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EP0003720B2 - Method of making a crack-proof, impervious joint between an asphaltic surfacing and part of a structure, set of shaped elements for carrying out the method and structure built according to the method - Google Patents

Method of making a crack-proof, impervious joint between an asphaltic surfacing and part of a structure, set of shaped elements for carrying out the method and structure built according to the method Download PDF

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Publication number
EP0003720B2
EP0003720B2 EP19790810013 EP79810013A EP0003720B2 EP 0003720 B2 EP0003720 B2 EP 0003720B2 EP 19790810013 EP19790810013 EP 19790810013 EP 79810013 A EP79810013 A EP 79810013A EP 0003720 B2 EP0003720 B2 EP 0003720B2
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EP
European Patent Office
Prior art keywords
profile
asphalt
building element
profiles
separating
Prior art date
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EP19790810013
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German (de)
French (fr)
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EP0003720B1 (en
EP0003720A3 (en
EP0003720A2 (en
Inventor
Robert Guénat
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.)
F. KILCHER BAUISOLATIONEN AG
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F Kilcher Bauisolationen AG
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Application filed by F Kilcher Bauisolationen AG filed Critical F Kilcher Bauisolationen AG
Publication of EP0003720A2 publication Critical patent/EP0003720A2/en
Publication of EP0003720A3 publication Critical patent/EP0003720A3/en
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    • EFIXED CONSTRUCTIONS
    • E01CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
    • E01CCONSTRUCTION OF, OR SURFACES FOR, ROADS, SPORTS GROUNDS, OR THE LIKE; MACHINES OR AUXILIARY TOOLS FOR CONSTRUCTION OR REPAIR
    • E01C11/00Details of pavings
    • E01C11/02Arrangement or construction of joints; Methods of making joints; Packing for joints
    • EFIXED CONSTRUCTIONS
    • E01CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
    • E01CCONSTRUCTION OF, OR SURFACES FOR, ROADS, SPORTS GROUNDS, OR THE LIKE; MACHINES OR AUXILIARY TOOLS FOR CONSTRUCTION OR REPAIR
    • E01C11/00Details of pavings
    • E01C11/02Arrangement or construction of joints; Methods of making joints; Packing for joints
    • E01C11/04Arrangement or construction of joints; Methods of making joints; Packing for joints for cement concrete paving
    • E01C11/10Packing of plastic or elastic materials, e.g. wood, resin
    • E01C11/106Joints with only prefabricated packing; Packings therefor
    • EFIXED CONSTRUCTIONS
    • E01CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
    • E01DCONSTRUCTION OF BRIDGES, ELEVATED ROADWAYS OR VIADUCTS; ASSEMBLY OF BRIDGES
    • E01D19/00Structural or constructional details of bridges
    • E01D19/08Damp-proof or other insulating layers; Drainage arrangements or devices ; Bridge deck surfacings
    • E01D19/083Waterproofing of bridge decks; Other insulations for bridges, e.g. thermal ; Bridge deck surfacings
    • EFIXED CONSTRUCTIONS
    • E02HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
    • E02BHYDRAULIC ENGINEERING
    • E02B3/00Engineering works in connection with control or use of streams, rivers, coasts, or other marine sites; Sealings or joints for engineering works in general
    • E02B3/16Sealings or joints
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04DROOF COVERINGS; SKY-LIGHTS; GUTTERS; ROOF-WORKING TOOLS
    • E04D13/00Special arrangements or devices in connection with roof coverings; Protection against birds; Roof drainage ; Sky-lights
    • E04D13/14Junctions of roof sheathings to chimneys or other parts extending above the roof
    • E04D13/1407Junctions of roof sheathings to chimneys or other parts extending above the roof for flat roofs
    • E04D13/1415Junctions to walls extending above the perimeter of the roof

Definitions

  • the present invention relates to a method for crack-proof, tight connection of an asphalt surface to a component, in particular a concrete part.
  • Such connections are required for concrete bridges, both on the edges of the road and on the edges of sidewalks, flat roofs and the like.
  • the joint cementation that is customary for this purpose proves to be inadequate, because due to the strong shrinkage of the asphalt surface, cracks occur sooner or later, at very low temperatures, which sooner or later damage the asphalt surface and / or the Guide the component in the vicinity of the joint.
  • the invention has for its object to provide a method that meets the aforementioned complex requirements and allows cracking, be it by tearing the asphalt or detaching the joint seal from the asphalt or from the building, safely and permanently avoided.
  • connection profile is created on the component, which separates the asphalt from the structure at least in the upper part when the asphalt surface is applied, and that the connection profile is spread after the asphalt surface has at least partially solidified.
  • a chambered connection profile of high elasticity and / or a chambered expansion profile is preferably used for spreading the same, in order to achieve high deformability of the connection profile in all phases.
  • the invention also relates to a set of profiles for carrying out the method explained above, with an expandable connection profile and in the same plug-in expansion profile, for. B. Wedge belt.
  • the invention also relates to a building construction with an asphalt covering, which is connected to the component by the method according to claim 1, a connecting profile being inserted into the expansion joint at the connection point of the asphalt covering on the component, in particular the concrete component of the building construction.
  • a separating profile 5 for example made of neoprene, is placed against the lateral boundary wall 4 below.
  • This separating profile consists of individual chamber profiles of different heights, which are provided on one side with T-shaped anchoring ribs 6, while the opposite side is flat. The flat sides are glued to the concrete using a suitable adhesive, for example neoprene adhesive.
  • the separating profiles are produced in the form of a tape in a certain width, with a higher and a lower box profile alternating in succession in such a way that profiles of a suitable height can be torn off the tapes along the weakest points 7. In the present case, only two box profiles are required.
  • connection profile 8 with chambered legs is arranged above the separating profile 5.
  • One flat side of this profile which can also consist of neoprene, is glued to the side wall 4 of the concrete part 1 by means of neoprene adhesive.
  • this connection profile is also provided with T-shaped anchoring ribs 6.
  • the wedge-shaped space between the two legs of the profile 8 is closed with a band-shaped strip 9, which can be easily torn off at the weak connection points 10 with the profile legs.
  • the connection profile 8 has a raised lip 11 on the side facing the concrete part 1.
  • the asphalt covering 3 is poured, and thanks to the anchoring ribs 6, a tensile connection is created between the profiles 5 and 8 on the one hand and the asphalt covering on the other.
  • the joint between the separating profile 5 and the connecting profile 8 does not need to be glued, but is sufficient if these profiles are so close to one another that the asphalt cannot penetrate to the component 1 in between.
  • the profile strip 9 is torn out of the profile and in its place the wedge-shaped expansion profile 12 is pressed between the legs of the profile 8 according to FIG. 2, thus spreading this profile and compressing it elastically. At the same time, the gap in the profile 8 is sealed at the top.
  • connection profile 8 is thus still elastically compressed and cannot be detached from this covering or from the concrete part 1 if the asphalt covering continues to shrink at very low temperatures. Even at extremely low temperatures, it is not possible for the expansion wedge 12 according to FIG. 2 to loosen in the profile and for water or contamination to penetrate between it and the profile 8.
  • the lip 11 raised on the concrete part 4 prevents moss and impurities from accumulating in the area of the joint on the concrete part.
  • connection profile 8 remains tightly connected to the concrete part 1 and the asphalt surface 3 in the finished building, so that no contamination or water can penetrate.
  • the separating profile 5, on the other hand, only serves to keep the asphalt surface separated from the side wall 4 of the concrete part 1 during casting. This profile can be torn off the concrete part 1 when the asphalt surface shrinks.
  • chambered profiles instead of chambered profiles, full profiles made of foam plastic can also be used, but the chambered profiles have better aging resistance.
  • a V-shaped end profile with thinner, non-chambered legs could be used, into which a wider wedge profile that is chambered to increase the elasticity can be pressed.
  • a final wall over the gap of the connection profile 8 instead of the tear-out profile strip 9, which wall can be cut open for pressing in the expansion profile.
  • Fig. 3 shows an application example with several joints, in which connection profiles 8 are used.
  • the load-bearing concrete part 13 of a bridge is covered with insulation 14.
  • Two asphalt layers 15 and 16 are applied to the roadway part of the bridge.
  • On the lower asphalt surface 15 are the curbs 17, between which and the upper asphalt surface 16 a connecting profile 8 is inserted.
  • Outside the curbs 17 there is a sidewalk with an asphalt layer 18.
  • a connecting profile 8 is in turn inserted.
  • FIG. 4 shows an embodiment variant of a profile, with corresponding parts being identified in the same way as in FIG. 1.
  • anchoring ribs with heads 6 ′ of circular cross section that are somewhat further apart are provided. It has been shown that the asphalt penetrates better between such anchoring ribs during casting and better anchoring is achieved.
  • a separating profile 5 is connected to the connecting profile 8 via a rib 20. It has been shown that such an overall profile can be used unchanged for most applications. If necessary, however, the separating profile 5 can be separated from the connecting profile and / or additional connecting profiles according to FIG. 1 can be used.

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  • Engineering & Computer Science (AREA)
  • Structural Engineering (AREA)
  • Civil Engineering (AREA)
  • Architecture (AREA)
  • General Engineering & Computer Science (AREA)
  • Environmental & Geological Engineering (AREA)
  • Ocean & Marine Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Road Paving Structures (AREA)
  • Bridges Or Land Bridges (AREA)
  • Revetment (AREA)
  • On-Site Construction Work That Accompanies The Preparation And Application Of Concrete (AREA)

Description

Die vorliegende Erfindung betrifft ein Verfahren zum rißsicheren, dichten Anschluss eines Asphaltbelages an einen Bauteil, insbesondere Betonteil. Solche Anschlüsse sind erforderlich bei Betonbrücken, und zwar sowohl an den Rändern der Fahrbahn als auch an den Rändern von Gehsteigen, bei Flachdächern u.dgl. Die zu diesem Zwecke übliche Fugenverkittung erweist sich als ungenügend, denn infolge des starken Schwindens des Asphaltbelages entstehen bereits bei Abkühlung unter etwa 140° C, jedenfalls aber später, bei sehr tiefen Temperaturen Risse, die früher oder später zur Beschädigung des Asphaltbelages und/oder des Bauteils in der Umgebung der Fuge führen.The present invention relates to a method for crack-proof, tight connection of an asphalt surface to a component, in particular a concrete part. Such connections are required for concrete bridges, both on the edges of the road and on the edges of sidewalks, flat roofs and the like. The joint cementation that is customary for this purpose proves to be inadequate, because due to the strong shrinkage of the asphalt surface, cracks occur sooner or later, at very low temperatures, which sooner or later damage the asphalt surface and / or the Guide the component in the vicinity of the joint.

Die genannten Nachteile können nicht vermieden werden, wenn in bekannter Weise längs der Fuge zwischen dem Asphaltbelag und dem Betonbauteil eine sich nach unten verjüngende Nut gefräst und diese mit einem bituminösen Kautschuk vergossen wird (CH-A-373 777).The disadvantages mentioned cannot be avoided if, in a known manner, a groove tapering downwards is milled along the joint between the asphalt surface and the concrete component and this is cast with a bituminous rubber (CH-A-373 777).

Es ist auch bekannt, vor dem Einbringen des Asphaltes am Bauwerk ein Fugenband anzubringen (DE-A-1 965 092). Auch dieses Vorgehen hat sich als ungenügend erwiesen, um allen Anforderungen gerecht zu werden.It is also known to apply a joint tape to the structure before placing the asphalt (DE-A-1 965 092). This approach has also proven to be insufficient to meet all requirements.

Versuche haben nämlich gezeigt, dass zur Erzielung eines dauerhaften, rißsicheren und dichten Anschlusses eines Asphaltbelages an einen starren Bauteil, insbesondere Betonteil, ganz bestimmte Voraussetzungen zu erfüllen sind, d.h. dass während des Einbringens und Erstarrens des Betons in bestimmter Weise vorzugehen ist, um alle Vorbedingungen zu erfüllen, damit weder während des Einbringens und Erstarrens des Asphalts noch später bei den grossen zu erwartenden Temperaturunterschieden trotz seiner geringen Zugfestigkeit, seines starken Schwindens beim Erstarren und seiner Plastizität und seines hohen Ausdehnungskoeffizienten Risse und in ihrer Folge grössere Schäden auftreten.Tests have shown that in order to achieve a permanent, crack-proof and leak-proof connection of an asphalt surface to a rigid component, in particular a concrete part, certain conditions must be met, i.e. that during the pouring and solidification of the concrete, a certain procedure has to be carried out in order to meet all preconditions, so that neither during the pouring and solidification of the asphalt nor later with the large temperature differences to be expected despite its low tensile strength, its strong shrinkage during solidification and its plasticity and its high coefficient of expansion cracks and, as a result, greater damage occur.

Der Erfindung liegt die Aufgabe zugrunde, ein Verfahren anzugeben, welches den vorerwähnten komplexen Anforderungen genügt und Rissbildungen, sei es durch Reissen des Asphalts oder Ablösen der Fugendichtung vom Asphalt oder vom Bauwerk, sicher und dauernd zu vermeiden gestattet.The invention has for its object to provide a method that meets the aforementioned complex requirements and allows cracking, be it by tearing the asphalt or detaching the joint seal from the asphalt or from the building, safely and permanently avoided.

Diese Aufgabe wird dadurch gelöst, dass am Bauteil ein Anschlussprofil angelegt wird, das den Asphalt beim Aufbringen des Asphaltbelages mindestens im oberen Teil vom Bauwerk trennt, und dass das Anschlussprofil nach mindestens teilweisem Erstarren des Asphaltbelages gespreizt wird.This object is achieved in that a connection profile is created on the component, which separates the asphalt from the structure at least in the upper part when the asphalt surface is applied, and that the connection profile is spread after the asphalt surface has at least partially solidified.

Es genügt somit nicht, irgendein Dichtungsband einzulegen oder eine Dichtungsmasse in die Fuge einzubringen, sondern es ist ein Anschlussprofil vorzusehen, welches ohne erhebliche Verformungskräfte dem Asphaltbelag bei seinem Erstarren folgen kann, und das dann zusätzlich gespreizt wird, und zwar erst wenn der Asphalt soweit verfestigt ist, dass er durch den Spreizdruck nicht verformt wird.It is therefore not sufficient to insert any sealing tape or to introduce a sealing compound into the joint, but to provide a connection profile that can follow the asphalt surface when it solidifies without considerable deformation forces, and which is then spread apart, and only when the asphalt has solidified so far is that it is not deformed by the spreading pressure.

Vorzugsweise wird ein gekammertes Anschlussprofil hoher Elastizität und/oder ein gekammertes Spreizprofil zum Spreizen desselben verwendet, um in allen Phasen eine hohe Deformierbarkeit des Anschlussprofils zu erzielen.A chambered connection profile of high elasticity and / or a chambered expansion profile is preferably used for spreading the same, in order to achieve high deformability of the connection profile in all phases.

Es ist zwar aus der DE-A-2 249 879 bekannt, eine V-förmige Scheidenprofilleiste in einen noch nicht erhärteten Estrich, also nicht ausdrücklich in Asphalt, längs einer Betonwand einzudrücken und dann in die Scheidenprofilleiste eine gegebenenfalls keilförmig ausgebildete Füllprofilleiste einzusetzen. Ein Spreizen der Scheidenprofilleiste nach mindestens teilweisem Erstarren des Estrichs ist jedoch nicht vorgesehen, und das bekannte Verfahren ist daher weder zum rissfreien Erstellen eines Anschlusses eines Asphaltbelages geeignet, noch konnte es ein hierfür optimales Vorgehen anregen.It is known from DE-A-2 249 879 to press a V-shaped scabbard profile strip into a not yet hardened screed, i.e. not expressly in asphalt, along a concrete wall and then to insert an optionally wedge-shaped filler profile strip into the scabbard strip. Spreading of the scabbard profile strip after at least partial solidification of the screed is not provided, however, and the known method is therefore not suitable for crack-free connection of an asphalt surface, nor was it able to suggest an optimal procedure for this.

Die Erfindung betrifft auch einen Satz von Profilen zur Durchführung des oben erläuterten Verfahrens, mit spreizbarem Anschlussprofil und in dasselbe steckbarem Spreizprofil, z. B. Keilband.The invention also relates to a set of profiles for carrying out the method explained above, with an expandable connection profile and in the same plug-in expansion profile, for. B. Wedge belt.

Die Erfindung betrifft schliesslich auch eine Baukonstruktion mit einem Asphaltbelag, der nach dem Verfahren nach Anspruch 1 an das Bauteil angeschlossen ist, wobei an der Anschlußstelle des Asphaltbelages am Bauteil, insbesondere Betonbauteil der Baukonstruktion ein Anschlussprofil eingelegt ist, in das ein Spreizprofil eingesetzt ist.Finally, the invention also relates to a building construction with an asphalt covering, which is connected to the component by the method according to claim 1, a connecting profile being inserted into the expansion joint at the connection point of the asphalt covering on the component, in particular the concrete component of the building construction.

Die Erfindung wird nun anhand der Zeichnung näher erläutert, die ein Ausführungsbeispiel zeigt.

  • Fig. 1 zeigt einen Querschnitt durch den massgebenden Teil des Bauwerks unmittelbar nach erfolgtem Giessen des Asphaltbelages,
  • Fig. 2 zeigt ein Spreizprofil,
  • Fig. 3 zeigt ein Anwendungsbeispiel der Erfindung, und
  • Fig. 4 zeigt eine Ausführungsvariante.
  • Fig. 1 zeigt einen Betonbauteil 1,
The invention will now be explained in more detail with reference to the drawing, which shows an embodiment.
  • 1 shows a cross section through the relevant part of the structure immediately after the asphalt has been poured,
  • 2 shows a spreading profile,
  • Fig. 3 shows an application example of the invention, and
  • 4 shows an embodiment variant.
  • 1 shows a concrete component 1,

beispielsweise die Fahrbahn einer Brücke, auf dessen Boden 2 ein Asphaltbelag 3 aufzubringen ist. Gegen die seitliche Begrenzungswand 4 wird unten ein Trennprofil 5, beispielsweise aus Neopren, angelegt. Dieses Trennprofil besteht aus einzelnen Kammerprofilen unterschiedlicher Höhe, die einseitig mit T-förmigen Verankerungsrippen 6 versehen sind, während die gegenüberliegende Seite flach ausgebildet ist. Die flachen Seiten sind mittels eines geeigneten Klebers, beispielsweise Neopren-Kleber mit dem Beton verklebt. Die Trennprofile werden bandförmig in einer bestimmten Breite hergestellt, wobei immer abwechslungsweise ein höheres und ein niedrigeres Kastenprofil aufeinander folgen, derart, dass Profile geeigneter Höhe längs den schwächsten Stellen 7 von den Bändern abgerissen werden können. Im vorliegenden Falle sind nur zwei Kastenprofile erforderlich.for example the roadway of a bridge, on the bottom 2 of which an asphalt surface 3 is to be applied. A separating profile 5, for example made of neoprene, is placed against the lateral boundary wall 4 below. This separating profile consists of individual chamber profiles of different heights, which are provided on one side with T-shaped anchoring ribs 6, while the opposite side is flat. The flat sides are glued to the concrete using a suitable adhesive, for example neoprene adhesive. The separating profiles are produced in the form of a tape in a certain width, with a higher and a lower box profile alternating in succession in such a way that profiles of a suitable height can be torn off the tapes along the weakest points 7. In the present case, only two box profiles are required.

Über dem Trennprofil 5 ist ein V-förmiges Anschlussprofil 8 mit gekammerten Schenkeln angeordnet. Die eine flache Seite dieses Profils, das ebenfalls aus Neopren bestehen kann, ist mittels Neopren-Kleber mit der Seitenwand 4 des Betonteils 1 verklebt. An der gegenüberliegenden Seite ist auch dieses Anschlussprofil mit T-förmigen Verankerungsrippen 6 versehen. Der keilförmige Zwischenraum zwischen den beiden Schenkeln des Profils 8 ist mit einem bandförmigen Streifen 9 abgeschlossen, der an den schwachen Verbindungsstellen 10 mit den Profilschenkeln leicht abgerissen werden kann. Das Anschlussprofil 8 weist an der dem Betonteil 1 zugewandten Seite eine hochstehende Lippe 11 auf.A V-shaped connection profile 8 with chambered legs is arranged above the separating profile 5. One flat side of this profile, which can also consist of neoprene, is glued to the side wall 4 of the concrete part 1 by means of neoprene adhesive. On the opposite side, this connection profile is also provided with T-shaped anchoring ribs 6. The wedge-shaped space between the two legs of the profile 8 is closed with a band-shaped strip 9, which can be easily torn off at the weak connection points 10 with the profile legs. The connection profile 8 has a raised lip 11 on the side facing the concrete part 1.

Sind die Profile 5 und 8 gemäss Fig. 1 an der Seitenwand des Betonteils 1 angebracht, wird der Asphaltbelag 3 gegossen, wobei dank den Verankerungsrippen 6 eine zugfeste Verbindung zwischen den Profilen 5 und 8 einerseits und dem Asphaltbelag anderseits entsteht. Die Fuge zwischen dem Trennprofil 5 und dem Anschlussprofil 8 braucht nicht geklebt zu sein, sondern es genugt, wenn diese Profile so eng aufeinander liegen, dass der Asphalt nicht dazwischen bis an den Bauteil 1 durchdringen kann. Ist der Asphaltbelag mindestens teilweise erstarrt, wird der Profilstreifen 9 aus dem Profil ausgerissen und an seiner Stelle wird das keilförmige Spreizprofil 12 gemäss Fig.2 zwischen die Schenkel des Profile 8 eingepresst und damit dieses Profil gespreizt und elastisch zusammengedrückt. Zugleich entsteht oben ein dichter Abschluss des Spaltes im Profil 8. Die komplementäre Zahnung an der Innenseite der Schenkel des Profils 8 einerseits und an der Aussenseite des Spreizprofils 12 gemäss Fig. 2 anderseits gewährleistet einen tadellosen Halt des Spreizprofils 12 im Anschlussprofil 8. Im fertiggestellten Bauwerk mit vollständig ausgekühltem Asphaltbelag 3 ist somit das Anschlussprofil 8 immer noch elastisch komprimiert und kann somit bei weiterem Schwinden des Asphaltbelages bei sehr tiefen Temperaturen nicht von diesem Belag oder vom Betonteil 1 losgerissen werden. Es ist auch bei extrem tiefen Temperaturen nicht möglich, dass der Spreizkeil 12 nach Fig. 2 im Profil sich lockert und Wasser oder Verunreinigung zwischen sich und dem Profil 8 eindringen lässt. Die am Betonteil 4 hochgeführte Lippe 11 verhindert, dass sich im Bereiche der Fuge am Betonteil Moos und Verunreinigungen ansetzen.If the profiles 5 and 8 according to FIG. 1 are attached to the side wall of the concrete part 1, the asphalt covering 3 is poured, and thanks to the anchoring ribs 6, a tensile connection is created between the profiles 5 and 8 on the one hand and the asphalt covering on the other. The joint between the separating profile 5 and the connecting profile 8 does not need to be glued, but is sufficient if these profiles are so close to one another that the asphalt cannot penetrate to the component 1 in between. If the asphalt pavement is at least partially solidified, the profile strip 9 is torn out of the profile and in its place the wedge-shaped expansion profile 12 is pressed between the legs of the profile 8 according to FIG. 2, thus spreading this profile and compressing it elastically. At the same time, the gap in the profile 8 is sealed at the top. The complementary toothing on the inside of the legs of the profile 8 on the one hand and on the outside of the expansion profile 12 according to FIG with the asphalt covering 3 completely cooled, the connection profile 8 is thus still elastically compressed and cannot be detached from this covering or from the concrete part 1 if the asphalt covering continues to shrink at very low temperatures. Even at extremely low temperatures, it is not possible for the expansion wedge 12 according to FIG. 2 to loosen in the profile and for water or contamination to penetrate between it and the profile 8. The lip 11 raised on the concrete part 4 prevents moss and impurities from accumulating in the area of the joint on the concrete part.

Es genügt, dass im fertiggestellten Bauwerk das Anschlussprofil 8 dicht mit dem Betonteil 1 und dem Asphaltbelag 3 verbunden bleibt, sodass keinerlei Verunreinigung oder Wasser eindringen kann. Das Trennprofil 5 dient dagegen lediglich dazu, den Asphaltbelag beim Giessen von der Seitenwand 4 des Betonteils 1 getrennt zu halten. Dieses Profil kann beim Schwinden des Asphaltbelages vom Betonteil 1 abgerissen werden.It is sufficient that the connection profile 8 remains tightly connected to the concrete part 1 and the asphalt surface 3 in the finished building, so that no contamination or water can penetrate. The separating profile 5, on the other hand, only serves to keep the asphalt surface separated from the side wall 4 of the concrete part 1 during casting. This profile can be torn off the concrete part 1 when the asphalt surface shrinks.

Es sind Ausführungsvarianten möglich. So kann die dem Asphaltbelag zugewandte Seite der Profile 5 und 8 mit Bitumenlack behandelt werden, was beim Giessen des Asphaltbelages eine noch bessere Verbindung dieser Profile mit dem Asphalt ergibt. Im fertiggestellten Bauwerk wird aber die Dichtung zwischen dem Anschlussprofil 8 und dem Asphalt in jedem Falle durch mechanischen Andruck dieses Profiles infolge seiner Spreizung sichergestellt.Variants are possible. The side of profiles 5 and 8 facing the asphalt surface can be treated with bitumen varnish, which results in an even better connection of these profiles with the asphalt when pouring the asphalt surface. In the finished building, however, the seal between the connection profile 8 and the asphalt is ensured in any case by mechanical pressure of this profile due to its expansion.

Anstelle gekammerter Profile können auch Vollprofile aus Schaumkunststoff verwendet werden, doch weisen die gekammerten Profile bessere Alterungsbeständigkeit auf.Instead of chambered profiles, full profiles made of foam plastic can also be used, but the chambered profiles have better aging resistance.

Als weitere Ausführungsvariante könnte ein V-förmiges Abschlussprofil mit dünneren, nicht gekammerten Schenkeln verwendet werden, in welches ein breiteres zur Erhöhung der Elastizität gekammertes Keilprofil eingepresst werden kann. Es wäre schliesslich auch möglich, anstelle des ausreissbaren Profilstreifens 9 eine abschliessende Wand über dem Spalt des Anschlussprofils 8 vorzusehen, welche Wand zum Einpressen des Spreizprofils aufgeschnitten werden kann.As a further embodiment variant, a V-shaped end profile with thinner, non-chambered legs could be used, into which a wider wedge profile that is chambered to increase the elasticity can be pressed. Finally, it would also be possible to provide a final wall over the gap of the connection profile 8 instead of the tear-out profile strip 9, which wall can be cut open for pressing in the expansion profile.

Fig. 3 zeigt ein Anwendungsbeispiel mit mehreren Fugen, in welchen Anschlussprofile 8 verwendet werden. Der tragende Betonteil 13 einer Brücke ist mit einer Isolation 14 belegt. Auf dem Fahrbahnteil der Brücke sind zwei Asphaltschichten 15-und 16 aufgebracht. Auf dem unteren Asphaltbelag 15 liegen die Randsteine 17, zwischen welchen und dem oberen Asphaltbelag 16 ein Anschlussprofil 8 eingelegt ist. Ausserhalb der Randsteine 17 befindet sich ein Gehsteig mit einer Asphaltschicht 18. Zwischen dieser Asphaltschicht und den Randsteinen 17 einerseits und einem äusseren Abschlussprofil 19 anderseits ist wiederum je ein Anschlussprofil 8 eingelegt.Fig. 3 shows an application example with several joints, in which connection profiles 8 are used. The load-bearing concrete part 13 of a bridge is covered with insulation 14. Two asphalt layers 15 and 16 are applied to the roadway part of the bridge. On the lower asphalt surface 15 are the curbs 17, between which and the upper asphalt surface 16 a connecting profile 8 is inserted. Outside the curbs 17 there is a sidewalk with an asphalt layer 18. Between this asphalt layer and the curbs 17 on the one hand and an outer end profile 19 on the other hand, a connecting profile 8 is in turn inserted.

Fig. 4 zeigt eine Ausführungsvariante eines Profils, wobei entsprechende Teile gleich bezeichnet sind wie in Fig. 1. Anstelle der T-förmigen Verankerungsrippen sind etwas weiter auseinanderliegende Verankerungsrippen mit Köpfen 6' kreisrunden Querschnitts vorgesehen. Es hat sich gezeigt, dass der Asphalt beim Guss besser zwischen derartige Verankerungsrippen eindringt und eine bessere Verankerung erzielt wird.FIG. 4 shows an embodiment variant of a profile, with corresponding parts being identified in the same way as in FIG. 1. Instead of the T-shaped anchoring ribs, anchoring ribs with heads 6 ′ of circular cross section that are somewhat further apart are provided. It has been shown that the asphalt penetrates better between such anchoring ribs during casting and better anchoring is achieved.

Ausserdem ist ein Trennprofil 5 über eine Rippe 20 mit dem Anschlussprofil 8 verbunden. Es hat sich gezeigt, dass ein solches Gesamtprofil für die meisten Anwendungsfälle unverändert verwendbar ist. Gegebenenfalls kann aber das Trennprofil 5 vom Anschlussprofil getrennt werden und/oder es können zusätzliche Anschlussprofile gemäss Fig. 1 verwendet werden.In addition, a separating profile 5 is connected to the connecting profile 8 via a rib 20. It has been shown that such an overall profile can be used unchanged for most applications. If necessary, however, the separating profile 5 can be separated from the connecting profile and / or additional connecting profiles according to FIG. 1 can be used.

Claims (16)

1. Method for crack-proof connection of a layer of asphalt to a building element, particularly to a concrete element,
characterized in that,
a connecting profile (8) is applied to the building element, which separates the asphalt from the building element when the asphalt layer (3, 16) is applied, and that the connecting profile (8), when the layer of asphalt has at least partially solidified, is spread and elastically compressed, so that the profile is continuously submitted to compressive strains.
2. Method according to claim 1,
characterized in that,
the V-shaped connecting profile (8) is spread by insertion of a spreading profile (12).
3. Method according to claim 1 or 2,
characterized in that,
the V-shaped connecting profile (8) having a cavity closed at the upper side is torn up or slit at its upper side when the asphalt layer has been applied, whereafter the spreading profile (12), for instance a wedge tape, is pressed into the cavity.
4. Method according to one of claims 1 - 3,
characterized in that,
the connecting profile (8) is cemented with the building element and is provided with bituminous lacquer at its side facing the asphalt layer.
5. Method according to one of claims 1 - 4,
characterized in that,
separating profiles (5) are applied to the building element below the connecting profile (8).
6. Set of profiles for carrying out the method according to claims 1-5,
characterized by
a connecting profile (8) capable to be spread and continuously compressed and a spreading profile (12) adapted to be fitted into the same.
7. Set according to claim 6,
characterized in that,
the connecting profile (8) has a V-shaped cross section and an extractable closing profile (9).
8. Set according to claim 6 or 7,
characterized in that,
the connecting profile (8) consists of plastic material having cavities or of foamed plastic material, and thus has high elastic compressibility.
9. Set according to one of claims 6 - 8,
characterized by
an additional separating profile (5) which is in the form of a tape with several separable chamber profiles.
10. Set according to one of claims 6-9,
characterized in that,
the connecting and separating profiles (5, 8) have a flat side for connection to the building element and a side having anchoring ribs (6, 6') for connection to the asphalt layer.
11. Set according to claim 10,
characterized in that,
the connecting and separating profiles are separably connected in one profile (Fig. 4).
12. Set according to one of claims 6-11,
characterized in that,
the connecting and/or separating profiles have anchoring ribs (6') of which the cross section has a circular head (Fig. 4).
13. Building structure with an asphalt layer which, in accordance with the method of claim 1, is applied to a building element
characterized in that,
at the connection of the asphalt layer (3, 16) to the building element, particularly concrete element of the building structure, a connecting profile (8) is inserted into which a spreading profile is inserted.
14. Building structure according to claim 13,
characterized in that,
below the connecting profile (8) a separating profile (5) is arranged between the building element and the asphalt layer.
15. Building structure according to claim 13 or 14,
characterized in that,
the connecting profile (8) and the separating profile are connected to the asphalt layer by means of anchoring ribs (6, 6').
16. Building structure according to one of claims 13 to 15,
characterized in that, the connecting profile (8) has a lip (11) extending upwardly and applying against the building element.
EP19790810013 1978-02-13 1979-02-05 Method of making a crack-proof, impervious joint between an asphaltic surfacing and part of a structure, set of shaped elements for carrying out the method and structure built according to the method Expired EP0003720B2 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
CH155078A CH628696A5 (en) 1978-02-13 1978-02-13 METHOD FOR CREATING A CONSTRUCTION WITH A crack-proof connection of an asphalt covering to a component.
CH1550/78 1978-02-13

Publications (4)

Publication Number Publication Date
EP0003720A2 EP0003720A2 (en) 1979-08-22
EP0003720A3 EP0003720A3 (en) 1979-09-05
EP0003720B1 EP0003720B1 (en) 1982-01-20
EP0003720B2 true EP0003720B2 (en) 1987-04-29

Family

ID=4213028

Family Applications (1)

Application Number Title Priority Date Filing Date
EP19790810013 Expired EP0003720B2 (en) 1978-02-13 1979-02-05 Method of making a crack-proof, impervious joint between an asphaltic surfacing and part of a structure, set of shaped elements for carrying out the method and structure built according to the method

Country Status (5)

Country Link
EP (1) EP0003720B2 (en)
AT (1) AT372442B (en)
BE (1) BE900408Q (en)
CH (1) CH628696A5 (en)
DE (1) DE2961845D1 (en)

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WO2007048188A1 (en) * 2005-10-26 2007-05-03 Granor Rubber & Engineering Pty Ltd Sealing joint

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KR20030024015A (en) * 2001-09-15 2003-03-26 안철승 multi cell rubber pannel seal joint system

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CH373777A (en) * 1961-11-14 1963-12-15 Sogerep S A Method of jointing between two construction elements, at least one of which consists of an asphalt mat, and joint obtained by the implementation of this method
DE1459753B1 (en) * 1964-01-20 1969-10-16 Rehau Plastiks Elastic joint insert for road surfaces or the like.
US3319384A (en) * 1964-09-08 1967-05-16 Edward T Berg Construction for extruded reglets
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CH523389A (en) * 1971-06-02 1972-05-31 Huber+Suhner Ag Sealing profile made of rubber-elastic material
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DE2242110A1 (en) * 1972-08-26 1974-02-28 Bernt Von Zur Dr Muehlen SEALING PROFILE MADE OF PLASTIC
DE2249879C3 (en) * 1972-10-11 1979-06-21 Robert 8400 Regensburg Eckert U-shaped expansion joint strip for a screed and method for installing it
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FR2331650A1 (en) * 1975-11-13 1977-06-10 Laugier Elie Expansion joint for concrete structures - is smooth synthetic sheet with trapezoidal projections cast in-situ into concrete
US4023324A (en) * 1976-01-08 1977-05-17 Harry Majeske Methods of making expansion joints for roads and buildings
US4090800A (en) * 1976-07-15 1978-05-23 Koch Vergil W Joint-forming device

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Publication number Priority date Publication date Assignee Title
WO2007048188A1 (en) * 2005-10-26 2007-05-03 Granor Rubber & Engineering Pty Ltd Sealing joint

Also Published As

Publication number Publication date
AT372442B (en) 1983-10-10
EP0003720B1 (en) 1982-01-20
BE900408Q (en) 1984-12-17
EP0003720A3 (en) 1979-09-05
DE2961845D1 (en) 1982-03-04
ATA104979A (en) 1983-02-15
CH628696A5 (en) 1982-03-15
EP0003720A2 (en) 1979-08-22

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