DE2750931C2 - - Google Patents

Description

The invention relates to a method for creating Building walls or facades made of prefabricated parts according to Preamble of claim 1.

It is already known to use prefabricated plate elements economic construction of buildings or building facades saden in prefabricated production in series. Such For example, plate elements consist of a front set layer, a wall insulation and a base layer, the possibility of providing a thermal barrier coating one also with regard to growing energy problems economic construction enables.

Nevertheless, buildings are still predominantly bricked up in a conventional manner. This is essential lichen that it is without extensive Planning is possible, the self-supporting masonry to wall up.

In contrast, prefabricated wall elements against Forces such as wind pressure or wind suction secured against one Skeletal structure to be attached. The necessary for this agile attachment must still be in every one can be planned with a lot of time and costs. For these reasons, the establishment of a conventional Masonry is still easier and cheaper today.  

For fastening prefabricated wall elements to support beams an assembly device is known from DE 23 13 272 A1, where the on the supports of a skeletal structure fastening wall elements over a T-shaped base body, that connects two wall elements with a column, be connected to a wall.

From DE 24 55 296 A1 a similar construction is be knows, in which the weight of the plates also over the support structure is transferred to the foundation. The weight forces of the individual plate elements are at this known embodiment on the base body in the supports transferred and in this way into the foundation headed.

In this way, considerable weight must be borne by the Pillars of the skeletal structure are transferred. This be indicates a high static load on the supports caused by the type of attachment to be bended. The In addition to the task of supporting the Ceilings also absorb the weight of the wall elements.

The invention has for its object a method for Creation of building walls or facades from prefabricated parts specify in which the support elements for the establishment egg skeleton construction not with the weight of it wall elements to be fastened and at which enables a simple and cheap prefabrication process becomes.

This problem is solved with the features of Claim 1.  

An advantageous further development is in a subclaim of the method according to the invention.

According to the invention, the weight of the Er align a wall section between two supports elements placed directly on top of each other to the individual foundations of the he directed building. The fasteners on the support elements serve only for receiving of horizontal loads, e.g. B. Wind loads.

Due to the wall elements there is therefore no support in the columns Bending moment generated so that this with much less Planning effort can be made. Furthermore is no individual planning of the fastening device required, the structurally flawless, simple and functional univer sell can be trained. The same fastenings can can be chosen for wall elements of any size because these only the forces from wind loads, but not those have to bear out of their own weight. It only has to be an Ab tilting of the wall elements can be prevented.

A particularly for a series production of the after Finished parts used according to the invention considerable advantage is that all changes not only in the same area, but also in the same Strength can be run because of the allowable pressure tensions from the dead weight of the elements be paced.

There is a risk of excessive vertical compressive stresses at most, if there are still loads from the dead weights  Blankets or the like are added. This danger can be avoided however without difficulty and without additional effort in simple Switch off in such a way that ceiling loads immediately above the support elements of the building construction are guided, so that the wall elements are not overloaded can.

Since, incidentally, in a building constructed according to the invention about the fastenings of the individual wall elements to the support only horizontal forces such as wind pressure or Wind suction can be directed into the support elements, and since this Forces on all elements with negligible tolerances are approximately the same, is another advantage of the inven dung also to see that for all wall elements the same fastening devices are used can.

One with advantageously little technical and financial Effortable series production of the finished parts is very simply ensures that the predetermined Ab stands the attachment provided on the support elements organs of the axial dimension of the support elements and the arrangement the attachable fasteners to the wall plates are defined uniformly.

It is then essential for the construction of a building only the distance between the first to be delivered and ver if necessary in the foundation specify and comply with anchoring support elements, so that through the invention extensive planning and the associated time and cost savings can be.  

Prefabricated concrete supports can also be used as support elements be provided for a reinforced concrete structure, in whose Manufacture be as holding devices for the wall panels preferred anchor channels either continuously or in sections assign at predeterminable intervals along the column axis be concreted. this has the advantage that plates on these supports different areas - especially with under different height dimensions can be connected can. The ones designed with anchor rail sections Columns, however, have the ver turned plates the advantage that fewer rails material is needed.

Steel supports can also be used as support elements for example in the form of U or I beams, in which the holding devices for connecting the plat tenelemente advantageously simply in each case given Side distance to the column axis, in the axial direction of the column can be arranged one behind the other slots.

Changes used by a method according to the invention elements can also be found on other structural parts of a Ge buildings are attached, with appropriate Haltvor directions are provided.

In the following description and the drawing are preferred embodiments of the invention shown. Show it  

Fig. 1 and 2, a supporting side plan view and an end view of an embodiment of a prefabricated wall element,

FIGS. 3 to 6 different side views and cross sections of a preferred embodiment of a support element,

FIGS. 7 and 8 details of a connection between the wall plate members with a support in a region lying in the joint region and partial cross-section in a vertical section.

A and shown in Fig. 1 and 2 prefabricated Wandele element 10 is a so-called sandwich plate with a facing layer 12 , an insulating layer 14 and a support layer 16th

At the two upper corners of the free surface of the support layer 16 are made of U-shaped steel profiles, concreted in the manufacture holding devices 18 and 20 , respectively.

The upward-facing U-profiles 18 and 20 lie with one leg in the support-side surface of the plate element and each delimit a recess in the plate 10 that is accessible from the upper edge and the adjacent side edge.

With 22 to 28 of the backing layer are designated 22 to 28 in the upper edge or the lower edge 16 in alignment superimposed blind holes, which are preferably defined by a concrete pipe sleeves.

30 only schematically indicated composite sleeve anchor is shown in FIG. 1 referred to. In addition, reinforcement bars 32 and 34 and composite brackets 36 are indicated schematically in FIG. 1.

FIGS. 3 to 6 show various, partly geschnit tene views of one of the example of concrete-made support members 46. Referring to FIG. 3 are in the on the side of this supporting element in each case with the same before the given distance e from the support axis parallel and above each other with the same center distances arranged on kerschienenabschnitte 50, 52 and 54, 56 embedded in concrete, the substantially C-shaped cross-sectional profile depending weils a vertical entry slot in the front side of the support element limited.

For anchoring in the foundation, the support element shown has, for example, a so-called protruding reinforcement 58 in its lower part. In other designs, the support elements can also be used in quiver foundations.

A rear step 60 at the upper end of the support element makes it possible, for example, to support ceiling elements without additional stress on the wall plate elements fastened to the front of the support by means of the anchor rails 50 to 56 .

A blind hole 62 is formed in step 60 for the purpose of aligning ceiling elements or the like, which is also limited here, for example, by a pipe sleeve concreted in.

At the upper end of the column, which extends beyond step 60 , a further fastening element 64 or 66 , consisting of a steel profile, is concreted in on both sides of the column axis by means of anchor rods fastened to it. These fasteners are used, for example, to fasten a building roof.

A horizontal through hole 68 provided in the upper part of the support element, which can also preferably be limited here by a pipe sleeve concreted in, forms an assembly aid for aligning the support elements to be set up with predeterminable lateral distances when erecting the skeleton structure of a building.

A partial cross section according to FIG. 7 lying in a joint between the wall panels 10 erected one above the other when a building wall is erected, and a vertical partial cross section including two stacked wall panels according to FIG. 8 illustrate the connection of wall panel elements 10 to a support 46 of the kit according to the invention.

The connection is made very simply in that the U-profiles 18, 20 provided as fastening devices of the plate design provided here are fastened to the anchor rails 52 and 56 of the support element 46 . A hammer head or hook head screw, which enters through a corresponding recess or opening in the U-profile 18 or 20 , is used for fastening, which engages behind the webs delimiting the slot of the anchor rail and is tightened by means of a washer 72 and a nut 74 . The joint between two laterally adjacent plate elements 10 is filled with a joint compound 78 , while the cavities delimited by the U-profiles can be filled with mortar 80 .

Fig. 8 shows that a joint compound 82 can also be provided as a pressure-transmitting layer between the stacked plate elements 10 .

Fig. 8 also shows one on the fastening devices, here z. B. the U-profile 18 fixed anchor bracket 84 , which ensures a secure hold of the cemented U-profile.

Bolts or pins 88 are used according to FIG. 8 for the alignment of stacked plate elements with the help of the blind holes described above, for. B. 22 and 26 .

The we to carry out the method according to the invention considerable dimensions of the prefabricated kit elements are one depending on the size building and depending on the respective select the intended size of the prefabricated plate elements bar.

However, a cross section should be used for the support elements the area should not be less than 20 cm / 20 cm. A preferred size for reasons of transport Plate surface of the prefabricated wall elements is for example 1.25 m / 5.00 m, then 5.0 m the at Erection of the supporting skeletal structure Center distance to be maintained of the side by side Is support elements.

For the lateral distance e of the slot-shaped fastening devices arranged on the support elements, a dimension of 5.5 cm from the center axis plane of the support is particularly favorable.

The slot-shaped design of the attachment devices on the supports guaranteed a particularly quick erection of the structure because of it Tolerances when stacking the panel elements can be easily compensated.

Claims (2)

1. Method for creating building walls or facades from prefabricated parts, in which support elements are set up at predeterminable intervals, in particular vertically, for the establishment of a load-bearing skeleton structure, to which, for example, multi-layered plate elements are fastened, which in the area of the lateral ends of their upper edge fastening device lines which can be connected to the support elements corresponding to the plate height Haltvor directions, characterized in that the lowest plate element is placed directly on the foundation and that the following plate elements are placed directly between two support elements in such a way that the weight forces the plate elements placed on top of each other when erecting a wall section between two supporting elements are passed directly over the plate elements into the foundations of the building to be erected. 2. The method according to claim 1, characterized in that by means of in the edge zone of the upper and lower edges of the plate elements ( 10 ) along the plate width at intervals of one third arranged tube sleeves ( 22-28 ) the alignment of the plates to be placed elements is made.