DE938988C - Process for the production of structures and construction elements for the implementation of the process - Google Patents

Description

Process for the production of structures and components for carrying out the process The invention relates to a process for the production of structures, in particular of smaller dimensions, such as villas, suburban or country houses, kiosks, service buildings along railroads, roads or the like according to the invention. Buildings made of external and partition walls, Z u- and superstructures and the like. These structures are largely carried out in workshops or other production facilities, so that the work on the construction site is limited to simple assembly and surface covering.

The invention also provides an independent of to create unified unity from an architectural point of view, namely in a few prefabricated sizes.

Another additional subject matter of the invention is that to provide prefabricated units with components provided in certain positions, production takes place in central production facilities; make these components easier the transport of the building material to the construction site is extraordinary, both by their uniform dimensions as well as their low weight, which is particularly important has a beneficial effect in places with poor intake.

Finally, the subject of the invention is a method which allows to switch off or significantly reduce all such work on the construction site, which, known to be particularly difficult, require accuracy and are therefore costly are. These are in particular the installation work for the plumbing and electrical Investments.

The construction industry in general still follows the classical traditions. In the course of the entire construction, all components that are attached to others Locations won or manufactured, built up and dreary grooves on the construction site provided the auxiliary equipment, whereby a large amount of time is spent by various skilled workers at the construction site, which is often far away from their workshops. the modern construction with portable, prefabricated elements reduces all costs as well as the time required and the transport difficulties, and in a very high manner Extent in relation to the total work. These advantages can be achieved by eliminating the the known mostly too heavy building boards or the like. Obtaining disadvantages are, if proceeded according to the invention in the sense of the following description which is illustrated and supplemented by the drawing.

Fig. I. Is a diagram of a unified primitive which is intended for the production of the scaffolding structure of inner or outer walls and is very light in weight; Allib. 2 shows a variant with a greater load capacity; Fig. 3 shows a wall element with various exterior cladding options; Fig. Fig. 4 shows an example of how using elements of the described Training the scaffolding, for example, a gasoline station can be carried out.

The method according to the invention basically consists of two successive ones Construction stages, namely the production of the scaffolding forming the structure and the following, supplementing the shoring. Finishing works. The cinze-inen The phases of construction are roughly the following A. Complete preliminary construction in workshops od. The like. There the complete framework of the structure is unified using Elements advantageously made in skeleton construction. The combination of the entire structure can be done with great adaptability to the architectural wishes. The entire framework is in. The workshop or the like. Put together and with all Supplements, such as B. fittings, locks, pipes, electrical. cables and whatever else may be included in a normal structure.

B. Disassembling the unit into b @ lodkarti @ ge parts, with the Choice of these parts is made in particular with a view to easy portability, while taking into account the access conditions at the installation site.

C. Transport of the dismantled parts (blocks) and the supplementary material to the construction site.

D. Reassembly of the scaffolding at the construction site and anchoring same.

E. Surface cladding.

This concludes the individual phases of the work.

The possibility of such a way of working arises from the implementation the basic work in the workshop, using standardized elements as shown for example in Fig. i and 2; in the embodiment according to Fig. I these elements consist of two spaced apart parallel to each other Flat iron i and 2, which are supported by a round iron preferably running in a zigzag shape 3 are connected. The connection between the round bar 3 and the flat bar i, 2 takes place advantageously by means of welding, making a solid, extremely economical Establishable connection is obtained. In cases where the carrier is stronger are stressed, they can, as shown in Fig. 2, in their aui compressive stressed Zones on the stele of flat iron T-beams 4, while in the tensile zone after as before a flat iron 5 can be provided.

The choice of T-profiles or flat bars in, the embodiment occurs only for example; the profiles can be the prevailing in the individual case static and dynamic loads must be selected accordingly.

From Fig. 2 it can be seen how the carrier to achieve greater strength with two oppositely arranged z-iclczack-shaped Round iron 6 and 7 can be equipped.

The possibility of certain types of carriers in the workshop. in to produce very few standardized sizes, and in one extraordinary rapid manufacturing process, allows in a particularly economical way, to produce the most varied of scaffolding structures, namely: in a short time and with very simple connection operations of the individual girders to one another by means of cross girders, which are welded on or fastened by riveting, screwing or the like. The carriers are advantageously laid in such a way that they create parallel lines. Enable levels; in particular, they can be equidistant from one another, any adaptation to the desired designs and positions of the surface and supporting parts is thus possible. The height of the beams can determine the strength of the wall to be formed.

An example of a wall element of general design realized by means of Supports according to Fig. I, is shown in Fig. 3; this element represents see as a kind of cuboid, as a block, which consists of a row parallel to each other arranged beam 8, which are connected by cross members g; the distance this support depends on the resistance that the wall element can withstand target. Where desired, curved elements can also be used instead of flat elements will. .

In the cavity, softer between two cladding elements that are applied to the carrier, arises, conductors, stirring, electrical Cable strands, etc. introduced and attached to the central beams, including special Elements can be provided .. This installation is carried out under consultation the connection to the main lines and taking into account the Position of the separation points with a view to making it as light as possible; Transport. is Once the scaffolding has been erected on the construction site, as stated under D. of the description, The walls are clad using suitable materials that are easy to transport are. As can be seen from Fig. 3, z. B. a metal mesh io applied to the carrier, which is supplemented by a cladding agent. This metal mesh can be beneficial be such, the small ceramic body at the junctures of its Has metal parts, as it is known in the trade under the name "Staußziegelgewe.be" and is referred to in the building language as wire brick mesh. The costume but can also by means of other elements 12, for. B. plates, tiles or the like., Executed be e.g. B. by panels made of metal mesh, concrete, ceramic, slate, wood or other materials, depending on the availability of the material or the architectural Wish. In particular when using metal nets, the cladding elements can also be applied in the workshop.

Outer walls and also partitions, which according to the method described are made, have a respectable mechanical despite their low weight Resistance to all loads and forces that arise, with the cladding this resistance increases.

The insulation against heat and sound provided by the construction can be increased by adding suitable materials between the cladding panels, such as cork, glass wool or other similar-looking natural or artificial products can be. By having the cladding at a certain distance from a Wall can be placed, it is also possible to avoid any transition of moisture to prevent. The structures described are fire retardant.

From the number of possible examples of combinations to form structures is in Dept. q. picked out a scaffolding for a gas station. At 13 are the outer walls denotes, which consist of girders according to Fig. i. The roof is made of a construction consisting of carriers l4., which after then. System of Fig. 2 are constructed. The height, which changes over the length of the beams 14 and 15, enables compliance the necessary slope for the runoff of rainwater.

Claims (3)

PATENT CLAIMS: i. Process for the production of structures, thereby characterized in that the entire structure is in the form of a particularly metal supporting frame or with larger dimensions of the structure in the form of individual skeletons z. B. for Walls, ceilings, roof structures, etc. from prefabricated skeleton parts factory-made put together and then, also in the factory, in transportable areas or space structures is dismantled, which then on the construction site with a minimum to be put together by construction site work to form the structure. 2. The method according to claim i, characterized in that the supporting frame is fabricated with additional components, in particular the installation for water, gas and electricity, fittings, etc. and site work limited to erection, connection and cladding will. 3. The method according to claim i or 2, characterized by the use of Wire or similar fabrics, e.g. B. wire brick fabric, for the cladding that to further reduce the construction site work. Also in the factory the supporting frame adapted and / or applied to this "verden. q .. process according to one of claims i to 3 for structures or parts of structures with cladding on both sides of the supporting frame, characterized in that the space between the panels, if necessary, factory-filled with insulating material. 5. Skeleton part for the production of a structure according to one of claims i to q., consisting of a preferably facework-like carrier made of an essentially I-shaped cross-section. 6. skeleton carrier according to claim 5, characterized in that its straps (1, 2) made of flat iron and its web (3) made of round iron bent in a zigzag shape = are. 7. skeleton support according to claim 5 or 6, characterized in that its straps (1, 2) with the web (3). Spot welds are connected. B. Skeletal Support according to claim 6 or 7, characterized in that the pressure belt consists of a 'profile is formed. 9. Carrier according to one of claims 6 to 8, characterized in that that its web consists of two curved zigzag, arranged side by side and in opposite directions Round bars. (6, 7) exists. ok Carrier according to one of claims 5 to 9, characterized characterized in that he has according to the design requirements of his Length changes in height.