DE3738782C1 - Supporting construction for wall component - includes sliding bearing and steel mandrel and elastic sleeve - Google Patents

Abstract

A supporting construction for a component on a wall, esp. a steel concrete component such as a roof plate, includes a sliding bearing and a steel mandrel firmly located in one of the two components, and an elastic sleeve material which lines a sleeve section. Sliding bearings are located between the two stones. The bearing is pref. a rotating bearing, and has a small core which is thicker than the adjoining polyethylene foam filling material. ADVANTAGE - The construction is efficient, simple and reliable.

Description

The invention relates to a support structure for a sliding bearing on a masonry Component, in particular reinforced concrete component, such as a solid roof panel or the like., With a slide bearing arranged in the sliding joint and with at least one in one of the two components set steel mandrel that is inserted into one in the other component sat, with preferably resilient material lined sleeve engages, the sleeve in one in the top stone layer to be inserted special stone is.

A concrete ceiling that only lies on plain bearings would due to mechanical and thermal stress Carry out uncontrolled movements. Therefore it needs at least one elastic fixation (fix zone) in the center of a building. Such a fixed zone is usually included so-called deformation bearings. A deformation Bearing conventionally consists of a load-bearing element in which Usually an elastomer strip for load transfer and Defined load transfer into the underlying masonry and from side fillers, usually soft foam or styrofoam, the distance between the load-bearing element and cover the wall crown underneath. The for Stability required static friction between the elastomer bearing and the concrete ceiling or the masonry is only then reached when the load-bearing elastomer elements are dependent of the ballast are dimensioned small enough. The practice has  however, showed that such elastomeric elements are usually are oversized with the result that the required Stiction is no longer given and the camp to get out tends to slide. It is also for safe static friction necessary bearing pressure of the elastomer is often higher than it tolerates the mortar joint underneath, what with others Plain bearings for uncontrolled and unwanted sliding movements of the concrete ceiling.

From DE-PS 26 04 533 it is according to the features the preamble of claim 1 known, an on bearing construction with one in an elastic or plastic lined sleeve movable ver held ver turn. This storage leaves defined horizontal movements the ceiling, but sensibly only in a desired one Measure. The sleeve is in one in the top layer of the wall inserted special stone used, so that the filling fabric with which the sleeve is lined, which is flush with the Slip layer overhanging the sleeve. This requires the Covering the area of the Filler with a cap to prevent contamination can enter the sleeve. In addition, the arrangement disadvantageous in so far as that before the installation of the ceiling free-standing mandrel during rough work on a building can easily be damaged.

The invention has for its object a support construction of the closer in the preamble of claim 1 to provide outlined type in their structure is simple and there is no danger of foreign  substances can penetrate into the mandrel bearing area of the sleeve nor the danger that the mandrel will damage the construction site suffer or cause injury.

The invention solves this problem primarily and essentially in that the sleeve is essentially flush in the first and the mandrel in a second special stone ver is anchored and that between the two special stones held slide film on at least two opposite each other protruding sides over the special stones.

Especially when the special stones are clamped or frictional engagement of the mandrel in the lined sleeve together the new support structure arises as uniformly manageable, completely prefabricable and Assembly that can be used on site without any further measures and the special stone that receives the thorn prevents absolute certainty of its damage. The between the Special stones immediately with provided and arranged glide Foil can be attached to foils to be installed on site connected, especially glued or ver be welded. The entire support structure can be in Handle principle like a brick. The between and of the Plain bearings held by special stones leave the desired ones Horizontal movements in the same way as conventional ones Bearings. The two special stones also guarantee a firm bond with the concrete ceiling or the one below lying masonry.

According to a further embodiment of the invention provided that the special stones consist of concrete slabs,  into the one hand the sleeve and on the other hand the mandrel are poured. It is a particularly simple way and Way to manufacture the support structure. Both special stones should expediently have approximately the same outline and are essentially congruent with each other. The The slide film is preferably on all sides of the special stones against these before. With the help of these supernatants the slide film lightly on the structure laid in the slide joint Connect the foil or up to the outside of the wall crown embarrassed.

According to a further proposal of the invention, the Cross section of mandrel and / or sleeve of that of a circle deviate such that the material thickness between the mandrel and sleeve arranged lining in at least one direction within the ceiling level is much larger than in all other directions. This can make the blanket a preferred one Opportunity to be given. If you submit yourself for example, the spike would be circular as usual Cross-section, the lined sleeve from narrow direction adapted long rectangular cross-section, could the thorn mainly in the direction of the longitudinal extension of the Move the sleeve, but hardly or not at all.

The plain bearing between the special stones can be used as a turn Bearings can be formed by one, based on the reason The area of the special stones has a smaller core, which is thicker and / or is harder than an adjoining filling material such as. Polyethylene foam. The one poured into the ceiling the upper special stone can be covered with the ceiling around the by Dorn pendulum and sleeve formed support area rotate or  the area around the core between the special stones gives as the core itself.

The invention is best understood from the rest one with reference to the drawings below written embodiment. The drawings show:

Fig. 1 shows a support element in a perspective view,

Fig. 2 shows a cross section through a bearing structure using the up according to Fig. 1 to a wall crown patch ceiling plate,

Fig. 3 shows a corresponding longitudinal section and

Fig. 4 is a representation corresponding to FIG. 2 with a pivot bearing between the special stones.

The bearing element designated in its entirety with 10 consists of a lower special stone 11 and an upper special stone 12 . Both special stones 11 , 12 are cast from concrete. The lower special stone 11 holds a steel sleeve 13 , the upper a steel mandrel 14 . Sleeve 13 and steel mandrel 14 are cast into the respective special stone 11 and 12, respectively. The sleeve 13 is essentially flush with the inside of the special stone 11 and is lined with an elastic or plastic material 15 . The end of the steel mandrel 14 protruding into the sleeve is consequently supported against the sleeve 13 in a flexible manner, ie with limited horizontal play. The special stones 11 and 12 can thus be displaced against each other to a limited extent.

Between the stones 11 and 12 is a sliding bearing 16 in the form of a conventional plain bearing film, mainly made of elastomeric material. As shown in Fig. 1 Darge, the plain bearing 16 is on two opposite sides of the special stones 11 and 12 against them. The projections 17 formed in this way facilitate, on the one hand, the connection to other slide bearing foils to be connected in the joint area of the slide bearing 16 , or the slide bearing 16 has a width B corresponding to the wall crown in this extension. Deviating from the illustration in FIG. 1, the plain bearing edges shown there that are flush with the other two end edges of the stones 11 and 12 can also be formed above.

The support shown in Fig. 1 is a prefabricated unit that can be handled as a part, because the end of the steel mandrel 14 protruding into the sleeve is frictionally or clamped in the lining 15 , so that the construction usually then does not fall apart if you only lift it up at the top special stone 12 .

As illustrated in FIG. 2, the lower special stone 11 of the support structure is incorporated into the wall crown 18 like a brick. The upper special stone 12 protrudes against the wall crown 18 and is later concreted in by the material of the cast ceiling 19 . The slide bearing 16 extends with its lateral projections 17 to the outer surfaces 20 of the wall 21 .

The corresponding wall longitudinal section should now be appreciated with reference to FIG. 3 by itself. With 22 are referred to herein, the connection points at which the slide bearing 16 is connected to site mounted further sliding bearing portions 23, in particular bonded or welded. The connection point 22 are flush with the outer sides of the substantially congruently arranged and equally large special stones. But you can also let the slide film 16 protrude on these sides, whereby the connection with the films 23 is made even easier.

Fig. 4 illustrates a rotary bearing for the ceiling 19th The bearing 16 arranged between the special stones 11 , 12 consists of a core 24 and an adjoining filling material 25 . The core 24 is smaller than the base area of the special stones 11 , 12 and thicker and / or - as in the example shown - harder than the filler material 25 . The upper, cast in the ceiling concrete special stone 12 can therefore perform rotary or pendulum movements, as the drawing schematically illustrates the drawing.

Claims (8)

1. Support structure for a component mounted on a load-bearing masonry, in particular a reinforced concrete component such as a solid roof panel or the like Other component used, preferably lined with elastic elastic material engages sleeve, the sleeve being inserted into a special stone to be inserted in the uppermost brick layer, characterized in that the sleeve ( 13 ) with its lining ( 15 ) is essentially flush in the first ( 11 ) and the mandrel ( 14 ) is anchored in a second special stone ( 12 ) and that the slide bearing ( 16 ) held between the two special stones protrudes on at least two opposite sides over the special stones ( 11 , 12 ). 2. support structure according to claim 1, characterized in that the special stones ( 11 , 12 ) consist of concrete slabs into which the sleeve ( 13 ) and the mandrel ( 14 ) are cast on the one hand. 3. Support structure according to claim 1 or 2, characterized in that the two special stones ( 11 , 12 ) have at least approximately the same outline and are substantially identical to each other. 4. support structure according to claim 1 or one of the following, characterized in that the special stones ( 11 , 12 ) by clamping or frictional engagement of the mandrel ( 14 ) in the clothing ( 15 ) of the sleeve ( 13 ) are held together. 5. support structure according to claim 1, characterized in that the sliding bearing ( 16 ), in particular sliding film, protrudes on all sides of the special stones. 6. support structure according to claim 5, characterized in that the longitudinal extent ( B ) of the slide bearing ( 16 ) in one direction corresponds approximately to the thickness ( B ) of the wall crown ( 18 ). 7. support structure according to claim 1 or one of the following, characterized in that the cross section of the mandrel ( 14 ) and / or sleeve ( 13 ) deviates from that of a circle, such that the wall thickness of the between the mandrel ( 14 ) and sleeve ( 13 ) arranged lining ( 15 ) in at least one direction within the ceiling plane is significantly larger than in all other directions of this plane. 8. support structure according to claim 1 or one of the following, characterized in that the sliding bearing ( 16 ) between the special stones ( 11 , 12 ) is ausgebil det as a pivot bearing by having a, based on the base of the special stones smaller core ( 24 ) , which is thicker and / or harder than an adjoining filler ( 25 ), such as a polyethylene foam.