DE824255C - Process for erecting buildings with incomplete skeleton construction - Google Patents

Description

Process for erecting buildings with an incomplete frame construction The invention relates primarily to the manufacture of buildings in which prefabricated elements can be assembled on the construction site in a short time.

There are already a large number of proposals for this type of construction, which also partially fulfill the intended purpose, namely i.a. the laying of a large proportion of the work in the series production plant and a cheaper Overall construction. One of the best-known methods, the so-called skeleton construction, however, there are still certain disadvantages in the form carried out to this day. These Skeleton construction works so that a steel frame to accommodate all static Tasks is used, while the walls are only made as infill walls of the usual type are, sometimes also created by inserting larger plates into the skeleton. Apart from its own weight and the transfer of wind pressure directly to everyone In the previous construction, however, steel skeleton elements adjacent to the plate can these plates do not take on any static tasks.

This is where the invention comes in. A method for the establishment of Proposes buildings in which an incomplete frame construction is used, in which the missing cross members of the steel skeleton are formed by load-bearing walls will. Here, the posts, i.e. corner and Intermediate posts across the entire building or across the entire height of the building. In However, further development of the invention is also provided for the posts in lengths from to share one or more floor heights, which then at assembled during assembly. This enables better utilization of the post cross-sections, since one z. B. with the same external dimensions of the posts their cross-sectional areas can change.

A main feature of the invention is that the otherwise provided skeletal cross members made of steel or the like in elimination and that they are replaced by load-bearing walls, the plates subject to buckling stress, preferably those of less Wall thickness, are formed, with the forces or loads centered in the walls or plates are introduced. The invention applies to all types of skeleton construction applicable (steel, wood, concrete skeleton).

The particular advantage of this design lies in one compared to the usual skeleton construction significantly increased economic efficiency, since now also load-bearing tasks are assigned to such components that previously only represented filling organs, so that overall there is a further reduction in the total cost of materials. Another benefit is the ability to do an even larger share of the work to relocate to series production operations than before. The merits of this measure are known: independence from weather conditions, shortened construction time, broader nationalization options, which are not or hardly given on the construction site itself.

However, this progress is only made possible by the surprising and to many experts at first thought hardly feasible, flexible or kink-proof walls as static organs to be included in the overall structure. try in this direction, which also relate to executed buildings, have the feasibility and thus the correctness of this idea has been proven beyond doubt. It is, however determine that the inventive idea has special means of carrying it out presupposes that are now available. In detail this becomes from the in the drawing shown embodiment of a rigid wall emerge.

The drawing shows a rigid wall made up of individual elements is united to a flexurally or kink-resistant whole.

In the drawing intermediate posts i are shown, between which rigid walls 2 are arranged. These rigid walls 2 consist of individual elements 3, which are connected to one another by connecting elements 4. Here are at In this embodiment, the connecting elements 4 as continuous tie rods formed, which lie in a recess 5 of the lower and upper plate edge 3 '; it can be seen from the drawing that the building panels 3 with their vertical Edges 3 ″ are joined together, expediently by not shown in detail spacers 6 pushed onto the tie rods 4 in the area of the upright 3 ″ Gap 7 arises. This space 7 is expediently filled with cast concrete, and it thus arises from several (in the exemplary embodiment four) aligned with one another Building panels 3, the connecting elements, that is to say the tie rods in the exemplary embodiment or connecting links in cooperation with the spout of the joint gap 7 a rigid Wall 2, which with the help of the tie rod ends through a screw connection 8 in terms of force the post i is connected, also here between the post i and the neighboring one Building plate 3 by inserting spacers 6 a gap to be potted is left. This filling, e.g. B. cast concrete, represents both a further strength-wise Connection between kink-resistant and rigid wall and post, on the other hand, acts they in cooperation with a corresponding filling or pouring 9 of the Interior of the post profile as a bedding for its flange i '. The advantageous one The effect of this is to avoid buckling and buckling phenomena on the post can be dimensioned correspondingly small in its cross-section. The initiation of the Forces in the post i thus takes place essentially from the wall 2 via the lower tie rod .4 and the fixed connection between Wall and post. Incidentally, in the exemplary embodiment, the post is in lengths divided by the height of the floor, these parts being placed one on top of the other and with tabs io or the like. can be riveted or screwed. Each part of the post is set here his forces directly on the part of the post below him.

In the embodiment, only the lower tie rod 4 is on train claimed, while the upper tie rod, 4 'more or less just the alignment Serves cohesion of the plates 3 during assembly and their positional securing. The tie rods and q 'are advantageously stored according to the invention in grooves 5 which the Edges of the plates 3 can run around completely. They are advantageously in one these edges protecting, frame-like sheet metal reinforcement, not shown in detail the plates 3 already provided. The plates 3 can also be inside have reinforcements not shown in detail such as crossings and the like; they are preferably made from a lightweight material, in particular from aerated concrete. It it is possible to have means for carrying out the tie rods 4 and 4 ', for example in the form of tubes to be laid in the interior of the panels 3.

The introduction of the forces from the ceiling load etc. takes place centrally in the wall, ie the forces are introduced into the static zero plane of the wall 2 or plates 3, e.g. B. at the butt joints 7 of the plates 3 in the direction of the arrows i i. This type of introduction of forces according to the invention only enables the use of extremely thin-walled and thus economically favorable walls or building boards. In the exemplary embodiment, for the unconditional safeguarding of the centric introduction, the forces ii can act on the tie rods 4, q. ' or other connecting links pushed-on spacers 6, since the groove 5 lies with its longitudinal axis in the zero plane of the plate. Thanks to these measures, the large-area plates 3 can, as already mentioned, be made very thin-walled; as advantageous dimensions when using aerated concrete slabs, which have already been tried and tested, are given: length (height) 250 cm, width 120 cm, thickness (thickness) 6.5 cm.

In the exemplary embodiment, four plates 3 are each bent to form a or kink-resistant total wall 2 combined; however, it can also be less or more Plates form a rigid wall 2. The corner posts, not shown, can with this type of construction have a simple angle profile bent from sheet metal strips, wherein a preferably square in section filling with cast concrete o. The like. the illustrated spout 9 of the intermediate post i equals.

In general, this type of construction will use the exterior walls of the building double-walled by parallel arrangement of two rigid walls 2, this in order to create an otherwise partitionable, that is, divided air space for thermal insulation arranged in parallel at a certain distance and in pairs the posts are connected; in special cases it can also be used in the same way a multiple wall can be achieved. For the inner walls, a simple rigid one is sufficient Wall 2. The panels are usually solid panels, but are for windows, doors and the like. Serial plates with corresponding cutouts 12 are also provided, with appropriate static means for the purpose of redirecting the forces in or on the plates, such as reinforcements and reinforcements, but not shown in the drawing are shown.

Claims (4)

PATENT CLAIMS: i. A method for erecting buildings, characterized in that an incomplete skeleton construction is used in which the missing cross members of the skeleton are formed by load-bearing walls. 2. Method according to Claim i, characterized in that the posts are conventionally Frame construction correspond to the building height. 3. The method according to claim i, characterized characterized in that the posts (i) are in lengths of one or more storey heights be subdivided. 4. The method according to claim i and ff., Characterized in, that the load-bearing walls (2) replacing the missing skeletal transverse members are combined with Boards that can be stressed against buckling, preferably those with a low wall thickness, are formed, whereby the forces (ii) or the loads are introduced centrally.