DE598730C - Construction process using components produced in the workshop - Google Patents

Description

Construction process' using workshop-made components The invention relates to a method for erecting buildings using of workshop-made wall parts.

The previous construction methods are essentially divided into mas.siv construction methods and skeleton constructions. With the solid construction methods, a valuable one becomes more efficient Construction material processed at the construction site with a relatively large amount of material and time. The skeleton structures have the advantage that they are faster Enable assembly of the structure and be able to work with cheaper filler materials. However, they result in a relatively high cost for the structural steel. Besides, they are really good filler materials are usually so statically efficient that they have a be able to carry a large part or even all of the construction load alone without the skeleton. However, this load-bearing capacity is not used in skeleton construction, so that too an expensive construction is created, whereby the advantage of the skeleton and frame construction, which is in the workshop-appropriate assembly process compared to the solid construction, is partially repealed.

These disadvantages are avoided according to the invention in that massive Bricked-up wall parts transported in special steel frames - and put together and that the joints are closed by brickwork or concrete; be, where the transport frame in whole or in part to reinforce the resulting joint skeleton remain in this. Wall parts with the help of steel frame parts to be removed later Bringing them to their place of installation is known per se.

However, the new construction method creates a kind of reinforced concrete skeleton structure, as such, not only a complete utilization of the building materials used, but also in terms of transport and construction an improvement over the previous ones Procedure brings with it, and thus on the whole, to a corresponding reduction in price contributes.

The method can also be carried out so that a frame or Frame for transporting and for erecting and assembling the solid or Hollow bricks or panels assembled wall parts is used and after mutual fastening of the same or pulled out after the joint fillers have hardened so that the wall is created as a mas.sivbau or concrete skeleton construction.

It can also be partially implemented according to the first-mentioned part left in the joints between wall parts erected next to or on top of each other Transport racks are connected to each other and so to stiffen the whole Serve building.

In the case of a solid building, a Wall plate in made in the workshop with the aid of a frame designed so that he only to take over the function of transport from the workshop to the construction site Has. Such frames are known per se. The lower part of this frame can be used as a a kind of foot can be formed so that the wall on the construction site without special Aids can be set up. For the stability of the wall can also directly provided by appropriate support on the wall or in the foundation, which also allows easy removal of the transport frame. If the frame is its has fulfilled the actual task, it can be effortlessly removed from the Wall plate can be removed.

The building wall itself consists of building material, which the static Can absorb stresses completely. The assembly of the adjoining wall takes place in the same way. The space between the wall parts is created by a corresponding Filled body that unites the entire building into a solid structure. Ever after which way this filling body is introduced into the joint cavities, the iron shoring will take on special forms, e.g. B. can be specially designed for this Manufactured support structure in the event that the room is potted, immediately as a cladding to serve.

The second mentioned above is advantageous for higher loads Application type. The iron inlays can be used across the construction site be pushed through the cavity wall in various distributions or already be installed at certain points on the wall in the workshop. The associated Longitudinal bars are then laid in the vertical joints, or the transport racks have a suitable shape and are used with the crossbars, for example connected by wire. By pouring the reinforced joints with concrete in this way a reinforced concrete skeleton, which together with the full-fledged rest Wall building material absorbs the static loads.

The difference compared to the previous reinforced concrete skeleton construction consists in that the filling body is made first and the skeleton last, The drawings show some examples of the used transport or. Assembly frames.

Fig. I shows a three-part transport frame that is closely connected with two joints y, fig. z the same mounted in a piece of wall.

This frame can be separated by removing the hinge pin and can then be pulled out between the individual wall parts.

Fig.3 shows support frames with cladding sheets b and the cast joint f. Fig. Q. shows two interconnected parts of the wall with a grouted joint, in which the iron reinforcement e is indicated.

Fig.5 and 6 show that either on the foundation a or a recess c is provided under the foot of the wall, which allows the pulling out of the lower frame part r permitted.

Figs. 7 and 8 show those with feet. partially provided frames for narrow Walls. The support rods s, which are provided here with cladding sheets as in Fig. 3 be; can, are rotatable around joints and can be loosened in these from the foot will.

Fig. 9 shows a wall part m composed of hollow stones with cross bars q . Figs. Io and ii show another form of the support and assembly frame, which is composed of flat and angle iron. However, the execution of the new construction method is in no way tied to the aids shown, which can take different forms depending on the type of building walls and the type of use.

Claims (1)

PATENT CLAIMS: i. Construction method using workshop-like manufactured wall parts, characterized in that massively bricked up wall parts are transported to the construction site in special steel frames and assembled there, and that the joints between the individual wall parts by bricking or concreting are closed, with the transport frame wholly or partly for reinforcement the resulting joint skeleton remain in it. z. Construction method according to the Claim i, characterized in that for the purpose of producing a solid structure Transport racks when assembling the individual wall parts before bricking or Pouring the joints with concrete must be completely removed. 3. Construction process with im Structure remaining: frame parts according to claim i, characterized in that the transport frame parts remaining between the joined wall parts be connected to one another to form a skeleton before the joints are poured with concrete. q .. for carrying out the method according to claims i to 3, characterized by three releasably hinged legs made of .Profile iron, from those of the middle of the length or the width and the two outer ones about the height of the wall part to be transported and installed. 5. Transport frame for carrying out the method according to claims z and q., characterized in that that on the support legs the adjacent joint covering sheets as removable Formwork are provided.