FR1464614A - New arrangements and assemblies of preformed materials for the economical and accelerated construction of walls, partitions, floors, ceilings, etc. - Google Patents

Description

New arrangements and assemblies of preformed materials for the economical and accelerated construction of walls, partitions, floors, ceilings, etc.
The present invention relates to a novel embodiment in the recent technique which, for the construction of walls, floors and ceilings, calls for the use of prefabricated or preformed elements.
The present invention gives the problem an original solution, where the metal reinforcements of the reinforced cement beams and columns are made up of composite beams, in profiled irons, which include anchoring parts, - integral or adaptable, - on which can be fix with precision, by simple interlocking, the preformed elements which must ultimately constitute the walls, partitions, floors and ceilings.
These preformed elements, - plates or shaped parts, - are designed in such a way that, once fixed to their fastening parts, they also produce all the useful and necessary formwork for the cement casting of the beams, columns and floors.
Finally, these preformed elements consist of a material of very low density, easy to mold, capable of providing the construction with normal strength and effective soundproofing.
Expanded polystyrene, —polyurethane foam, —have all the qualities required to manufacture at a very low cost the preformed elements, which are mentioned above. But other products with similar characteristics can obviously be used within the framework of the patent.
To make the imagined technique fully understood and how the invention can normally be carried out, the text which will follow, and the diagrams of the two attached sheets, will give all the details useful for:
1. The construction of a floor with reinforced cement beams; 2. The construction of a wall with reinforced cement posts; 3. The realization of certain variants, derived from the same technique, and given as examples.
1. Case of the floor-ceiling:
Diagram: figure 1 (vertical section of the floor according to ab); Diagram: figure 2 (vertical section of the floor according to cd); Diagram: figure 3 (plan and section following and).
We notice there:
In 1 the metal beam composed of profiled irons which constitutes the reinforcement of the reinforced cement beam; At 2, the attachment part, - in profiled iron, - fixed to the assembly under the beam 1 (see fig. 9) a perspective view of 2; In 3, the preformed elements in expanded polystyrene which are supported by the fastening pieces 2 and produce, on the one hand, the ceiling, and on the other hand the formwork for the beams 5; In 4 the slabs-covers, in expanded polystyrene which make the formwork of the cement floor; In 5 and 6 the beams and the floor, cast in situ, in cement to form with the posts a monolithic block for the entire framework of the building; In 7 a classic round iron frame of the transverse beams.
2. Case of a wall:
Diagram: FIG. 4 (elevation view - upper part uncovered); Diagram: FIG. 5 (vertical section along gh); Diagram: figure 6 (horizontal section along ij).
All these views show the placement of the elements before the pouring of the cement or concrete.
We notice there:
In 8 the beam composed of profiled irons which constitutes the frame of the post, and carries the fastening parts 9; In 9, the fastening parts in profiled irons, fixed to the assembly on the frame 8 by any means of immobilization: keys, bolts, or even simple dowels; At 10 the preformed expanded polystyrene elements mounted and adjusted on the fastening parts 9; In 11 the spacers, in expanded polystyrene which complete the formwork of the posts or reinforce the elements 10. The assembly of the walls, according to the invention, presents no difficulty; after having placed the beams 8 very exactly in their final position, it suffices to gradually and orderly assemble the fastening parts 9 and the preformed elements 10-11 then to pour the cement or the concrete of the posts and floors. and the ceilings thus produced have a perfectly adjusted surface, usable as it is, or possibly coated or covered with such protective or decorative product deemed desirable. Both for the floors and for the columns, it should be noted that after pouring cement or concrete, the beams 1 or 8 forming reinforcements are completely encased in cement.
3. Variants and remarks on the implementation of the materials used in the context of the invention.
In the above descriptions, preformed molded polystyrene elements have been used. This method makes it possible to have precise elementary parts, easy to reinforce by ribs, which allows the use of elements of very large surfaces. But it is possible and easy to use expanded polystyrene boards in the shape in which they are normally marketed: it is then sufficient to saw them and mill them to prepare them for use under the same conditions as for the molded elements. Figure 7 gives the section of a floor mounted with such elements, Figure 6 that of a wall.Due to the precision with which the reinforcement of beams and columns are, from the start of construction, - definitely in place, it is possible to fix pending anchors on them, with the most diverse designs and on which the additional elements of the construction can be easily attached thereafter; namely: - doors, windows, pipes, various coverings, suspended ceilings, tiles, marble, etc. By way of example, figure 8 shows how fittings 12 mounted on the joists of a beam can be placed on standby to actually serve as supports for marble slabs 14. One can thus quickly achieve a perfect tiling without having to depend the evenness of the cement floor.
It should be noted that the composite beams, forming the metal reinforcement of the columns and beams, can practically be completely placed exactly before the assembly of the preformed polystyrene parts, and the pouring of the cement.
For the assembly of these beams together, simple arrangements are recommended.
For example: the joist assembly according to Figures 10 and 11 where the frame 16 of the posts can be mounted continuously over the entire height of the building, and the frame 17 of the beams, integral with a gusset 18 can be easily fixed on 16 by means of 18 placed between the angles 19 and 20.
FIG. 9 shows in perspective a type 1 or 8 or 12 fastening part.
The walls can also be made using preformed polystyrene elements that fit together with precision. FIG. 12 gives an example of such an element where, at the upper part of each element, a recess 21 is formed into which concrete will be poured which, - possibly reinforced with a round iron, will form a horizontal stiffening beam.
The invention aims: 1. The means and combinations implemented, and described above for quickly and economically producing the walls and floors of any construction; 2. The various applications and combinations of known means, implemented for its realization; 3. The peculiarities which may emerge from both the text and the drawing; 4. All types of constructions which are likely to benefit from the same technique, namely, cold or hot insulated rooms, various coatings, soundproofing, etc.

Claims (1)

SUMMARY The metal reinforcements of reinforced cement beams and columns are made up of composite beams, in profiled irons, which include anchoring parts - integral or adaptable - on which the preformed elements can be fixed with precision, by simple interlocking. which must ultimately constitute the walls, partitions, floors and ceilings. These preformed elements, in plastic material of very low density easy to mold - plates or shaped parts - are designed in such a way that once placed on their fastening parts, they also produce all the useful and necessary formwork. for casting in cement, beams, posts and floors.