EP3808918A1 - Bande pour crépi destinée à être agencée sur une transition de bâtiment ainsi que transition de bâtiment associée - Google Patents

Bande pour crépi destinée à être agencée sur une transition de bâtiment ainsi que transition de bâtiment associée Download PDF

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Publication number
EP3808918A1
EP3808918A1 EP20203275.1A EP20203275A EP3808918A1 EP 3808918 A1 EP3808918 A1 EP 3808918A1 EP 20203275 A EP20203275 A EP 20203275A EP 3808918 A1 EP3808918 A1 EP 3808918A1
Authority
EP
European Patent Office
Prior art keywords
strip
plastering
building
plaster
leg
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
Application number
EP20203275.1A
Other languages
German (de)
English (en)
Other versions
EP3808918C0 (fr
EP3808918B1 (fr
Inventor
Oliver C. MEYER
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.)
Braun Magdalena
Original Assignee
Individual
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Filing date
Publication date
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Priority to HRP20240220TT priority Critical patent/HRP20240220T1/hr
Publication of EP3808918A1 publication Critical patent/EP3808918A1/fr
Application granted granted Critical
Publication of EP3808918C0 publication Critical patent/EP3808918C0/fr
Publication of EP3808918B1 publication Critical patent/EP3808918B1/fr
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04FFINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
    • E04F13/00Coverings or linings, e.g. for walls or ceilings
    • E04F13/02Coverings or linings, e.g. for walls or ceilings of plastic materials hardening after applying, e.g. plaster
    • E04F13/04Bases for plaster
    • E04F13/06Edge-protecting borders
    • 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

Definitions

  • the present invention relates to a plastering strip for arrangement on a building junction and a building junction with such a plastering strip.
  • Plaster strips are known in many designs. Plaster strips are particularly often used where a layer of plaster on the outer surface of a building wall or a reveal surface of a window opening or a door opening of a building, e.g. B. ends on a thermal insulation attached to the outer surface or the reveal surface in the area of a window frame or a door frame.
  • a plaster strip can be used to ensure that the plaster layer does not come directly up to the window frame or door frame, but that the plaster strip, which has a decoupling effect, sits between them.
  • a plastering strip according to the invention for arrangement at a building transition between a first building component, in particular a roller shutter guide rail, a slat guide rail, a window sill, a window or door frame, a pilaster strip or a beam, and a second building component, in particular a thermal insulation and / or a plaster layer on a building wall and / or a building wall comprises a base area, with an expansion strip with delayed expansion being arranged on the rear side of the base area, which extends backwards in particular after a confinement area has been released, and with the A plastering area is arranged on the front of the base area.
  • a rear-engaging fixing leg is provided which protrudes backwards in relation to the main direction of extent of the base area.
  • Such a plastering strip has a rear-engaging fixing leg which fixes the plastering strip to the first building component, different variants being possible for the fixing here and being covered by the present invention.
  • the plastering strip can be fixed with its grip-behind fixing leg in a gap, in particular in a lateral gap between the first building component and the second building component, in particular in a clamping manner.
  • the plaster strip can be glued to the outside of the first building component with an adhesive strip provided on the grip-behind fixing leg.
  • the plastering strip also has an expansion strip with delayed expansion, which extends backwards, especially after a confinement area has been released, and which is intended to be placed against the front, top or bottom of the first building component and a sealed one To create building transition.
  • the plastering strip has a plastering area on the front side of the base area, which is intended for a plaster layer to be applied up to this and a connection with it.
  • the plastering strip according to the invention is fixed by means of the base area protruding backwards in relation to the main direction of extent of the base area Reaching fixation leg.
  • the direction of travel of the rear-engaging fixing leg is in particular parallel to the direction of expansion of the expansion strip.
  • the plaster strip in which the plaster strip at a building transition between a first building component, in particular a roller shutter guide rail, a slat guide rail, a window sill, a window or door frame, a pilaster strip or a beam, and a second building component, in particular thermal insulation and / or a layer of plaster is arranged on a building wall and / or a building wall, the rear-engaging fixing leg protrudes in the depth direction of the first building component, in particular in a direction perpendicular to the front, upper - Or the underside of the first building component against which the expansion strip rests after the confinement area has been released.
  • an expansion strip with delayed expansion is used, which is applied to the front, top or bottom of the first building component and thus creates a reliable seal.
  • the first advantage of this is that the plastering strip is quicker and easier to attach to the building junction, especially since no substrate preparation is required on the front, top or underside of the first building component and, especially, by means of the rear-grip fixing leg, easier and faster attachment and a simpler and faster fixation of the plaster strip compared to the first building component is achieved.
  • the plastering strip according to the invention Through the first building component, in particular through the outside of the first building component, there is a guide that is used by the plastering strip according to the invention, in particular by its grip-behind fixing leg.
  • the main direction of extent of the base region can be determined in particular by the direction of extent of the base wall to which the expansion strip is attached with delayed expansion, and / or it can be determined by the width direction of the expansion strip with delayed expansion and be orthogonal to the direction of expansion of the expansion strip .
  • the plaster strip is often fixed to the first building component by an area of the plaster strip whose main direction of extent corresponds to the main direction of extent of the base area, e.g. by means of an adhesive strip attached to such an area.
  • the main direction of extension of the rear-engaging fixing leg is located essentially orthogonally to the main direction of extension of the base region.
  • the plaster strip according to the invention also enables more precise processing. Compared to installation situations in which the plastering strip is glued frontally onto the first building component, in particular onto the window or door frame, incorrect gluing, in particular gluing too far to the left or too far to the right, and especially gluing out of alignment, is reliable avoided.
  • the plastering strip is glued a few millimeters too far to the left or too far to the right from the alignment onto the front of the first building component, this results in sealing problems and the appearance of the building transition is also unfavorable. Such Problems are reliably avoided by the plaster strip according to the invention.
  • the plastering strip according to the invention on the other hand, precise, millimeter-accurate positioning relative to the outside of the first building component and thus always suitable positioning of the entire plastering strip relative to the first building component is achieved.
  • the rear-engaging fixing leg forms a stop opposite the outside of the first building component.
  • the plaster strip according to the invention is always positioned in an absolutely aligned manner.
  • the precise, millimeter-accurate positioning of the plastering strip according to the invention by means of the rear-engaging fixing leg achieves improved stability, which also further improves the sealing quality.
  • the engaging behind fixing leg is angled in particular by 90 ° in relation to the main direction of extent of the base region.
  • the rear-grip fixing leg positions the plastering strip permanently from one direction with respect to the outside of the first building component, and the expansion strip with delayed expansion exerts a certain pressure on the building component from a second direction from the front, above or below Positioning direction of the grip-behind fixing leg lies in particular at an angle of 90 °. This keeps the plastering strip permanently in the desired position.
  • the building transition created by means of the plastering strip offers better stability and a permanently reliable seal.
  • the base region can have a front, a back, an inner end, and an outer end.
  • the base body of the plastering strip is understood to mean the areas usually produced by extrusion, in particular the base area, the plastering area, the grip fixing leg, the plastering leg if present and the confinement area for the expansion strip, if present.
  • the expansion strip with delayed expansion, if any, the adhesive strip on the inside of the rear-engaging fixing leg, if any, and the reinforcement fabric section, if any, are not part of the basic body of the plastering strip.
  • the rear-engaging fixing leg is arranged at the outer end of the base area, in particular at that end of the base area which is remote from the plastering area.
  • the rear-engaging fixing leg forms the outer end of the plastering strip.
  • the grip-behind fixing leg protrudes in the direction of the first building component. Its direction of extent is in particular parallel to the direction of extent of the plastering leg, if such a plastering leg is provided, and of the reinforcing fabric section, if such a reinforcing fabric section is provided, and in particular parallel to the main direction of extension of the plaster layer to be applied to the thermal insulation or the building wall, the up to reaches up to the plastering strip.
  • the engaging behind fixing leg is arranged at a substantially right angle to the main direction of extent of the base region.
  • the grip-behind fixing leg is intended for a clamping fixation in a gap between the first building component and the second building component.
  • the grip-behind fixing leg can have a straight leg shape, with a leg width that corresponds approximately to the width of the gap.
  • the grip-behind fixing leg can have an additional clamping means.
  • the grip-behind fixing leg has an adhesive strip which is intended for gluing the plastering strip to the outside of the first building component.
  • the adhesive strip can be attached to the inside of the rear-engaging fixing leg and, in particular, glued onto it.
  • the plastering strip comprises a plastering leg which is provided on the front side of the base area and projects forward.
  • a plastering strip with a plastering leg protruding to the front typically shows a particularly firm connection of the plastering strip between the two building components in the installed state.
  • the plastering leg can have a protruding direction which is essentially opposite to the expansion direction of the expansion strip and the way-away direction of the rear-engaging fixing leg.
  • the plaster leg can have a channel profile that increases the adhesion of the plaster layer.
  • the plastering leg is arranged at an inward width position, at a distance from the outer width position of the rear engagement fixing leg, based on the base region.
  • the outside of that The section of the plastering strip located on the plaster leg can bear against the second building component, in particular the thermal insulation, for example on a step of the thermal insulation.
  • a base plaster layer can occupy the section of the plaster strip located on the outside of the plaster leg.
  • the plastered area is formed from the inside of the plastered leg and from the front side of the section of the base area located on the inside of the plastered leg.
  • the inside of the plastering leg and / or the front of the section of the base area located inside of the plastering leg can be provided with a channel profile for improved adhesion to the plaster.
  • the width of the plastered area from the inner end to the inside of the plaster leg can correspond to the thickness of the plaster layer to be applied or, if a base layer of plaster is used, the thickness of the plaster layer to be applied.
  • a reinforcement fabric section is attached to the plaster leg, which extends in a parallel direction to the plaster leg to the front and which is embedded in the plaster.
  • this reinforcing fabric section can extend along a surface of the thermal insulation and be connected to it by filling.
  • the reinforcement fabric section can be fastened to the base body of the plastering strip, in particular to the plastering leg, by welding. Other types of attachment are possible, in particular gluing or clamping.
  • the plaster strip further comprises a strip-shaped protective flap to which a protective film for the first building component can be attached.
  • the strip-shaped protective flap can be connected to the base body via a break-off material bridge or via a connection bridge which has a plastic material that is softer than the material of the base body and which can be coextruded with the harder plastic material of the base body.
  • the strip-shaped protective flap can have a spacer web on its rear side, in particular on the inner end of its rear side.
  • a film can be attached, in particular glued, to the front of the strip-shaped protective flap which spans the first building component, in particular the window or door frame, the roller shutter guide rail or the slat guide rail and protects against damage or soiling during plastering. After the plastering has been completed, the film is removed. The strip-shaped protective flap is separated from the rest of the plastering strip by cutting the connecting bridge and also removed.
  • the base area is designed in the form of a base wall.
  • the base wall can have a stepped profile with a step.
  • the step can be arranged at a width position on the inside of the plaster leg.
  • a particularly channel-like expansion strip receiving area can be formed on the rear side of the base area. In this expansion strip receiving area, the expansion strip is fastened, in particular glued, with delayed expansion, in particular on the rear side of the base wall.
  • channel-like design of the rear side of the base region it can also be designed in an angular manner.
  • a channel-like or angled expansion strip receiving area ensures that the expansion strip is securely received on the back of the base area.
  • the containment area comprises a removable strip of material.
  • This can in particular be made of the same material as the rest of the base body of the plastering strip, in particular it can be extruded with it.
  • the removable material strip can be latched with a latching projection, which is provided in particular on the inside of the grip-behind fixing leg or on the inside of the outer wall of the channel-like or angular receiving area.
  • the locked-in area can thus be held in the locked-up state by means of a form-fitting detent.
  • the removable material strip can also rest on the underside of the base region, in particular on the inner end of the underside of the base region, or be connected to or latched to it.
  • the removable material strip can also be connected to the underside of the base area, in particular the inner end of the underside of the base area and / or to the strip-shaped protective flap, via a break-off material bridge or via a connecting bridge. If the connection is made via a connecting bridge, this can have a plastic material which is softer than the material of the base area and which is coextruded in particular with the harder plastic material of the base body of the plastering strip. In this case, the confinement area can be made in one piece with the rest of the base body of the plastering strip.
  • One possible embodiment consists in that the confinement area - seen in cross section - merges integrally into the base area at a section thereof and is locked in a form-fitting manner with the base area at its outer end. This combines good manufacturability with good transferability of the setting range into the release state.
  • the removable material strip can have a gripping section protruding inwards beyond the base area, by means of which the removable material strip can be removed from the rest of the base body of the plastering strip.
  • the removable strip of material can be stepped and the step can be located at the inner end of the underside of the base region.
  • the gripping section can be stepped backwards. When viewed from the front, the gripping section can be covered by the strip-shaped protective flap.
  • the gripping section allows the confinement area to be removed in a simple manner by pulling it out inwards and thus to transfer the expansion strip into the release state, in that the expansion strip expands and makes a sealing contact with the outside of the first building component.
  • the strip-shaped protective flap When the gripping section is formed separately from the strip-shaped protective flap and when the gripping section of the removable material strip is formed is covered by the strip-shaped protective flap viewed from the front, the strip-shaped protective flap can be removed after plastering has been carried out. Subsequently, by pulling the gripping section inward, the confinement area can be brought into the release state.
  • the strip-shaped protective flap can also be designed in one piece with the removable material strip of the confinement area.
  • the protective flap and the removable material strip can be removed in one step in order to convert the confined area into the released state.
  • the plaster strip is constructed in one piece, in two pieces or in several pieces.
  • the rear-engaging fixing leg can be extruded together with the rest of the base body of the plastering strip and thus be an integral part of the base body of the plastering strip.
  • the grip-behind fixing leg can be produced as a separate part, separate from the rest of the plastering strip.
  • Such a rear-engaging fixing leg formed separately from the rest of the plastering strip can be attached or attached to the building junction separately from the rest of the plastering strip. It can be or will be connected to the rest of the plastering strip by gluing, locking or the like.
  • the invention also relates to a building transition, having a first building component, in particular a roller shutter guide rail, a slat guide rail, a window sill, a window or door frame, a pilaster strip or a beam; a second building component, in particular thermal insulation and / or a layer of plaster on a building wall; and a plaster strip of the type described here; the plastering strip with its rear-engaging fixing leg in a gap between the first building component and the second building component is fixed, or wherein the plastering strip is glued to the outside of the first building component with the adhesive strip of its rear-engaging fixing leg; wherein the base area of the plaster strip is arranged in front of the first building component and the expansion strip, possibly after removing a confinement area, has expanded and is in contact with the front of the first building component; and / or wherein a plaster layer is applied to the thermal insulation or the building wall, which layer extends up to the plastered area of the plaster strip.
  • a plaster layer is applied to the thermal insulation
  • Such a building junction can be produced quickly and precisely, is permanently reliably sealed and has a high level of stability.
  • the building transition to the front, top or bottom of the first building component is reliably sealed by the expansion strip.
  • the plastering strip is reliably and stably fixed in relation to the outside of the first building component or in a gap between the first and second building component by means of the rear-engaging fixing leg.
  • the grip-behind fixing leg engages behind the outside of the first building component.
  • the outside and the front, top or bottom of the first building component are arranged at a substantially right angle to one another.
  • the second building component is designed as thermal insulation.
  • the thermal insulation can have one level.
  • the plastering strip can be arranged with its rear-engaging fixing leg between a side surface of the thermal insulation step and the outside of the first building component.
  • the plastering strip is designed with plastering legs
  • the front side of the base wall in particular the section located outside the plastering leg, can the base wall rest against the face of the step, and the outside of the plaster leg can rest against the inside of the thermal insulation in front of the step. This achieves a particularly permanent and stable positioning of the plastering strip between the first and second building components and ensures a very high and permanent seal between the two building components.
  • the second building component can be designed as thermal insulation without a step.
  • the grip-behind fixing leg can be positioned between the outside of the first building component and the inside of the thermal insulation or the masonry.
  • a base layer of plaster extends from the inside of the thermal insulation or the masonry, preferably up to a position that is predetermined by the plaster leg.
  • a top plaster layer is applied to the base plaster layer, penetrates the reinforcement fabric section and extends to an inside position which is formed by a pull-off edge of the plastered area. This pull-off edge can be formed as the furthest inward position of the plastering area, without considering the strip-shaped protective flap and / or the gripping portion of the removable material strip.
  • the strip-shaped protective flap, if present, and the removable material strip together with the gripping section, if present, have been removed from the rest of the plastering strip after the plastering has taken place.
  • Figure 1 shows a side view of a plaster strip 2 according to a first embodiment of the present invention in the delivery state.
  • the plastering strip 2 is to be arranged at a building transition between a first building component, which can be designed as a roller shutter guide rail, a slat guide rail, a window sill, a window or door frame, a pilaster strip or a beam, and a second Building component, which can be designed as thermal insulation and / or as a plaster layer on a building wall, is determined.
  • a first building component which can be designed as a roller shutter guide rail, a slat guide rail, a window sill, a window or door frame, a pilaster strip or a beam
  • a second Building component which can be designed as thermal insulation and / or as a plaster layer on a building wall, is determined.
  • the plastering strip 2 has a base area 4 with an attached expansion strip 20, a rear-grip fixing leg 22, a plastering leg 10, a plastering area 16 with an attached reinforcement fabric section 12, a strip-shaped protective flap 28 and a confinement area 34 with a removable material strip 36.
  • the base region 4 comprises a base wall 6 which extends from left to right and has a stepped profile with a step 8 which is arranged in the left third of the base wall 6. At level 8, the base wall 6 bends backwards.
  • the inner portion located on the left hand side of the step 8 has the same left-right extension direction as the main part of the base wall 6.
  • a plastering leg 10 is provided approximately at a wide position which corresponds to a third of the total width of the base wall 6 and projects forward at a right angle away from the base wall 6.
  • a reinforcement fabric section 12 which can be designed as a net-like glass silk fabric, is attached to the plaster leg 10.
  • the reinforcing fabric section 12 is attached to the inside of the plaster leg 10 by means of ultrasonic welding.
  • an expansion strip 20 with delayed expansion is provided and in particular attached to the underside of the base wall 6, e.g. B. glued.
  • the expansion strip 20 is accommodated in a channel-like receiving area which is bounded on the left by the outside of the step 8 of the base wall 6 and on the right by an outer wall that attaches to the outer right end of the base wall 6 and extends at right angles to the rear extends.
  • the grip-behind fixing leg 22 extends to the rear.
  • an inwardly protruding latching projection 26 for an expansion strip confinement area 34 is arranged on the inside of the transition between the outer wall of the channel-like receiving area for the expansion strip 20 and the grip-behind fixing leg 22.
  • the length of the rear-engaging fixing leg 22 corresponds approximately to 1 to 4 times, in particular 1.5 to 2.5 times, the length of the outer wall of the channel-like expansion strip receiving area.
  • An adhesive strip 24 is attached to the inside of the rear-engaging fixing leg 22.
  • the inside of the rear-engaging fixing leg 22 with adhesive strips 24 forms a contact surface against an outside of a first building component.
  • the outside of the rear-engaging fixing leg 22 and the outside wall of the channel-like expansion strip receiving area are in alignment and, when the plastering strip 2 is installed, can lie against a second building component, in particular thermal insulation or masonry.
  • the top of the cut of the base wall 6 located to the right of the plaster leg 10 and the right outer side of the plaster leg 10 form a receiving area for thermal insulation or for a base layer of plaster.
  • This confinement area 34 comprises a removable material strip 36, which is latched with its right outer end above the locking projection 26 and which at its left end via a break-off material bridge or via a soft material bridge 42 which extends obliquely forwards to the left inner one
  • the end of the base wall 6, in particular the horizontal end of the base wall 6 on the left in front of the step 8 and / or with the outer end of the strip-shaped protective flap 28 is connected.
  • a gripping section 40 extends inward from this material bridge 42.
  • a step to the rear is formed between the gripping portion 40 and the removable strip of material 36.
  • This gripping section 40 is provided at its left inner end with a roughening for better gripping.
  • the removable strip of material 36 extends parallel to the base wall 6 and reliably holds the expansion strip 20 in its confined state.
  • the strip-shaped protective flap 28 extends from the left, inner end of the base wall 6, in particular from the horizontal lower end section inside of the step 8 inwards and is connected to this end via a material bridge 30, which is either a soft material bridge or a break-off material bridge can be formed.
  • the strip-shaped protective flap 28 On the back of its inner end, the strip-shaped protective flap 28 has a spacer web 32 which, when the plastering strip 2 is installed on a building junction, initially rests on the front of the first building component.
  • An adhesive strip can be arranged on the front of the strip-shaped protective flap, to which a protective film can be attached, which spans the first building component and thus protects against damage and soiling during the installation and plastering process.
  • the gripping section 40 of the confinement area 34 is covered by the strip-shaped protective flap 28 when viewed from the front.
  • the material bridge 30 is between the left inner end of the base wall 8 and the outer end of the strip-shaped protective flap 28 and the material bridge 42 is between the step 38 of the confinement area 34 and the outer end of the strip-shaped protective flap 28 designed as a common material bridge.
  • the strip-shaped protective flap 28 can be removed and at the same time the entire confinement area 34 can be pulled out.
  • the strip-shaped protective flap 28 and the confinement area 34 can also be loosened and removed in two stages.
  • both material bridges 30 and 42 are first separated, but initially only the strip-shaped protective flap 28 is removed and the confinement area 34 still remains on the rest of the plastering strip 2, so that the expansion strip 20 is still held in its confined state.
  • the gripping section 40 and thus the confinement area 34 are then pulled out, possibly supported by a pivoting movement.
  • both parts can also be provided in one. This is particularly easy to imagine when you look in Figure 1 thinks away the gripping section 40 and presents the material bridge 42 as an integral connection of the same material between the strip-shaped protective flap 28 and the removable material strip 36.
  • Figure 2 shows a horizontal section of a building transition 44 with a first building component designed as a roller shutter guide rail 50, with a second building component designed as thermal insulation with step 56 and with a plastering strip 2 arranged in between, after a plaster layer has been applied 60, but before removing the strip-shaped protective flap 28 and the confinement area 34.
  • Figure 3 shows a horizontal section of the building transition 44 after removal of the strip-shaped protective flap 28 and the confinement area 34 of the plastering strip 2, in which the expansion strip 20 has expanded and is in sealing contact with the front side 52 of the roller shutter guide rail 50.
  • Figure 4 shows a horizontal section of a second building transition 44 with a first building component designed as a roller shutter guide rail 50, with a second building component designed as thermal insulation without a step 56 and with a plastering strip 2 arranged in between, after applying a plaster layer 60, but before removing the strip-shaped protective flap 28 and the confinement area 34.
  • Figure 5 shows a horizontal section of the second building transition 44 after removal of the strip-shaped protective flap 28 and the confinement area 34 of the plastering strip 2, in which the expansion strip 20 has expanded and is in sealing contact with the front side 52 of the roller shutter guide rail 50.
  • a building wall 46 forms the left end of a window opening into which a window frame 48 is inserted.
  • the roller shutter guide rail 50 is arranged in front of the window frame 48.
  • the thermal insulation 56 is attached by means of a filler compound 48, which extends to a width position which lies somewhat inside the window opening and covers the left outer end of the roller shutter guide rail 50 as seen from the front.
  • front and back are used in relation to the building exterior and interior direction, so that in the Figures 2 and 3 is understood to be directed to the right at the rear and directed to the left at the front.
  • inside and outside are understood with reference to the first building component, namely the roller shutter guide rail 50, so that outside in the Figures 2 to 5 is understood in each case as pointing upward in the plane of the drawing and inwardly as pointing downward in the plane of the drawing, that is, directed towards the opposite side of the window opening.
  • the building transition of the Figures 2 to 5 is obtained by first inserting a window frame 48 into a window opening which is delimited to the outside by building wall regions 46 and fastening it in the window opening in the usual way.
  • roller shutter guide rail 50 is then positioned from the front on the window frame 48 and likewise fastened in a known, customary manner.
  • plaster strip 2 is attached, as will be described in more detail below.
  • thermal insulation 56 is put on and attached to the outside of the building wall 46 by means of the filler 58.
  • the thermal insulation 56 is formed with a step, as in the Figures 2 and 3 As shown, the roller shutter guide rail 50 is first attached, then the plastering strip 2 is attached, and finally the thermal insulation 56 is applied.
  • the roller shutter guide rail 50 and the thermal insulation 56 can be attached first and then the plastering strip 2 can be attached.
  • the plaster strip 2 which with reference to the Figure 1 has been described in detail, so positioned opposite the roller shutter guide rail 50 that the grip-behind fixing leg 22 rests on the outside of the roller shutter guide rail 50, and that the plaster strip 2 with the spacer web 32 of the strip-shaped protective flap 28 and / or with the underside of the gripping portion 40 of the confinement area 34 abuts the front side of the roller shutter guide rail 50.
  • the thermal insulation 56 is / is attached to the front of the building wall 46 so that its inside, in front of the step, is on the outside of the plastering leg 10 is applied that the front side of its step on the back of the base wall 8 in particular on the portion of the base wall 8 located outside of the plaster leg 10 and that the inwardly facing side of the step either on the outside of the outer wall of the channel-shaped expansion strip receiving area and the Outside of the grip-behind fixing leg 22 rests or lies at a small distance therefrom.
  • the thermal insulation 56 is fastened to the outside of the building wall 46 by means of filler 58 or PU foam and / or by means of mechanical fastening, such as dowels.
  • the front surface of the roller shutter guide rail 50 can be covered by a film that can be glued to the front of the strip-shaped protective flap 28 and extends up to the Figures 2 to 5 not shown, opposite plaster strip and in particular the front side of the strip-shaped protective flap of the opposite plaster strip extends.
  • the plaster layer 60 is then applied, penetrating the reinforcement fabric section 12 and adhering to the inside of the thermal insulation 56.
  • the plaster layer 60 can be applied up to a pull-off edge that is formed by the inner end of the base wall 8.
  • the strip-shaped protective flap 28 and the confinement area 34 can be removed by pulling inward and, if necessary, pivoting forwards, with at least the material bridges 30 being separated, and thus the expansion strip 20 is transferred to its release state.
  • the thermal insulation 56 is now carried out without a step.
  • the plastering strip 2 is fixed with its rear-engaging fixing leg 22 in the gap between the outside of the roller shutter guide rail 50 and the inside of the thermal insulation 56.
  • the grip-behind fixing leg 22 is glued to the outside of the roller shutter guide rail 50 by means of the adhesive strip 24 in addition to the clamping connection between the outside of the roller shutter guide rail 50 and the inside of the thermal insulation 56, but this is not absolutely necessary.
  • a pure clamping connection or a pure gluing is also sufficient.
  • a base plaster layer 62 has been applied and extends from the inside of the thermal insulation 56, filling the receiving space behind the plaster leg 10 up to the width position of the plaster leg 10.
  • a top plaster layer 64 has been applied to the base plaster layer 62 and extends, penetrating the reinforcement fabric. Section 12 to a plaster deduction edge, which is formed by the inner end of the base wall 6, on the left of the step 8.
  • plastering strip 2 lies with the spacer web 32 of its strip-shaped protective flap 28 and / or with the underside of the gripping section 40 of the confinement area 34 on the front side of the roller shutter guide rail 50.
  • Figure 6 shows a horizontal section of a third building transition 44 with a first building component configured as a window sill 66, with a second building component configured as thermal insulation 56 and with one in between arranged plastering strip 2, after applying a plaster layer 60, but before removing the strip-shaped protective flap 28 and the confinement area 34 of the plastering strip 2.
  • Figure 7 shows a horizontal section of the third building transition 44, after removal of the strip-shaped protective flap 28 and the confinement area 34, wherein the expansion strip 20 has expanded and is in sealing contact with a front surface 72 of the lateral window sill profile 70.
  • the first building component is at the building transition Figures 6 and 7th designed as a window sill 66.
  • This comprises a window sill plate 68, which on its in Figure 6 right side has a lateral window sill border profile 70 and on its left opposite, in Figure 6 the left side, not shown, also has a lateral window sill construction profile.
  • the reference numerals 72 and 74 denote the front side and the outside of the lateral window sill structural profile 70, respectively.
  • the plastering strip 2 is now arranged at the building transition between the window sill 66 and the thermal insulation 56, which is formed with a step, that the locking leg 22 rests against the outside of the lateral window sill border profile 70 and, if there is an adhesive strip 24, on its Inside, is glued to the outside 74 of the lateral window sill structural profile 70 by means of this adhesive strip 24.
  • the plaster strip 2 rests with the underside of its gripping section 40 of the confinement area 34 on the front side 72 of the lateral window sill construction profile 70.
  • the inside of the thermal insulation 56 rests against the outside of the plastering leg 10 in front of the step, the front side of its step against the front of the base wall 6, in particular the section of the base wall 6 located outside the plastering leg 10 and with the side surface of the step the outside of the outside wall of the channel-shaped expansion strip receiving area and the outside of the grip-behind fixing leg 22, or is arranged at a small distance therefrom.
  • the window sill 66 is first connected in the usual way to the building wall section which forms the lower end of the window opening, then the plastering strip 2 is positioned with respect to the window sill 66, as described above. Finally, the thermal insulation 56 is applied and connected to the building wall accordingly. This is known to the person skilled in the art and does not need to be explained in more detail here.
  • the plaster layer 60 is applied, penetrating the reinforcement fabric section 12 and adhering to the inside of the thermal insulation 56, up to a plaster pull-off edge that passes through the inside of the base wall 6, in particular the inner end to the left of the step 8 of the base wall 6 is defined is enough.
  • the strip-shaped protective flap 28 and the confinement area 34 are removed from the rest of the plastering strip 2 by severing at least the material bridge 30, in particular by pulling inwards and pivoting forwards.
  • the expansion strip 20 is brought into the released state and lies from the front against the front side 72 of the lateral window sill structural profile 70.
  • the building transitions 44 described above can be created quickly and precisely.
  • the building transitions 44 are permanently and reliably sealed from the front of the first building component.
  • all building transitions are permanently stable.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Building Environments (AREA)
EP20203275.1A 2018-03-12 2019-03-11 Transition de bâtiment avec bande pour crépi Active EP3808918B1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
HRP20240220TT HRP20240220T1 (hr) 2018-03-12 2019-03-11 Građevinski prijelaz s trakom od žbuke

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE102018105610.9A DE102018105610A1 (de) 2018-03-12 2018-03-12 Anputzleiste zur Anordnung an einem Gebäude-Übergang sowie Gebäude-Übergang damit
EP19161839.6A EP3540144B1 (fr) 2018-03-12 2019-03-11 Bande pour crépi destinée à être agencée sur une transition de bâtiment ainsi que transition de bâtiment associée

Related Parent Applications (1)

Application Number Title Priority Date Filing Date
EP19161839.6A Division EP3540144B1 (fr) 2018-03-12 2019-03-11 Bande pour crépi destinée à être agencée sur une transition de bâtiment ainsi que transition de bâtiment associée

Publications (3)

Publication Number Publication Date
EP3808918A1 true EP3808918A1 (fr) 2021-04-21
EP3808918C0 EP3808918C0 (fr) 2024-01-10
EP3808918B1 EP3808918B1 (fr) 2024-01-10

Family

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EP20203275.1A Active EP3808918B1 (fr) 2018-03-12 2019-03-11 Transition de bâtiment avec bande pour crépi
EP19161839.6A Active EP3540144B1 (fr) 2018-03-12 2019-03-11 Bande pour crépi destinée à être agencée sur une transition de bâtiment ainsi que transition de bâtiment associée

Family Applications After (1)

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EP19161839.6A Active EP3540144B1 (fr) 2018-03-12 2019-03-11 Bande pour crépi destinée à être agencée sur une transition de bâtiment ainsi que transition de bâtiment associée

Country Status (6)

Country Link
EP (2) EP3808918B1 (fr)
DE (1) DE102018105610A1 (fr)
HR (1) HRP20240220T1 (fr)
HU (1) HUE052163T2 (fr)
LT (1) LT3540144T (fr)
PL (1) PL3540144T3 (fr)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP4339393A1 (fr) * 2022-09-15 2024-03-20 Braun, Magdalena Baguette de crépissage ainsi que transition de bâtiment

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE29607346U1 (de) * 1996-04-23 1996-07-11 Jörder, Rolf, 68753 Waghäusel Anschlußprofil zwischen Fensterrahmen und Mauerwerksputz im Bereich einer Fensterlaibung
EP1582685A2 (fr) * 2004-03-30 2005-10-05 August Braun Profilé pour joindre une couche d'enduit à un châssis de fenêtre ou similaire avec une partie de base et une partie de jonction
EP1793061A2 (fr) * 2005-12-02 2007-06-06 August Braun Baguette de bord pour une couche d'enduit sur un élément d'isolation thermique

Family Cites Families (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE102007048311B4 (de) * 2007-10-09 2022-08-11 August Braun Anputzleiste für den Übergang zwischen einem Fensterrahmen oder Türrahmen und einer Wärmedämmung
DE102008036656A1 (de) * 2008-08-06 2010-02-25 August Braun Kunststoff-Leiste
DE102011004769A1 (de) * 2011-02-25 2012-08-30 August Braun Anputzleiste sowie Bauwerksecke mit Anputzleiste
DE102011006223A1 (de) * 2011-03-28 2012-10-04 August Braun Anputzleiste sowie Bauwerksecke mit Anputzleiste
DE202013104371U1 (de) * 2013-09-26 2013-10-09 3Ks Profile Gmbh Profilanschlusselement
DE102017107350A1 (de) * 2017-04-05 2018-10-11 August Braun Putzabschlussleiste

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE29607346U1 (de) * 1996-04-23 1996-07-11 Jörder, Rolf, 68753 Waghäusel Anschlußprofil zwischen Fensterrahmen und Mauerwerksputz im Bereich einer Fensterlaibung
EP1582685A2 (fr) * 2004-03-30 2005-10-05 August Braun Profilé pour joindre une couche d'enduit à un châssis de fenêtre ou similaire avec une partie de base et une partie de jonction
EP1793061A2 (fr) * 2005-12-02 2007-06-06 August Braun Baguette de bord pour une couche d'enduit sur un élément d'isolation thermique

Also Published As

Publication number Publication date
HUE052163T2 (hu) 2021-04-28
HRP20240220T1 (hr) 2024-04-26
LT3540144T (lt) 2021-02-25
EP3540144A1 (fr) 2019-09-18
EP3808918C0 (fr) 2024-01-10
PL3540144T3 (pl) 2021-05-31
EP3540144B1 (fr) 2020-10-28
DE102018105610A1 (de) 2019-09-12
EP3808918B1 (fr) 2024-01-10

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