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EP0119652B1 - Connection and stress repartition element for concrete parts - Google Patents

Connection and stress repartition element for concrete parts Download PDF

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Publication number
EP0119652B1
EP0119652B1 EP84200350A EP84200350A EP0119652B1 EP 0119652 B1 EP0119652 B1 EP 0119652B1 EP 84200350 A EP84200350 A EP 84200350A EP 84200350 A EP84200350 A EP 84200350A EP 0119652 B1 EP0119652 B1 EP 0119652B1
Authority
EP
European Patent Office
Prior art keywords
socket
gudgeon
sleeve
concreted
element according
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.)
Expired
Application number
EP84200350A
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German (de)
French (fr)
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EP0119652A3 (en
EP0119652A2 (en
Inventor
Heinz Witschi
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.)
EGCO AG
Original Assignee
Individual
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Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to AT84200350T priority Critical patent/ATE20765T1/en
Publication of EP0119652A2 publication Critical patent/EP0119652A2/en
Publication of EP0119652A3 publication Critical patent/EP0119652A3/en
Application granted granted Critical
Publication of EP0119652B1 publication Critical patent/EP0119652B1/en
Expired legal-status Critical Current

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Classifications

    • EFIXED CONSTRUCTIONS
    • E02HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
    • E02DFOUNDATIONS; EXCAVATIONS; EMBANKMENTS; UNDERGROUND OR UNDERWATER STRUCTURES
    • E02D29/00Independent underground or underwater structures; Retaining walls
    • E02D29/16Arrangement or construction of joints in foundation structures
    • 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
    • E01C11/14Dowel assembly ; Design or construction of reinforcements in the area of joints
    • EFIXED CONSTRUCTIONS
    • E02HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
    • E02DFOUNDATIONS; EXCAVATIONS; EMBANKMENTS; UNDERGROUND OR UNDERWATER STRUCTURES
    • E02D5/00Bulkheads, piles, or other structural elements specially adapted to foundation engineering
    • E02D5/18Bulkheads or similar walls made solely of concrete in situ
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B1/00Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
    • E04B1/38Connections for building structures in general
    • E04B1/48Dowels, i.e. members adapted to penetrate the surfaces of two parts and to take the shear stresses
    • E04B1/483Shear dowels to be embedded in concrete

Definitions

  • the invention is based on a connecting and pressure distribution element for two components to be concreted in succession in the same plane, which are to be separated from one another by a joint, with a sleeve and a mandrel that can be slid into the opening of the sleeve, the sleeve for fastening an end formwork and for insertion into the component to be concreted first and the mandrel inserted into the sleeve hole for insertion into the component to be concreted later.
  • connection and pressure distribution elements are used to connect building or civil engineering components, such as roof panels, floor panels, ceilings, walls, supports, retaining walls, highways, which components are to be fixed in exactly the same plane.
  • the components connected by such an element are exposed to the influence of different temperatures, so that they expand and contract in the direction of the joint.
  • the sleeve is provided with a reinforcement and a mounting plate.
  • the mandrel that fits into the sleeve is also reinforced.
  • the reinforcements which are frustoconical or cylindrical on the outside, consist of an epoxy resin.
  • the fastening plate has four holes through which the fastening plate is fastened during installation to an end formwork of the component to be concreted first.
  • the mandrel is slidably inserted in the opening of the sleeve. The center of gravity of the gravitational forces between the mandrel and the sleeve is precisely placed on the joint between the component to be concreted first and the component to be subsequently concreted.
  • the reinforcements achieve a larger surface area than that of the sections of the mandrel or sleeve covered by the reinforcements. Thanks to their larger surfaces, the reinforcements distribute the forces across a larger area in the concrete. However, the larger area created in this way is still unable to fully absorb the considerable gravitational forces, so that in particular the mandrels which transmit the forces have to be made of stainless steel. The number of elements cannot be reduced to a level that would be desirable for economic reasons.
  • connection and load transmission element for concrete sections of a web separated by a joint.
  • the connection and load transmission element consists of two DÜbeJ publishede, each of which is embedded in one of the construction side.
  • An axially extending rod is inserted into the two dowel pieces.
  • the rod can be integral with one of the dowel pieces.
  • the two dowel pieces are provided on the side facing the joint with an end flange and a support flange which is integral with it and runs at right angles to it.
  • connection and pressure distribution element which is equipped in such a way that it has a much larger surface area than the known elements.
  • the better distribution of the forces should also reduce the number of such elements compared to the prior art.
  • the production costs of such an element should also be significantly lower than those of the known elements.
  • connection and pressure distribution element according to the preamble of claim 1 by the features of the characterizing part of claim 1.
  • Each bracket is advantageously designed in a spiral shape, the outer end part of the spiral forming a rectangle and the inner end part of the spiral being welded onto the sleeve or the mandrel.
  • a further embodiment can consist in that each bracket in the form of a rectangle is inserted in the arms of an end-like holding device with a hub, which holding device is firmly pressed onto the sleeve or the mandrel.
  • the element shown in the figures serves to connect two components 10, 11 to be concreted one after the other in the same plane, which are to be separated from one another by a joint 19, as is the case in particular in the case of motorways or airfield railways.
  • the elements embedded in the components enable the components that are exposed to different temperatures to be expanded and contracted freely. Furthermore, the element serves to distribute the forces occurring over a larger area in the concrete.
  • the connecting and pressure distribution element consists of a sleeve 1 and a mandrel 2 which can be slid into the opening 9 of the sleeve 1.
  • the sleeve 1 is for fastening to an end formwork 18 for the component 10 to be concreted first and for admission into this component to be concreted first 10 determined.
  • the mandrel 2 inserted into the sleeve hole 9 is intended for insertion into the component 11 to be concreted later. Due to the unobstructed sliding movement of the mandrel 2 in the sleeve opening 9, the two concrete components 10, 11 can expand and contract easily after concreting.
  • each bracket 3 is spiral-shaped.
  • the outer end part 3b of the spiral forms a rectangle and the inner end part 3a of the spiral is welded onto the sleeve 1 or the mandrel 2.
  • the spiral bracket 3 is e.g. made of reinforcing steel with a diameter of 6 to 12 mm and can be quickly wound in an automatic machine in a spiral according to FIG. 1.
  • the outer end part 3b of the spiral is welded onto the overlapping middle part of the spiral.
  • bracket of a rectangular structure, which is arranged at a distance from the sleeve 1 or the mandrel 2 stationary.
  • the bracket can be quickly and precisely manufactured to the desired dimensions on the machine. About 500 pieces of such spiral stirrups can be produced per hour.
  • the rectangular shape of the bracket 3 is used so that the bracket 3 can be placed on the floor (e.g. lean concrete layer 20) on one of its long sides or on one of its shorter sides.
  • the distance between the sleeve 1 and the mandrel 2 from the ground is changed as desired.
  • at least two circular spacers 15 made of plastic are placed on the outer end part 3b of the spiral of the bracket 3 of the sleeve 1.
  • the spacers are available in different diameters on the market.
  • each bracket 3 ' which has the shape of a rectangle, is inserted into arms 4a of a star-like holding device 4 with a hub 4b made of plastic.
  • the reinforcement bracket 3 ' according to this embodiment differs from the reinforcement bracket 3 according to the embodiment according to FIGS. 1 to 3 in that it is not of a spiral configuration. It has the shape of a rectangle with its end parts partially overlapping. The end parts are welded to one another in this overlap region.
  • the arms 4a and the hub 4b of the holding device 4 are perforated in order to allow the penetration of the concrete mass through the holes 6 and thus to achieve a better adhesive connection.
  • the bracket 3 'in the form of a rectangle is inserted into recesses 14 in the arms 4a.
  • the holding device 4 is firmly placed on the sleeve 1 or the mandrel 2.
  • the arms 4a of the holding device 4 are each provided with a nail hole 8 in their end parts in order to enable the holding device 4 placed on the sleeve 1 to be nailed onto the front formwork 18. This embodiment is used for smaller dimensions of the element.
  • spacers 15 can be placed on the bracket 3 'of the sleeve 1 in order to be able to determine the height of the sleeve 1 from the floor or the formwork as desired.
  • the sleeve is slit on its end to be laid forehead formwork 18, whereby several tabs 5 are created.
  • the tabs 5 are provided with nail holes 8 in order to enable the tabs 5 to be nailed onto the end formwork 18 for the component 10 to be concreted first.
  • the mandrel 2 which is most heavily loaded by the forces occurring, is made of stainless steel in the known elements; This is also the reason to avoid corrosion. It is now proposed to produce the mandrel 2 from a core 12 made of structural steel, onto which a stainless steel jacket tube 13 is pressed. This measure results in considerable cost savings.
  • the diameter of the mandrel can vary from 16 to 40 mm.
  • the diameter of the mandrel 2 must correspond to the diameter of the opening 9 of the sleeve 1.
  • the sleeve is provided with a plastic cover 16 at the end adjacent the end formwork 18.
  • a plastic cap 17 is placed on the other end of the sleeve 1.
  • the end formwork is torn off and the plastic cover 16 is removed from the sleeve 1. Then the mandrel 2 is inserted into the opening 9 of the sleeve 1, the distance of the bracket 3, 3 'from the bracket of the sleeve 1 being at the desired distance and the joint 19 being filled with insulation material. After the second concrete component 11 has hardened, the connection is established.
  • connection and pressure distribution element described above is completely in one Factory made. At the construction site, it will only be adjusted in height and folded. The assembly is very simple. The brackets of the element lie like mandrels in their specified positions without any movement and the sleeve maintains its horizontal position at the desired height. The sleeve can no longer fall down during assembly of the heavy reinforcement. A better distribution of the pressure is achieved by the stirrup symmetrically arranged at a distance from the sleeve or the mandrel.

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  • Engineering & Computer Science (AREA)
  • Structural Engineering (AREA)
  • Civil Engineering (AREA)
  • Architecture (AREA)
  • Mining & Mineral Resources (AREA)
  • Paleontology (AREA)
  • General Life Sciences & Earth Sciences (AREA)
  • General Engineering & Computer Science (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Electromagnetism (AREA)
  • Physics & Mathematics (AREA)
  • Environmental & Geological Engineering (AREA)
  • Joining Of Building Structures In Genera (AREA)
  • Road Signs Or Road Markings (AREA)
  • On-Site Construction Work That Accompanies The Preparation And Application Of Concrete (AREA)
  • Reinforcement Elements For Buildings (AREA)
  • Moulds, Cores, Or Mandrels (AREA)
  • Forms Removed On Construction Sites Or Auxiliary Members Thereof (AREA)

Abstract

The element comprises a socket and a bar slidingly insertable into the opening of the socket. Disposed around and spaced from both the socket and the bar are at least two closed loops each, of generally rectangular shape and made from reinforcing rods. The loops are secured to the socket and the bar, respectively, in one case by welding, in another case by means of a holder. Because they are symmetrically spaced from the socket and the bar, they ensure good distribution of pressure within the concrete.

Description

Die Erfindung geht aus von einem Verbindungs-und Druckverteilungselement für zwei in der gleichen Ebene nacheinander zu betonierenden Bauteile, die voneinander durch eine Fuge zu trennen sind, mit einer Hülse und einem in die Öffnung der Hülse verschiebbar einsteckbaren Dorn, wobei die Hülse zum Befestigen an einer Stirnschalung und zum Einlassen in den zuerst zu betonierenden Bauteil und der in das Hülsenloch eingesetzte Dorn zum Einlassen in den später zu betonierenden Bauteil bestimmt sind.The invention is based on a connecting and pressure distribution element for two components to be concreted in succession in the same plane, which are to be separated from one another by a joint, with a sleeve and a mandrel that can be slid into the opening of the sleeve, the sleeve for fastening an end formwork and for insertion into the component to be concreted first and the mandrel inserted into the sleeve hole for insertion into the component to be concreted later.

Solche Verbindungs- und Druckverteilungselemente werden zur Verbindung von Bauteilen des Hoch- oder Tiefbaus, wie Dachplatten, Bodenplatten, Decken, Wände, Stützen, Stützmauern, Autobahnen, verwendet, welche Bauteile in einer genau gleichen Ebene zu fixieren sind. Die durch ein solches Element verbundenen Bauteile sind dem Einfluss unterschiedlicher Temperaturen ausgesetzt, so dass sie in Richtung der Fuge ausdehnen und zusammenziehen.Such connection and pressure distribution elements are used to connect building or civil engineering components, such as roof panels, floor panels, ceilings, walls, supports, retaining walls, highways, which components are to be fixed in exactly the same plane. The components connected by such an element are exposed to the influence of different temperatures, so that they expand and contract in the direction of the joint.

Ein aus einem Dorn und einer Hülse bestehendes Element dieser Art ist in der europäischen Patentanmeldung 00 32105 beschrieben. Die Hülse ist mit einer Verstärkung und einer Befestigungsplatteversehen. Der in die Hülse passende Dorn ist ebenfalls mit einer Verstärkung versehen. Die Verstärkungen, die aussen kegelstumpfförmig oder zylindrisch ausgebildet sind, bestehen aus einem Epoxydharz. Die Befestigungsplatte weist vier Löcher auf, durch welche man die Befestigungsplatte beim Einbau an eine Stirnschalung des zuerst zu betonierenden Bauteiles befestigt. Der Dorn ist in der Öffnung der Hülse verschiebbar eingesetzt. Der Schwerpunkt der zwischen Dorn und Hülse auftretenden Schwerkräfte wird genau auf die Fuge zwischen den zuerst zu betonierenden und dem nachträglich zu betonierenden Bauteil verlegt.An element of this type consisting of a mandrel and a sleeve is described in European patent application 00 32 105. The sleeve is provided with a reinforcement and a mounting plate. The mandrel that fits into the sleeve is also reinforced. The reinforcements, which are frustoconical or cylindrical on the outside, consist of an epoxy resin. The fastening plate has four holes through which the fastening plate is fastened during installation to an end formwork of the component to be concreted first. The mandrel is slidably inserted in the opening of the sleeve. The center of gravity of the gravitational forces between the mandrel and the sleeve is precisely placed on the joint between the component to be concreted first and the component to be subsequently concreted.

Durch die Verstärkungen wird eine grössere Oberfläche erreicht als diejenige der durch die Verstärkungen überdeckten Abschnitte des Dornes bzw. der Hülse. Die Verstärkungen verteilen dank ihrer grösseren Oberflächen die auftretenden Kräfte über eine grössere Fläche im Beton. Die auf diese Weise erzeilte grössere Fläche vermag aber immer noch nicht die erheblichen Schwerkräfte vollständig aufzunehmen, so dass insbesondere die Dorne, die die Kräfte übertagen, aus Edelstahl hergestellt werden müssen. Auch die Anzahl der Elemente kann nicht auf ein solches Mass herabgesetzt werden, welches aus ökonomischen Gründen wünschenswert wäre.The reinforcements achieve a larger surface area than that of the sections of the mandrel or sleeve covered by the reinforcements. Thanks to their larger surfaces, the reinforcements distribute the forces across a larger area in the concrete. However, the larger area created in this way is still unable to fully absorb the considerable gravitational forces, so that in particular the mandrels which transmit the forces have to be made of stainless steel. The number of elements cannot be reduced to a level that would be desirable for economic reasons.

In der US-PS 2,194,718 ist ein Verbindungs-und Lastübertragungselement für durch eine Fuge getrennte Betonabschnitte einer Bahn beschrieben. Das Verbindungs- und Belastungsübertragungselement besteht aus zwei DÜbeJstücken, deren jedes in einem der Bauteite eingeiassenwird. In die beiden Dübelstücke ist eine axial verlaufende Stange eingesetzt. Anstelle von zwei gleichen Dübelstücken und einer axial drinnen verlegten Stange kann die Stange mit einem der Dübelstücke einstückig sein. Die beiden Dübelstücke sind an der der Fuge zugekehrten Seite mit einem Stirnflansch und einem mit ihr einstückigen und zu ihr im rechten Winkel verlaufenden Tragflansch versehen.US Pat. No. 2,194,718 describes a connection and load transmission element for concrete sections of a web separated by a joint. The connection and load transmission element consists of two DÜbeJstücke, each of which is embedded in one of the construction side. An axially extending rod is inserted into the two dowel pieces. Instead of two identical dowel pieces and an axially installed rod, the rod can be integral with one of the dowel pieces. The two dowel pieces are provided on the side facing the joint with an end flange and a support flange which is integral with it and runs at right angles to it.

Bei dieser Lösung ist es nachteilig, dass auf dem Dübelstück nur ein Stirnflansch mit dem zu ihm rechtwinklig verlaufenden Tragflansch vorgesehen ist. Die axial verlaufende Stange weist dann keine Verstärkung auf. Dadurch wird die Oberfläche des Elementes nur in beschränktem Umfange vergrössert.In this solution, it is disadvantageous that only one end flange with the supporting flange running at right angles to it is provided on the dowel piece. The axially extending rod then has no reinforcement. As a result, the surface of the element is only increased to a limited extent.

Der im Patentanspruch 1 angegebenen Erfindung liegt die Aufgabe zugrunde, ein Verbindungs- und Druckverteilungselementzu schaffen, das so ausgerüstet ist, dass es eine viel grössere Oberfläche aufweist als die bekannten Elemente. Durch die bessere Verteilung der Kräfte soll auch die Anzahl solcher Elemente gegenüber dem Stand der Technik verkleinert werden. Auch die Herstellungskosten eines solchen Elementes sollen wesentlich niedriger sein als diejenigen der bekannten Elemente.The object of the invention specified in claim 1 is to provide a connection and pressure distribution element which is equipped in such a way that it has a much larger surface area than the known elements. The better distribution of the forces should also reduce the number of such elements compared to the prior art. The production costs of such an element should also be significantly lower than those of the known elements.

Diese Aufgabe wird erfindungsgemäss bei dem Verbindungs- und Druckverteilungselement nach dem Oberbegriff des Patentanspruches 1 durch die Merkmale der Kennzeichnung des Patentanspruches 1 gelöst.This object is achieved in the connection and pressure distribution element according to the preamble of claim 1 by the features of the characterizing part of claim 1.

Mit Vorteil ist jeder Bügel spiralförmig ausgebildet, wobei der äussere Endteil der Spirale ein Rechteck bildet und der innere Endteil der Spirale auf der Hülse bzw. dem Dorn aufgeschweisst ist.Each bracket is advantageously designed in a spiral shape, the outer end part of the spiral forming a rectangle and the inner end part of the spiral being welded onto the sleeve or the mandrel.

Eine weitere Ausführungsform kann darin bestehen, dass jeder Bügel in Form eines Rechteckes in Armen einer stirnartigen Haltevorrichtung mit Nabe eingesetzt ist, welche Haltevorrichtung auf der Hülse bzw. dem Dorn fest aufgepresst ist.A further embodiment can consist in that each bracket in the form of a rectangle is inserted in the arms of an end-like holding device with a hub, which holding device is firmly pressed onto the sleeve or the mandrel.

Der Erfindungsgegenstand wird nachstehend anhand der Zeichnung beispielsweise nähererläutert.The subject matter of the invention is explained in more detail below with reference to the drawing, for example.

Es zeigen

  • Fig. 1 eine perspektivische Ansicht des erfindungsgemässen Verbindungs- und Druckverteilungselementes mit einer Hülse und einem Dorn, welche beide mit jeweils zwei spiralförmig ausgebildeten Bügeln versehen sind,
  • Fig. 2 eine Ansicht teilweise im Schnitt der an einer Stirnschalung befestigten und im zuerst betonierten Bauteil eingelassenen Hülse,
  • Fig. 3 eine Ansicht der im zuerst betonierten Bauteil eingelassenen Hülse,vonwelchem Bauteil die Stirnschalung abgerissen wurde, und des in die Hülse eingeführten und im nachträglich betonierten Bauteil eingelassenen Dornes,
  • Fig. 4 eine Ansicht einer Ausführungsform des Elementes mit einer stirnartigen Haltevorrichtung,
  • Fig. 5 einen Schnitt entlang der Linie V-V der Fig. 4,
  • Fig. 6 einen Querschnitt des Dornes nach der Fig. 1,
  • Fig. 7 eine schematische Darstellung im Schnitt eines Kurvenabschnittes einer Autobahn mit den eingelassenen Elementen, und
  • Fig. 8 eine schematische Ansicht im Schnitt eines geradlinig verlaufenden Autobahnabschnittes und einer Stützmauer mit den eingelassenen Elementen.
Show it
  • 1 is a perspective view of the connection and pressure distribution element according to the invention with a sleeve and a mandrel, both of which are each provided with two spirally formed brackets,
  • 2 is a view, partly in section, of the sleeve fastened to an end formwork and embedded in the first concreted component,
  • 3 is a view of the sleeve embedded in the first concreted component, from which component the face formwork was torn off, and the mandrel inserted into the sleeve and embedded in the subsequently concreted component,
  • 4 is a view of an embodiment of the element with an end-like holding device,
  • 5 shows a section along the line VV of FIG. 4,
  • 6 shows a cross section of the mandrel according to FIG. 1,
  • Fig. 7 is a schematic representation in section of a curve section of a highway with the embedded elements, and
  • Fig. 8 is a schematic view in section of a straight line section of the motorway and a retaining wall with the embedded elements.

Das in den Figuren dargestellte Element dient zur Verbindung von zwei in der gleichen Ebene nacheinander zu betonierenden Bauteile 10, 11, die voneinander durch eine Fuge 19 zu trennen sind, wie es insbesondere bei Autobahnen oder Flugplatzbahnen der Fall ist. Die in den Bauteilen eingelassenen Elemente ermöglichen das zwangslose Ausdehnen und Zusammenziehen der Bauteile, die unterschiedlichen Temperaturen ausgesetzt sind. Desweiteren dient das Element zur Verteilung der auftretenden Kräfte über eine grössere Fläche im Beton.The element shown in the figures serves to connect two components 10, 11 to be concreted one after the other in the same plane, which are to be separated from one another by a joint 19, as is the case in particular in the case of motorways or airfield railways. The elements embedded in the components enable the components that are exposed to different temperatures to be expanded and contracted freely. Furthermore, the element serves to distribute the forces occurring over a larger area in the concrete.

Das Verbindungs- und Druckverteilungselement besteht aus einer Hülse 1 und einem in die Öffnung 9 der Hülse 1 verschiebbar einsteckbaren Dorn 2. Die Hülse 1 ist zum Befestigen an einer Stirnschalung 18 für den zuerst zu betonierenden Bauteil 10 und zum Einlassen in diesen zuerst zu betonierenden Bauteil 10 bestimmt. Der in das Hülsenloch 9 eingesteckte Dorn 2 ist zum Einlassen in den später zu betonierenden Bauteil 11 bestimmt. Durch die unbehinderte Schiebebewegung des Dornes 2 in der Hülsenöffnung 9 können sich die beiden Betonbauteile 10, 11 nach dem Betonieren zwangslos ausdehnen und zusammenziehen.The connecting and pressure distribution element consists of a sleeve 1 and a mandrel 2 which can be slid into the opening 9 of the sleeve 1. The sleeve 1 is for fastening to an end formwork 18 for the component 10 to be concreted first and for admission into this component to be concreted first 10 determined. The mandrel 2 inserted into the sleeve hole 9 is intended for insertion into the component 11 to be concreted later. Due to the unobstructed sliding movement of the mandrel 2 in the sleeve opening 9, the two concrete components 10, 11 can expand and contract easily after concreting.

Sowohl um die Hülse 1 als auch um den Dorn 2 herum und im Abstand von denselben sind jeweils mindestens zwei in sich geschlossene Bügel 3, 3' aus Armierungsstäben angeordnet. In der Ausführungsform nach den Fig. 1 bis 3 ist jeder Bügel 3 spiralförmig ausgebidet. Der äussere Endteil 3b der Spirale bildet ein Rechteck und der innere Endteil 3a der Spirale ist auf der Hülse 1 bzw. dem Dorn 2 aufgeschweisst. Der spiralförmige Bügel 3 bestehtz.B. aus Armierungsstahl eines Durchmessers von 6 bis 12 mm und kann an einem Automaten schnell in eine Spirale nach der Fig. 1 gewickelt werden. Der äussere Endteil 3b der Spirale wird auf dem überlappenden Mittelteil der Spirale aufgeschweisst. Damit entsteht ein in sich geschlossener Bügel eines rechteckigen Gebildes, der mit Abstand von der Hülse 1 bzw. dem Dorn 2 ortsfest angeordnet ist. Auf dem Automaten kann der Bügel rasch und präzise auf ein gewünschtes Mass hergestellt werden. Pro Stunde können ca. 500 Stück solcher spiralförmiger Bügel hergestellt werden.Both around the sleeve 1 and around the mandrel 2 and at a distance therefrom are at least two self-contained brackets 3, 3 'made of reinforcing bars. In the embodiment according to FIGS. 1 to 3, each bracket 3 is spiral-shaped. The outer end part 3b of the spiral forms a rectangle and the inner end part 3a of the spiral is welded onto the sleeve 1 or the mandrel 2. The spiral bracket 3 is e.g. made of reinforcing steel with a diameter of 6 to 12 mm and can be quickly wound in an automatic machine in a spiral according to FIG. 1. The outer end part 3b of the spiral is welded onto the overlapping middle part of the spiral. This creates a self-contained bracket of a rectangular structure, which is arranged at a distance from the sleeve 1 or the mandrel 2 stationary. The bracket can be quickly and precisely manufactured to the desired dimensions on the machine. About 500 pieces of such spiral stirrups can be produced per hour.

Die rechteckige Form des Bügels 3 dient dazu, dass der Bügel 3 auf den Boden (z.B. Magerbetonschicht 20) auf einer seiner Längsseiten oder auf einer seiner kürzeren Seiten hochkant gelegt werden kann. Dadurch wird der Abstand der Hülse 1 bzw. des Dorns 2 vom Boden nach Wunsch geändert. Um eine noch präzisere Einstellung der Höhe der Hülse 1 vom Boden zu erzielen, werden jeweils mindestens zwei kreisförmige Distanzhalter 15 aus Kunststoff auf den äusseren Endteil 3b der Spirale des Bügels 3 der Hülse 1 aufgesetzt. Die Distanzhalter sind in verschiedenen Durchmessern auf dem Markt erhältlich.The rectangular shape of the bracket 3 is used so that the bracket 3 can be placed on the floor (e.g. lean concrete layer 20) on one of its long sides or on one of its shorter sides. As a result, the distance between the sleeve 1 and the mandrel 2 from the ground is changed as desired. In order to achieve an even more precise adjustment of the height of the sleeve 1 from the ground, at least two circular spacers 15 made of plastic are placed on the outer end part 3b of the spiral of the bracket 3 of the sleeve 1. The spacers are available in different diameters on the market.

Bei einer anderen Ausführungsform nach den Fig. 4 und 5 wird jeder Bügel 3', der die Form eines Rechteckes hat, in Armen 4a einer sternartigen Haltevorrichtung 4 mit Nabe 4b aus Kunststoff eingesetzt. Der Armierungsbügel 3' nach dieser Ausführungsform unterscheidet sich von dem Armierungsbügel 3 nach der Ausführungsform gemäss den Fig. 1 bis 3 dadurch, dass er nicht spiralförmig ausgebildet ist. Er weist die Form eines Rechteckes auf, wobei sich seine Endteile teilweise überlappen. In diesem Überlappungsbereich sind die Endteile miteinander verschweisst. Die Arme 4a und die Nabe 4b der Haltevorrichtung 4 sind gelocht, um durch die Löcher 6, das Eindringen der Betonmasse zu ermöglichen und somit eine bessere Haftverbindung zu erzielen.In another embodiment according to FIGS. 4 and 5, each bracket 3 ', which has the shape of a rectangle, is inserted into arms 4a of a star-like holding device 4 with a hub 4b made of plastic. The reinforcement bracket 3 'according to this embodiment differs from the reinforcement bracket 3 according to the embodiment according to FIGS. 1 to 3 in that it is not of a spiral configuration. It has the shape of a rectangle with its end parts partially overlapping. The end parts are welded to one another in this overlap region. The arms 4a and the hub 4b of the holding device 4 are perforated in order to allow the penetration of the concrete mass through the holes 6 and thus to achieve a better adhesive connection.

Der Bügel 3' in Form des Rechteckes ist in Aussparungen 14 der Arme 4a eingesetzt. Die Haltevorrichtung 4 ist auf der Hülse 1 bzw. dem Dorn 2 fest aufgesetzt. Die Arme 4a der Haltevorrichtung 4 sind in ihren Endteilen mit jeweils einem Nagelloch 8 versehen, um das Aufnageln der auf der Hülse 1 aufgesetzten Haltevorrichtung 4 an der Stirnschalung 18 zu ermöglichen. Diese Ausführungsform wird bei kleineren Abmessungen des Elementes verwendet.The bracket 3 'in the form of a rectangle is inserted into recesses 14 in the arms 4a. The holding device 4 is firmly placed on the sleeve 1 or the mandrel 2. The arms 4a of the holding device 4 are each provided with a nail hole 8 in their end parts in order to enable the holding device 4 placed on the sleeve 1 to be nailed onto the front formwork 18. This embodiment is used for smaller dimensions of the element.

Auch hier können auf den Bügel 3' der Hülse 1 Distanzhalter 15 aufgesetzt werden, um die Höhe der Hülse 1 von dem Boden bzw. der Schalung nach Wunsch festlegen zu können.Here, too, spacers 15 can be placed on the bracket 3 'of the sleeve 1 in order to be able to determine the height of the sleeve 1 from the floor or the formwork as desired.

Die Hülse istauf ihrem der Stirnschalung 18 zu verlegenden Ende aufgeschlitzt, wodurch mehrere Laschen 5 entstehen. Die Laschen 5 sind mit Nagellöchern 8 versehen, um das Aufnageln der Laschen 5 auf der Stirnschalung 18 für den zuerst zu betonierenden Bauteil 10 zu ermöglichen. Der Dorn 2, der durch die auftretenden Kräfte am höchsten belastet ist, ist bei den bekannten Elementen aus Edelstahl hergestellt; dies auch aus dem Grunde, um Korrosionswirkung zu vermeiden. Es wird nun vorgeschlagen, den Dorn 2 aus einem Kern 12 aus Baustahl herzustellen, auf welchen ein Mantelrohr 13 aus Edelstahl aufgepresst ist. Durch diese Massnahme wird eine beträchtliche Kostenersparung erzielt. Der Durchmesser des Dornes kann von 16 bis 40 mm variieren. Der Durchmesser des Dornes 2 muss dem Durchmesser der Öffnung 9 der Hülse 1 passend entsprechen.The sleeve is slit on its end to be laid forehead formwork 18, whereby several tabs 5 are created. The tabs 5 are provided with nail holes 8 in order to enable the tabs 5 to be nailed onto the end formwork 18 for the component 10 to be concreted first. The mandrel 2, which is most heavily loaded by the forces occurring, is made of stainless steel in the known elements; This is also the reason to avoid corrosion. It is now proposed to produce the mandrel 2 from a core 12 made of structural steel, onto which a stainless steel jacket tube 13 is pressed. This measure results in considerable cost savings. The diameter of the mandrel can vary from 16 to 40 mm. The diameter of the mandrel 2 must correspond to the diameter of the opening 9 of the sleeve 1.

Um das Eindringen des Betonbreis während der Betonierung des ersten Bauteiles 10 in die Hülse 1 zu vermeiden, ist die Hülse an dem der Stirnschalung 18 anliegenden Ende mit einem Kunststoffdeckel 16 versehen. Auf dem anderen Ende der Hülse 1 ist eine Kunststoffkappe 17 aufgesetzt.In order to prevent the concrete slurry from penetrating into the sleeve 1 during the concreting of the first component 10, the sleeve is provided with a plastic cover 16 at the end adjacent the end formwork 18. A plastic cap 17 is placed on the other end of the sleeve 1.

Nach dem Aushärten des ersten Betonbauteiles 10 wird die Stirnschalung abgerissen und der Kunststoffdeckel 16 aus der Hülse 1 herausgenommen. Dann wird in die Öffnung 9 der Hülse 1 der Dorn 2 eingeführt, wobei der Abstand des Bügels 3, 3' von dem Bügel der Hülse 1 den gewünschten Abstand einnimmt und die Fuge 19 wird mit Isolationsmaterial ausgefüllt. Nach dem Aushärten des zweiten Betonbauteiles 11 ist die Verbindung hergestellt.After the first concrete component 10 has hardened, the end formwork is torn off and the plastic cover 16 is removed from the sleeve 1. Then the mandrel 2 is inserted into the opening 9 of the sleeve 1, the distance of the bracket 3, 3 'from the bracket of the sleeve 1 being at the desired distance and the joint 19 being filled with insulation material. After the second concrete component 11 has hardened, the connection is established.

Das oben beschriebene Verbindungs- und Druckverteilungselement wird komplett in einer Fabrik hergestellt. Auf der Baustelle wird es nur in Höhe eingestellt und zusammengelegt werden. Die Montage ist sehr einfach. Die Bügel des Elementes liegen wie Dorne an ihren vorgegebenen Plätzen ohne jegliche Bewegung und die Hülse behält ihre horizontale Lage in der gewünschten Höhe bei. Die Hülse kann während der Montage der schweren Armierung nicht mehr nach unten geraten. Durch den im Abstand von der Hülse bzw. dem Dorn symmetrisch angeordneten Bügel wird eine bessere Verteilung des Druckes erreicht.The connection and pressure distribution element described above is completely in one Factory made. At the construction site, it will only be adjusted in height and folded. The assembly is very simple. The brackets of the element lie like mandrels in their specified positions without any movement and the sleeve maintains its horizontal position at the desired height. The sleeve can no longer fall down during assembly of the heavy reinforcement. A better distribution of the pressure is achieved by the stirrup symmetrically arranged at a distance from the sleeve or the mandrel.

Claims (6)

1. Connecting and pressure-distributing element for two structural components (10,11) to be concreted in succession in the same plane and to be separated from one another by a joint (19), having a socket (1) and a gudgeon (2) slidingly insertable into the opening (9) of the socket (1), the socket (1) being intended for fastening to a frontal shuttering (18) and for embedding in the structural component (10) to be concreted first, and the gudgeon (2) inserted in the socket hole (9) being intended for embedding in the structural component (11) to be concreted later, characterized in that round about the socket (1 ) as well as about the gudgeon (2) and spaced from these, at least two closed loops (3,3') respectively, made of reinforcing rods, are disposed, which loops are directly or indirectly fixed to the socket (1 ) and to the gudgeon (2), respectively.
2. Element according to patent claim 1, characterized in that each loop (3) is formed spirally, the outer end portion (3b) of the spiral forming a rectangle and the inner end portion (3a) of the spiral being welded on the socket (1) and on the gudgeon (2), respectively.
3. Element according to patent claim 1, characterized in that each loop (3') in the shape of a rectangle is inserted in arms (4a) of a star-like holding device (4) with hub (4b), which holding device is tightly pressed on the socket (1) and on the gudgeon (2), respectively.
4. Element according to patent claim 1, characterized in that there are provided at one end of the socket (1) tongues (5) which run perpendicular to the longitudinal axis (X) of the socket (1) and are intended for nailing onto the frontal shuttering (18) for the structural component (10) to be concreted first.
5. Element according to patent claim 3, characterized in that the arms (4a) and the hub (4b) of the holding device (4) are perforated, and the arms (4a) each have a nail hole (8) in their end portions.
6. Element according to patent claim 1, characterized in that the gudgeon (2) is made of a core (12) of structural steel and a jacket tube (13) of high-grade steel which is tightly pressed onto the core (12).
EP84200350A 1983-03-16 1984-03-10 Connection and stress repartition element for concrete parts Expired EP0119652B1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
AT84200350T ATE20765T1 (en) 1983-03-16 1984-03-10 CONNECTING AND PRESSURE DISTRIBUTION ELEMENT FOR CONCRETE COMPONENTS.

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
CH145883 1983-03-16
CH1458/83 1983-03-16

Publications (3)

Publication Number Publication Date
EP0119652A2 EP0119652A2 (en) 1984-09-26
EP0119652A3 EP0119652A3 (en) 1985-05-08
EP0119652B1 true EP0119652B1 (en) 1986-07-16

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EP84200350A Expired EP0119652B1 (en) 1983-03-16 1984-03-10 Connection and stress repartition element for concrete parts

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US (1) US4578916A (en)
EP (1) EP0119652B1 (en)
AT (1) ATE20765T1 (en)
CA (1) CA1220046A (en)
DE (1) DE3460289D1 (en)

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Also Published As

Publication number Publication date
CA1220046A (en) 1987-04-07
ATE20765T1 (en) 1986-08-15
EP0119652A3 (en) 1985-05-08
EP0119652A2 (en) 1984-09-26
DE3460289D1 (en) 1986-08-21
US4578916A (en) 1986-04-01

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