FR2892436A1 - Concrete block for e.g. erecting building wall, has internal and external partitions with structures dissymmetric relative to vertical plane, where block has structure dissymmetric relative to median horizontal plane normal to partitions - Google Patents

Abstract

The concrete block has internal and external partitions (1, 2), and two transversal beams (3) connecting the partitions. The partitions are arranged parallel to a median vertical plane (11) and are perpendicular to the transversal beams. The partitions have structures dissymmetric with respect to the vertical plane, and a structure of the block is dissymmetric with respect to a median horizontal plane perpendicular to the partitions, where the planes are perpendicular between them. The external partition includes cells (5) disposed on several rows.

Description

The invention relates to the field of building materials and more

  specifically that of concrete blocks for the construction of walls by simply stacking the blocks on top of each other. For the construction of constructions it is used for several years the so-called "dry" technique of assembling walls up to a floor. This technique consists in stacking prefabricated concrete blocks on each other and then pouring into the central part of said blocks, in which openings are formed, a fluidized concrete which is distributed in the structure and constitutes a rigid framework.

  Such a procedure avoids the manual application of mortar between each block and thus saves considerable time for the construction of a building with a finished construction strength comparable to that of a traditional construction. In the early development of this type of construction traditional blocks were used that were simply hollowed out in their central part, but it soon became apparent that the structure can become deformed during casting of the concrete and that the arrangement of the wall poses a problem. . It has therefore been proposed modular blocks with interlocking structures in order to try to stiffen the structure and facilitate the development of the construction. The objective of the use of modular blocks is to save time in the development of the structure, without loss of performance of the wall, ie with a wall having the same strength, which is the minimum requirement required, and high thermal and sound insulation capabilities. These last criteria being critical points for this type of construction. The thermal and sound insulation of the construction is mainly related to the arrangement of the interior voids in the structure. The air 2 trapped in the blocks constituting the most economical insulation in the wall. Currently the building blocks that can be assembled "dry" are quite thick and shaped with fairly wide spaces symmetrically distributed around the central opening so as to make insulation. Given that said central opening must also be large enough to allow the concrete to flow easily into the structure blocks are very thick and relatively heavy, which is not desirable.

  A first problem is therefore to produce concrete blocks that allow a modular construction and have a reduced thickness with thermal and sound insulation quality comparable to larger traditional blocks. A second problem, related to a reduced thickness of the block, is the ease of construction of the construction and its maintenance without deformation during the casting of the concrete, this second problem is in direct relationship with the assembly means of the blocks between them . A third problem is, still in order to save time for the construction, to have easy blocks to assemble and whose 20 nestings are obvious for the operators on the site. The blocks should also be as standardized as possible to fit all wall configurations, length and height, easy to manufacture and low cost. Finally it must be possible to provide specific blocks for the creation of 25 pillars, windows and floors without the need for formwork, or have blocks adapted to these different configurations in the construction. The object of the invention is to solve these main difficulties by proposing a lightweight concrete block, of small thickness, with reinforced insulation performance. The invention thus relates to a concrete block for the modular construction assembled without mortar comprising an external partition, an internal partition and at least two transverse beams connecting the two partitions, the two partitions being parallel to a median vertical plane and perpendicular audite transverse beams . The block is characterized in that the outer wall and the inner wall have asymmetrical structures relative to said vertical plane and in that the block structure is also asymmetrical with respect to the median horizontal plane perpendicular to the partitions. The horizontal and vertical planes are perpendicular to each other and the intersection of these two planes comprises the center of the building block.

  The building block according to the invention has many advantages, in particular by the possibility of producing relatively thin walls with good thermal and acoustic insulation performance and by the ease of manufacture of walls with a minimal risk of error as to the placing blocks in superposition.

  The interlocking between the blocks is obvious to the installer and the construction is facilitated by the possibility of using wedges for adjustment in length and height. Another essential advantage of the invention is that the conformation of the block allows a stable "dry" construction, even before pouring the concrete forming the internal framework, both on a horizontal plane and on a vertical plane, which This is not the case with the majority of existing modular building blocks. The block according to the invention also has the advantage of having cavities forming technical sleeves and recesses for the longitudinal reinforcing passage 4, which is essential in seismic zones. Other features and advantages of the invention will become apparent from the following description with reference to the accompanying drawings which are given by way of non-limiting examples. Figure 1 is a sectional view of the concrete block according to a median horizontal plane perpendicular to the partitions. Figure 2 is a sectional view of the concrete block according to its thickness, in a median vertical plane passing through a transverse beam, and in three embodiments. Figure 3 illustrates a sectional view of a wedge used with the blocks according to the invention. According to the invention and as illustrated in Figures 1 and 2 the structure of the building block is asymmetrical with respect to each of the three median planes 11, 12 and 13 which intersect at the center of the block. The median vertical plane 11 is parallel to the partitions 1 and 2 and is perpendicular to the transverse beams 3. The vertical vertical plane 12 is perpendicular to the partitions 1 and 2 and passes in Figure 1 by the central transverse beam. This vertical plane 12 is therefore perpendicular to the plane 11. The horizontal plane 13 median to the partitions 1 and 2 is perpendicular to the two vertical planes 11 and 12. Figure 1 corresponds to a section of the building block according to the horizontal plane 13 while Figure 2 shows three variants in section along the vertical plane 12.

  As shown in FIG. 1, the concrete block according to the invention comprises an internal partition 1, an external partition 2 and at least two transverse beams 3 connecting the partitions 1 and 2. In the example illustrating the invention, three cross beams including a central through which the vertical plane 12 median. It can be considered several variants with the beams only at the ends of the block or more than three beams, which are then finer. The constituent concrete of the block is advantageously a lightweight concrete comprising expanded clay balls, however common aggregate concretes 10 may be employed. The thickness of the concrete block can be very variable however the standard module has been designed for a dimension preferably of around 20 cm so as to allow the construction of a wall up to floor height before the fluidized concrete responsible for stiffening the structure. The outer wall 2 comprises cavities 5 preferably arranged in several rows and advantageously arranged to interrupt the heat and sound conduction through the concrete block. The thermal and sound insulation are all the better as the cells are numerous in the thickness, however, given the necessary strength of the partition and the possible thickness of the latter, an optimum must be found between the number of cells distributed in the thickness of the partition and the thickness dimension of said cells. After multiple tests it has been found particularly advantageous to have very thin cells in two rows, in staggered rows. These cells are distributed over the entire height of the block so as to constitute thin air mattresses for the insulation.

  The internal partition 1 may also include a variable number of cells, preferably in two rows as well, but arranged facing one another, as shown in Figure 1. It is arranged in this external partition 1 of the cavities 6 allowing, when the construction is completed and the poured concrete structure, the passage of electrical cables, water pipes, for example, ducts or various ducts. The concrete block according to the invention, shown in Figure 1, is designed so that when the blocks are mounted offset by a half-element between two beds of blocks, the vertical assembly leads to keep the cavities 6 in relation. In this way the vertical ducts for the passages of cables and pipes are preserved. The external partition 2 has at one of its lateral ends a raised amount 7 intended to fit into the recessed portion 8 of the adjoining block.

  The internal partition 1 has the same raised portion 9 and the same recessed portion 10 but these elements are inverted on the same side of the block, the interlocking elements are asymmetrical relative to the vertical plane 11 perpendicular to the transverse beams. These recessed portions 8, 10 and in relief 7, 9 are also placed asymmetrically with respect to the second vertical plane 12. The cavities 6 carried by the internal partition 1 are also positioned asymmetrically with respect to the vertical plane 12. configuration corresponds to a firm and efficient holding blocks together in the horizontal direction, that is to say as mounted on each constituent row of the wall. This building block design makes it possible to limit the errors of positioning of the elements during the construction of the wall, which errors 7 could lead in particular to placing the internal partition in the external position, which would in fact cause the obstruction of the cavities 6 provided for cables and pipes. The asymmetric structure building block leads to the construction of a wall having an internal partition different from the external partition relative to the vertical vertical plane 11 of the wall and parallel to the two partitions, which vertical plane 11 is perpendicular to the beams. transverse beams 3. The transverse beams 3 are panels perpendicular to the partitions which provide the junction between the outer wall 2 and the inner wall 1 of the building block. These beams are sufficiently thin to provide large openings 4 between the partitions through which the fluidized concrete is poured. Preferably, as can be seen in FIG. 2, the transverse beams 3 are solid and arranged over at least 50% of the height of the block so as to ensure solid retention of the partitions between them. So that the fluidized concrete can be distributed laterally in the structure and rigidly connect the blocks on horizontal planes there is arranged at least one recess 16 in each transverse beam, this recess 16 can be placed in the upper part, in the lower part or simultaneously in these two parts of the transverse beams. When the wall is arranged the fluidized concrete is poured into the structure through the openings 4, the distribution of concrete is in the entire structure and in particular through the recesses 16, to form a solid internal frame.

  Different variants are possible for the structure of the transverse beams 3, two of which are shown in Figures 2a and 2b. According to a first variant illustrated in Figure 2a the transverse beam is recessed in its upper part.

  According to a second variant shown in FIG. 2b, the transverse beam may be designed with a recess 16 in the lower part and an overflow 17 on the upper part, this assembly may be used for the horizontal interlocking of the different blocks between them. According to other variants not shown it can be designed recesses in the upper and lower parts without departing from the scope of the invention. The recess 16 is a longitudinal channel used for the introduction of metal bars or reinforcing cables to maintain the structure in the horizontal plane, it may for example be useful to place such longitudinal reinforcement in seismic zone. The concrete is then poured around these reinforcing metal elements. In order to facilitate the laying of the various beds of blocks and to ensure the stability of the rows constituting the wall, it is provided according to the invention to place on each modular element means allowing the interlocking in the vertical direction of a block with its neighbor. contiguous superior. The building block comprises a different upper part of the lower part so as to allow horizontal interlocking of the blocks between them or the positioning of a height adjustment wedge of the wall. Such a wedge 19 is shown in FIG. The variants illustrated in FIGS. 2a to 2c show different possibilities for the interlocking of the building blocks on each other in the vertical direction with or without the shim 19. The blocks can be directly stacked on one another without specific interlocking by employing a block as shown in Figure 2a, it can also be provided an interlocking by means of the transverse beam, as shown in Figure 2b and as already described above. It can also be provided upper central portions of the raised partitions, for example in the form of blades 15, nestable with grooves 18 arranged in the lower part of said partitions of the next higher block, such a design is illustrated in Figure 2c.

  It can also be imagined other variants with for example a combination of the means shown in Figures 2b and 2c. Preferably according to the invention the adjustment in length and height of the wall is effected by means of shims that can be fractionated. The wedge 19 has shapes complementary to the reliefs 7, 9 and the recesses 8, 10 for a length adjustment of the current part of the wall. The shim 19 is sized and designed to fit also in the recesses 14 or on the blades 15 placed in the upper part of the blocks, for a height adjustment of the assembly. In the last row of the construction with standard blocks it is possible to make up the flatness, if necessary, by placing the shims or the edge planes in mortar previously cast in the recesses. According to the invention the building block is designed with an asymmetric structure relative to the vertical plane 11 perpendicular to the transverse beams 3 and relative to the horizontal plane 13, such a block can have multiple configurations to meet the needs of manufacturers while keeping the main features outlined above. The needs of the builders are essentially the following ones: - adjustment in length and height the walls, in a rather precise way, i0 - use of suitable blocks for the placement of the openings, doors, windows, etc ... - possibility to dispose of specific elements for the realization of the floors, - use of particular elements for the angles and the construction of pillars of reinforcement. These particular needs are satisfied by the adaptation of the standard module as described in the invention, in different ways. For the adjustment in length of the wall it is envisaged elements having the main characteristics of the standard blocks being able to be divided into fractions of said standard block, since 1/8 up to a block half. It is also envisaged the use of shims, such as for example that described in Figure 3, to have either on the top of the block or on the side part according to the desired adjustment.

  The arrangement of the openings can be achieved by the use of a special U-shaped block for casting the door and window lintel with the filling concrete. The last row of wall mounting can be made with a special block having an elevation portion forming the planelle to sink the floor. Said portion in elevation can be designed with a pre-cut to allow adjustment according to the height of the floor. The corners of the building and the pillars can be erected with blocks having circular or polygonal ends recessed to allow the passage of iron bars and the casting of a large amount of concrete.

  All these specific blocks are designed with lateral ends and possibly lower to fit by interlocking with the standard blocks 11 and to facilitate the assembly work of the entire wall with all its specificities. Advantageously according to the invention and as shown in FIGS. 1 and 2, the building block is asymmetrically structured with respect to each vertical plane 11 or 12 and with respect to the horizontal plane 13. These three planes 11, 12 and 13 perpendicular to each other intersect at the center of the building block. Several variants are possible for the building block without departing from the scope of the invention, it is for example conceivable to manufacture blocks of different sizes and thicknesses, with a number of rows of cells larger or smaller, openings for the more or less important concrete casting and transverse beams designed in different ways. An important variant consists in arranging at the location of the cells 5 wider cells filled with a thermal insulator, for example a natural insulator such as hemp or wood wool. In the masonry these cavities are located outside the wall so as to benefit from the thermal inertia of the blocks inside the dwellings. In this variant the masonry becomes a monolithic wall that does not require the addition of insulation. Various materials can be used for the manufacture of the block provided that sufficient strength of the structure and good compatibility with the cast concrete forming the internal framework of the wall. The raised elements and the internal cavities ensuring the passage of cables and pipes can be variously sized without departing from the scope of the invention.

  As has been described, the building block may comprise different variants to allow the constitution of pillars, floors, doors and windows with specific blocks fitting on the blocks according to the invention or on derived blocks with the characteristics essential.

Of course, the invention is not limited to the embodiments described and shown by way of examples, but it also includes all technical equivalents as well as combinations thereof.

Claims (10)

  Concrete block for modular construction assembled without mortar comprising an internal partition (1), an external partition (2) and at least two transverse beams (3) connecting the two partitions, the two partitions (1,   2) being parallel to a median and perpendicular vertical plane (11) having said transverse beams, which block is characterized in that the inner wall (1) and the outer wall (2) have asymmetrical structures with respect to said vertical plane (11). ) and in that the block structure is also asymmetrical with respect to the median horizontal plane (13) perpendicular to the partitions (1, 2). The planes (11) and (13) being perpendicular to each other. 2- concrete block according to claim 1 wherein the asymmetric structure relative to the vertical plane (11) relates to the distribution of the cells (5) or the number of rows of cells (5) used for the thermal insulation and phonic arranged on each partition.   3- concrete block according to claim 2 wherein the outer wall (2) comprises cells (5) arranged in two rows staggered.   4- concrete block according to claim 1 wherein the asymmetric structure relative to the vertical plane (11) relates to the shape of the interlocking side portions (7, 8, 9, 10) for assembling the blocks in a horizontal plane.   5. The concrete block as claimed in claim 1, in which the asymmetric structure with respect to the median horizontal plane (13) bears on the recesses (14, 18) and the reliefs (15) disposed on the upper and lower ends of the partitions (1, 2) and usable for the vertical arrangement of the concrete blocks on top of one another. 14   6. Concrete block according to claim 1 wherein the structure of the block is also asymmetrical with respect to a vertical plane perpendicular to the vertical plane, the vertical plane also being perpendicular to the horizontal plane. , the three planes (11, 12, 13) intersecting at the center of the block.   7- concrete block according to any one of the preceding claims wherein there are arranged recesses (16) in the transverse beams (3) for the formation of a continuous network of concrete when said concrete is poured through the openings ( 4), which openings (4) are delimited by the transverse beams (3) and the partitions (1, 2).   8- Concrete block according to claim 7 wherein the recesses (16) are arranged at the upper or lower ends of the transverse beams (3).   9- Concrete block according to any one of the preceding claims wherein the internal partition (1) comprises at least one cavity (6) used as a technical sheath for the passage of electrical cables or pipes.   10- concrete block according to any preceding claim being fractional and / or used with shims (19) for a precise lateral or vertical adjustment of the construction in length or height.