DE102011054275A1 - Cantilever plate connecting element for connecting cover or base plate and projecting plate, has transverse load bar provided with loop section that is arranged in installed state in cantilever panel - Google Patents

Abstract

The cantilever plate connecting element (1) has a transverse load bar (6) provided with a loop section (6.1) that is arranged in installed state in a cantilever panel (3). Two diagonal sections (6.2) are arranged within insulating body (4). Two end sections (6.3) are arranged in installed state in a cover or base plate (2). The loop section wraps a pressure element (7) that is projected in the cantilever panel. The pressure element penetrates the diagonal sections, which adjoin at the loop section.

Description

Technical area

The present invention relates to a cantilever panel connection element for connecting a ceiling / floor panel and a cantilevered panel.

State of the art

When connecting cantilevered panels to building parts, for example when connecting a balcony to a ceiling / floor slab, two aspects are in the foreground. On the one hand, the various forces that act on the cantilever plate, ie tensile, compressive and / or shear forces, must be safely and completely transmitted to the building. On the other hand, a good thermal insulation must be ensured, since the cantilevered plates are subjected in practice to a high thermal stress. The projecting parts can act as thermal bridges and cause structural damage.

For a long time known Kragplattenanschlusselemente therefore generally have fasteners for power transmission between the building parts and a body of insulating material, which causes the greatest possible thermal insulation of the cantilevered plate.

The DE 3 005 571 B1 discloses, for example, a cantilevered connection element with an elongated, cuboid insulating body of thermally insulating material. The insulating body is interspersed with elongated, metal reinforcing elements which extend substantially transversely to the insulating body and which are designed to absorb tensile forces. In addition to these reinforcing elements, the cantilever connection element has transverse force bars made of reinforcing steel and steel construction parts which act as pressure elements.

From the EP 822 299 B1 is a Kragplattenanschlusselement with a vertical, solid, dimensionally stable and rigid central plate for the transmission of moment, tensile, compressive and shear forces known, with the plate parallel to the plate to be arranged in the joint above and below the plate aligned solid, dimensionally stable and rigidly connected. The upper body has an extension beyond the length of the plate at least on one side of the plate, while the lower body at least on the other side of the plate also has an extension beyond the length of the plate to guide the bodies over the extensions in the To anchor concrete components. The bodies are connected to the plate by mechanical means, in particular by means of a welded, glued or screwed connection.

The EP 499 590 B1 describes a heat-insulating cantilevered connection element having an insulation body, at least one upper layer of spaced apart reinforcing iron, which penetrate the insulation body, at least one lower layer of spaced reinforcing iron or pressure transmission elements, which penetrate the insulation body, and at least one transverse bar on each side of the insulation body. At least one transverse bar is at the upper layer of the reinforcing bar and at least one other transverse bar is arranged at the lower layer of the reinforcing bar or the pressure transmission elements. At least one vertically arranged plate interconnecting the cross bars is disposed between two adjacent reinforcing bars of a layer of reinforcing bars.

From the EP 1 745 182 B1 Also, a cantilever panel connection member for connecting a ceiling / bottom plate and a cantilevered plate is known. The Kragplattenanschlusselement has traction means, transverse force means, pressure means and a cuboid insulating body. The pressure medium is formed as a cuboid insulating element passing through hinge element, which follows the thermally induced movements of the cantilevered plate by a tilting movement.

Despite the diverse, known from the prior art solutions for Kragplattenanschlüsse there is still a need for static well-loadable, thermally well insulating and produced with the least possible cost of material Kragplattenanschlusselementen.

Presentation of the invention

This is where the invention starts. It should be provided a Kragplattenanschlusselement available, which has a good static load capacity with good thermal insulation at the same time. This object is achieved by the Kragplattenanschlusselement according to independent claim 1. Further advantageous aspects, details and embodiments of the invention will become apparent from the dependent claims, the description and the drawings.

The cantilever panel connection element according to the invention connects a ceiling / floor panel and a cantilevered panel. It has a mounted in the installed state between the ceiling / bottom plate and the cantilevered insulating body. The insulating body is penetrated by at least one tension rod, at least one transverse force rod and at least one pressure element for receiving compressive forces. The transverse force rod has a in the installed state in the projecting plate arranged loop portion, arranged in the insulating two diagonal sections and two arranged in the installed state in the top / bottom plate end portions, wherein the loop portion wraps around the projecting into the cantilevered pressure member. The two adjoining the loop portion diagonal sections penetrate starting from the cantilevered plate the insulating body in the installed state diagonally upward in the direction of the ceiling / bottom plate. The two adjacent to the two diagonal sections end portions extend in the installed state substantially horizontally in the ceiling / floor panel.

By "substantially horizontal" is to be understood that it may come to light deviations by the concreting, but play no role in the functioning of the cantilever panel connection element according to the invention.

In known from the prior art Kragplattenanschlusselementen the rods provided for receiving transverse forces usually extend in the lower region of the cantilevered plate in the horizontal direction, then penetrate the insulating body, starting from the cantilevered plate in the installed state diagonally upwards in the direction of the ceiling / bottom plate, extend in the upper part of the ceiling / floor plate then back in the horizontal direction and are connected there in the usual way to the building reinforcement. In addition, solutions are known in which the transverse force bars in the upper region of the cantilevered plate horizontally, just before the insulating body vertically down to the lower portion of the cantilevered plate, the insulating body, starting from the cantilevered plate in the installed state diagonally upward in Penetrate direction of the ceiling / floor plate, then in the ceiling / floor plate then again in the horizontal direction and are connected to the building reinforcement. Basically, these forms are effective methods for absorbing the shear forces. However, a high number of shear force bars in a Kragplattenanschlusselement certain extension must be used to safely and permanently initiate the resulting shear forces in the building.

It has now surprisingly been found that a statically highly resilient and at the same time good thermal insulation cantilever element can be obtained that the transverse force rod is not performed as usual in the horizontal direction in the cantilevered plate, but that he to form a loop into the cantilevered plate projecting pressure element wraps around and the transverse force rod is then passed through the insulating body back into the ceiling / floor panel. It turns out that the number of transverse force bars according to the invention in a cantilevered connection element of a certain extent is smaller than the number of conventional transverse force bars in a corresponding cantilevered connection element.

The inventive design of the transverse force bar not only causes an excellent transfer of lateral forces occurring on the building but also leads to a stabilization of the building facing lower edge of the cantilevered plate. The frequently observed early spalling of the concrete at this point is significantly delayed when using the Kragplattenanschlusselements invention.

A transverse force rod according to the invention can be produced in a simple manner by bending a linear rod.

Preferably, both diagonal sections of a transverse force bar with their adjoining end sections, which run essentially horizontally when installed, each enclose an angle α between 120 ° and 160 °. Said angle range ensures that the transverse force rod with its diagonal sections so completely penetrates an insulating body of conventional dimensions starting from the cantilevered plate in the installed state diagonally upward in the direction of the top / bottom plate, that the loop portion on the one hand provided in the lower region of the insulating element pressure element wraps around and on the other hand both the loop portion as well as the end portions have a sufficient concrete cover.

The distance between the two diagonal sections of a transverse force rod is preferably between 2 and 13 cm, preferably between 4 and 11 cm and particularly preferably between 6 and 9 cm. The two diagonal sections of a transverse force bar are formed by bending a bar and the resulting formation of the loop section. The minimum distance between the two diagonal sections is therefore determined on the one hand by the minimum bending radius of the bar used for producing the transverse force bar and on the other hand by the horizontal extent of the pressure medium. On the one hand, the minimum bending radius can not be fallen below; on the other hand, it is provided according to the invention that the transverse force rod with its loop portion wraps around the pressure medium protruding into the projecting plate. The distance between the two diagonal sections of a transverse force rod must therefore be greater in each case, ie the horizontal extent of the pressure medium in the installed state.

As Druckmitttel in the context of the present invention, all in connection with Cantilever plate connection elements known compressive forces transmitting means are used. Compression rods are just as suitable as any type of thrust bearing made of concrete, steel, plastic or wood. In particular, also made of fiber concrete articulated pressure elements can be used with protruding into the projecting plate convex portions.

The vertical cross-sectional area of the pressure element in the installed state is preferably at least 50 mm ² , particularly preferably at least 100 mm ² . Since for a favorable transfer of the compressive forces usually larger contact surfaces between the pressure element and the top / bottom plate are required, larger vertical cross-sectional areas of the pressure element are preferred.

Preferably, the distance between the loop portion of the transverse force rod and the adjacent pressure element is at least 5 mm, more preferably at least 10 mm, and most preferably at least 15 mm. For safe transmission of the forces of the loop portion of the transverse force bar to the pressure medium, it is necessary that the intermediate space between the loop portion and the pressure element is filled with concrete when concreting the cantilevered plate. In order to achieve a complete and uniform backfilling, the distance between loop portion of the transverse force rod and adjacent pressure element may not be chosen too small. The specified preferred distances ensure complete and homogeneous filling with in-situ concrete.

Preferably, the distance between the loop portion of the transverse force rod and the lower surface of the cantilevered plate in the installed state is at least 10 mm, more preferably at least 15 mm. The specified distances ensure a permanently sufficient concrete cover.

Particularly preferably, the tension rod and the end portions of the transverse force bar extend substantially parallel to one another. By "substantially parallel" is to be understood that it may come to light deviations by the concreting, but play no role in the functioning of the cantilever panel connection element according to the invention.

Very particular preference is given to the various possible combinations of the abovementioned preferred embodiments. In all cases, the combination of the individual elements specified in more detail leads to a combination of the advantages associated with these individual elements, which leads to particularly well suited, statically highly durable and at the same time well-insulated cantilever connection elements.

The tension rods, pressure rods and transverse force rods provided in the cantilevered connection element according to the invention are preferably all made of metal, for example construction and reinforcing steel, but in particular preferably also of non-reinforcing reinforcing steel. The steel parts cast in the concrete components are protected from corrosion by the concrete. However, at least the portions of the rods passing through the region of the insulating body must be protected against corrosion. Preferably, these sections are made of stainless steel or by the from the EP 895 558 B1 known system protected against corrosion. According to EP 895 558 B1, a reinforcing steel rod consisting of corrosive material is surrounded without contact with a non-corrosive sleeve and the intermediate space between the sleeve and the structural steel rod is filled with a pourable, hardening mass.

Ways to carry out the invention

The invention will be described below with reference to an embodiment in connection with the 1 and 2 be explained in more detail.

1 shows a sectional side view of a cantilever panel connection element according to the invention 1 , The ceiling / floor plate 2 and the cantilevered plate 3 connecting cantilever connection element 1 includes one between ceiling / floor plate 2 and cantilevered plate 3 arranged cuboid insulating body 4 , The insulator 4 is from a pull rod 5 for absorbing tensile forces, a transverse force rod 6 for absorbing lateral forces and a pressure element 7 interspersed to absorb compressive forces. At the pressure element 7 it is a pressure element made of fiber concrete, which protrudes with its convexly curved end portions in the cantilevered plate or in the ceiling / floor plate. tension rod 5 and shear force rod 6 are made of reinforcing steel with a diameter of 6 mm.

The transverse force rod 6 has one in the cantilevered plate 3 arranged loop portion 6.1 , two in the insulating body 4 arranged diagonal sections 6.2 and two in the ceiling / floor panel 2 arranged end sections 6.3 on, wherein the loop portion 6.1 that in the cantilevered plate 3 projecting pressure element 7 wraps. The two at the loop section 6.1 subsequent diagonal sections 6.2 penetrate from the cantilever plate 3 the insulator 4 diagonally up towards the ceiling / floor slab 2 , The two on the two diagonal sections 6.2 subsequent end sections 6.3 run horizontally in the ceiling / floor slab 6.3 and will be in usually connected to the building reinforcement. The two diagonal sections 6.2 of the transverse force rod 6 close with the end sections 6.3 each an angle α of about 140 °.

The 2 shows the cantilever connection element 1 of the 1 in a cut frontal view. Shown are several tension rods 5 , two printing elements 7 as well as the diagonal sections 6.2 and loop sections 6.1 two transverse force rods. The vertical cross-sectional area F of the two printing elements 7 is about 12 cm ² each. The distance A between the two diagonal sections 6.2 a transverse force rod is about 7 cm. Finally, the distance B between the loop sections 6.1 and the respective adjacent pressure element 7 around 7 mm. The distance D between the loop portion 6.1 of the transverse force rod and the lower surface of the cantilever plate when installed is 15 mm.

That in the 1 and 2 illustrated Kragplattenanschlusselement has excellent properties with regard to the introduction of the forces occurring in the building as well as in terms of its thermal insulation properties.

LIST OF REFERENCE NUMBERS

1

cantilever panel

2

Ceiling / floor panel

3

cantilevered plate

4

insulator

5

tension rod

6

Shear bar

6.1

loop portion

6.2

Diagonal section

6.3

end

7

lever

A

Distance between the two diagonal sections of a transverse force bar

B

Distance between loop section and adjacent pressure element

D

Distance between loop portion and lower surface of the cantilever plate

F

vertical cross-sectional area of the pressure element

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 3005571 B1 [0004]
• EP 822299 B1 [0005]
• EP 499590 B1 [0006]
• EP 1745182 B1 [0007]
• EP 895558 B1 [0024]

Claims (13)

Cantilever connection element ( 1 ) for connecting a ceiling / floor slab ( 2 ) and a projecting plate ( 3 ) having in the installed state between the ceiling / floor plate ( 2 ) and the cantilevered plate ( 3 ) arranged insulating body ( 4 ), at least one, the insulating body passing through the tie rod ( 5 ), at least one, the insulating body ( 4 ) passing through transverse force rod ( 6 ) and at least one, the insulating body ( 4 ) penetrating and in the projecting plate ( 3 ) projecting pressure element ( 7 ) for absorbing compressive forces, characterized in that the transverse force rod ( 6 ) one in the installed state in the cantilevered plate ( 3 ) arranged loop portion ( 6.1 ), two in the insulating body ( 4 ) arranged diagonal sections ( 6.2 ) and two in the installed state in the ceiling / floor plate ( 2 ) arranged end portions ( 6.3 ), wherein the loop portion ( 6.1 ) that in the projecting plate ( 3 ) projecting pressure element ( 7 ) wraps around, the two at the loop section ( 6.1 ) subsequent diagonal sections ( 6.2 ) starting from the cantilevered plate ( 3 ) the insulating body ( 4 ) in the installed state diagonally upward in the direction of the ceiling / floor plate ( 2 ) and the two to the two diagonal sections ( 6.2 ) subsequent end sections ( 6.3 ) in the installed state horizontally in the ceiling / floor slab ( 2 ). Cantilever plate connection element according to claim 1, characterized in that the two diagonal sections ( 6.2 ) of the transverse force rod ( 6 ) with the subsequent end sections ( 6.3 ) each include an angle α between 120 ° and 160 °. Cantilever plate connection element according to one of claims 1 and 2, characterized in that the distance A between the two diagonal sections ( 6.2 ) of the transverse force rod ( 6 ) is between 2 and 13 cm. Cantilever plate connection element according to one of claims 1 and 2, characterized in that the distance A between the two diagonal sections ( 6.2 ) of the transverse force rod ( 6 ) is between 4 and 11 cm. Cantilever plate connection element according to one of claims 1 and 2, characterized in that the distance A between the two diagonal sections ( 6.2 ) of the transverse force rod ( 6 ) is between 6 and 9 cm. Cantilever plate connection element according to one of claims 1 to 5, characterized in that the vertical cross-sectional area (F) of the pressure element ( 7 ) is at least 50 mm ² . Cantilever plate connection element according to one of claims 1 to 5, characterized in that the vertical cross-sectional area (F) of the pressure element ( 7 ) is at least 100 mm ² . Cantilever plate connecting element according to one of claims 1 to 7, characterized in that the distance B between the loop portion ( 6.1 ) of the transverse force rod ( 6 ) and the adjacent pressure element ( 7 ) is at least 5 mm. Cantilever plate connecting element according to one of claims 1 to 7, characterized in that the distance B between the loop portion ( 6.1 ) of the transverse force rod ( 6 ) and the adjacent pressure element ( 7 ) is at least 10 mm. Cantilever plate connecting element according to one of claims 1 to 7, characterized in that the distance B between the loop portion ( 6.1 ) of the transverse force rod ( 6 ) and the adjacent pressure element ( 7 ) is at least 15 mm. Cantilever plate connection element according to one of claims 1 to 10, characterized in that the distance D between the loop portion ( 6.1 ) of the transverse force rod ( 6 ) and in the installed state lower surface of the cantilevered plate ( 3 ) is at least 10 mm. Cantilever plate connection element according to one of claims 1 to 10, characterized in that the distance D between the loop portion ( 6.1 ) of the transverse force rod ( 6 ) and in the installed state lower surface of the cantilevered plate ( 3 ) is at least 15 mm. Cantilever plate connection element according to one of claims 1 to 12, characterized in that the tension rod ( 5 ) and end sections ( 6.3 ) of the push rod ( 6 ) are substantially parallel to each other.

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