EP0921243A2 - Element of brick material for making modular panels for the construction industry - Google Patents

Abstract

The element has a U-shape with a base (2) and two wings (3,4) which each have a longitudinal opening (5,6,7) extending over the entire length of the element. The two outside walls of the element have a longitudinal projection (10) on one side and a complementary indent (11) on the other side, so that when the two elements are fitted together at the sides they embed in each other. The two end sides of the element are inclined relative to the plane running across the longitudinal direction of the element, to shorten the longitudinal extension of the wings relative to the longitudinal dimension of the base. Independent claims describe use of element to produce plaster floors in buildings and outside walls of buildings. Reinforcement irons can be pushed in through openings

Description

The present invention relates to an element made of brick material for building of boards or board elements for construction, including belts or Last called, of the kind they have been making for years, prefabricated Boards for screed floors and walls are used.

The previously known elements made of brick material all have the disadvantage afflicted that they only allow limited or special use limits their use significantly and therefore inflates the costs because the Experience has shown that only the large series production of prefabricated Elements, which also applies to any other product, to achieve crucial cost savings that make the product really interesting do.

Moreover, there is no real and correct one in the field of construction systematic research, but it boils down to trials based on it aim to find a certain balance between the different construction methods to keep in the market.

• Reduktion der Baukosten,
• Einhalten eines hohen Qualitätsniveaus der Bauten,
• Standardisieren der verwendeten Baumaterialien,
• Erleichterter Einbau benötigter Versorgungsleitungen (Strom, Wasser, Abwasser, usw.)
• Verkürzen der Bauzeit,
• Möglichst traditionelles Gestalten der Bauten, unter Anwendung natürlicher Baukonzepte und Materialien (Verbesserte Ökologie der Bauten),
• Kein Aufzwingen von Wohnbautypologien, sondern dem Auftraggeber und dem Projektierenden die Freiheit lassen, die eigenen Ideen zu verwirklichen,
• Das Wohnen für jedermann erschwinglich machen.

The present invention, on the other hand, proposes, based on a systematic review and in-depth analysis of the prefabrication systems known today, to create a new solution which can fulfill the following objectives:

• Reduction of construction costs,
• Maintaining a high quality level of the buildings,
• Standardize the building materials used,
• Easier installation of required supply lines (electricity, water, waste water, etc.)
• Shorten the construction time,
• Designing the buildings as traditionally as possible, using natural building concepts and materials (improved ecology of the buildings),
• No imposing housing typologies, but giving the client and the project planner the freedom to implement their own ideas,
• Make living affordable for everyone.

The present invention is not a mere improvement on existing ones Construction concepts, but brings a new construction technology, the well-known Materials such as Brick material or clay plate materials, which are ideally suited from an ecological point of view - in new types Conception uses, with extremely rational use of materials and manufacturing can be achieved.

All of these objectives are met with an element made of brick material with those stated in the characterizing part of claim 1 Characteristics.

Claims 2 to 9 relate to further preferred embodiments of the Element made of brick material, the advantages of which from the following descriptions emerge more clearly. Claims 10 and 11 relate to two preferred applications of the element made of brick material, of which the first on the production of screed floors with only one layer of items concerned, and the second relates to the manufacture of panels made from two layers of elements exist for using exterior walls of buildings Isolation function and / or support function.

• Vereinfachung der Herstellung der Bauelemente in einer Fabrik in geordneter Serienfabrikation,
• Erreichen eines hohen Standardisierungsgrades der Armierungen,
• Erreichen grösster Flexibilität bei der Montage mit der Möglichkeit, armierte Verbindungen auch nach der Herstellung der Tafeln erstellen zu können.
• Möglichkeit, im gleichen Bauwerk ein oder mehrere Konstruktionssysteme nebeneinander anzuwenden,
• Erstellen von Bauwerken höchster Qualität, möglichst angenähert an die traditionelle Bauweise.

These preferred uses of the brick material element allow the following additional advantages to be achieved:

• Simplification of the production of the components in a factory in orderly series production,
• Achieving a high degree of standardization of the reinforcements,
• Achieve maximum flexibility in assembly with the possibility of being able to create reinforced connections even after the panels have been manufactured.
• Possibility to use one or more construction systems side by side in the same building,
• Creation of buildings of the highest quality, as close as possible to the traditional construction.

As experience has shown, the element made in the brick factory can be made from Brick material in the factory without prefabricated special facilities Panels are put together.

The panel elements produced can be easily put together so that A shell can be built on site within a mere 10 days, which would take up to 4 months with normal construction. The inventive Element made of brick material allowed as follows with reference to the illustrated embodiments is explained, diverse construction details with precisely defined static Preserve functions and insulation properties, and in particular reinforced load-bearing outer walls, inner walls, or insulating walls, to create, as well as screed floors or ceilings of all kinds static strength properties will be achieved during manufacturing the panels with the elements according to the invention made of brick material naturally a horizontal and vertical metal reinforcement used, which is integrated in the mortar, as this is based on two exemplary embodiments for screed floors and for exterior walls should.

Fig. 1

Ein Element aus Backsteinmaterial in stimseitiger Ansicht dargestellt, um dessen Querschnitt zu zeigen,

Fig. 2

Die Längsseite des Elements aus Backsteinmaterial gemäss der Fig. 1,

Fig. 3

Die gleiche Ansicht des Elementes wie in der Fig. 1, wobei jedoch ein Teil der durchgehenden Öffnungen zum Verbessern des K-Wertes der Wand mit lsolationsmaterial gefüllt sind

Fig. 4

Den Bereich, in welchem zwei Elemente aus Backsteinmaterial stimseitig aneinandergefügt werden, um darzustellen, in welcher Weise diese während der Herstellung einer Tafel armiert werden können.

Fig. 5

Ein Element aus Backsteinmaterial in axonometrischer Darstellung,

Fig. 6

Eine axonometrische Darstellung zweier seitlich aneinandergereihter Elemente aus Backsteinmaterial,

Fig. 7

Ein Querschnitt durch die erfindungsgemässen Elemente aus Backsteinmaterial in einer Tafel mit nur einer Lage von Elementen, die zur Verwendung als Tafel in Decken vorgesehen ist,

Fig. 8

Ein Querschnitt durch die erfindungsgemässen Elemente aus Backsteinmaterial in einer Tafel mit zwei übereinanderliegenden Lagen von Elementen aus Backsteinmaterial, die zur Verwendung als Tafel in Aussenwänden von Bauten vorgesehen ist,

Fig. 9

Eine axonometrische Gesamtdarstellung zur Erläuterung, in welcher Weise die mit den erfindungsgemässen Elementen aus Backsteinmaterial erstellten Tafeln zusammengebaut werden, und in welcher Weise die Ecken des Gebäudes und die Verbindungen zwischen den Wänden und der Decke des Gebäudes ausgebildet werden.

The present invention is described in more detail below with reference to various illustrated exemplary embodiments, both of the element made of brick material and of the prefabricated panels created using such elements. The corresponding figures show:

Fig. 1

An element made of brick material is shown in front view to show its cross section,

Fig. 2

The long side of the element made of brick material according to FIG. 1,

Fig. 3

The same view of the element as in FIG. 1, but with a part of the through openings to improve the K value of the wall filled with insulation material

Fig. 4

The area in which two elements of brick material are joined together at the end to show how they can be reinforced during the manufacture of a panel.

Fig. 5

An element made of brick material in axonometric representation,

Fig. 6

An axonometric representation of two elements made of brick material lined up laterally,

Fig. 7

A cross section through the elements according to the invention made of brick material in a panel with only one layer of elements, which is intended for use as a panel in ceilings,

Fig. 8

A cross section through the elements according to the invention made of brick material in a panel with two superimposed layers of elements made of brick material, which is intended for use as a panel in the outer walls of buildings,

Fig. 9

An overall axonometric representation to explain how the panels made with the inventive elements made of brick material are assembled, and how the corners of the building and the connections between the walls and the ceiling of the building are formed.

1 and 2 show an example of an element according to the invention made of brick material shown in the front view or in the longitudinal view, on the basis of which the characteristic features of the present Invention are apparent.

From Fig. 1 it can be seen that the cross section of the element 1 made of brick material has a U-shape, with a base 2 and with two wings 3 and 4, which are perpendicular to each end of the base 2 extend the same side. According to the invention, both the base 2 and also the two wings 3, 4 of the U-shape at least one continuous Longitudinal opening 5, 6, 7, which extends over the entire length of the element 1.

In the example shown, the base 2 has 10 through openings 5 - 5 ^IX , while the wing 3 has 4 through openings 6 - 6 ‴ and the wing 4 has 5 through openings 7 - 7 ^IV . The number, shape and arrangement of such through openings can be selected on the basis of various criteria, such as, for example, the requirements for the static strength of the element made of brick material, manufacturing problems, the requirement that reinforcements and / or pipes (for the installations) must be able to be pushed through the openings , the thermal insulation of the elements, etc. Within the scope of the present invention, the number, shape and arrangement of these through openings 5 to 7 can vary considerably, depending on the specific requirements for the intended structure. In any case, it remains obvious that the openings 5 to 7 must be continuously open, and this is also a question of manufacture: the elements made of brick material must be able to be manufactured by extrusion of the clay material through a die.

Another characteristic feature of the element according to the invention is made of brick material on the outside on the side walls 8, 9 (see FIG. 3) of the element 1, which is a base part 2 and the entire length of the wing 3 or the wing 4 comprises, on one side longitudinally extending projection 10, while the other side an indentation 11 of complementary shape has, these two elements joining together on the longitudinal side form two embedding 12 over the entire length of the element.

Furthermore, the two end faces 13, 14 (cf. FIG. 2, in which the long side of the element made of brick material) compared to that in the right Angle to the longitudinal direction of the element 1 plane at least inclined over part of its area, or over part h of the height H of the Element 1, in the sense that the longitudinal expansion of the wings 3, 4th shortened compared to the longitudinal extension of the base 2 of the element 1.

2 shows how the inclined area of each of the end faces 13, 14 extends over a length H - h, where h corresponds to approximately half of H. and where H represents the full height of the brick material 1 element.

The purpose of arranging the inclined areas 15, 16 on the end faces 13, 14 of the element 1 is clear from FIG. 4, in particular the region of two elements according to the invention strung together on the end face is shown. Thanks to the inclined wall areas 16 ', 15' (Fig. 4) an indentation between the two elements 1 'and 1 "strung together 17 formed in the shape of an isosceles triangle that face down is directed, and which are lined up along the entire width of all Elements extends (To compare is also Fig. 9, in which also double formation of triangular indentations between panels is made up of double rows of elements made of brick material consist. Reinforcing iron rods can easily be inserted into this indentation 18, 18 'can be arranged (as will be explained in more detail below) the panel assembled from the elements 1 according to the invention the filling of the indentation with mortar 19 give the required strength.

According to a preferred embodiment of the present invention the projection 10 and the indentation 11 are aligned longitudinally and of complementary Cross-sectional shape with which the outer sides of the element 1 are provided, the cross-sectional shape of which is trapezoidal (truncated conical) is formed, as shown in Figures 1, 3, 5, 6, etc. This Shape proves to be particularly favorable for forming an embedding 12 because it does not require excessive manufacturing accuracy and "play-free" embedding allowed.

According to a further preferred embodiment of the present invention extend the inclined regions 15 and 16 of the end faces 13, 14 of element 1 over about half the height H of the end faces (where h ≅ H, see. 2). Furthermore, the angle of inclination a of the end faces 13, 14 is opposite the level of the base 2 of the element in the range between 45 ° and 75 ° chosen.

• Länge des Elementes 1 zwischen 50 und 100 cm, optimale Länge 80 cm,
• Breite des Elementes 1 zwischen 20 und 40 cm, optimale Breite 30 cm,
• Höhe des Elementes 1 zwischen 10 und 20 cm, wobei die optimale Höhe etwa m/2 beträgt, d.h. zwischen 10 und 20 cm liegt, und vorzugsweise etwa 15 cm beträgt.

With regard to the most favorable dimensions of the element 1 according to the invention made of brick material, which have to take into account various specific requirements (manufacturability, in particular with regard to maximum length; room height of the rooms to be created, from which the number of elements to be arranged one above the other in a panel for the wall; requirements in connection with the strength of the materials, etc.), experience has shown that the best results can be achieved with elements 1, the dimensions of which are chosen as follows:

• Length of element 1 between 50 and 100 cm, optimal length 80 cm,
• Width of element 1 between 20 and 40 cm, optimal width 30 cm,
• Height of the element 1 between 10 and 20 cm, the optimal height being approximately m / 2, ie between 10 and 20 cm, and preferably approximately 15 cm.

With these dimensions, boards of all kinds can be produced, as in the Introduction indicated as the ultimate purpose of the present invention.

Another characteristic feature of the element according to the invention is that the thicknesses o of the base 2 (see FIG. 3) and n of the wings 3, 4 of the element 1 correspond approximately to half the height H of the element 1: the relationship therefore applies : o ≅ n ≅ H / 2

Another important characteristic of the element according to the invention is then very important, namely that the passage opening or passage openings 5,... 5 ^IX with which the base 2 is provided are filled with insulating foam in order to improve the K value of the element 1. The foaming of the through openings can of course take place in all through openings of the element 1 made of brick material, ie also in those of the wings 3, 4. However, since the elements 1 made of brick material are normally used as elements for external wall panels, the base 2 facing outwards 8 (for example in the application example shown in FIG. 8), it is sufficient to fill the openings 5,... 5 ^{IX of} the base body with insulation material and that of the wings 3, 4 as a passage for the reinforcing bars and, if applicable, for the Electrical and plumbing installation of the building, etc., to leave required piping. FIG. 3 shows an element made of brick material in which the through openings of the base 2 (and in this case also two secondary through openings of the wings 3, 4, ie the through openings 6 "and 7" in the example according to FIG. 1) have been filled with insulation material (shown in dotted lines in FIG. 3).

The brick material element according to the invention is characterized in that that it is extremely versatile. With this element In fact, all tabular components can be made in practice with which practically all types of building constructions are carried out from residential buildings to public buildings and administrative buildings, whereby great savings in construction time (a single family house can be erected in a few days) and can also be achieved in terms of construction costs can.

In the sense of an example, two preferred uses are as follows of the brick material element according to the invention, the two preferred applications correspond, namely those for manufacturing of boards for screed floors and that for the production of building exterior walls.

Of course, these two examples are selected from the most common, It should be emphasized, however, that many other combinations of elements the other special design requirements are conceivable are enough.

Also the angled connections between two panels of the same type or various types can be implemented in many ways, of which however, here only two are shown purely as examples in FIG. 9 are.

A first use of the element made of brick material accordingly the present invention is shown in FIG. It is about a slab for screed floors in buildings that are strung together from just one layer Elements.

It should be noted that in the following explanation of examples of Types of application of the inventive idea for the same shown in Figures 7 to 9 Elements have the same reference numbers as in the previous figures be used. 7 is a row of elements 1 from Brick material shown, which is first lined up side by side and embedded in one another by means of the projections 10 and the indentations 11 become. In production, the elements 1 are then in several rows (usually 3 or 4 rows) with a number of joined elements 1 laid out on a horizontal floor in such a way that it is a panel element form with the desired dimensions, for example 10 up to 15 assembled elements.

Then through one or more through openings with which the Base 2 and wings 3, 4 of each element (as shown in the figure e.g. through the hexagonal through openings 20 of the wings 3, 4) longitudinally Reinforcing iron 21 inserted, the length of the same or slightly is greater than the sum of the heights of those lined up in the table on the front Rows of elements.

In this phase, each of the transverse V-shaped indentations is now (see. Fig. 4) on the back of the board (or from the beveled Parts of the wings 3, 4 of the elements) according to the inclined End faces of the individual elements 1 are formed, one or more transverse reinforcing bars 22 at right angles to the reinforcing bars 21 inserted. The reinforcing irons 21 and 22 are then on their Crossing points connected.

An electrowelded one is then placed on the rear side of the panel element Reinforcement net 23 laid. Now the board element is for the Mortar entry ready on the top of both the wings 3, 4 of the elements made of brick material, as well as all reinforcing bars 21, 22 and the reinforcement mesh 23. Thanks to the V-shaped, the mortar can Indentations that face each other on both sides of each element 1 made of brick material into the through openings of the elements penetrate from brick material and fill it partially or completely, whereby this operation, which is important for the mechanical strength of the panel, is improved if the mortar mass is poured in a suitable manner during pouring is vibrated and does not have too high a density value, so that the mortar can flow through the above-mentioned openings. Of course the mortar is placed to the desired height in the side of the panel element encapsulated frame, so that the reinforcing mesh 23 covered becomes. As soon as the mortar has dried sufficiently, i.e. after a few hours, the panel element is lifted out of the frame, as is the case in the 7 case is shown, and is on the base 2 side of the elements 1 plastered with a layer of mortar 24 or any other application. The board, on the four sides of which the ends of the reinforcing bars protrude (straight or bent as needed), by means of which anchored, for example, to the side walls of the building can then be transported to the construction site and be mounted there on the structure.

It is clear that the use of the described inventive Element as a ceiling board with only one layer in the sense of an example is mentioned, and that it is suitable for a wide variety of variants, however always within the scope of the described work technique, namely the Production of a panel element with only one layer of elements, which means Filling the mortar in the horizontal position of the board is created.

Another example of using the brick material element, which is described below with reference to FIG. 8, in which the panel element shown in section relates to a panel element for a Outside wall with two layers of elements 1 and is representative of one other type of manufacturing methods, namely those in which the potting with mortar with the panel element in a vertical position.

The first operation to be performed in this case is that on a first layer of elements 1 lined up alongside one another on a horizontal Surface with upward wings 3 are designed, a second layer of elements 1 'designed with downward wings 3' becomes.

By means of reinforcing irons 25 and 26, which run longitudinally through openings in going through the bottom layer and also the top layer of elements, the two layers are connected to one another, a so-called crossed web is created. These reinforcing bars hold the two layers of elements 1 and 1 'made of brick material together.

Now one or more of the through holes are longitudinal Reinforcing iron 27, which extends longitudinally through the base 2, 2 'and the wings 3 and 3' of each individual element (same as with reference to the Fig. 7 described), inserted, the length of the sum of the heights of the corresponds to double-layered elements. Then in everyone of the transverse rhomboidal cavities resulting from the overlay a V-shaped indentation with a corresponding inverted one V-shaped indentation between the two layers of elements 1 and 1 'is created in accordance with the inclined face surfaces of the individual elements, at least one reinforcing iron 28, 28 'transverse to the through the through openings in elements 1 and 1 'longitudinal reinforcing bars 27 relocated.

In the next step, the panels with their frames are set up vertically so that the through openings through the elements to be vertical come. Now all between the layers of elements 1, 1 ' formed cavities 29 and all through openings through the elements 1, 1 'with mortar of suitable density, taking care to that the flow of the mortar is improved by vibrating. Also in this Fall is the outer wall for buildings that in the example shown one has the best possible K value, since elements made of brick material in Both layers of elements are used, which have been isolated in their base (however, it is of course free that, for example, only in elements made of brick material can be used on the outer layer, which are insulated), plastered on one or both sides, and if on protruding reinforcement bars from all ends, it is brought to the construction site, where they are quickly anchored in the emerging building structure can. It should also be emphasized here that the element according to the invention is made of Brick material, always within the nature of the referring to the Fig. 8 described construction, the execution of numerous variants of the described Wall elements with two layers of elements allowed.

In Fig. 9, again only in the sense of a mere example, the type and illustrated in which the individual prefabricated panel elements that using the standardized element made of brick material according to of the present invention are constructed with each other in such a way can be connected to a vertical corner 30 of a building form, or like a panel element for a ceiling 31 on the vertical Walls 32 and 33 of the building can be anchored. The expert in the field will recognize in what manner and without further explanations Way the connections by connecting the outstanding reinforcing iron created and after attaching suitable formwork with mortar be shed. Again, the type of connection of the reinforcing bars can be can be chosen differently thanks to the great versatility that the Elements made of brick material regarding the arrangement of the reinforcing bars Offer.

Thanks to this great versatility of the applicability of the standardized Elements made of brick material can be used industrially in large quantities can be manufactured, and can be in highly automated special workshops be put together, i.e. that along with the speed of the Assembly of the panel elements on the construction site the shell construction costs of the buildings can be drastically reduced. The experience gained shows that the shell construction costs of residential buildings can be reduced by up to 40 - 50% can, if as a construction element, the element made of brick material is used according to the present invention. So it's about commercial and social progress of great value.

List of elements shown in the figures

1.

Brick element

2nd

Base

3rd

wing

4th

wing

5.

Through openings in the base

6.

Through openings in wing 3

7.

Through openings in wing 4

8th.

Outside of the element

9.

Outside of the element

10th

Protrusion along the element

11.

Indentation along the element

12th

insertion

13.

Face

14.

Face

15.

Sloping wall area

16.

Sloping wall area

17th

Triangular indentation
Reinforcing iron

19th

mortar

20th

Hexagon hole

21.

Reinforcing iron

22.

Cross reinforcing iron

23.

Reinforcement net

24th

Plaster layer

25th

Reinforcing iron

26.

Reinforcing iron

27.

Longitudinal reinforcing iron

28

Cross reinforcing iron

29.

Longitudinal indentation

30th

angle

31

Floor element

32.

Vertical wall

33.

Vertical wall

Claims (11)

Element made of brick material for the creation of modular panels for construction, characterized in that its cross section has a U-shape with a base (2) and two wings (3, 4) which extend transversely to the base (2) from each of its two lateral ends on the same side, Both the base (2) and the two wings (3, 4) of the U-shape each have at least one longitudinal passage opening (5, 6, 7), which extend over the entire length of the element, the two outer side walls of the element (1) have a longitudinal projection (10) on one side and a longitudinal recess (11) on the other side, the cross-sectional shapes of which complement each other in such a way that when two elements are joined laterally on the side form an embedding (12) over the entire length of the element, the two end faces (13, 14) of the element (1) are inclined at least on part of their surface with respect to the plane running transversely to the longitudinal direction of the element (1), in the sense of a shortening of the longitudinal extent of the wings (3, 4) compared to the longitudinal dimension the base (2) of the element (1). Brick material element according to claim 1,
characterized in that
both the base (2) and the wings (3, 4) of the element (1) have a plurality of longitudinal through openings (5, ... 5 ^IX ; 6, ... 6 ‴; 7, ... 7 ^IV ) one separated from the other by a partition, the wall thickness of which is smaller than the width of the through openings. Brick material element according to claim 1,
characterized in that
Both the projection (10) and the indentation (11), the cross-sectional shapes of which complement each other and with which the lateral outer walls of the element (1) are provided, have a trapezoidal shape (butt conical) cross-sectional shape. Brick material element according to claim 1,
characterized in that
the inclined regions (15, 16) of the end faces (13, 14) of the element (1) extend over approximately half the height (H) of the end faces (13, 14). Brick material element according to claim 1,
characterized in that
the angle of inclination (α) of the end faces (13, 14) relative to the plane in which the bases (2) of the elements (1) lie is between 45 ° and 75 °. Brick material element according to claim 1, characterized by the following dimensions: the length (l) of the element (1) is between 56 cm and 100 cm, the width (m) of the element (1) is between 20 cm and 40 cm, the height (H) of the element (1) is between 10 cm and 20 cm. Brick material element according to claim 1,
characterized in that
the height (H) of the element (1) is substantially equal to half its width (m). Brick material element according to claim 1,
characterized in that
the thickness (o) of the base (2) and (h) of the wings (3, 4) of the element (1) is approximately equal to half the height (H) of the element (1). Brick material element according to claim 1,
characterized in that
the through opening or the through openings (5, ... 5 ^IX ) with which the base (2) is provided are filled with an insulating foam which is suitable for improving the K value of the thermal insulation of the element (1). Use of the element made of brick material according to claim 1 for creating a panel element for screed floors of buildings, which consists of only one layer of composite elements,
characterized in that the elements (1) are first lined up with their long sides in rows, each of which comprises more than one element (1), and which are embedded with the aid of the indentations (11) and the projections (10), the cross-sectional shapes of which complement each other , through which one or more through openings (20) with which the bases (2) and the wings (3, 4) of the elements are provided, longitudinal reinforcing bars (21) are inserted, the length of which is equal to or slightly longer than the sum the heights of the rows joined together in the panel element, in each of the transverse V-shaped indentations which arise on the back of the panel element in accordance with the inclined end faces of the individual elements (1), at least one reinforcing iron (21) running across the holes (20) of the brick material elements (22) is inserted, the longitudinal reinforcing bars (21) are connected to those running transversely (22), an electro-welded reinforcement net is attached to the back of the panel element, the grouting with mortar on the horizontal back of the panel element takes place in such a way that the V-shaped indentations and the longitudinal through holes through the elements (1) are completely or partially filled with mortar, whereby the inflow of the mortar is improved by vibration. Use of the element made of brick material according to claim 1 to create a panel element for an outer wall of buildings, which consists of two layers of composite elements,
characterized in that on a first layer of elements (1) which are lined up in rows with their long sides and which are laid out horizontally and with the wings (3) upwards, a second layer of elements (1 ') with the wings (3') is laid down, the two layers are joined together by means of reinforcing irons (25, 26) running lengthwise through the through openings in the elements (1) of the lower layer and in the elements (1 ') of the upper layer, a crossed connecting element being realized, through one or more through openings with which the bases (2, 2 ') and the wings (3, 3') of each element are pushed through longitudinal reinforcing bars (27), the length of which corresponds to the sum of the heights of the joined double rows, which is the panel element form, at least one reinforcing bar (28, 28 ') is inserted in each of the rhombic through-openings that arise between the two layers of elements corresponding to the inclined end faces of the individual elements, said reinforcing bar running transversely to the reinforcing bars (27) running through the through-holes of the elements, the panel elements are placed vertically in such a way that the through openings through the elements come to be vertical, all longitudinal recesses (29) between the two layers of elements (1, 1 ') and all through openings through the elements (1, 1') are filled with mortar, whereby the inflow of the mortar is improved by vibration.

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