FR2936535A3 - Concrete brick for constructing wall of house, has chambers distributed in three juxtaposed rows in longitudinal direction of brick, and each row including two chambers, where chambers of intermediate row are opened on lower face of brick - Google Patents

Abstract

The brick (1) has an upper face (2), a lower face (3), and chambers that are vertically aligned and distributed in three juxtaposed rows in a longitudinal direction of the brick, where the brick is parallelepiped shaped. Each row includes two chambers (8, 9), and the chambers of the intermediate row are opened on the lower face, where the chambers of each row have same or different horizontal sections. The chambers of the rows are symmetrically arranged with respect to a vertical median longitudinal plane and a transversal median plane.

Description

FIELD OF THE INVENTION The present invention relates to a concrete brick and a wall system formed of such bricks. STATE OF THE ART According to the state of the art, for example according to document FR 2 890 090 A1, concrete bricks having alveolar chambers whose upper and / or lower side are open in the alignment direction of the concrete are known. brick. OBJECT OF THE INVENTION The present invention aims to develop a concrete brick or a brick system allowing better handling during construction and better physical characteristics of the construction. DESCRIPTION AND ADVANTAGES OF THE INVENTION Starting from the state of the art mentioned above, the problem of the invention is solved by a brick characterized in that it has an opposite upper face and a lower face, two end faces. opposed, and two opposite side faces, the brick having vertically aligned chambers, divided into three rows juxtaposed in the longitudinal direction of the brick, a row consisting of at least two chambers, and these chambers being open in the upper face or the lower face of the brick, and on the opposited faces, only the chambers of the intermediate row are also open.

The invention also relates to a wall system formed of bricks of this type. Thus, a brick according to the invention has an upper face and a lower face, both opposite, two opposite end faces and two intermediate side surfaces as well as vertically aligned chambers. The chambers are divided into three rows extending in the longitudinal direction of the brick, a row consists of at least two chambers and these chambers are open to the upper face and the lower face of the brick, on the corresponding sides. , opposite, only the rooms of the third row are also open.

In addition to the economy of weight and material offered by the production of such chambers by molding in the brick, the invention also seeks to use the other functional possibilities of these chambers. On the one hand it is possible to improve, by the shape given to such rooms, the sound insulation characteristics of brick masonry. For example, a brick with chambers usually offers better thermal insulation than a solid brick without chambers. In principle one could also consider leaving these rooms filled with air or filling them with insulation material or expanding them. Another functional possibility that such rooms could offer is that they receive pipes, ducts or cables. Thus, such pipes or cables or others can be integrated discretely, not bulky and with a reduced installation cost. In addition these conductors and conduits are protected and usually installed in an invisible manner. If the position of the chambers is known, it also allows a simplification of the laying or the search for pipes for example for repairs or modifications of the energy supply of gas or water.

For sound insulation, it is important to protect the interior volume of the building. Therefore, it is particularly advantageous that the chambers located on the inner side or the outer side, are mainly reserved for an insulation function. According to the present invention, these chambers will also be referred to as "support chambers". These support chambers are open at the top and bottom in the vertical alignment of the brick. A closed side, however, offers the advantage of being able to serve as a surface receiving an adhesive or mortar that can be applied on a relatively wide band. When mounting a wall or brick system so that the side on which the open chambers are located, for example facing the closed chambers, the glue or mortar used can easily penetrate into the zone of the edges of the chambers. open or in the lateral grooves or to make a more effective connection between the bricks. Overall, one can thus enlarge the surface of glue or mortar and improve in these conditions the holding.

3 The closing of one side of the rooms also has other advantages. For example, it is possible to use the surfaces of the closed side of the support chambers as a possibility of attachment, particularly as a possibility of screwing. Thus, for example, a lintel door or window can be constructed with such bricks with the closed face of the rooms facing downwards which allows to install against this face the frame, the shutter box or other equipment. In addition, a brick according to the invention comprises a row of intermediate chambers between these two rows of chambers closed in half and whose chambers are open on both sides for the vertical alignment of the brick. This intermediate row extends in general between the front faces of the brick, that is to say in the longitudinal direction of the brick. The outer rows of the parallel parallel chambers are adjacent to the inner and outer side surfaces. These intermediate chambers can on the one hand serve in principle to insulation including thermal insulation. They also offer a feature that allows the passage of pipes, cables, channels or other. To make out such pipes or other for outlets, gas connections or other equipment, it is particularly advantageous to choose the width of the intermediate chambers so that the corresponding connecting devices, the housings, etc., can well be there. mounted so that this width corresponds substantially to the width of these equipment. As in the case of a brick according to the invention, all the "support chambers" are open or closed on the same side, it is avoided misleading upper face and lower face for the brick during its installation. The bricks according to the invention have at least a part of their length three rows of chambers in the horizon-tal direction between the inner side and the outer side. This offers a particular advantage from the point of view of the fire resistance of the brick or brick system. Such a system which is provided at least in part with three rows of chambers between the outer and the inner side, resists

4 fire longer than a system of rooms spread over two rows. In addition, since the two rows of side chambers are closed on one side, virtually all chimney effect in the vertical direction is complicated or virtually eliminated for aligned chambers.

In addition, this regular construction of the bricks allows proper alignment or manipulation during construction or where appropriate facilitates and improves the construction work. According to an embodiment which will probably be applied very frequently, the brick is of parallelepipedal or square shape. For manufacturing but also from the point of view of handling the brick with chambers, it is advantageous to give it a relatively simple geometric shape. In particular, in the embodiment of the invention, the horizontal section of at least one chamber is a rectangle, a square, a circle or a trapezoidal shape. When pulling cable or other conduits, it may for example be advantageous if not all the chambers have the same horizontal section, especially if one chamber serves to pass relatively thin electrical conduits while the other chamber is crossed. by tubular pipes of strong section. But also in the case of support chambers adjacent to the lateral surfaces, it may be advantageous for at least two of these to be made differently, for example in order firstly to optimize the insulation characteristics and, as the case may be, to have surfaces wider offering better attachment possibilities. Correspondingly, it may also be other complementary rooms that is to say rooms made in a general manner independently of the brick above, placed in rows inside the brick to give them a different shape to their horizontal section. Therefore, in an exemplary embodiment of the invention, at least two chambers have different horizontal sections. Under the same conditions, it can also be advantageous if according to an exemplary embodiment of the invention, at least two chambers have the same horizontal section. It may for example be useful, as is customary in masonry, to offset the bricks from one row to another. It is thus possible in principle to align in the vertical direction, the brick chambers superimposed to form for example a channel receiving conduits or conductors. In particular, it may be advantageous according to one embodiment of the invention, at least the chambers of the lateral rows and / or the intermediate row have the same horizontal section. The use is particularly facilitated if the arrangement of the chambers is symmetrical with respect to the vertical longitudinal median plane and / or the vertical transverse median plane. This allows the bricks to be made for example according to their physical property such as their thermal insulation, symmetrically on both sides. In particular, symmetry with respect to the vertical transverse median plane makes it possible for the rows of the chambers to be even more uniform when the bricks are laid next to one another. When installing pipes, etc., this offers advantages especially for later searching for flush-mounted ducts. As already mentioned above, it may be interesting in some cases to have rooms of different shapes in each row. For asymmetries, for example, there are end terminations of different shape, complementary chambers or the like in the brick or on the brick so that it may be advantageous to adapt the adjacent chambers to the respective rows of bricks with which they are made. the junction. For example, it may be in a partial zone of the brick, previously defined, a different shape for example the chambers of the intermediate zone of the brick may have a length such that one has different access possibilities to install boxes , faucets, etc. There are many possibilities of applications for such measurements.

Furthermore, in an exemplary embodiment of the invention, it is advantageous that the distribution of the three rows of chambers between the end faces does not occupy the entire length of the brick. This is particularly advantageous if the remaining portion of the brick is used for other purposes in the longitudinal direction. For example, in the context of a development of the invention, in a portion that is not crossed by the rows of chambers, at least one complementary chamber is integrated. If for example, this complementary chamber is intended to form a channel for the passage of pipes, this complementary chamber may for example remain open on its opposite faces. This further allows for example to realize a chamber and / or the complementary chamber in the form of a cylinder. If such a complementary chamber is for example intended for the passage of pipes, pipes or similar means of relatively large dimensions, this cylindrical complementary chamber may also have a diameter that corresponds to the width of the three rows juxtaposed. When constructing a masonry system or a wall, in many cases, first install a row of bricks and then the next row, over it with similar bricks but with an offset in the longitudinal direction by compared to the previous brick row. Often, the offset in the longitudinal direction between two rows that follow in the vertical direction is half the length of the brick. If it is necessary in addition to separate chambers to receive pipes and thus form channels in the vertical direction, it is advantageous that these rooms including the rooms of the intermediate row are arranged so that they are aligned with respect to the other under the usual construction conditions. An exemplary embodiment of the invention provides for shifting the chambers of the intermediate row by a fixed offset relative to the chambers of the two lateral rows with an offset which corresponds in particular to half the length of a chamber measured in the longitudinal direction. In order to connect the bricks together, an exemplary embodiment of the invention provides that at least one of the two end faces of

7 the brick comprises connecting elements by the shape between the neighboring bricks and in particular connecting elements for producing a groove-type system and rib including connecting elements provided in the area of the lateral rows. The arrangement mentioned last allows for example if we use the intermediate zone in the transverse direction to pull pipes or channels, it is not interrupted at the front faces of the brick by d ' possible connecting elements, cutting off its regular layout.

In order to be able to assemble the bricks in a simple manner and with a solid connection, according to a preferred development of the invention, the grooves and the ribs are provided on the diametrically opposite sides. For example, to obtain a termination brick, an embodiment of the invention provides that at least one of the two front faces of the brick is a flat surface. Other developments of the invention provide for example that at least one chamber and / or a complementary chamber has vertical inner edges which are rounded. This is advantageous for many reasons, for example to facilitate handling, dressing or filling rooms but also for example to facilitate the extraction of molds when making the rooms. Often using mold manufacturing processes to mold the chambers and the sides of which are angled to allow the mold to be more easily removed during the manufacturing process. Therefore, the embodiments of the invention may have chambers with angled inner surfaces for demolding. In principle, the brick-making process requires certain tolerances for lengths, especially angle measurements. Between the different chambers and / or the complementary chambers there are areas that can be made in the form of partitions for a certain embodiment of the invention. In addition, in the exemplary embodiments, the partitions will have

8 the same width. These partitions or spacers may for example be used as fixing surfaces of the mortar or glue. According to a preferred development of the invention, the chambers and / or the complementary chambers of a row are made in the form of termination chambers which cut the front face; in particular the termination chambers arriving on the front face at half their length in the longitudinal direction. Such an arrangement serves in particular to allow rooms including the rooms of the intermediate row to be distributed as regularly as possible in the row of bricks and in addition, the different rooms are aligned in the vertical direction. For example, on the respective end faces or only on one end face, it will be possible to have an open half-chamber on the corresponding front face. The next brick added against this front face in this row will have for example in its intermediate row, a similar half-chamber as terminations so that the two bricks juxtaposed by their corresponding front faces form at this point a complete chamber. If in the longitudinal direction, in the middle of the brick, there is a complete uninterrupted chamber, this offers the advantage below: The next row of bricks placed above the previous row of bricks will be shifted from the half the length of a brick so that the front faces of this brick will each time have a half-chamber forming a complete chamber after assembling a brick in the longitudinal direction. This room will be aligned with the complete intermediate chamber of the brick row below. This also allows the use of vertical channels for pulling pipes, channels, pipes or the like. In principle, it is possible in the embodiments of the invention to leave the end faces of these termination chambers open or to close them front side for example by a spacer. For the rest, it allows to have larger contact surfaces for the glue or mortar at the front faces.

According to a preferred development of the invention, centering means are provided in particular in the form of centering holes for receiving adjusting pins. These centering orifices can be arranged so that not only the chambers allow to know for example how the bricks must be juxtaposed to form a wall system but even more so by the centering pins which are fixed by the optimized position of a brick and that from the beginning. The brick must thus be used so that it can only receive the centering aid in this way. This is particularly advantageous for making channels especially in the vertical direction. If these centering means are in the form of centering holes receiving adjustment pins, then the bricklayer will decide himself whether or not he needs centering aids for example if the centering aids are not necessary the mason can avoid any adjusting pin and there will be no fitting means protruding and it should be removed if necessary. As already indicated above, the lateral chambers can be used especially for insulation. According to one embodiment of the invention, it is advantageous to fill them with an insulating material or, if appropriate, to fill them with foam. It has already been stated that the construction of the chambers to then have channels in a wall system, furthermore offers the advantage that depending on the position of the bricks, it is also possible to draw conclusions about the position of the channels. For example, it is conceivable to provide appropriate jigs or markers taking into account the construction and layout of the bricks so that, even when the plaster, any tapestry work or a wall equipped in any other way, it will nevertheless make it possible to know where the pipes, the canals or similar means are. To facilitate this search for the position of the channels, a development of the invention provides for locating the chambers of the intermediate row. A particularly preferred development in this context is to characterize the position of the intermediate chambers by grooves provided on the lateral surfaces. This allows for example not only to locate the layout of the rooms but also their lateral limit. This can be particularly advantageous if the wall is treated again during the course of the work, to drill the holes.

As already indicated, another advantage of the brick according to the invention or developments and embodiments of the brick is to simplify the handling operations and also to develop channels for laying and drawing con-ducts , etc. Correspondingly, a masonry or building system according to the invention having at least one brick having the aforementioned configuration, is characterized in that the intermediate chambers of several bricks are aligned once the bricks are assembled. . Drawings The present invention will be described in more detail below with the aid of exemplary embodiments shown in the accompanying drawings in which: FIG. 1 is a schematic perspective view of a brick having extending chambers; in three rows in the longitudinal di-20 tion along the entire length of the brick, - Figure 2 is a schematic perspective view of the brick of Figure 1, showing the lower face of the brick, Figure 3 is a view of above the brick of Figures 1 and 2 with the three rows of chambers between the end faces in the longitudinal direction, Figure 4 is a schematic perspective view of a brick in which the rows of chambers between the front faces. do not occupy the entire length but have a complementary chamber on the nest of the front faces; FIG. 5 is a schematic perspective view of the brick with a complete chamber; mentary. Figure 6a is a top view of a wall constructed with the bricks according to the invention, and Figure 6b is a cross-sectional side of the wall according to Figure 6a in section line VIb-VIb.

11 DESCRIPTION OF EMBODIMENTS FIG. 1 shows a parallelepiped-shaped brick 1 having an upper face 2, a lower face 3 opposite the previous one, two lateral surfaces 6, 7 as well as two end faces 4, 5. Between the lateral surfaces 6, 7, the brick 1 has three rows of chambers 8, 9. The row of chambers 9, intermediate between the end faces 4, 5 of the brick 1, that is to say in the longitudinal direction of the wall. The rows of outer chambers 8, parallel to the preceding one, are adjacent to the inner lateral surface and to the outer lateral surface 6, 7. All these chambers 8, 9 are open in the upper face 2. In the region of the two rows of side chambers 8, the end faces 4, 5 comprise connecting elements 10, 11 constituting a rib and groove system. In addition, the end faces 4, 5 are interrupted respectively between the rib 10 and the groove 11 by the end chambers 9a. These termination chambers 9a are half the length of a single chamber 9 of the intermediate row, measured along the longitudinal direction. In the exemplary embodiment, in horizontal section, the lateral chambers 8 and the chambers of the intermediate row 9 are identical. The lower face 3 of the brick 1 closes the side chambers 8 and leaves the chambers 9 open. Between the various chambers 8, 9 and 9a there are longitudinal partitions or ribs 12 directed in the longitudinal direction as well as transverse partitions or ribs 13 directed in the transverse direction. The corners of the brick 1 as well as on the sides in the longitudinal direction, in the middle of the brick 1, there are respective centering orifices 14 which can serve as a centering aid if appropriate pins are fitted therein. FIG. 2 is also a perspective view of the brick 1 showing in particular its bottom face 3. This view notably shows that only the chambers 9 and 9a of the intermediate row are open in the lower face 3. The chambers 8 of the 35 sides of brick 1 are closed at the lower face 3 and

12 do not appear in this figure. The centering orifices 14 exist; they are arranged on the lower face 3 in positions similar to their positions on the upper face 2. FIG. 3 shows a schematic view from above of the upper face 2 of the brick 1. The diagonally-directed lines in the chambers 8 indicate that these chambers are closed at the lower face 3, as opposed for example to the rooms 9, 9a; in addition, two lines 15a, 15b have been drawn which schematize the symmetrical planes respectively in the longitudinal direction 15a and in the transverse direction 15b. The symmetry concerns the arrangement of rooms 8 and 9 as well as 9a. In the center of the upper surface 2 which corresponds to the intersection of the two lines 15a, 15b, is the center of the upper surface of one of the chambers 9. At the two front faces 4 and 5, there are half termination chambers 9a, open. The same brick is placed against one of the two end faces 4 and 5 using the rib and groove connection element 10 or 11 so that the intermediate row of the chambers constitutes a continuous row of chambers 9; the respective termination chambers 9a assemble against the corresponding end faces to form continuous chambers. When placed on such a row, a new row composed of the same bricks 1, we can shift these same brick 1 by half a length of side of the brick 1. This means that along the transverse plane shown in Figure 3 by the line 15b, there will be each time the front face 5 and 4 of the corresponding brick 1. At this point, two termination chambers 9a complement each other to form a chamber which is thus in alignment with the intermediate chamber 9 of the brick 1 below. The other chambers of the intermediate row 9 as well as the chambers composed of two termination chambers 9a can thus be aligned in the vertical direction. In principle, with such an arrangement, virtually all chambers 9 and each chamber formed of termination chambers 9a may develop in the vertical direction channels for the passage of fluid lines or the like.

FIG. 4 also shows a schematic perspective view of a vertically aligned brick 101, having an upper surface 102 and a lower surface 103 opposite the preceding one, as well as two end faces 104, 105 and two lateral faces 106, 107.

Unlike brick 1, in the case of this embodiment of the brick 101, the front face 105 is a flat surface. But the front face 104 also carries a groove and rib system with a rib 110 and a groove 111. In the area of the connecting elements 110, 111, the faces 106, 107 of the brick 101 comprise chambers 108, 108a. Between these two rows of chambers are chambers 109, 109a, 109b; the chamber 109a is in the form of a termination chamber. These three rows of chambers, however, are not continuous over the entire length of the brick 1. The front face 105 is in fact constituted by a complementary chamber in the form of a cylinder 116. This complementary chamber extends by its diameter. of the horizontal section on the width of all three rows of chambers 108, 108, 109, 109a, 109b; the partitions 112, 113 are between the chambers. As in the embodiment of the brick 1, (see Figures 1 to 3), the partitions are made to have the same width. For the shape adaptation to the complementary chamber 116, the neighboring chambers 108a, 109a are made so that the corresponding partition 113a is adapted to the shape of the complementary chamber 116. This means in this embodiment that the chambers 108a have a trapezoidal shape in horizontal section. The chamber 109b is only shortened in a longitudinal direction, for example with respect to a chamber 109. In addition, the upper face 102 has centering orifices 114.

FIG. 5 shows a diagrammatic perspective view of the brick 101 leaving, in particular, its lower face 103. It also includes centering orifices 114. Only the chambers of the intermediate row are open, namely the termination chamber 109a, the chamber 109 and the chamber 109b and further, the complementary chamber 116 of cylindrical shape.

Figure 6a shows a schematic side view of a wall 200. The wall 200 is constructed from a building system 201 which includes bricks 1 according to the invention. The wall 200 constructed with the building system 201 has a first lower layer 202 composed of three bricks 1a, 1b, 1c and a second upper layer 203 composed of two bricks 1d and 1c (see also the sectional representation of FIG. 6b). . Middle chambers 9 are provided in the bricks 1 or 1a so that the chambers 9 of the lower layer 202 of the wall 200 end aligned in the chambers 9 of the upper layer of the wall 200. This means that each chamber 9 of the lower layer 202 of the wall 200 is mainly associated in each case with a chamber 9 of the upper layer 203 of the wall 200. A junction aligned between vertically adjacent chambers means, according to the invention, an essentially non-shifting passage. a room in another room, arranged in a layer above or below. The chambers 9 each located on top of each other of a wall 200 and constitute each time channels or chimneys 204 oriented vertically and parallel to each other. Bricks near Bines la, lb; 1c, 1c and 1d, each constitute, at their end faces in contact with each other 4, 5 open junction chambers 9a; to the side faces 4, 5 of a laterally closed chamber 9, through which the chamber resting above or below 9, continues or extends. Figures 6a and 6b, show a mortar layer 205 on the upper face 2 the brick 1c, applied to receive on the upper layer 203 another half-brick not shown. The mortar layer 205 consists of two strips 205a and 205b which overlap the outer rows RA, with the support chambers 8. The middle row RM which comprises the channel chambers 9 is not covered by the mortar layer 205 to avoid the penetration of the mortar in the channel chambers 9. FIGS. 6a and 6b furthermore show schematically the insertion of an electrical installation into the wall 200. In order to be able to position the interior side 206 of the wall 200, for example in a living space 207 a light switch and an outlet, wall 200 or

1d and 1c are pierced from the inner side 206 in the direction towards the outer side 208 with a drill bit into the channel chamber 9. In order to accurately position this drilling, the bricks 1 have on their lateral surface 6 , 7 vertically extending markings which are made for example in the form of N-grooves. Thus, the centering tip of the bit must simply be positioned in such a groove to accurately meet the channel chambers 9. FIG. 6b , shows the two holes 209 and 210 made using the trephine. The double arrow shows an electrical line 211 which is for example pushed through the upper bore 210 and the chimney 204 to the lower bore 209. Naturally, it is provided in practice to construct walls using the construction system. 201 with a large number of layers and place in different fireplaces all kinds of pipes of the same through the height of several layers of bricks. In special cases, it is also planned to drill the wall on its outer face with a drill bit for example to realize the power supply for an outdoor power outlet, an outdoor lighting or a motion detector. The diameters of the pilot holes can naturally be adapted to the requirements. The brick according to the invention is dimensioned according to a width B9 of a median chamber 9 so that it corresponds to at least about 100 mm and in particular 110 mm. A brick according to the invention thus has a width B1 of about 500 mm, a depth T1 of about 185 mm and a height H1 of about 190 mm. In addition, it is usual for the bricks according to the invention that the chambers 8 of the outer row RA have a width B8 at least 10% less than that of the chambers 9 of the median row RM. Thus, we have B9> B8. In practice, it is expected to increase the insulation capabilities of the wall 200 with an insulation 212 applied on the outer side 208 shown schematically in Figure 6a. According to the invention, it is in particular provided that the bricks are offset by a 1/2 type offset so that the bricks 1 lie offset in the adjacent layers 202, 203 with respect to one another each time with a Half-width B1 of the brick 1. According to the invention, it is also intended to provide a system of construction

16 from bricks which correspond to the bricks 101 shown in Figure 4 or the bricks 101 shown in Figure 5. Naturally, it is also provided in the building system according to the invention, to use different bricks than those known from the drawings. Figures 1 to 3,4 and 5. All the examples of embodiment and development of the invention have in common that it is a concrete bique; the brick is vertically aligned and has an opposing upper and lower face, two opposite end faces and two opposite lateral faces, the brick having chambers distributed in three rows juxtaposed between the end faces; a row is composed of at least two chambers and these chambers are open in the upper face and the lower face of the brick, whereas on the corresponding opposite side only the chambers of the intermediate row are open.15 NOMENCLATURE 1 Brick 2 Face upper 3 Lower face 4 Front 5 Front 6 Lateral 7 Lateral 8 Supporting 9 Canal 9a Terminating 10 Ribbing 11 Groove 12 Longitudinal partition 13 Transverse partition 14 Centering hole 15a Line characterizing the longitudinal median plane 15b Line Characterizing the transverse median plane 101 Brick 102 Top face 103 Bottom side 104 Front face 105 Front face 106 Side surface 107 Side surface 108 Support chamber 108a Support chamber 109 Channel chamber 109a Termination chamber 110 Rib 111 Groove 112 Longitudinal partition 113 Transverse partition 113a Partition 114 Centering hole 115 Room co 116 Additional room 200 Wall 201 Building system 202 Bottom layer of 200 203 Top layer of 200 204 Canal, chimney 205 Mortar layer 205a Band 205b Band 206 Inner side of 200 207 Living space 208 Outside of 200 209 Drilling ( bottom) 210 Drilling (high) 211 Power Line 212 Insulation BI Width 1 B8 Width 8 B9 Width 9 Hl Height 1 Ti Depth 1

Claims (1)

CLAIMS1) Concrete brick (1, 101) having an opposite upper face (2, 102) and a lower face (3, 103), two opposite end faces (4, 5, 104, 105) and two lateral faces opposed (6, 7; 106, 107), the brick having vertically aligned chambers (8, 9, 9a; 108, 108a, 109, 109a, 109b), divided into three rows juxtaposed in the longitudinal direction of the brick a row consisting of at least two chambers (8, 9, 9a; 108, 108a, 109, 109a, 109b), and these chambers (8, 9, 9a; 108, 108a, 109, 109a, 109b) being open in the upper face (2, 102) or the lower face (3, 103) of the brick (1, 101), and on the opposite faces (3, 103), only the chambers (9, 9a, 109, 109a 109b) of the intermediate row are also open. 2 °) Brick (1, 101) according to claim 1, characterized in that the brick (1, 101) is made in parallelepiped form. 3 °) Brick (1, 101) according to any one of claims 1 and 2, characterized in that the horizontal section of at least one chamber (8, 9, 9a; 108, 108a, 109, 109a, 109b , 116) has a shape of rectangle, square, circle or trapezoid. 4 °) Brick (1, 101) according to any one of claims 1 to 3, characterized in that at least two chambers (108, 109, 109b, 116) have different horizontal sections. 5 °) Brick (1, 101) according to any one of claims 1 to 4, characterized in that at least two chambers (8, 9; 108, 109) have the same horizontal section. 6 °) Brick (1, 101) according to any one of claims 1 to 5, characterized in that at least the chambers (8, 9) in the lateral rows and / or in the intermediate row have the same section horizontal. 7 °) Brick (1, 101) according to any one of claims 1 to 6, characterized in that the arrangement of the chambers (8, 9, 9a; 108, 109, 109a) relative to the vertical median longitudinal plane (15a ) and / or the transverse median plane (15b) is symmetrical. 8 °) Brick (1, 101) according to any one of claims 1 to 7, characterized in that the chambers (9, 9a; 108, 108a; 109, 109a, 109b) of each of the rows are different. 9 °) Brick (1, 101) according to any one of claims 1 to 8, characterized in that the arrangement of the three chamber rows (108, 108a; 109, 109a, 109b) between the end faces (104, 105 ) does not extend the full length of the brick (101). 10 °) Brick (1, 101) according to any one of claims 1 to 9, characterized in that apart from the chambers (108, 108a, 109, 109a, 109b) distributed in the three rows, there is less complementary chamber (116), and in particular at least this complementary chamber (116) is open in the two opposite faces (102, 103), and in particular a chamber and / or a complementary chamber (116) are formed in the form of a cylinder and in particular a complementary chamber (116) in the form of a cylinder has a diameter which corresponds to the width of the three rows juxtaposed. 11 °) Brick (1, 101) according to any one of claims 1 to 10, characterized in that the intermediate row of chambers (9, 9a; 109, 109a) is offset by a fixed offset with respect to both rows of lateral chambers (8; 21, 108, 108a) and in particular the offset corresponds to half the length of a chamber (8, 9; 108, 109) in the longitudinal direction. 12 °) Brick (1, 101) according to any one of claims 1 to 11, characterized in that at least one of the two end faces (4, 5, 104, 105) of the brick (1, 101 ) comprises connecting elements (10, 11; 110, 111) for forming a connection between the neighboring bricks (1, 101), and in particular the connecting elements (10, 11; 110, 111) are made for a groove / rib type connection and in particular the connecting elements are arranged in the zone of the lateral rows (8, 108). 13 °) Brick (1, 101) according to any one of claims 1 to 12, characterized in that the grooves (10, 110) or the ribs (11, 111) of the oppositely facing end faces (4, 5; 104, 105) are diametrically disposed. 14 °) Brick (1, 101) according to any one of claims 1 to 13, characterized in that at least one of the two end faces (4, 5, 104, 105) of the brick (1, 101 ) is in the form of a flat surface (105). Brick (1, 101) according to one of Claims 1 to 14, characterized in that at least one of the chambers (8, 9, 9a, 108, 108a, 109, 109a, 109b) and or the complementary chamber (116) have vertical inner edges which are rounded. 16 °) Brick (1, 101) according to any one of claims 1 to 15, characterized in that the inner surfaces of the chambers (8, 9, 9a, 108, 108a, 109, 109a, 109b; inclined surfaces for demolding. 17 °) Brick (1, 101) according to any one of claims 1 to 16, characterized by partitions (12, 13; 112, 113, 113a) formed between the chambers (8, 9, 9a; 108, 108a, 109, 109, 109) and / or the complementary chambers (116), and in particular partitions (12, 13; 112, 113, 113a) have the same width. 18 °) Brick (1, 101) according to any one of claims 1 to 17, characterized in that the chambers and / or the complementary chambers (116) of the row are formed as termination chambers (9a, 109a) traversing a front face (4, 5; 104, 105) and in particular the termination chamber (9a, 109a) reaches half of its length in the longitudinal di-rection on the end face (4, 5; 104). 19 °) Brick (1, 101) according to any one of claims 1 to 18, characterized in that at least one of the termination chambers (9a, 109a) made in one of the front faces is open relative to this front face. 20 °) Brick (1, 101) according to any one of claims 1 to 19, characterized by centering aids in particular made in the form of centering holes (14, 114) for receiving centering pins. 21 °) Brick (1, 101) according to any one of claims 1 to 20, characterized in that at least one chamber (8, 108, 108a) of the lateral rows is filled with insulating material. 22 °) Brick (1, 101) according to any one of claims 1 to 21, characterized in that the chambers (9, 9a; 109, 109a, 109b) of the intermediate row are marked. 23 °) Brick (1, 101) according to any one of claims 1 to 22, characterized in thatthe position of the intermediate chambers (9, 9a; 109, 109a, 109b) is characterized by grooves on the lateral surfaces ( 6, 7, 106, 107). 24 °) Construction system consisting of at least one brick (1, 101) 5 according to any one of claims 1 to 23. 25 °) Construction system (201) for constructing a wall (200) which has at least two layers (202, 203) of bricks (1, 101; la-le) one above the other, these bricks being made according to at least one of claims 1 to 23, characterized in that the middle chambers (9, 9a) bricks (1, 101; la-le) are arranged so that the middle chambers (9, 9a) of the bricks (1, 101; la-le) of the first layer (202) lead to each both at the median channel (9, 9a) vertically adjacent bricks (1, 101; the-the) of the second layer (203). 20