EP2447446A1 - Device for fastening tension members to reinforced concrete beams - Google Patents

Abstract

The device has a base plate (8) horizontally positionable at a horizontal lower flange side, and a side part (10) vertically positionable along a flange side. The base plate and/or side part have fastening elements (9) for tensioning elements that are formed from fiber-reinforced plastic-flat strap plates. The side part has a projection (11) in a region of tapering of a flange to a rod and directed against the rod. The projection is partially supported on an upper flange side, and the base plate has an elongation extends in a preset tension direction of the tensioning element. Independent claims are also included for the following: (1) a reinforced concrete beam comprising a rod (2) a method for end-anchorage of tensioning elements at reinforced concrete beams.

Description

Technical area

The invention relates to a device for the final anchoring of tension members made of fiber-reinforced plastic ribbon slats on reinforced concrete beams, also reinforced concrete beams, which are equipped with a corresponding device and a method for the final anchoring of said tension members to reinforced concrete beams.

State of the art

The reinforcement of structures, for example, in the renovation of existing structures, by attaching tension members made of fiber-reinforced plastic ribbon strips, which are glued under tension to the structure is known and has many advantages over the reinforcement of structures by means of steel structures. The introduction of force into the tension members takes place mainly at the ends of the tension member, after which the end anchorage of the tension members on the support structure is given particular importance.

The attachment of an end anchorage to a supporting structure is problematic, in particular in reinforced concrete plants, since the assembly of the final anchorage often takes place by screwing onto the supporting structure. Particularly problematic in this case is the attachment of end anchors on tightly reinforced reinforced concrete girders, in particular on those which also have a strained steel insert. Damage to the steel insert in such carriers by tapping the carrier for insertion of screw dowels can affect the strength of a reinforced concrete beam to a significant extent.

For example, end anchors, which are fastened by dowels to the structure described in WO 2004/038128 A1 and in WO 02/16710 A2 ,

Another end anchoring, which is described for example in DE 199 44 573 A1 , requires the attachment of slots on the surface of the structure.

Also known is the mere sticking of an end anchoring to a structural surface. However, this solution is associated with losses with respect to the load capacity of the end anchorage by the tensile load exerted by the tension member.

In a likewise known method for attaching an end anchorage to a framework made of reinforced concrete without damaging the steel insert, the steel insert is detected in a first step, so that the structure can be drilled past the steel insert. Subsequently, an end anchoring is tailored to the arrangement of the holes and mounted on the structure. Although such a method does not affect the load capacity of the structure, but the tapping of the carrier and the production of the end anchors to match the holes is very expensive.

Presentation of the invention

The object of the present invention is therefore to provide a device for the final anchoring of tension members made of fiber-reinforced plastic ribbon slats on reinforced concrete beams, which, without damaging the steel core, can be easily attached to a reinforced concrete beam and yet can absorb a high tensile load.

According to the invention, this object is achieved by a device according to claim 1.

• die Vorrichtung eine, an der Flanschunterseite horizontal positionierbare, Grundplatte und mindestens ein, entlang mindestens einer Flanschseite vertikal positionierbares, Seitenteil aufweist;
• die Grundplatte und/oder das mindestens eine Seitenteil mindestens ein Befestigungselement für ein Zugglied aufweist; und wobei
• das mindestens eine Seitenteil so eingerichtet ist, dass es, im Bereich der Verjüngung des Flanschs zum Steg hin, einen, gegen den Steg hin gerichteten, Vorsprung aufweist, welcher so angeordnet ist, dass er sich zumindest teilweise auf der Flanschoberseite abstützen kann.

The core of the invention is therefore a device for the final anchoring of tension members made of fiber-reinforced plastic ribbon strips on reinforced concrete girders, which have a web and a flange with a horizontal flange bottom, two flange sides and two, from the flange sides to the web extending, flange tops, wherein

• the device has a base plate that can be positioned horizontally on the flange underside and at least one side part that can be positioned vertically along at least one flange side;
• the base plate and / or the at least one side part has at least one fastening element for a tension member; and where
• the at least one side part is arranged to have, in the region of the taper of the flange towards the web, a projection directed towards the web, which is arranged so that it can at least partially rest on the flange top side.

The inventive device can be easily mounted on a reinforced concrete beam and has many advantages over the end anchors for tension members on reinforced concrete beams, which are known from the prior art.

Compared with the end anchors, which are screwed to the structural surface, the inventive device has the advantage that it does not require drilling of the supporting surface for setting the screw dowel, whereby there is no danger to weaken the structure by damaging the steel core.

Surprisingly, it has been found that the device according to the invention, in particular by the overlapping of the at least one side part with the projection on the flange top of a reinforced concrete beam and the entanglement of the device under tension of the tension member, can absorb a very high tensile load. The load capacity of the device according to the invention is comparable to that of bolted end anchors and exceeds the load capacity of only glued end anchors by a multiple.

Further aspects of the invention are the subject of further independent claims. Particularly preferred embodiments of the invention are the subject of the dependent claims.

Brief description of the drawings

Reference to the drawings embodiments of the invention will be explained in more detail. Same elements are in the different figures with the provided the same reference numerals. Of course, the invention is not limited to the illustrated and described embodiments.

• Figur 1 schematisch einen Querschnitt durch einen Stahlbetonträger;
• Figur 2 schematisch einen Querschnitt durch eine Vorrichtung zur Endverankerung von Zuggliedern aus faserverstärkten Kunststoff-Flachbandlamellen;
• Figur 3 schematisch einen Querschnitt durch einen Stahlbetonträger mit einer Vorrichtung mit nur einem Seitenteil;
• Figur 4 schematisch eine Ansicht auf eine Vorrichtung zur Endverankerung von Zuggliedern;
• Figur 5 schematisch einen Querschnitt durch einen Stahlbetonträger und die Montage einer mehrteiligen Vorrichtung zur Endverankerung von Zuggliedern;
• Figur 6 schematisch einen Querschnitt durch einen Stahlbetonträger mit einer Vorrichtung mit seitlich liegenden Befestigungselementen für Zugglieder;
• Figur 7 schematisch einen Querschnitt durch einen Stahlbetonträger mit dargestelltem Bereich der ausgesparten Vertiefungen;
• Figur 8 schematisch einen Querschnitt durch einen Stahlbetonträger mit einer Vorrichtung mit zwei unten liegenden Befestigungselementen für Zugglieder;
• Figur 9 schematisch einen Querschnitt durch einen Stahlbetonträger mit einer Vorrichtung mit Seitenteilen in Form von Gewindestangen;
• Figur 10 schematisch einen Teillängsschnitt eines Stahlbetonträgers mit einer Vorrichtung und einem angelegten Zugglied;
• Figur 11 schematisch eine Ansicht auf eine Vorrichtung mit Verlängerung;
• Figur 12 schematisch eine Ansicht auf eine Vorrichtung mit einem hervorragenden Element;
• Figur 13 schematisch einen Längsschnitt durch die Vorrichtung aus Figur 13;
• Figur 14 schematisch einen Querschnitt durch eine Vorrichtung mit zwei hervorragenden Elementen;
• Figur 15 schematisch einen Teillängsschnitt eines Stahlbetonträgers mit einer Vorrichtung mit einem hervorragenden Element und einem angelegten Zugglied;
• Figur 16 schematisch einen Teillängsschnitt eines Stahlbetonträgers mit einer Vorrichtung mit Zugelement, Verlängerung und einem angelegten Zugglied;
• Figuren 17a bis 17c schematisch eine Darstellung der Schritte eines Verfahrens zur Endverankerung eines Zugglieds an einem Stahlbetonträger.

Show it:

• FIG. 1 schematically a cross section through a reinforced concrete beam;
• FIG. 2 schematically shows a cross section through a device for the final anchoring of tension members made of fiber-reinforced plastic ribbon slats;
• FIG. 3 schematically a cross section through a reinforced concrete beam with a device with only one side part;
• FIG. 4 schematically a view of a device for the final anchoring of tension members;
• FIG. 5 schematically a cross section through a reinforced concrete beam and the assembly of a multi-part device for the final anchoring of tension members;
• FIG. 6 schematically a cross section through a reinforced concrete beam with a device with lateral fastening elements for tension members;
• FIG. 7 schematically a cross section through a reinforced concrete beam with Pictured area of the recesses recessed;
• FIG. 8 schematically a cross section through a reinforced concrete beam with a device with two lower fastening elements for tension members;
• FIG. 9 schematically a cross section through a reinforced concrete beam with a device with side parts in the form of threaded rods;
• FIG. 10 schematically a partial longitudinal section of a reinforced concrete beam with a device and an applied tension member;
• FIG. 11 schematically a view of a device with extension;
• FIG. 12 schematically a view of a device with a protruding element;
• FIG. 13 schematically a longitudinal section through the device FIG. 13 ;
• FIG. 14 schematically a cross section through a device with two protruding elements;
• FIG. 15 schematically a partial longitudinal section of a reinforced concrete beam with a device having a protruding member and an applied tension member;
• FIG. 16 schematically a partial longitudinal section of a reinforced concrete beam with a device with tension element, extension and an applied tension member;
• FIGS. 17a to 17c schematically a representation of the steps of a method for the final anchoring of a tension member to a reinforced concrete beam.

In the figures, only the elements essential for the immediate understanding of the invention are shown.

Ways to carry out the invention

• FIG. 1 shows a reinforced concrete beam 1, which has a web 2 and a flange 3 with a horizontal flange bottom 4, two flange sides 5 and two, from the flange sides to the web extending, flange tops 6, has. The reinforced concrete beam 1 further comprises a steel insert, consisting for example of a running in the transverse and longitudinal direction, unstressed steel core 7a and a longitudinally strained steel insert 7b. In addition to the significant increase in the tensile strength of reinforced concrete compared to concrete without steel inserts, the strained steel insert additionally increases the cracking moment of a reinforced concrete beam.
• FIG. 2 shows a device according to the invention, which a, on the flange underside of a reinforced concrete beam 1, as in FIG. 1 is described, horizontally positionable, base plate 8 with a fastening element 9 for a tension member and two, along the flange 5 vertically positionable side parts 10 has. Furthermore, the side parts are set up so that, in the region of the taper of the flange towards the web, they each have a projection 11 directed towards the web. These projections are arranged so that they can be supported at least partially on the flange top 6. Furthermore, the device shown with an optional rib 24, which gives the device additional rigidity.

Another embodiment of the device, as it is already mounted on a reinforced concrete beam 1, is in FIG. 3 shown, said device next to the base plate 8 with the fastening element 9 for a tension member, only one side part 10 and correspondingly only one projection 11 1.

The device can be constructed in one or more parts. If the device is one which has two side parts, the device is designed in several parts or it has at least one joint, which makes it possible to bring the base plate, side parts and / or projections on a reinforced concrete beam into the desired position.

For example, the device which is in FIG. 2 is shown to a multi-part device in which the projections 11 are attached by means of screws and nuts each on one of the side parts 10. Such a device is applied from below to the reinforced concrete beam 1 and then secured by means of the projections 11 thereto.

Another multi-part embodiment of the inventive device is for example in FIG. 4 shown. In this case, in addition to the base plate 8, to which the fastening element 9 is for a tension member, and the side parts 10 and the projections 11 are formed as plates which are in contact with the device when the device to the reinforced concrete beam 1 in contact. In the embodiment shown here, the ribs 24 not only have a stiffening function, but also serve to secure the projections 11 to the side parts 10 of the device.

If the device according to the invention does not have a stiffening rib, the projections can be attached directly to the side parts. For this purpose, the side parts preferably protrude over the flange sides In addition, for example, have holes through which pins, screws or the like can be passed for attachment of the projections.

Another multi-part embodiment of the inventive device is for example in FIG. 5 shown. Shown here is a two-part device, as it is about to be applied to a reinforced concrete beam 1, according to the above description. The device shown comprises two base plates 8 with a fastening means 9 for a tension member, each of which has a side part 10 with a projection 11. Opposite one another, they form a device according to the invention. Such an embodiment typically further comprises means by which the two sub-devices can be fastened to each other or the attachment is made by inserting the tension member in the fastening element 9 provided for this purpose.

FIG. 6 shows, for example, a device according to the invention, which is mounted on a reinforced concrete beam 1. In this case, the device has a base plate 8 bearing against the flange underside 4 of a reinforced concrete beam 1 and two side parts 10 extending vertically along the flange sides 5. Furthermore, each of the two side parts has a fastening element 9 for a tension member and a respective projection 11. The projections are arranged so that they are supported on the flange top 6 and thus serve to secure the device to the reinforced concrete beam. Furthermore, the illustrated device is provided with an optional rib 24 for increasing the rigidity.

In order to achieve the most efficient reinforcement of the carrier by applying tension members made of fiber-reinforced plastic flat strip lamellae on reinforced concrete beam, the tension members and correspondingly the fastening means for the tension members are mounted in particular in the lower region of the side parts of the device or on the flange underside.

The inventive device is typically made of metal, of a metal alloy or of another high-strength material. The device preferably consists of steel.

Depending on the dimension of the reinforced concrete beam to be reinforced and depending on the need for reinforcement, the device according to the invention has one or more fastening elements for tension members. In particular, the device has 1 to 4 fastening elements.

As fastening elements can be used any systems for introducing force into tension members, wherein the fastening element and the tension member which is to be fastened to the fastening element, must be coordinated.

If the fastening element is a clamping device in which the end of the tension member is clamped, for example, between two plates, no changes need to be made to the tension member for fastening.

If the fastener is a slot plate, a chuck is attached to each end of the tension member. The tension member is guided in such a fastener through the slot of the slit plate, so that the clamping head, viewed in the pulling direction of the tension member, is disposed behind the slit plate.

Suitable systems for introducing force into tension members are described, for example, as state of the art in the introduction to the description of the European patent application with the application number EP1 0173179.2 , Particularly suitable systems for introducing force into tension members are the subject of said European patent application, the entire disclosure of which is hereby incorporated by reference.

In particular, the fastening element is a slot plate which is used in conjunction with a tension member with a clamping head. Preferably, the slotted plate in the pulling direction of the tension member with Ridges or the like supported on the base plate or on the side part.

Further exemplary embodiments of the device according to the invention are described below in part in connection with reinforced concrete beams to which they are attached. Reinforced concrete beams with device are also the subject of the present invention.

The reinforced concrete beam is preferably such as it is in FIG. 1 has been described. The device is still such as previously described.

• die Vorrichtung eine, an der Flanschunterseite 4 horizontal verlaufende, Grundplatte 8 und mindestens ein, entlang mindestens einer Flanschseite 5 vertikal verlaufendes, Seitenteil 10 aufweist;
• die Grundplatte und/oder das mindestens eine Seitenteil mindestens ein Befestigungselement 9 für ein Zugglied aufweist; und wobei
• das mindestens eine Seitenteil im Bereich der Verjüngung des Flanschs zum Steg einen, gegen den Steg hin gerichteten, Vorsprung 11 aufweist, welcher sich zumindest teilweise auf der Flanschoberseite 6 abstützt.

Accordingly, the present invention also relates to a reinforced concrete beam which has a web 2 and a flange 3 with a horizontal flange bottom 4, two flange sides 5 and two, from the flange sides to the web extending flange tops 6. The reinforced concrete beam 1 comprises at least one device for the final anchoring of tension members made of fiber-reinforced plastic ribbon slats, wherein

• the device has a, on the flange bottom 4 horizontally extending, base plate 8 and at least one, along at least one flange 5 vertically extending, side part 10;
• the base plate and / or the at least one side part has at least one fastening element 9 for a tension member; and where
• the at least one side part in the region of the taper of the flange to the web, a, directed against the web towards, projection 11 which is at least partially supported on the flange top 6.

Regardless of the embodiment of the inventive device or the reinforced concrete beam, which has such a device, the device is preferably glued to the reinforced concrete beam. In particular, two-component adhesives based on epoxy resin are used for this purpose, which can be high or low viscosity and possibly filled. For example, suitable adhesives under the trade names Sikadur ^® are commercially available from Sika Switzerland AG.

By gluing or pouring the gap between the reinforced concrete beam and the device, the base plate 8 is frictionally connected to the flange base 4 for transmitting shear and compressive forces. In order to allow a transmission of compressive forces between the projection 11 and the flange top 6, the device is typically made to fit the dimensions of the flange, this adapted during assembly or a gap between the projection 11 and flange top is filled by pouring or bonding non-positively. If the device is loaded on the fastening element 9 orthogonally to the cross-sectional plane, tangential deformations occur in the direction of stress in the boundary layer between the base plate 8 and the flange underside 4. In frictional, play-free contact between the projection 11 and the flange top 6, this results in a rotation of the entire device to the contact surface between the projection 11 and the flange top 6. In a sufficiently rigidly constructed device results from the rotation orthogonal to the contact surface between the base plate 8 and flange 4 directed pressure force , and a compressive force of the same amount between the projection 11 and the flange top 6. The compressive force in the interface between the base plate 8 and bottom flange 4 leads to a significant increase in the transmittable force in the tangential direction.

In particular, the reinforced concrete beam has a recessed recess in the area where the device is applied and at least part of the device is placed in the recessed recess. The recessed recess can be located on the flange underside or on the flange sides. In certain cases, the recessed recess may also extend to the flange tops.

In particular, the recessed recess is located on those sides of the reinforced concrete beam to which the device to be mounted has the at least one fastening element for a tension member.

If the device according to the invention has a base plate with a fastening element for a tension member, the recessed part is located Recess on the flange underside. If the device has fastening elements on at least one side part, the recessed recess is located on the at least one flange side on which the side part with the fastening element is applied.

FIG. 7 shows a reinforced concrete beam 1, as he is already in FIG. 1 has been described, wherein here the areas are shown, over which the recessed recess 12, 13 can extend. Is at the location of the reinforced concrete beam, which has the recessed recess, the application of a device for the final anchorage of tension members made of fiber-reinforced plastic ribbon strips provided, in which the attachment of the tension member to the base plate, the reinforced concrete beam 1 in particular a recessed recess 12 at the Flange bottom 4 on. If the provision of a device is provided in which the attachment of the tension member takes place on a side part 10, then the recessed recess 13 is located in particular on the corresponding flange 5. If both side parts 10 have fastening elements, in particular there is a recessed recess on both sides.

The recessed recess has the advantage that the tension member can be applied without clearance to the reinforced concrete beam. As a result, a possible deflection of the tension member from the device to the surface of the reinforced concrete beam, for example, to the flange bottom, be reduced or eliminated completely. In particular, a recessed recess is also suitable when a preferred system, consisting of slot plate and clamping head, is used to introduce force into the tension member. In this case, the recess, against the pulling direction of the tension member, also extend over the area where the device according to the invention is applied so as to make room for the clamping head.

Another advantage of the recessed recess is the improved transmission of force from the device to the reinforced concrete beam, as the device can be supported at least partially, in the pulling direction of the tension member, against the flank of the recessed groove.

The recessed recess typically extends so far into the reinforced concrete beam that the device for the final anchorage of tension members of fiber reinforced plastic ribbon slats can be placed in the recess so that the applied tension member in the tensioned state with little or no deflection on the surface of the reinforced concrete beam , In particular, the depression extends at most up to the steel insert of the reinforced concrete beam.

FIG. 8 shows, for example, a device according to the invention, which is mounted on a reinforced concrete beam 1. The illustrated reinforced concrete beam has a recessed recess on the flange bottom 4 and on both flange sides 5. The dashed line shows the outline of the reinforced concrete beam 1 in the places without recessed recess. The device has a, in the recessed groove on the flange underside of the reinforced concrete beam fitting, base plate 8 with two fastening elements 9 for tension members and two, in the recessed depressions along the flange 5 vertically extending side parts 10, each with a projection 11. The projections are arranged so that they are supported on the flange top 6 and thus serve to secure the device to the reinforced concrete beam. The recessed recess extends into the area of the steel insert 7 of the reinforced concrete beam.

FIG. 9 shows an embodiment of a device which is mounted on a reinforced concrete beam 1. Unlike the device, as in FIG. 8 is shown, here are the side parts 10 formed as threaded rods which connect the base plate 8 and the projections 11 together. Furthermore, it concerns the fastener 9 of in FIG. 9 illustrated device around a clamping device, wherein the end of the tension member is clamped between two plates.

If the side parts are threaded rods, a side part of the device according to the invention consists in particular of at least two such threaded rods. This improves the stability of the device.

FIG. 10 also shows a device according to the invention, which is mounted on a reinforced concrete beam 1. The illustrated reinforced concrete beam has a recessed recess on the flange bottom 4, wherein the recess extends into the region of the steel insert 7. The device has a, in the recessed recess on the flange underside of the reinforced concrete beam 1 fitting base plate with a fastener 9 for a tension member and along the flange sides vertically extending side parts 10, each with a projection. The projections (not shown) are arranged so that they are supported on the flange top and thus serve to secure the device to the reinforced concrete beam. Further shows FIG. 10 the attached to the device tension member 16 which is mounted by means of clamping head 17 on the fastening element 9. The pulling direction 15 of the tension member 16 is indicated by an arrow.

If the device according to the invention is mounted on a reinforced concrete beam, which is provided with a recessed recess for the base plate, the force applied in the intended direction of pull 15 on the fastening element 9 will not only be due to tangential forces in the interface between base plate 8 and flange bottom 4, but also transmitted by pressure forces between the end face 25 of the base plate and the flank 26 of the recessed recess. The resulting from the application of a force in the intended direction of pull 15 on the fastener 9 rotation of the device generates compressive forces between the base plate 8 and the base 27 of the recess recessed. The compressive force directed orthogonally to the interface between the base plate 8 and the base 27 of the recessed recess results in an increase in the tangential resistance of the interface compared to a connection without compressive force.

Similarly, the forces behave in a device which has at least one fastening element 9 on at least one flange 5 of the reinforced concrete beam.

A further embodiment of the device according to the invention is, for example, in FIG. 11 shown, wherein the base plate 8 of this device, compared to those in FIG. 4 , additionally comprises an extension 14 which extends in the intended pulling direction 15 of the tension member.

The resulting from the application of a force by the tension member 16 in the pulling direction 15 on the fastener 9 rotation of the device generated in addition to the compressive forces between the base plate 8 and the base 27 of the recess recessed also compressive forces between the extension 14 and the flange bottom 4. These on the Extension 14 applied to the flange underside, orthogonal to the concrete surface directed pressure force leads to an increase in the compressive strength of the concrete and thus to an increase in compressive forces between the end face 25 of the base plate and edge 26 of the recessed recess force.

An extension, as in FIG. 11 is shown on the base plate of the inventive device, is independent of the embodiment of the device per se preferred. Furthermore, such an extension does not necessarily extend over the flange underside, but is typically mounted where on the one hand the reinforced concrete beam has a recessed recess for receiving the base plate or at least one of the side parts, depending on which of these parts provides a fastener for the tension member is.

Furthermore, the extension, as in FIG. 11 shown, consist of two parts, which are arranged on one side along the tension member. However, the extension may also extend over the area of the tension member between the tension member and the reinforced concrete beam or in such a way that the tension member is arranged between the extension and the reinforced concrete beam. If the extension between the tension member and reinforced concrete beam, the tension member is typically deflected by the height of the extension to the flange underside of the reinforced concrete beam.

In particular, the inventive device is designed so that the base plate with the fastening element for the tension member and / or the at least one side part with the fastening element for the tension member has an extension which extends in the intended direction of pull of the tension member.

Typically, the extension is formed by the base plate and / or the side part having at least one, at least partially overlapping with the base plate, second plate, the second plate projects beyond the base plate in the intended direction of pull of the tension member.

A preferred embodiment of the device according to the invention for the final anchoring of tension members made of fiber-reinforced plastic flat strip lamellae on reinforced concrete beams, which have a recessed recess at least on the flange underside, comprises a base plate with at least one, in particular in the direction of the side parts, outstanding element and is for example in the Figures 12 (View) and 13 (cross section) are shown. The base plate 8 of the device shown here has at least one protruding element 28, which is formed at least partially complementary to the recessed recess on the flange underside of the reinforced concrete beam. The protruding element 28 may be formed, for example, as a mandrel, which protrudes only over a part of the width of the reinforced concrete beam in this. In particular, however, the protruding element 28 is formed as a beam which extends over the entire width of the device.

Furthermore, the device according to the invention can also have a plurality of outstanding elements 28, which are likewise designed in particular as mandrels or as beams. If the device is one which has a plurality of outstanding elements, it has, in particular, spaced-apart beams which run parallel to one another. For example, shows FIG. 14 a device with two beams as outstanding elements 28, which are attached to the base plate 8.

Also in the case of the embodiment of the invention described here, in which the base plate has at least one protruding element 28, it is essential that the recessed recess extends maximally to the steel insert of the reinforced concrete beam. Therefore, the maximum height, by which the protruding element can protrude from the base plate, also corresponds to the distance between the flange underside of the reinforced concrete beam and its steel core.

FIG. 15 shows a device which is mounted on a reinforced concrete beam 1, wherein the illustrated reinforced concrete beam has a recessed recess on the flange bottom 4, which extends into the region of the steel insert 7. The recessed recess is typically formed so that it can accommodate the protruding element. Furthermore, the recess shown here, against the pulling direction 15 of the tension member 16, extends over the region on which the device is applied. This facilitates the use of a clamping head 17 for attaching the tension member 16 to the fastening element 9 of the device. Furthermore, the in FIG. 15 shown apparatus at the rear part of the base plate 8, an outstanding element 28 in the form of a bar, which projects into the recessed recess. The dashed lines show the invisible course of the reinforced concrete beam.

The embodiment of the invention in which the base plate has at least one protruding element 28 performs substantially the same function as the base plate and extension embodiment of the invention.

In both embodiments, in addition to the tangential forces in the interface between the base plate 8 and flange bottom 4, compressive forces between the end face 25 of the base plate and the end face of the protruding member 28 and the edge 26 of the recessed recess are transmitted. Furthermore, that part of the base plate which, viewed in the pulling direction of the tension member, acts in front of the protruding element 28 is in the same manner as an extension of the base plate, in the embodiment without outstanding element.

The previously described embodiment of the invention, in which the base plate has at least one protruding element 28, is preferred because, among other things, it is simple to manufacture and easy to handle when mounted on a reinforced concrete beam.

For example, such a device can be produced by bending a metal plate into a U-profile or by joining several metal plates into a U-profile, for example by screwing, riveting, welding, gluing and the like. In the U-profile, the profile base forms the base plate and the two legs form the side parts. Thereafter, at least one excellent element, in particular a steel beam on the profile base, mounted in the transverse direction to the U-profile or to the longitudinal course of the reinforced concrete beam. In particular, the steel beam, viewed in the pulling direction of the tension member, in the rear region of the U-profile, preferably flush with the base plate mounted.

The in the Figures 10 and 15 shown reinforced concrete beams each have devices for the final anchoring of tension members made of fiber-reinforced plastic ribbon slats, which have no clamping system or tension element for the tension member. Depending on the system which is used to introduce force into the tension member, such devices can be used at both ends of the tension member.

This is for example the case when the tension member is guided and stretched along the reinforced concrete beam and by the fastening elements of the devices at both ends of the tension member and the clamping heads are only after the tensioned tension member, in the pulling direction of the tension member, behind the fasteners, recognized. Also, it does not require a tension member when the fastener itself represents a clamping device for clamping the tensioned tension member. For example, these would be two plates between which the tensioned tension member would be clamped, as in FIG FIG. 9 is shown.

In a further embodiment of the present invention, the device for the final anchoring of tension members made of fiber-reinforced plastic ribbon slats can be provided with a tension member for tensioning the tension member.

The tension element has the function of tensioning the tension member after it has been attached to the device according to the invention. This is typically done by threaded rods or by hydraulic presses or tractors.

For example, shows FIG. 16 a reinforced concrete beam 1 with a device for the final anchoring of tension members made of fiber-reinforced plastic ribbon slats, as described above, wherein the device is equipped with a tension element 18 for tensioning the tension member 16.

The illustrated pulling element 18 comprises, like the device itself, a base plate, side parts and possibly projections. Furthermore, it comprises threaded rods 19, which are connected to the fastening element 9 for the tension member of the device. By tightening the nuts 20 train can be exercised on the fastener 9, whereby the tension member 16 is tensioned. The tension member 18 is connected via legs or plates 21 with the side parts 10 of the device.

In an alternative embodiment, the connection between the tension element 18 and the device according to the invention by means of legs or plates 21 can be dispensed with. Instead, the tension member 18 may be attached to the reinforced concrete beam.

The tension member 18 may be left after the tensioning of the tension member 16 on the reinforced concrete beam, or it may be removed after fixing the clamping head with tensioned tension member again. The clamping head is fixed, for example, by backfilling the area between the device according to the invention and the clamping head. For backfilling are materials based on cement or plastics such as epoxy resins.

1. i) Anlegen einer Vorrichtung an einen Stahlbetonträger 1, wobei
   • die Vorrichtung eine, an der Flanschunterseite 4 horizontal verlaufende, Grundplatte 8 und mindestens ein, entlang mindestens einer Flanschseite 5 vertikal verlaufendes, Seitenteil 10 aufweist;
   • die Grundplatte und/oder das mindestens eine Seitenteil mindestens ein Befestigungselement 9 für ein Zugglied aufweist; und wobei
   • das mindestens eine Seitenteil im Bereich der Verjüngung des Flanschs zum Steg einen, gegen den Steg hin gerichteten, Vorsprung 11 aufweist, welcher sich zumindest teilweise auf der Flanschoberseite 6 abstützt;
2. ii) Anlegen eines Zugglieds an das Befestigungselement 9;
3. iii) Spannen des Zugglieds.

Furthermore, the present invention relates to a method for the final anchoring of tension members made of fiber reinforced plastic ribbon strips on reinforced concrete beams 1, which a web 2 and a flange 3 with a horizontal flange bottom 4, two Flanschseiten 5 and two, from the flange sides to the web extending flange tops 6, comprising the steps

1. i) applying a device to a reinforced concrete beam 1, wherein
   • the device has a, on the flange bottom 4 horizontally extending, base plate 8 and at least one, along at least one flange 5 vertically extending, side part 10;
   • the base plate and / or the at least one side part has at least one fastening element 9 for a tension member; and where
   • the at least one side part in the region of the taper of the flange to the web has a, directed against the web towards, projection 11 which is at least partially supported on the flange top 6;
2. ii) applying a tension member to the fastener 9;
3. iii) tensioning the tension member.

In particular, on the reinforced concrete beam 1, before step i) of the inventive method, at least at the point where the base plate 8 is to be applied with the fastening element 9 for the tension member and / or the side part 10 with the fastening element 9 for a tension member, a recess 12, 13 left out. Thereafter, the application of the base plate 8 takes place with the fastening element 9 for a tension member and / or the side part 10 with the fastening element 9 for a tension member in the recessed recess.

If the device according to the invention is a device with a protruding element, the device is placed on the reinforced concrete beam in such a way that the protruding element projects into the recessed recess.

The recessed recess extends maximally to the steel insert of the reinforced concrete beam.

The recess of the recess can be made in any way, while it must be ensured that the steel insert is not damaged in the reinforced concrete beam. For example, the recess is cut out of the concrete or milled out. Preferably, the recess of the recess is made with a high-pressure water jet.

In the Figures 17a, 17b and 17c the main steps of the inventive method are shown.

Figure 17a shows a reinforced concrete beam 1 with steel insert 7, as has been previously described. Shown are the flange bottom 4 and a flange 5. The web of the reinforced concrete beam and the flange tops are not shown. Further shows Figure 17a a high-pressure water jet system 22, by means of which a recess for the device is recessed on the flange underside and on the flange sides of the reinforced concrete beam. Furthermore, a recess for the clamping head is recessed.

FIG. 17b shows the reinforced concrete beam 1 with the recesses 12 recessed on the lower flange side 4 and 13 on the flange sides 5 and further the recess which has been recessed for the clamping head. in the recessed recesses 12 and 13, which are provided for the device, an adhesive 23 has been applied for bonding the device to the reinforced concrete beam.

Further shows FIG. 17b a device for the final anchoring of tension members made of fiber-reinforced plastic flat strip lamellae consisting of a base plate 8 with a fastening element 9 for the tension member, two side parts 10, two not yet attached to the side parts projections 11 and an extension 14. The extension is formed in two parts, so that space for the tension member is maintained in the middle.

FIG. 17c shows the reinforced concrete beam 1, on which the device for the final anchoring of tension members made of fiber-reinforced plastic ribbon slats was attached. After positioning the device on the reinforced concrete beam, the projections 11 were attached to the side parts with screws and thus secure the device to the reinforced concrete beam. The glue in FIG. 17b is illustrated, also contributes after its curing to the attachment of the device.

FIG. 17c This is provided at its illustrated end with a clamping head 17, which, viewed in the pulling direction 15 of the tension member, behind the fastening element 9, in this case a slotted plate, is arranged.

By the train, which is exerted by the tension member 16 in the pulling direction 15 on the device, it can lead to a wedging of the device with the reinforced concrete beam. The degree of wedging depends on the geometry of the device and on the method of bonding the device to the reinforced concrete beam. The wedging can have a positive effect on the stability of the device.

The tensioned tension member 16 is finally glued in the tensioned state with the reinforced concrete beam. As adhesives for the bonding of the tension member to the reinforced concrete beam, in particular, two-component adhesives are based on epoxy resin, as are commercially available, for example under the trade names Sikadur ^® Sika Switzerland AG.

LIST OF REFERENCE NUMBERS

• 1 reinforced concrete beam
• 2 footbridge
• 3 flange
• 4 flange underside
• 5 flange side
• 6 flange top
• 7 steel insert
• 7a unstressed steel core
• 7b strained steel insert
• 8 base plate
• 9 fastening element for tension member
• 10 side panel
• 11 lead
• 12 recessed recess on the flange underside
• 13 recessed recess on the flange side
• 14 extension
• 15 pulling direction of the tension member
• 16 tension member
• 17 clamping head
• 18 tension element
• 19 threaded rod
• 20 nut
• 21 thighs
• 22 high-pressure water jet system
• 23 adhesive
• 24 rib
• 25 face of the base plate
• 26 flank of the recessed recess
• 27 Base of the recessed well
• 28 excellent element
• 29 face of the outstanding element

Claims (15)

Device for the final anchoring of tension members made of fiber-reinforced plastic ribbon strips on reinforced concrete girders (1), which have a web (2) and a flange (3) with a horizontal flange bottom (4), two flange sides (5) and two, from the flange sides to the web extending, Flanschoberseiten (6), wherein the device has a base plate (8) which can be horizontally positioned on the flange underside (4) and at least one side part (10) which can be vertically positioned along at least one flange side (5); - The base plate and / or the at least one side part has at least one fastening element (9) for a tension member; and where - The at least one side part is arranged so that, in the region of the taper of the flange towards the web, it has a, directed towards the web, projection (11) which is arranged so that it at least partially on the flange top ( 6) can support. Apparatus according to claim 1, characterized in that the base plate (8) with the fastening element (9) for the tension member and / or the at least one side part (10) with the fastening element (9) for the tension member has an extension (14) which extends in the intended direction of pull (15) of the tension member. Apparatus according to claim 1, characterized in that the base plate (8) with the fastening element (9) for the tension member at least one, in the direction of the side parts, outstanding element (28). Reinforced concrete beam comprising a web (2) and a flange (3) with a horizontal flange bottom (4), two flange sides (5) and two flange tops (6) extending from the flange sides towards the web,
characterized in that
the reinforced concrete beam (1) comprises at least one device for the final anchoring of tension members made of fiber-reinforced plastic flat strip lamellae, wherein - The device comprises, on the flange underside (4) horizontally extending base plate (8) and at least one, along at least one flange side (5) vertically extending, side part (10); - The base plate and / or the at least one side part has at least one fastening element (9) for a tension member; and where - The at least one side part in the region of the taper of the flange to the web has a directed against the web towards, projection (11) which at least partially on the flange top (6) is supported. Reinforced concrete beam according to claim 4, characterized in that the reinforced concrete beam (1) has a recessed recess (12, 13) in the region where the device is applied, and at least part of the device is placed in the recessed recess. Reinforced concrete beam according to claim 5, characterized in that the reinforced concrete beam (1) at least at the point where the base plate (8) with the fastening element (9) for the tension member and / or the side part (10) with the fastening element (9) for a Tension member is arranged, a recessed recess (12, 13) and the base plate (8) with the fastening element (9) for a tension member and / or the side part (10) are applied to the fastening element (9) for a tension member in the recess , Reinforced concrete support according to claim 5, characterized in that the reinforced concrete support (1) on the flange underside (4) has a recessed recess (12) and the base plate (8) with the fastening element (9) for a tension member at least one protruding element (28) wherein the at least one protruding member (28) projects into the recessed recess. Reinforced concrete beam according to claim 7, characterized in that the recessed recess (12) and the protruding element (28) are at least partially complementary to one another. Reinforced concrete support according to one of claims 4 to 8, characterized in that the device is glued to the reinforced concrete beam (1). Reinforced concrete beam according to claim 6, characterized in that the device has an extension (14) which, in the intended direction of pull (15) of the tension member, beyond the recessed recess (12, 13) on the lower flange side (4) and / or on the at least one flange side (5) of the reinforced concrete beam extends. Process for the final anchoring of tension members made of fiber-reinforced plastic flat strips on reinforced concrete girders (1), which have a web (2) and a flange (3) with a horizontal flange bottom (4), two flange sides (5) and two, from the flange sides towards the web extending flange tops (6), comprising the steps i) applying a device to a reinforced concrete beam (1), wherein - The device comprises, on the flange underside (4) horizontally extending base plate (8) and at least one, along at least one flange side (5) vertically extending, side part (10); - The base plate and / or the at least one side part has at least one fastening element (9) for a tension member; and where - The at least one side part in the region of the taper of the flange to the web, a directed towards the web towards, projection (11) which at least partially on the Flanschoberseite (6) is supported; ii) applying a tension member to the fastener (9); iii) tensioning the tension member. A method according to claim 11, characterized in that on the reinforced concrete support (1) in the area where the device is to be applied, a recess (12, 13) is recessed and at least a part of the device is placed in the recessed recess. A method according to claim 12, characterized in that on the reinforced concrete beam (1), at least at the point where the base plate (8) with the fastening element (9) for the tension member and / or the side part (10) with the fastening element (9) for a tension member is to be applied, a recess (12, 13) is recessed, and the base plate (8) and / or the side part (10) are applied to the fastening element (9) for a tension member in the recess. A method according to claim 12, characterized in that on at least the point where the base plate (8) is arranged with the fastening element (9) for the tension member on the reinforced concrete beam (1), at least one recessed recess (12, 13) and the Base plate (8) with the fastening element (9) for a tension member at least one protruding member (28), and the device is applied so that the protruding member (28) projects into the recess. A method according to any one of claims 11 to 14, characterized in that with the tensioning of the tension member, a wedging of the device with the reinforced concrete beam (1) is accompanied.

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