FR2900173A1 - Calibrated concrete element assembly for constructing e.g. wall, has stackable blocks arranged vertically and horizontally in complementary shapes, where each block includes partition which forms beam between walls - Google Patents

Abstract

The assembly has stackable blocks arranged vertically and horizontally in complementary shapes carried by each block for stacking in two directions of two walls (1). Each block includes a partition (2) internally which forms a beam between the walls, where each wall has a lateral end which includes a recess (13) for positioning shims (7, 8). Each shim is provided with dimensions and shapes complementary to lateral ends (9) of the walls. The shim is placed between the blocks, during horizontal stacking of the wall. An independent claim is also included for a method for assembling a wall.

Description

The invention relates to the field of building materials and more

  specifically that of concrete elements for the construction of walls by stacking blocks on top of each other. For the construction of the constructions is used the so-called technique "to stick" 5 for the assembly of walls up to a floor, so a technique using a seal of adhesive mortar disposed between the blocks. Such a procedure avoids the manual laying of mortar on each block and thus saves considerable time for the construction of a building with a finished construction strength comparable to that of a traditional building. The technique that uses a mortar-joint to hold the blocks together is closer to the traditional way of construction, it uses non-ground blocks but nevertheless calibrated for rapid assembly, this technique does not necessarily require concrete casting In the central portion of the blocks so as to form a rigid frame. If this is necessary (seismic zone) it is poured, after mounting the masonry on a floor height, in the central part of said blocks in which are formed openings, a fluidized concrete which is distributed in the structure and constitutes vertical joints between blocks. The invention relates to a block structure specifically developed for this technique which uses a thin seal. As for the so-called "dry" technique, the construction is preferably arranged by means of modular blocks in order to save time in the development of the structure. In the construction of the construction the stability of the assembly is ensured by the gluing of the horizontal joints between the blocks. The time used to achieve this installation of glue between the blocks is quite consistent.

  A first problem to be solved is therefore to use modular blocks allowing the acceleration of the laying of the joint so as to build the construction more quickly. The use of blocks of standard dimensions always pose a problem for the horizontal or vertical arrangement of the walls, in fact, the dimensions of the construction to be made rarely correspond to an exact multiple of the size of the blocks. The blocks must also be as standardized as possible so as to adjust to all wall configurations, in length and height, and be easy to manufacture with a low cost price. A second problem to be solved is therefore to find means for rapid assembly of the construction to the right dimension, so with elements to adjust at will, and precisely, the length and height of the assembly.

  Finally it must be possible to provide specific blocks for the creation of pillars, windows and perimeter of floors without resorting to the traditional cutting of the elements and the realization of forms, or have modular elements adapted to these configurations in the construction.

  The object of the invention is to solve these main difficulties by proposing a block that can optionally have enhanced insulation performance, and allowing the vertical joints to be made between the blocks by casting at one time. The present invention relates to a set of calibrated concrete elements usable for constructions, the set of calibrated elements comprising blocks that can be arranged together and at least one shim, the set of elements is characterized in that: the vertically and horizontally stackable blocks have complementary shapes carried by each block for interlocking in these two directions, two walls and at least one partition internal to the block forming a beam between the walls. The blocks comprise at least one wall with a recess at the lateral end for laying wedges, the wedge is provided with dimensions and shapes complementary to those of the lateral ends of the walls, said wedge being intended to be placed between the blocks when stacking the wall horizontally to precisely adjust its length. The assembly constituted by the specific blocks and shims has the advantage of allowing the realization of solid constructions, the elements being firmly connected to each other by means of a glue joint in the horizontal direction.

  The wedges adapted to fit perfectly with the blocks allow a precise adjustment of the lengths. The combination with vertical compensation elements and special blocks for angles, openings or planelles, solves all the situations that can be encountered in a building.

  The manufacture of the various calibrated elements can be carried out industrially at a very low cost. The standardization of this production, combined with the speed of assembly of the elements into a solid construction, allows the rapid and economical construction of technically and qualitatively efficient assemblies.

  Other features and advantages of the invention will become apparent from the description which follows with reference to the accompanying drawings which are given by way of non-limiting examples. Figure 1 is a sectional view of a concrete block in its thickness, in a median vertical plane according to a first embodiment. FIG. 2 illustrates a sectional view of a breakable compensation element that can be used between the rows of blocks for an adjustment of the construction in a vertical and possibly horizontal direction. Figure 3 is a top view illustrating a row of blocks comprising two different spacers for the length adjustment of the row. Figure 4 shows two different views of a first kind of shim. Figure 5 shows two different views of a second kind of shim.

  Figure 6 is a sectional view of a concrete block in its thickness, in a median vertical plane, according to a second embodiment. The invention consists in the use of a set of calibrated concrete elements comprising blocks and at least one wedge allowing an adjustment in the horizontal direction of the length of the construction.

  Blocks and shims can be made of either common aggregate concrete or lightweight concrete based on expanded clay pellets. The assembly of the wall is performed by juxtaposing the blocks, possibly spaced apart by wedges, in a row, and by gluing the elements together by means of a glue joint conventionally known in the field.

  The blocks are preferably staggered from one row to the other. It is known to have on the same block complementary shapes for a vertical interlocking of the blocks. The interlocking arrangement of blocks in a horizontal direction of the building elements is infrequent. The invention proposes to improve the strength of the constructions by the use of a building block specifically adapted for interlocking in both dimensions and the use of a joint stiffening the structure row by row. The blocks according to the invention, two embodiments of which are illustrated in FIGS. 1 and 6, have means also for casting concrete 5 into a central opening, which makes it possible to manufacture a construction with a three-dimensional cast concrete framework. in the wall. This embodiment may be necessary in seismic zones to reinforce the structure of dwellings. The two exemplary embodiments correspond to variants with regard to the structure of the walls, but there are a large number of other possible blocks considering the arrangement of the internal cavities, the cells organized for the thermal and / or phonic insulation, the presence an insulator included or not in the structure, the arrangement of passages for cables, pipes, ducts or even horizontal or vertical reinforcing bars, without departing from the scope of the invention. According to a first advantageous embodiment of the invention illustrated in section in FIG. 1, a calibrated concrete block has the following characteristics: two walls 1, symmetrical with respect to the median vertical plane perpendicular to the section, two partitions 2 transverse central interconnecting the walls 1 and forming beams, the two walls each comprise vertical and horizontal interlocking means and internal cavities. According to this first exemplary embodiment, the walls 1 comprise an equal number of internal cavities 3 distributed symmetrically with respect to the median plane of the block parallel to the walls and perpendicular to the partitions 2.

  These internal cavities may be hollowed out or possibly filled with a thermal and acoustic insulation depending on the nature of the construction envisaged. The thermal and sound insulation of the building being mainly related to the arrangement of the interior voids to the structure. The air trapped in the blocks constituting the most economical insulation in the wall can also be considered to replace these cavities with multiple cells so as to strengthen the insulation by reducing the weight of the block. The block, according to the invention and according to this first embodiment, comprises a conformation of the upper face adapted for a vertical interlocking on blocks of the same nature or with compensating elements, breakable, making it possible to make up the flatness of the construction. or to precisely adjust its height. Said compensating elements 6 are illustrated in FIG. 2. Preferably the vertical interlockings are provided in the form of tenons 4 and mortises 5, the tenons being placed in the lower part of the blocks, substantially in the central part of the walls 1, the mortises 5 being disposed in the upper part of the blocks substantially in the middle of the walls also. When two blocks are interlocked vertically the tenons 4 are inserted into the mortises 5 over the entire length of the block, the assembly between two rows of blocks is very solid, regardless of the addition of mortar. The block according to the invention is intended to fit in a horizontal direction on itself or with a spacer to adjust the length of the construction. Figure 3 is a top view of different modes of arrangement of the blocks in the horizontal direction showing the positioning of two wedges 7 and 8 in the lateral interlocking means of the block. According to the invention each block has at least one interlocking means on a lateral end 9 of a wall for positioning the blocks relative to each other during the construction of a row. Figure 3 shows that the lateral end 9 of each wall 1 carries a means of interlocking in the horizontal direction with a wedge, the interlocking means being located on the same face of the block. The lateral ends 9 of each wall, that is to say the faces in contact for the horizontal assembly of the row, may consist of: a plane face, for example referenced 10 in FIG. 3, containing only 10 internal recesses for receiving parts in relief of another block, - a face structured in relief, with for example an advance 11 protruding from the side face and intended to fit into a cavity provided in the wall 1, or , according to another example, a support 12 15 can penetrate in the space between the walls, under or in the partition 2. Each walli having at least one lateral end 9 having a recess 13 for receiving the wedges 7 or 8. In the configuration according to which the projection 11 is intended to be nested in the wall 1, it must be provided with a reduced thickness on the side of the projection 11 and a wider thickness on the opposing portion. The one or other of the two walls of the block can thus be designed asymmetrical with respect to the vertical median plane perpendicular to the walls. In the configuration in which the retainer 12 fits into the space between the walls, the wall 1 may have a constant thickness along the length of the block.

  According to the invention the lateral end of each wall of the block is designed to fit with a length adjustment wedge. Depending on the lateral configuration of the block different kinds of holds are envisaged. For example, an adjustable shim 8 in the vertical recesses 13 of the blocks is shown in FIG. 4 according to different points of view, in front view in FIG. 4a and in profile view in FIG. 4b. This wedge allows a fine adjustment in length of the current part of the wall. The shim 15 shown in front view in FIG. 5a and in section in FIG. 5b can be used with another block side wall configuration.

  The wedge 7 composed of portions of the compensation element 6 is also usable, these portions which comprise both raised parts and recessed parts can adapt perfectly to certain wall conformations. Other forms of holds can be imagined without departing from the scope of the invention. Thus, according to the invention, the different conceivable spacers are designed to complement each other on at least one of the lateral ends of the walls 1 and advantageously on the two lateral ends of the walls situated on the same side of the block as illustrated. in Figure 3. The different spacers envisaged allow the adjustment of the lengths and heights of construction without the need to cut blocks. In the seismic zone, or in order to prevent the penetration of rainwater and air currents in the masonry, the vertical joints between blocks can be ensured by the pouring of a fluidized concrete in a central spacing 16 positioned at the above the partitions and in an opening 17 arranged in said partitions. The cast concrete thus forming a rigid three-dimensional framework. The blocks have a generally parallelepipedic shape with advantageously, for example, a length of about 25 centimeters, a width of about 20 centimeters and a height of 25 centimeters. The shims are provided with a comparable height and a width adapted to be inserted into the lateral recesses of the walls according to the chosen wedge model and the type of block used. The invention is also valid for any other width of the blocks. A second embodiment of a block according to the invention is illustrated in FIG. 6. This block comprises, as in the preceding example, two walls, two partitions 2, internal cavities 3 and vertical interlocking means for assembling the blocks together or with compensation elements. Which nesting means are here again in the form of tenons 4 and mortises 5. The essential difference from this embodiment with respect to the previous one lies in the width of the two walls.

  The wall 18 is provided wider than the wall 19. This configuration may be of interest for the purpose of filling the interior space of the wall 18 with an insulating foam or pass pipes, for example. The vertical and horizontal arrangements of the blocks according to this second embodiment remain identical to those of the preceding example.

  All of the calibrated elements mentioned in the exemplary embodiments, in combination with complementary blocks comprising the features of the invention and adapted for the production of openings, corner posts, lintels and planelles, make it possible to satisfy all the situations encountered by the manufacturers, and in particular: - the adjustment in length and height of the walls, in a precise way, - the use of suitable blocks for the placement of openings, doors, windows, etc ... - the possibility to have specific elements to achieve the perimeter of the floors, - the use of particular elements for the angles and the construction of pillars of reinforcement.

  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 the lateral ends of the walls having recesses for laying the wedges and interlocking means to fit with blocks or adjacent blocks to facilitate the assembly work of the entire wall with all its peculiarities. Thus, according to the two embodiments of the invention, the block comprises at least one central spacing 16 positioned above at least one partition 2 and at least one opening 17 made in said partition 2 allowing the casting of concrete to through the structure, once the wall mounted. The internal parts of the walls of the block are recessed and perforated in a horizontal direction, said perforations forming cells 3 and at least a portion of the cells 3 of said blocks is provided with a sound and / or thermal insulation.

  The invention also relates to a method of assembling a wall by means of a set of calibrated concrete elements and by means of a thin glue joint disposed horizontally between said calibrated elements, the assembly method is characterized in that the calibrated elements are: blocks having walls 1, 18, 19 interconnected by at least one partition 2, which walls 1, 18, 19 are provided with recesses 13 on at least one of the lateral ends 9 so as to allow the laying of wedges, - at least one shim, intended to be placed between the blocks during the horizontal stacking of the wall, in order to precisely adjust its length, the blocks being preferably mounted offset by one against the other between two adjacent rows. The blocks used in the method of assembling the wall comprise interlocking means in a vertical direction in the form of pins 4 and mortises 5. Said pins 4 being placed in the lower part of the blocks, substantially in the central part of the walls 1, 18, 19, said mortises 5 being disposed in the upper part of the blocks substantially in the middle of the walls 1, 18, 19, too. At least one compensating element 6, possibly divisible, making it possible to make up the flatness of the construction or to precisely adjust its height, is used for the construction of a construction in addition to the calibrated elements. According to the invention and this method of assembly, the blocks comprise walls 1, 18, 19 hollowed out and perforated in a horizontal direction forming cells 3, said cells 3 being able to be provided with a sound and / or heat insulator. has been explained many variants are possible for the building block, it is for example conceivable to manufacture blocks of different sizes and thicknesses, with a number of rows of cells larger or smaller, recesses for laying the blocks and openings for pouring concrete more or less wide, without departing from the scope of the invention. The exemplary embodiments have shown the multiple possibilities of interlocking in the vertical direction, it can also be designed blocks with a flat bottom part, without pins, for the first row of a construction. Various materials can be used for the manufacture of the block provided to allow sufficient strength of the structure and have good compatibility with the glue joint linking the blocks together. 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 construction of pillars, around floors, doors and windows with specific blocks fitting on the blocks according to the invention or on derived blocks comprising the essential characteristics. Of course, the invention is not limited to the embodiments described and represented by way of examples, but it also includes all the technical equivalents as well as their combinations.

Claims (10)

  1- set of calibrated concrete elements usable for constructions comprising blocks that can be arranged together and at least one shim, characterized in that: - the stackable blocks vertically and horizontally have complementary shapes carried by each block for nesting in these two directions, two walls (1, 18, 19) and at least one partition (2) internal to the block forming a beam between the walls (1, 18, 19), at least one lateral end (9) a wall (1, 18, 19) having a recess (13) for laying the wedges (7) or (8), the wedge is provided with dimensions and shapes complementary to those of the lateral ends (9). walls (1, 18, 19), said wedge being intended to be placed between the blocks during the horizontal stacking of the wall in order to precisely adjust its length.   2- set of calibrated concrete elements according to claim 1 wherein the stackable blocks comprise a conformation of the upper face adapted for vertical interlocking on blocks of the same nature or with compensating elements (6), scored, allowing to make up the flatness of the construction or to adjust precisely its height.   3- set of calibrated concrete elements according to claims 1 or 2 wherein the means for the vertical interlocking are provided in the form of tenons (4) and mortises (5), the tenons (4) being placed in the part lower blocks, substantially in the central part of the walls (1, 18, 19), the mortises (5) being disposed in the upper part of the blocks substantially in the middle of the walls (1, 18, 19) also. 14   4- set of calibrated concrete elements according to claim 1 wherein at least one wedge is provided to complemently fit on at least one of the lateral ends (9) of the walls (1, 18, 19) and advantageously on the two lateral ends (9) of the walls (1, 18, 19) located on the same side of the block.   5- set of calibrated concrete elements according to claim 1 wherein the block comprises at least one central spacing (16) positioned above at least one partition (2) and at least one opening (17) made in said partition (2) allowing the pouring of concrete through the structure, once the wall mounted.   6. A set of calibrated concrete elements according to claim 1 wherein the inner portions of the walls (1, 18, 19) of the block are recessed and perforated in a horizontal direction, said perforations forming cells (3).   7- set of calibrated concrete elements according to claim 6 wherein at least a portion of the cells (3) of the blocks is provided with a sound insulator and / or thermal.   8- A method of assembling a wall by means of a set of calibrated concrete elements and by means of a thin adhesive joint disposed horizontally between said calibrated elements, characterized in that the calibrated elements are: blocks having walls (1, 18, 19) interconnected by at least one partition (2), which walls (1, 18, 19) are provided with recesses (13) on at least one of the lateral ends (9) so as to allow the laying of the wedges 7 or 8, - at least one shim, intended to be placed between the blocks during the horizontal stacking of the wall, in order to precisely adjust its length, the blocks being preferably mounted offset from each other between two adjacent rows.   9- method of assembling a wall according to claim 8 wherein the blocks comprise interlocking means in a vertical direction in the form of tenons (4) and mortises (5). Said pins (4) being placed in the lower part of the blocks, substantially in the central part of the walls (1, 18, 19), said mortises (5) being arranged in the upper part of the blocks substantially in the middle of the walls (1, 18, 19) also. At least one compensating element (6), possibly separable, making it possible to make up the flatness of the construction or to adjust its height precisely, is used for the construction of a construction in addition to the calibrated elements.   10- A method of assembling a wall according to claim 8 wherein the blocks comprise walls (1, 18, 19) recessed and perforated in a horizontal direction forming cells (3), said cells (3) can be provided a sound and / or thermal insulation.