the area of a door or window lintel. Furthermore, the invention relates to a thermal insulation composite system with a corresponding plaster strip and a method for producing a thermal insulation composite system using a corresponding plaster strip.
  • a thermal insulation composite system comprises a thermal insulation layer formed in one or more layers from a plurality of thermal insulation panels, with thermal insulation panels made of a plastic rigid foam, in particular of a polystyrene rigid foam, being used very frequently.
  • a plastic rigid foam in particular of a polystyrene rigid foam
  • rigid foams of this type have good thermal insulation properties and are comparatively cheap.
  • their fire behavior proves to be disadvantageous.
  • DIN 4102-1 or EN 13501-1 they are usually assigned to building material class B (combustible building materials). In the event of a fire, the rigid plastic foam board can therefore burn, in particular melt. The hot melt can drip off and cause new sources of fire.
  • the source of the fire is usually inside a building, so that the façade is initially unaffected.
  • the windows can shatter and the flames can escape.
  • the thermal insulation composite system exposed to the flames can only withstand the flames for a limited period of time, so there is a risk that the fire will spread to the facade.
  • fire bars made of a non-combustible material are used above an opening in an outer wall of a building, ie in the lintel area of a window or a door.
  • a so-called "fabric loop" can be formed in the fall area.
  • the reinforcement fabric of a reinforced plaster layer applied to a thermal insulation layer of a thermal insulation composite system is laid around the entire lintel area and glued to the substrate of the thermal insulation composite system on the back.
  • the fabric loop is intended to prevent the layer of plaster applied to the thermal insulation layer from tearing and flapping open in the event of a fire, so that any hot melt located behind it can leak out.
  • the formation of such a fabric loop is complex and requires a professional, precise execution.
  • the implementation of the connection to the on-site substructure is particularly demanding, as this must also be impervious to driving rain.
  • the fabric loop is therefore a detail that is prone to error.
  • the present invention tries to remedy this.
  • it should enable the formation of a crack-resistant and driving rain-tight connection of a thermal insulation composite system in the area of a door or window lintel while complying with the existing fire protection requirements.
  • the plaster strip with the features of claim 1 and the thermal insulation composite system with the features of claim 11 are proposed.
  • Advantageous developments of the invention can be found in the respective dependent claims.
  • the method of manufacture a thermal insulation composite system with the features of claim 16 proposed.
  • the plastering bead proposed for a thermal insulation composite system for forming a connection in the area of a door or window lintel has a profile essentially made of metal or plastic with a base area and a first plastering leg and a second plastering leg located in its continuation.
  • the first and the second plaster leg enclose an angle ⁇ which is less than 180°, preferably less than 160° and more preferably less than 120°, for example 90°.
  • the plaster legs are made of the same or a different material than the base area, with the base area having a self-adhesive sealing element, for example an adhesive and sealing tape, in the area of a connection surface, with which the plaster strip can be attached to a substrate, preferably a door or window frame. is attachable.
  • the sealing element is suitable for absorbing movements.
  • the two plaster legs arranged at an angle to each other allow the connection of the plaster strip both to an on-site substrate and to a lintel-forming thermal insulation element of the thermal insulation composite system, so that the connection joint between the lintel-forming thermal insulation element and the on-site substrate can be bridged with the help of the plaster strip.
  • the two plaster legs can be embedded in a layer of adhesive and/or plaster applied to the substrate and/or the thermal insulation element in such a way that the connection joint is closed so that it is impervious to driving rain. Embedding the plaster leg in an adhesive and/or plaster layer also counteracts the formation of cracks, so that permanent driving rain tightness can be achieved.
  • the proposed plastering strip makes it easier to run a fabric loop around the lintel, since it can be attached to the on-site substrate before the lintel-forming thermal insulation element is attached. If the lintel-forming thermal insulation element is then attached, only the second plaster leg running perpendicularly or at an angle to the substrate must be connected to the thermal insulation element. This can be done by plastering.
  • the lintel-forming thermal insulation element is preferably attached to the on-site substructure with the aid of an adhesive or an adhesive layer.
  • the first plastering leg of the plastering strip is then also permanently attached to the substrate via this.
  • To attach the plastering strip it is sufficient if only the profile is connected to the on-site substrate.
  • a door or window frame forms the on-site base, so that the base is smooth and even. This makes it easier to attach the profile to the substrate so that the connection can be carried out cleanly.
  • the profile is preferably glued to the door or window frame to attach the plaster strip.
  • the profile is ideally designed to be self-adhesive, for example by means of an adhesive tape with a removable protective film applied to the back.
  • the two plaster legs of the proposed plaster strip are made from a perforated fabric, so that the adhesive and/or the plaster compound can dig into the fabric when embedding.
  • the plastering legs can be formed, for example, as perforated legs of a metal profile. It is also possible for the plastering legs to be designed as a separate angular structure which is attached to the base area of the profile. This angular structure is preferably formed from a woven fabric, knitted fabric, scrim, knitted fabric, fleece or grid. In this way, reinforcement of the adhesive and/or plaster layer is achieved at the same time.
  • the fabric, knitted fabric, scrim, knitted fabric, fleece or grid can be made of metal, glass fibers, mineral fibers, aramid fibers or be made of plastic.
  • a coating can increase insensitivity to moisture and/or harmful chemical substances.
  • Stainless steels have the advantage that they are not sensitive to moisture.
  • the two plastering legs of the plastering strip are preferably connected to one another, in particular formed in one piece. This simplifies the production of the plastering strip, since only a fabric, knitted fabric, scrim, knitted fabric, fleece or grid has to be connected to the base profile of the plastering strip. This means that one connection point is sufficient.
  • the two plaster legs can also be formed from two woven fabrics, knitted fabrics, scrims, crocheted fabrics, fleeces or grids, which are then connected to one another, for example by gluing, welding, stapling or sewing.
  • the two plastering legs are preferably bonded to the profile of the plastering strip.
  • the material connection can be easily produced, for example by gluing or welding, so that a permanent connection between the plaster legs and the profile is guaranteed. If the two plastering legs are designed in one piece or are connected to one another, the connection of one plastering leg to the profile is sufficient. The respective other plaster leg is then not directly but indirectly connected to the profile.
  • the plastering legs are preferably connected to the base profile as a one-piece, flat, flat structure. This simplifies the manufacture and also the packaging of the plastering strips.
  • the one-piece, connected plastering leg essentially has a predetermined buckling point in the middle, so that an angle can be produced from it later.
  • the profile can be designed as a simple bar, as an angle or as a profile with a complex cross-sectional shape.
  • the profile or the base area of the profile preferably has a connection surface which faces the on-site subsurface, so that the plastering strip can be connected to the on-site subsurface via the connection surface of the profile.
  • the connection surface thus forms a rear side of the profile.
  • the profile or the base area of the profile preferably has an adhesive and/or sealing tape, so that attachment to the on-site substrate is simplified.
  • it can be an adhesive tape that is covered with a protective film, so that to attach the plastering strip to the on-site substrate, the protective film simply has to be removed and the profile of the plastering strip must be pressed against the on-site substrate.
  • the profile is therefore self-adhesive.
  • the sealing tape is elastic and can therefore absorb movements, in particular pressure and shearing movements, ideally also pulling movements.
  • the sealing tape can be made of foam, for example PE, PVC, silicone, polyester foam or neoprene, and has a self-adhesive layer on the top and bottom.
  • a sealing tape based on a foam it is also possible to use a sealing tape made from a sticky, plasto-elastic material, such as butyl rubber or a hot-melt adhesive. If this plastoelastic adhesive and sealing tape is sufficiently thick, it can absorb movements through deformation. Tapes made of foam with a sheath made of a plastoelastic, sticky material can also be used. In this way, both permanent tightness and movement absorption are guaranteed.
  • a separate sealing tape that may be provided in the connection area, in particular compriband, can thus be omitted, which further simplifies the design of the connection.
  • sealing tape other flexible and self-adhesive sealing elements can also be located below the connection surface of the profile.
  • These can be multi-part constructions, which include, for example, a telescopic function, flexible membranes, a flexible hollow chamber profile such as a bellows, foam tape and/or a compression tape.
  • the sealing element has a self-adhesive surface on the underside with which it is attached to the door or window frame.
  • the profile is designed in several parts and comprises at least two profile parts arranged essentially parallel to one another, which are connected to one another via an elastic and/or flexible further profile part.
  • the elastic and/or flexible further profile part also serves to absorb movement and can be used as an alternative or in addition to a flexible element according to the preceding description.
  • the elastic and/or flexible profile part does not lie against the on-site subsoil, but is arranged between the two parallel profile parts, so that it has no contact with the on-site subsoil.
  • the elastic and/or flexible profile part can, for example, be made of a foam material analogous to a sealing strip. Alternatively, it can be designed in the manner of a folded or corrugated bellows.
  • the elastic and/or flexible profile part can deform in such a way that the distance between the two parallel profile parts can change to accommodate movement. Changing the distance can also result in a different orientation of the two profile parts relative to one another, so that they no longer run parallel to one another.
  • a sealing strip made of flexible foam can be located between the profile parts arranged parallel to one another.
  • sealing is provided by a flexible membrane on the side of the plasterboard facing the window area. This membrane is significantly wider than the clear distance between the two profile parts.
  • the adhesive bond between a profile part and the inner sealing tape is weakened, for example by reducing the adhesive surface. If tensile and/or shearing movements occur, the internal sealing strip detaches from the profile part. This means that train movements can also be recorded.
  • the seal is made by the membrane located in front of it.
  • the profile is designed in multiple parts and comprises at least two profile parts that are movably guided in one another.
  • a movement absorption can also be achieved via the movable guidance of the two profile parts into one another.
  • the two profile parts can be guided telescopically into one another.
  • the at least one plaster leg is preferably arranged on the surface of the profile facing away from the connection surface and is connected to the profile. This means that the plaster leg must be at a certain distance from the on-site substrate. The distance is determined by the profile thickness and the strength of the adhesive and/or sealing tape. This has the advantage that the plaster leg is surrounded on all sides by the adhesive or the plaster compound after it has been embedded in the adhesive and/or plaster layer.
  • the profile forms a pull-off edge.
  • the pull-off edge facilitates the formation of a single or multi-layer plaster layer to be applied to the underside of the lintel-forming thermal insulation element.
  • the height of the plaster layer can be adjusted via the pull-off edge.
  • it enables the plaster layer to form a clean connection to the on-site substrate, in particular to a door or window frame. This is because the plaster layer does not go all the way to the door or window frame, but only to the pull-off edge.
  • the pull-off edge can be formed in that the plaster leg, which is arranged at an angle to the strip, is behind the pull-off edge is arranged lying back. The distance then determines the layer thickness of the later single or multi-layer plaster layer.
  • the profile is angled to form a pull-off edge. By arranging the pull-off edge at an angle, the distance to the on-site base, in particular to the door or window frame, can be reduced, so that a gap remaining between the base and the pull-off edge is reduced.
  • the pull-off edge is connected to a strip for attaching a cover film via a predetermined breaking point.
  • the cover film serves to protect the door or window system behind it while the plastering and/or painting work is being carried out.
  • the cover foil can be removed and the strip can be separated from the profile of the plaster strip by snapping or breaking off. The profile then closes flush with the single or multi-layer plaster layer applied to the lintel-forming thermal insulation element via the pull-off edge.
  • the strip connected to the profile via a predetermined breaking point can have an adhesive tape for easy attachment of the cover film.
  • This can be covered with a protective film. After removing the protective film, the cover film can be attached quickly and easily.
  • the base area of the profile of the plastering strip is lengthened at the end facing away from the window area.
  • a flexible element for example a flexible web and/or flexible lip, a flexible hollow chamber profile or a foam strip, can be connected to this extension. This is to create a cavity that will remain free of glue. If this cavity were sealed with adhesive, the adhesive could significantly impair the movement absorption of the plasterboard after it has hardened.
  • a thermal insulation composite system with a plastering strip according to the invention is also proposed.
  • the profile of the plastering strip is arranged in the area of a door or window lintel, preferably in a cavity between a lintel-forming thermal insulation element of the thermal insulation composite system and a door or window frame.
  • the cavity is sealed off from the outside by the plaster strip, so that the required tightness of the connection against driving rain is guaranteed.
  • the arrangement of the profile of the plastering strip in a cavity allows for deformations of a sealing strip connected to the profile and/or movements of several profile parts relative to one another in order in this way to absorb and compensate for movements of the thermal insulation composite system relative to the on-site substrate.
  • an adhesive and/or plaster layer applied to the lintel-forming thermal insulation element for attaching the thermal insulation element to the substrate must therefore maintain a certain distance from the profile of the plaster strip. Only the plaster leg on the substrate side should be embedded in this adhesive and/or plaster layer.
  • the profile of the plastering strip is preferably glued to the door or window frame. This forms a smooth and even surface, making it easier to attach the plasterboard. In addition, a clean connection is guaranteed.
  • the bond is preferably made using an adhesive and/or sealing tape. This means that an adhesive is not first applied to the profile in order to glue it to the door or window frame. This further simplifies the attachment of the plaster strip. It is also ensured that no adhesive runs, drips or oozes out of the connection area.
  • the first plastering leg of the plastering strip is preferably connected via an adhesive layer to a rear side of the lintel-forming thermal insulation element and/or to an on-site substrate.
  • the first plaster leg is therefore the plaster leg between the thermal insulation element and the on-site substructure is arranged.
  • the adhesive layer provided for this purpose can also be used to connect the first plaster leg to the on-site substrate and the thermal insulation element. In this case, only one layer of adhesive needs to be provided.
  • the first plaster leg can be connected to the on-site substrate via a first layer of adhesive, so that it is secured in its position.
  • the thermal insulation element can then be connected to the substrate via a second layer of adhesive.
  • the formation of two layers of adhesive is not necessary.
  • the at least one layer of adhesive between the lintel-forming thermal insulation element and the on-site substrate is preferably at a distance from the profile of the plastering strip. This means that a cavity remains on the side next to the profile. As already explained above, this enables the deformations and/or movements of the profile or profile parts from which the profile is formed, which are required to absorb movement. Movements of the thermal insulation element relative to the on-site substrate can thus be absorbed and compensated for via the profile.
  • the second plaster leg of the plaster strip is preferably plastered into a single or multi-layer plaster layer, which is formed on an underside of the lintel-forming thermal insulation element.
  • the second plaster leg is therefore arranged at an angle to the on-site substrate. The angle essentially corresponds to the angle enclosed by the two plaster legs. Minor deviations can be compensated for via the elasticity and/or flexibility of the two plastering legs.
  • plastering strip according to the invention in a thermal insulation composite system to form the connection in the area of a door or window lintel simplifies the formation of a fabric loop, since it is easy to handle and also enables a clean connection.
  • arrangement of a non-combustible thermal insulation element to form a fire bar can be dispensed with.
  • thermal insulation element that forms the lintel is preferably made of a material that can be assigned at least to the “hardly flammable” building material class.
  • the use of the plastering strip according to the invention facilitates the production of the thermal insulation composite system, in particular the connection in the area of a door or window lintel.
  • the connection area is therefore less prone to errors, so that the required tightness against driving rain is guaranteed.
  • a visually appealing, clean connection can be made, which is also significantly less prone to cracking over time.
  • FIG. 1 shows a comparatively simple embodiment of a plastering strip 1 according to the invention.
  • This profile consists of a base area 2 with a plastering leg 3 located in its continuation and a second plastering leg 4.
  • the plastering legs enclose an angle ⁇ of 90°.
  • the base area 2 has a connection surface 5 on which a sealing element 6 in the form of an adhesive and sealing tape is arranged.
  • the plastering strip 1 can be glued to a door or window frame 103.
  • the adhesive and sealing tape is flexible and can absorb movements.
  • the plaster leg 4 is arranged on the base area 2 in such a way that it is at a distance from the side edge of the base area 2, a pull-off edge 7 is formed, which ensures a sufficient thickness of the plaster layers, in particular that of a base plaster 107.1 (see example figure 5 )
  • the modification consists in that the two plastering legs 3, 4 are designed in the form of an angular structure, for example made of glass fiber fabric.
  • the legs 3, 4 of this glass fiber fabric angle enclose an angle ⁇ of 90 °.
  • the glass fiber fabric angle is connected to the base area 2 via a welded joint 13 .
  • the plastering strip 1 has a base area 2 with a plastering leg 3 located in its continuation and a second plastering leg 4.
  • the plastering legs enclose an angle ⁇ of 90°.
  • a flat profile part 15 is located parallel to the base area 2.
  • An elastic profile part 16 in the form of a foam strip is glued in between the base area 2 and the profile part 15 in the rear area.
  • the membrane 12 is used for sealing after movement has been taken up.
  • the connection between the foam tape and the base area 2 is weakened, for example by the adhesive surface being reduced by one or more indentations.
  • This adhesive connection thus represents a predetermined breaking point 8 .
  • a sealing element 6 in the form of an adhesive and sealing tape is arranged on the underside of the profile part 15 , with which the plastering strip 1 can be glued to a door or window frame 103 .
  • the adhesive and sealing tape is flexible and can absorb movements. Since the plastering leg 4 is arranged on the base area 2 in such a way that it extends to the side edge of the base area 2 is spaced apart, a pull-off edge 7 is formed, which ensures a sufficient thickness of the plaster layers 107, in particular that of the base plaster 107.1 (see example figure 5 ).
  • Figure 4a shows the plaster strip 1 of the 3 in the installed state, ie after installation on a door or window frame 103 by means of the self-adhesive sealing element 6 in the form of an adhesive and sealing tape.
  • the base region 2 detaches from the foam strip 16 via a predetermined breaking point 8 .
  • the base area 2 and the profile part 15 are connected to one another via the flexible membrane 12 .
  • the membrane 12 ensures the seal when moving as in the figures 4b ) and 4c ) shown.
  • FIG 5 shows the plastering strip 1 of 3 in the installed state, ie after installation on a door or window frame 103 by means of the self-adhesive sealing element 6 in the form of an adhesive and sealing tape.
  • the plaster leg 3 is fixed or filled with an adhesive or an adhesive layer 104 on the substrate 106 .
  • a thermal insulation element 102 is glued with the adhesive to the plaster leg 3 that has been filled in before.
  • the plaster leg 4 is filled with a base plaster 107.1 on the thermal insulation element 102.
  • a top coat 107.2 is applied flush with the pull-off edge 7.
  • the base area 2 is essentially U-shaped and has two lips 18 in the lower area.
  • a profile part 17 is guided in the base area 2 .
  • the profile part 17 consists of a first web 17.1, a second web 17.2 standing perpendicular to it and, in its extension, a head 17.3, which is approximately as wide as the chamber formed by the base area 2 (internal dimension).
  • the profile part 17 is attached to a door or window frame 103 by means of a self-adhesive sealing element 6 in the form of an adhesive and sealing tape.
  • the base area 2 of the profile and the profile part 17 can be pulled apart telescopically if required.
  • Figure 6a shows the installation status and Figure 6b ) the profile after movement absorption.
  • a protective tab 9 with an adhesive tape 14 for attaching cover sheets, the protective tab 9 being able to be separated via a predetermined breaking point 8 after the plastering work has been completed.
  • FIG. 7 shows a preferred embodiment of a plaster strip 1 according to the invention, in which the base area 2 of the profile and the profile part 15 are connected via an elastic profile part 16, which is designed as a bellows. The movement is absorbed here via the bellows.
  • a sealing element 6 On the underside of the profile part 15 there is a sealing element 6 in the form of an adhesive and sealing tape, with which the plaster strip 1 can be glued to a door or window frame 103 .
  • a plaster strip 1 shows a further preferred embodiment of a plaster strip 1 according to the invention.
  • a self-adhesive strip 19 which acts as an assembly aid in order to attach the profile to a door or window frame 103.
  • This self-adhesive tape 19 may later become detached from the door or window frame 103 when movement is taken up.
  • a sealing element 6 in the form of an impregnated joint sealing tape, which is held in a compressed state by a protective tab 9 .
  • the end of the protective tab 9 is held in a groove 10 of the base area 2 of the profile. After completion of the installation and plastering work, this protective tab 9 is pulled out of the groove 10 and removed (see arrow 20) so that the joint sealing tape can expand.
  • the joint sealing tape assumes the sealing function and, on the other hand, it allows movement to be absorbed in three dimensions.
  • the modification is that the base portion 2 has been extended upwards to form a cavity 101.
  • the cavity 101 is required for movement absorption.
  • FIG. 10 shows a modification of the plastering strip 1 of 9 .
  • a flexible protective lip 11 was additionally attached to the extended base area 2 in order to close the cavity 101 .
  • the Figures 11a) to 11c) show a possible production process and/or application of the plastering strip 1 of 3 .
  • a strip of fabric to form the plaster legs 3, 4 is welded essentially centrally to the base area 2 of the profile.
  • the fabric strip has a predefined kink 21 next to the welded joint 13.
  • the fabric is folded along the predefined kink 21 ( Figure 11b ) until it reaches the desired angle, say 90° ( 11c ).

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  • Engineering & Computer Science (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Specific Sealing Or Ventilating Devices For Doors And Windows (AREA)
EP21174221.8A 2021-05-17 2021-05-17 Baguette de crépi pour un système composite d'isolation thermique, système composite d'isolation thermique et procédé de fabrication d'un système composite d'isolation thermique Withdrawn EP4092239A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
EP21174221.8A EP4092239A1 (fr) 2021-05-17 2021-05-17 Baguette de crépi pour un système composite d'isolation thermique, système composite d'isolation thermique et procédé de fabrication d'un système composite d'isolation thermique

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Application Number Priority Date Filing Date Title
EP21174221.8A EP4092239A1 (fr) 2021-05-17 2021-05-17 Baguette de crépi pour un système composite d'isolation thermique, système composite d'isolation thermique et procédé de fabrication d'un système composite d'isolation thermique

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EP4092239A1 true EP4092239A1 (fr) 2022-11-23

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EP21174221.8A Withdrawn EP4092239A1 (fr) 2021-05-17 2021-05-17 Baguette de crépi pour un système composite d'isolation thermique, système composite d'isolation thermique et procédé de fabrication d'un système composite d'isolation thermique

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
AT18031U1 (de) * 2022-06-15 2023-11-15 Mick Mag Christian Anputzdichtleiste

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1222346B1 (fr) * 1999-10-18 2006-03-08 August Braun Baguette de limitation de crépi
EP1956158A2 (fr) * 2007-02-06 2008-08-13 VWS-Befestigungstechnik GmbH Profil de raccordement, en particulier bande de crépi
EP2492429B1 (fr) * 2011-02-25 2016-12-28 August Braun Bande de crépissage ainsi qu'angles de construction dotés d'une bande de crépissage
DE202020002455U1 (de) * 2020-06-04 2020-07-27 Bowcraft Gmbh Anputzleiste mit Dichtungsbahn
EP3708736A1 (fr) * 2019-03-12 2020-09-16 all-tech Profile GmbH Profilé raccord pour composants adjacents au crépi doté d'une branche à mouvement articulé

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1222346B1 (fr) * 1999-10-18 2006-03-08 August Braun Baguette de limitation de crépi
EP1956158A2 (fr) * 2007-02-06 2008-08-13 VWS-Befestigungstechnik GmbH Profil de raccordement, en particulier bande de crépi
EP2492429B1 (fr) * 2011-02-25 2016-12-28 August Braun Bande de crépissage ainsi qu'angles de construction dotés d'une bande de crépissage
EP3708736A1 (fr) * 2019-03-12 2020-09-16 all-tech Profile GmbH Profilé raccord pour composants adjacents au crépi doté d'une branche à mouvement articulé
DE202020002455U1 (de) * 2020-06-04 2020-07-27 Bowcraft Gmbh Anputzleiste mit Dichtungsbahn

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
AT18031U1 (de) * 2022-06-15 2023-11-15 Mick Mag Christian Anputzdichtleiste
EP4293173A1 (fr) 2022-06-15 2023-12-20 Christian Mick Baguette d'étanchéité en plâtre

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