EP1229176A2 - Cantilever plate element - Google Patents

Abstract

A pressure unit (3) is at the tie (1) between a cantilever slab (K) and a concrete ceiling slab (D), which has a cube insulation body with the reinforcement rods. Passage openings (6) are formed in the insulating body (2), divided in the body by a sliding mounting (5) in the opposing pressure units. The pressure units are defined by beaker-shaped sleeves to form the sliding mounting, coated at the base surfaces with a sliding layer.

Description

The present invention relates to a cantilever panel connection element for the thermal insulation connection of a cantilever plate with an aligned concrete floor or concrete slab according to the preamble of claim 1.

Cantilever panel connection elements of the type mentioned here have been known for many years. Probably the oldest cantilever panel connection element emerges from DE-3'005'571 B. This Cantilever panel connector that is also on the market during a few years ago, shows an elongated, cuboid insulating body made of thermally insulating Material with elongated, metal reinforcement elements, which are essentially transverse to the insulating body extend and protrude sideways. The The component was designed as a finished part and pointed next to the mentioned reinforcement elements on pressure elements that integrated were housed in the insulating body and the cross section corresponding dimensions of the insulating body possessed. The pressure elements were steel construction parts, which, as already mentioned, integrally in the foamed Were insulated. In addition to the tension rods already mentioned were usually also shear bars made of reinforcing steel also arranged integrally in the finished part. Baustatisch these elements have met all requirements. Nevertheless were able to get these cantilever panel connectors on the market did not hold, but were ousted. The integration of the Pressure elements in the thermal insulation boards proved to be problematic. The strength of the insulating body, for example made of polystyrene foam, hardly allows that Integration of large and heavy printing elements. Defects occurred accordingly. The handling of such Cantilever panel connection elements also proved to be problematic. Accordingly, new cantilever plate connection elements came according to EP-A-0'119'165 on the market where the pressure elements were replaced by pressure rods. in the The cantilever connection element cited were also the Compression bars and tension bars are formed into closed loops. This led to correspondingly compact components.

EP-0'338'972 is also a cantilever plate connection element the aforementioned type known with vertically one above the other arranged and running separate tension and compression rods, the additional in the area of the insulation body Corrosion protected and stiffened with end plates. Versions of the latter type are still today available on the market. These solutions you Emphasis on the greatest possible safety and the highest Quality can be placed under the permanent Selling price pressure, which is currently prevailing, less and less. Solutions to reduce costs have been proposed so far all seen in it, the cantilever panel connection element as to design a multi-part kit that only on site is put together. Solutions of this kind are possible, for example from DE-34'26'538 A and EP-0'117'897 A, and the EP-0'388'692 B.

EP-B-0'121'685 also deals with printing elements with cantilever panel connection elements. Here you also wanted away from the rigid pressure elements according to DE-C-30 05 571 and saw the solution in bars, which in both components were stored on both sides of the cantilever plate. The Invention seen in that bars were used that way are slim that they have temperature-related longitudinal movements to take up or follow across the pressure bars capital.

However, this leads to concrete chips in the area Introduction of the pressure rods into the cantilever plate respectively in the floor or ceiling slab.

The present invention has for its object a To create cantilever plate connecting element with which the transmission the pressure forces better, cheaper and without long-term damage the subsequent concrete components is possible.

A cantilever panel connection element fulfills this task with the Features of claim 1. Here, the Knowledge assumed that on the one hand concrete as a pressure-transmitting Material has excellent properties and on the other hand, the tensile strength of steel reinforcements is used being, with knowledge of manufacturing buildings Cantilever panels in the design of the solution according to the invention have been incorporated. In contrast to all known cantilever panel connection elements it is in accordance with the invention Element is actually not a prefabricated element, but a semi-finished product that is only created when the Concrete floor or ceiling slab production for the prefabricated element becomes.

Further advantageous embodiments of the subject matter of the invention emerge from the dependent claims and their meaning and mode of action are in the following Description explained.

Figur 1

einen Vertikalschnitt durch einen Gebäudeteil im Bereich eines eingebauten Kragplattenanschlusselementes gemäss der Erfindung.

Figur 2

zeigt eine perspektivische Teilansicht eines erfindungsgemässen Kragplattenanschlusselementes, während

Figur 3

den Isolierkörper für die Ausführung des Beispiels gemäss Figur 2 von oben unter Weglassung der uförmigen Schiene zeigt, und

Figur 4

zeigt einen Schnitt durch das Gleitlager zur Verwendung in der Ausführung gemäss der Figur 4 in vergrössertem Massstab.

Figur 5

zeigt eine besonders bevorzugte Ausführungsform des erfindungsgemässen Kragplattenanschlusselementes in einem Vertikalschnitt, zentrisch durch das Druckelement.

In the accompanying drawing, preferred exemplary embodiments of the subject matter of the invention are shown schematically and described in detail below. It shows:

Figure 1

a vertical section through a part of the building in the area of a built-in cantilever plate connecting element according to the invention.

Figure 2

shows a partial perspective view of a cantilever plate connecting element according to the invention, while

Figure 3

shows the insulating body for the embodiment of the example according to FIG. 2 from above, omitting the U-shaped rail, and

Figure 4

shows a section through the slide bearing for use in the embodiment of Figure 4 on an enlarged scale.

Figure 5

shows a particularly preferred embodiment of the cantilever plate connecting element according to the invention in a vertical section, centrally through the pressure element.

With reference to FIG. 1, the installation situation of the Cantilever plate connecting element according to the invention shown. G is the wall of the building on which the concrete floor slab or concrete ceiling slab D rests. With the concrete floor slab or concrete ceiling slab D is the cantilever slab K over that Cantilever plate connection element, which is designated overall by 1 is connected. The cantilever plate connection element 1 has an elongated, cuboid insulating body 2 thermal insulation material. This is preferably an insulating body made of mineral material, namely made of glass or rock wool. However, it is entirely possible to manufacture the insulating body from polystyrene foam. The Insulating body 2 is made of several, transverse to the longitudinal direction of the Insulating body extending through recesses 6 interspersed. Inside the insulator, the through hole 6 separating approximately in the middle is a plain bearing 5 arranged. The special design of this plain bearing can be done differently. This will be discussed below received in detail.

FIG. 2 is a partial view of an embodiment of the cantilever plate connecting element according to the invention in perspective View shown. The cuboid insulating body 2 is here with u-shaped plastic rails 16 at the bottom and upper edge. These u-shaped rails can only as edge protection during transport, storage and installation are seen and at the time of Pouring can also be removed if necessary. This is not mandatory, however, and without loss of quality the rails 16 can also on the cuboid insulating body 2 remain during installation.

The insulating body 2 is usually provided with tension rods 4 interspersed. The tension rods can also be Tension rod sections act on which the actual tension rod parts can be connected. In addition to the Tension rods 4 are usually also transverse rods 7. These cross bars 7, by means of which the vertical thrust forces are to be relieved of the drawing have been omitted, or in FIGS. 1 and 5 indicated by dashed lines.

In Figure 3 is a view from above, perpendicular to the cuboid insulating body 2 shown. Here they are in Figure 2 recognizable tether 17 and the u-shaped Rails 16 removed. The through recesses 6 are shown in dashed lines. Perpendicular to these through recesses 6 are slot-shaped through holes 20 available. These are slot-shaped through holes 20 wider than the diameter of the passage recesses 6. Approximately in the middle and in the same plane as the slit-shaped ones Through holes 20 vent holes 12 are provided.

In the slot-shaped through holes 20 are plain bearings 5 inserted. In the example shown here, this is Slide bearing 5 formed from two metal plates 21 between which a slide film 22 is inserted. Both of them Plates 21 as well as the slide film 22 can be in relation to each other be fixed. In principle, this fixation is only before installation is necessary, but in the installed state these parts to each other in the slit-shaped through hole 20 fixed. The two plates 21 with the slide film 22 can can be kept in relation to each other, for example by attach an adhesive tape to the edge or by a or several rivets penetrating the sandwich Secure layers relative to each other.

The passage recesses fill when fully installed 6 until the concrete rests on the metal plates 21. Usually forms between metal plate 21 and concrete a relatively intimate connection. The one in the through recesses 6 inflowing concrete displaces them there Existing air that flows through the ventilation holes 12 can escape. The one in the through recesses 6 poured concrete hardens and forms mineral cones, which are the actual pressure elements 3 form.

Since the insulating body is not an airtight structure, but contains a large proportion of air itself shown that in the concrete spigot, which the thrust bearing 3 shape, correspondingly a relatively large number of air bubbles be included. Trials have shown that considerably higher strength values of the enclosed concrete can be achieved if the inventive Cantilever panel connector in the preferred embodiment designed according to Figure 5. Instead of the plates 21 here are cup-shaped sleeves 9 in the passage recesses 6 inserted. Here are two such cup-shaped sleeves from both sides of the insulating body 2 inserted into the respective passage recess 6. in the inserted cup-shaped sleeves 9 with their closed bases on each other. The order is preferably symmetrical, so that the two bases the ventilation holes 12 here as well cross. The cup-shaped sleeves 9 have cylindrical Shell walls 91 and a base 92. Just above the Base 92 is in the cylindrical jacket wall 91 Vent hole 93 attached. The vent holes 93 communicate with the vent hole 12 in the insulating body Second

Between the two bases of the two each other opposite cup-shaped sleeves 9 is at least a sliding layer attached. The sliding layer can either as already described for the plates 21, from one there arranged slide film can be designed or, as preferred here, through an appropriate coating. The coating 94, which is only on one of the two bases is necessary, thus forms with the two base surfaces 92 again a plain bearing 5. For the sake of simplicity, one becomes however, the cup-shaped sleeves generally with one layer manufacture from sliding material. Here comes preferably of course plastic in question. In particular TFE coatings are extremely suitable as a sliding layer. Other corresponding plastics are also quite possible Question.

To ensure that the vent holes 93 each to lie exactly on the top and thus actually with the vent hole 12 communicate, it is useful to To design sleeves 9 so that they are only in the correct position can be attached in the passage recesses 6. Correspondingly, the through holes 6 can also be used as one Form a shape deviating from the cylindrical shape. In the Figure 2 is such a preferred embodiment as 6 '. The cylindrical shape is characterized by a lower one Flattening 60 shaped so that the cup-shaped sleeve accordingly must also have such flattening, so that they are inserted into the passage recess 6 'at all can be. This ensures, however, that the correspondingly provided ventilation holes 93 actually in communication with the vent hole 12 stand when the two sleeves 9 are inserted.

It has proven to be particularly advantageous if the cup-shaped sleeves 9 are so large that they in the inserted state over the outer surface of the Extend insulating body 2 outwards. So remains one protruding ring 95, which is on the one hand in the cantilever plate K and on the other side into the concrete ceiling slab D. above all. It is sufficient if this collar 95, for example only 1 to 2 cm above the outer surface of the insulating body 2 protrudes. Would the collar 95 go further into the corresponding Concrete slabs protrude, so this could Problems with that laid in the corresponding panels Reinforcements result. The collar 95 definitely represents sure that in the transition area between the cone-shaped Concrete parts of the pressure element 3 and the outer surface of the corresponding concrete slabs practically no notch effect can occur.

Also in those versions where the plain bearing 9 is made Plates is formed, the quality of the pressure pin increase by placing 6 of the two in the through recesses Sides extending from the outside to the plain bearing Insert pipe sections. The length of this tubular Inserts can be so long that the pipe sections also in the cantilever plate or the floor or ceiling plate protrude collar.

Even with this version, the elements that are common form the slide bearing 5, of course to each other be fixed. This is symbolic here by a rivet 96 shown.

Though for the actual reduction in friction the thickness of the sliding layer can be minimal, it has proven to be advantageous shown this overlay or overlay so thick too design that they form an additional insulation element. The insulation values of plastic are much higher than the insulation value of concrete or metal.

By means of the cross-sectional design of the passage recesses 6, the cantilever panel connection elements of the invention better than with steel bars according to the prior art Adapt location-specific pressure conditions. The cross-sectional area the through recesses can be both oval and be rectangular and these can be lying or standing be aligned depending on the occurring Pressure conditions.

The proposed solution is compared to the manufacturing Solutions known today are much cheaper. All necessary through recesses and ventilation holes can be quickly and inexpensively by means of a Cut heating wire or water jet. Both the Metal plates as well as the cup-shaped sleeves made of metal are extremely inexpensive. Compared to the usual ones required pressure rods or otherwise designed The solutions shown here are essential for printing elements saving weight, and accordingly less Precautions for transportation and storage are provided become. Add to that big savings in metal as well Transportation costs. In addition to these cost-reducing effects but also significantly improved power transmission. The Movements are not caused by deformation of the Compression bars in the corresponding adjacent Concrete slabs lie, but correctly by Bearings. Accordingly, fewer destructions occur and Despite cost savings, you get a better one Movements following element that have a longer lifespan promises.

List of reference numbers

D

ceiling tile

G

building wall

K

cantilever plate

1

cantilever panel

2

insulator

3

pressure element

4

tension rod

5

bearings

6, 6 '

through recess

7

Shear bar

9

sleeves

12

ventilation holes

16

u-shaped plastic rails

17

tether

18

vent holes

20

slot-shaped through holes

21

metal plates

22

slip sheet

91

cylindrical jacket wall

92

Floor space

93

vent holes

94

coating

95

collar

Claims (15)

Cantilever plate connecting element (1) for the heat-insulating connection of a cantilever plate (K) with a concrete floor or concrete slab (D) aligned therewith, with an elongated, rectangular insulating body (2) made of thermally insulating material and with elongated reinforcement elements in the form of tension rods (4), which extend essentially transversely to the insulating body (2), characterized in that the insulating body (2) has through-openings (6) which run perpendicular to the longitudinal extension of the insulating body (2) and serve to be filled with concrete during installation and so on form two aligned pressure elements (3), which are separated by a slide bearing (9) arranged in the insulating body. Cantilever plate connecting element according to claim 1, characterized in that the slide bearing (9) is formed by two plates (21) made of metal arranged at least approximately in a plane perpendicular to the direction of the two pressure elements (3), between which a sliding layer (22) made of material lower coefficient of friction is arranged. Cantilever plate connecting element according to claim 2, characterized in that the sliding layer (22) is formed by a sliding film. Cantilever plate connecting element according to claim 2, characterized in that the sliding layer (22) is formed by a coating on at least one of the two mutually facing surfaces of the plates (21). Cantilever plate connecting element according to claim 2, characterized in that in the passage recesses (6) tube sections are inserted on both sides, which extend from the outside to the slide bearing (9). Cantilever plate connecting element according to claim 1, characterized in that two cup-shaped sleeves (9) are inserted into each through recess (3), the closed base surfaces (92) of which lie on top of each other, and that at least one sliding layer (94) is arranged between the two base surfaces (92) is. Cantilever plate connecting element according to claim 1, characterized in that the sliding layer (94) is formed by a coating of at least one of the two cup-shaped sleeves (9). Cantilever plate connecting element according to claim 1, characterized in that at least one of the two sleeves (9) is extended such that it projects outwards with a collar (95) over the insulating body (2) and, when installed, into the cantilever plate (K) and / or the concrete floor or concrete slab (D) protrudes. Cantilever plate connecting element according to claim 1, characterized in that in the region of the slide bearings (5) in the insulating body (2) there are ventilation bores (12) which communicate with the passage recesses (6, 6 '). Cantilever plate connecting element according to claim 9, characterized in that the ventilation holes (12) communicate with ventilation holes (93) present in the cup-shaped sleeves (9). Cantilever panel connection element according to claim 2 or claim 6, characterized in that the sliding layer (94) is dimensioned such that it acts as an insulation layer. Cantilever plate connecting element according to claim 6, characterized in that the two sleeves (9) and the passage recesses (6) have a shape which deviates from the cylindrical shape and which brings about a position-defined mounting. Cantilever plate connecting element according to claim 2 or 6, characterized in that the plates (21) or sleeves (9) lying in a common through recess (6, 6 ') are connected to one another. Cantilever plate connecting element according to claim 13, characterized in that the connection is realized by at least one rivet (96). Cantilever panel connection element according to claim 2, characterized in that the through-recesses have an oval or rectangular cross-sectional shape and are arranged vertically or transversely due to the load.

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