PL7016B1 - The method of building ^ houses with empty walls. - Google Patents

Description

The invention of the present invention relates to buildings with walls with internal vacuum, in particular residential houses, since the application of the invention in the construction of such houses presents the greatest advantages. The invention is aimed at reducing the size of the building and its significant acceleration by using relatively light materials. and cheap, if one takes into account their type, because in the case of building residential houses it allows to create the best conditions in terms of health. The invention consists mainly in the use of hollow walls, consisting of two layers of walls, separated by air of appropriate thickness, because one of these walls is resistant to moisture, but transmits heat, while the other - is a very bad heat conductor. In addition to the above main feature, the invention consists in numerous other improvements that can be used in other ways. - either together or separately - in practical methods of making and application to the like h construction of new industrial materials and a special way of their use. The invention is explained in the following description and the attached drawing, but given only by the title of the example. and shows a part of the house built according to the invention in perspective, partially "sectioned," Fig. 2 - cross-section of the ceiling between floors, fipt, 3 - cross-section of the ceiling above the basement in the first dormitory, Fig, 4 - partial cross-section The ionic part of the external wall with a hollow wall, Figs. 5 and 6 - cross-section of the poles separating both walls, encased differently than the poles shown in Figs. 1 and 4. According to the most advantageous method of implementing the invention, the following procedure is followed or analogically, the walls of the interior are made of a metal frame, with carbon poles and composed of two riveted together angular beams: iron 1 (fig. 1), and wall poles, appropriately spaced iron I-beam 2. These poles rest on a concrete foundation 3 and are built up to the level of the ground with a hydraulic cement 4. All these columns can be connected with each other, placed crosswise by bars 5 of flat iron, attached to the outer planes (pillar. In addition, from the inside and outside, horizontal crossbars are attached to the posts along the entire length of the wall, appropriately arranged from thin T-iron 6 and 7, so-called window iron, barriers 6 and 7 are comfortable. They face each other and can be interconnected with iron crossbars made of flat iron or with hooks 8 made of round iron (Fig. 1 and 4 \. Skips 2 are built, depending on their height and weight ad). They are to carry, or from a single I-beam (Fig. 1), or from a single I-beam (Fig. 1), or from a single I-beam (Fig. 1), more logs, arranged straight or crosswise, tied with stitches, or corrugated sheet, as shown in Fig. 5 } Gu Pincestraen, between the vertical soles of the poles, is filled with concrete with a hydraulic shape, to which it is added by sprinkled mountain grass (alge). For heavy structures, the poles have a mrzefiróij ^ slcaaany in Fig. 6. The wall of Svtwi ^ trra * sfocU is made of clay / cork plates and an internal wire mesh is reinforced. These boards 14 are arranged in rows, one above the other as usual with tall coverings, and joined together at the seams by means of a cork plug, consisting of a mixture of cork powder and resin heated to 150 degrees. The sizes of the cork boards are as follows adapted so that it fills exactly the entire space of the wall between the slats 7. Each cork board has metal tabs 15 fixed in pairs, forming forks into which the board above them in the next row fits. The cork board wall coincides, from the internal steepness of the building, a metal mesh 16 and layers of lime mortar 17 (FIG. 4). With iron poles 120 mm wide, the thickness of the inner wall (kbffkiiwa board, mesh and plaster) is about 40 mm. The outer wall consists of (Fig. 41 of a strong metal mesh 18 spaced between the iron strips 6 and the layer). Concrete 19 with a hydraulic cement. This concrete covers the entire wall and, by bonding with the metal mesh 18 and the laths 6, creates a strong iron-caston wall, also about 40 mm thick. Intermediate slabs are built as usual; they have a floor at the top , in plasterboard, or, as shown in Fig. 2, for the ceiling, they are arranged from a layer of cork boards 21, covered exactly with tar board 22, on which concrete layers 23 are poured up to the height of the iron beams The cork slabs of the ceiling rest on the iron bars 27, which with their ends press against the metal mesh 24 covering the lower sole of the joists. Bars 27 and mesh 24 support the ceiling plaster. A proper floor 26 should be done. made of oak staves, taffeta tiles, or other material such as terrazolite. The bars 27, which are necessary to support the cork slabs when the concrete is lifted, 33, - 2 - can be left in place after hardening with betas, or removed, which results easily by moving the edge of the horse back. Take this bar down to the beam. The ground floor can be of two types, depending on whether the pairter rests directly on the ground or in the basement. In the first case, which also applies to the basement floor, a layer of hyidraulic concrete 33 is laid (Fig. 1), while its concave form is still applied, so that it can work effectively with the possible pressure of sub-underground water, on this layer, after its concentration a well-leveled layer of ordinary concrete is poured, on which a floor made of oak planks, tiled slabs, terrazoHtu etc. is laid.If there are cellars under the ground floor, its floor can be built (Fig. 3) from concrete arcades 29, based on iron beams 20. For the spreading of beige ajrkiad, phonemes 28 are used, made of a thin sheet suitably bent; The lower edges of the forms are rolled up in the fortress of the cylinder and rest on the ends of the feet of the beams 20. These forms have, especially at their edges, rows of djziuirek through which excess water in the concrete may leak. After the concrete has hardened, the mold is easily removed, pulling one or the other chain 31. With larger mold sizes, it is strengthened by making a strip of stronger metal sheet 30 in the center, which is quite sufficient to hold the pressure of the increased weight of the concrete arcade during its casting. The upper ceiling of the last floor is constructed in various ways, depending on whether there is a roof or a terrace above it; if the roof, the ceiling is constructed in the above-described way, if the terrace, it is additionally covered with an appropriate layer of concrete, on which a layer of asphalt extends. A house built according to the above guidelines and rules presents the following properties. the house is protected against external influences, because heat or cold, which could penetrate the concrete outer wall, are stopped by bad tenpiczine conductors, like a layer of air separating the walls and the inner wall, corona corona , so it is already absolutely bad heat conductors. The house * is therefore isothermal, ensuring a more or less constant temperature. It is also a nebulous one, because the friction of hydraulic concrete in the external wall does not let in any moisture that could be saturated with air. By using freely adjustable wall openings, it is possible to introduce heated or cooled, but always dry air into the interior of the building, which is in the vacuum between the walls, and possibly also the air from the outside of the building. Both the dunes and the floors of such a house are completely non-aquisitic, thanks to the cork boards they are composed of. The buildings are extremely durable and their The walls are sufficiently rigid due to the use of intersecting spacers 5 and appropriate choice of materials. It would be possible to further strengthen the stiffness of the walls by placing transverse wooden struts at the intersection of the struts, which would maintain a constant distance between the external and internal walls. In addition, it is possible to strengthen and stiffen the external wall, placing a vent in the outer concrete layer 19 vertical iron bars fixed with their ends to the longitudinal iron strips 6. The concrete farm in the basement floor is built up with a system that protects it from the pressure of such cold water. they are light, so the foundations can be relatively small. - 3 - It is possible to erect such buildings very quickly, and their cost will be relatively low, despite the use of quite expensive maiterials. mozebme varyamty. PL PL

Claims (2)

1. Patents reservations are we. 1. L. A method of building double-walled houses, characterized by the fact that one wall separated from the other by a layer of air, is resistant to moisture but transmits heat, while the other wall is a very poor conductor of heat. , 2. The method of building houses according to claim A method of building houses according to claims 1 and 2, characterized by the fact that the layer of hydraulic mortar consists mainly of concrete with a hydraulic mortar, while the inner wall consists mainly of cork boards. the concrete outer wall is placed over a metal mesh stretched over the iron skeleton of the building, and the inner wall of the inner wall made of cork boards is also placed on the metal mesh, - 4. Construction method according to claim 1 - 3, characterized by the fact that the cork plates, which make up the inner wall, are fixed to one another by means of metal ties. 5. Construction method according to claim 1 - 4, characterized by the fact that the whole building consists of an iron skeleton, the iron poles of which are made of joist beams connected with each other from the outside and inside by means of horizontal alternating bars of iron. 6. Construction list according to claims 1 - 5, characterized by the fact that the space between the passive walls of the munu can be connected by appropriate channels, or with the internal spaces of the building, or with the external atmosphere. 7. Construction method according to claim 1, characterized by the fact that the basement floor is provided with a concave concrete arcade for better resistance to groundwater pressure, Ra and Decourt. Deputy: M. Skrzypkowski, patent attorney. To the patent No. 7016. Ar *, i. To the patent description No. 7016. Ark. 2., Print by L. Boguslawski, Warsaw. PL PL