FR2976006A1 - Hollow building block or agglomerate for construction of e.g. wall of house, has lower surface arranged with recesses such that cross positioning of all recesses allows alignment of recesses during assembly of building block - Google Patents

Abstract

The block has a longitudinal face, and transverse alignment surfaces that are equipped with a lateral protuberance (2). An upper surface (A) comprises two symmetrical recesses that cross a border of the protuberance. A lower surface is arranged with another recess formed symmetrical to the protuberance of the upper surface such that cross positioning of the recesses allows alignment of the recesses during assembly of the building block.

Description

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The invention relates to a block or self-aligning self-aligning construction, self-vertical, self-locking, mounting without binder with integrated rejection infiltrations. It also relates to the details of the manufacturing processes and implementation of this material. This block or agglomerate of construction is intended to allow the uninitiated to build a traditional housing, economic, ecological and environmentally friendly while significantly reducing costs. The state of the art can be defined by the patents: No. FR2574450 (Bi) The block is an asymmetrical hollow block. Said block is formed by a hollow right parallelepiped shape and on its outer face of longitudinal alignment by an oblique parallelepiped. The oblique parallelepiped is offset downward with respect to the outer longitudinal alignment surface of the right parallelepiped. This offset forms a dropout heel which positions said block in the direction of the thickness of the wall. No. FR2606056 (A1) Self-locking block or conglomerate whose profile assures installation by translation without play, by a contact on a longitudinal face and a lateral or transverse face formed by a hollow straight parallelepiped shape and, on its outer face, longitudinal alignment, by an oblique parallelepiped offset downwards and offset laterally, with respect to the outer longitudinal alignment surface of the right parallelepiped, said offset forming a dropout heel which positions said block in the direction of the thickness of the wall . The block has a median partition, parallel to the outer face, which shares the central recess of the block into two cells. FR2653801 (A1) Block or sintered construction of the self-locking type whose profile ensures installation by translation without play, by contact on a longitudinal face and a lateral or transverse face formed by a hollow right parallelepipedal shape and on its face outer longitudinal alignment, by an oblique parallelepiped offset downward and laterally offset, with respect to the outer longitudinal alignment surface of the right parallelepiped, said offset forming a dropout heel which positions said block in the direction of the thickness from the wall. The block has a median partition, parallel to the outer face, which shares the central recess of the block in two or more cells. Each side face comprises a recess which corresponds to the earthquake-resistant space imposed between two walls. -2-

These building blocks are for the most part only self-aligning, they do not take into account the adjusted lateral or vertical positioning, their blockages during the installation and simply because they are pressed against each other which does not guarantee a free installation and thus sakis binders, joints or coatings can not guarantee a heat, sound and hydraulic seal. These building blocks never meet all the characteristics, namely to be both self-aligning, self-vertical, self-locking and ensuring the tightness of buildings. They do not allow to design constructions in the rules of the art without having recourse to complementary insulation systems. The invention tends to solve these disadvantages especially in the individual habitat by proposing the manufacture of a block having all these characteristics.

The invention can thus be used for: - the construction of houses whose superstructure is carried out by means of prefabricated components, - it will use technology, reconstituted stone, mortar or reinforced plaster concrete, - it will define the standards of manufacture of a self-aligning block, self-vertical, self-locking, mounting without binder with an integrated rejection of infiltrations, - this process will allow the construction, by uninitiated, of traditional housing, economic, ecological and respectful of 25 l 'environment. The elementary module is the Large Model block (Figure 1), it allows to keep all the flexibility of the traditional construction, walls, fences, ... until the finished house. The block according to the invention is self-aligning, self-vertical, self-locking. 30 It is mounted without binders. His pose does not require qualified manpower. It incorporates a rejection of recovery and elimination of water infiltration. For this purpose, the block according to the invention is an asymmetrical hollow block, in the form of a right parallelepiped. Its outer face 35 (Figure 1, rep D) is thicker than its inner face (Figure 1, rep E) of the thickness of an oblique parallelepiped having its upper surfaces (Figure 1, 6) and lower (Figure 1 , rep 7) beveled. This oblique parallelepiped is offset downwards relative to the horizontal surface of the block. This shift forms a heel (Figure 1, -3-

rep 1) which automatically positions the block in the longitudinal direction. This oblique parallelepiped will accommodate on its outer face, during the shaping of the block, the desired finishing relief. The lateral alignment surfaces of the right parallelepiped (FIG. 1, rep B & C) comprise, on one side at least one protuberance (FIG. 1, rep 2) and on the other at least one recess fitting perfectly into the one or more protuberances (Figure 1, 3 rep) ensuring installation by transverse clutch without games. The upper surface comprises at least two through recesses (Figure 1, 4 rep) arranged symmetrically from the center line of the right parallelepiped (Figure 1, AA rep), and located at equal distances from the edges of the upper and lower surface of the parallelepiped right and the axis of symmetry, which can be round or square, bordered by a protrusion (Figure 1, 5 rep). The lower surface has recesses (FIG. 2, item 8) fitting into the protuberances of the lower blocks in line with its recesses. The perfect symmetry of the block allows, according to the AA axis, a cross-joint arrangement ensuring the positioning, blocking of the blocks, a return of load recovery at all points ensuring perfect stability to the constructions and the perfect extension of the recesses through . At each inner end of the oblique parallelepiped is a vertical groove for recovering fluids from the upper block (FIG. 2, ref. 9). Said blocks are totally: Self-aligning: There is no clearance because the contact is made on the one hand by a longitudinal face and on the other hand by a lateral lug. Self-blocking: The blocks of the upper row being staggered, their lower faces fit together without play in the upper face of the lower block, the last row being done with Chaining blocks or possibly blocks of Floor. The reinforced concrete that will be poured will provide a final block in all directions. Vertical Auto: The blocks are mounted without play, dry and on a perfectly flat surface which ensures the self verticality of the set. It is enough, to position the blocks, to flow a concrete sole with a template, to check the level, which must be perfect at the beginning, then to mount the blocks that self-align and self-block to each other without play. The assembly is done dry and without coating of facade, -4-

without the help of a skilled workforce. The first blocks are aligned by their heel drooping against the base plate or the concrete foundation. They fit together by their side face. The blocks of the higher level come to nest in the blocks of the lower rank.

The block according to the invention is therefore assrmetric, thick on one side and thin on the other. This asymmetry ensures thermal and sound insulation. The block profile allows a self-aligning, self-locking and self vertical installation. The block comes into contact with the other blocks by the longitudinal face and a lateral lock. The dropout heel provides guiding, the protuberances of the upper block and the recesses of the lower block ensure the blocking. The vertical grooves of the oblique parallelepiped (Figure 2, 9) trap and drain water that enters by capillarity or infiltration by the lateral sides of the blocks (Figure 1 Rep B & C). This vertical groove opens on the bevel of the oblique parallelepiped of the lower block which has the effect of evacuating the water entered by the lateral sides of the blocks. The upper face of the oblique parallelepiped prevents, due to its inclination, any infiltration or upper capillarity. The lower face of the oblique parallelepiped prevents, due to its inclination, any inferior infiltration or capillarity. These provisions of the invention allow us to drain and reject the water and thus ensures a hygrometric function of the block. Keeping the same technical characteristics as the Grand Model building block according to the invention (FIG. 1), a whole family of specific blocks is declined which meets all the needs of individual or collective housing construction. The sketches in perspective attached are given for information only and not limiting. They represent a preferred embodiment according to the invention. They will make it easy to understand their utility and use. We find: The end blocks having for vocation to establish an opening by ensuring the continuity of oblique parallelepiped on the lateral side quoted opening, - Straight Big Model (figure 3), implantation (figure 14, rep 2), - Bout Left Large Model (Figure 4), Implantation (Figure 14, Rep 3), - Straight End Small Model (Figure 5), Implantation (Figure 14, Rep 4), - Left End Small Model (Figure 6), Implantation (Figure 14 , rep 5). The corner blocks whose oblique parallelepiped extends on the external lateral face to the construction and has on the inner side the characteristics of lateral lock, - Right Angle Big Model (figure 7), implantation (figure 14, rep 6) , - Left Angle Large Model (Figure 8), implantation (Figure 14, rep 7), The chaining blocks having the same characteristics as the Big Model blocks and Angles with in addition a transverse recess allowing the placement of concrete army - Chainage (figure 9), implantation (figure 14, rep 8), - Chaining Right Angle (figure 10), implantation (figure 14, rep 9), - Chainage Angle Left (figure 11), implantation (figure 14, rep 10). The Floor blocks having the same characteristics as the Chaining blocks but whose inner face has been reduced by the transverse recess height - Floor (Figure 12), layout (Figure 14, Rep 11), - Right Angle Floor (Figure 13) , implantation (Figure 14, rep 12), - Left Angle Floor (Figure 14), implantation (Figure 14, rep 13). The features of the Grand Model building block can easily be adapted to a new block meeting specific needs. The sketch (Figure 15) is a front view of a wall formed by blocks according to the invention highlighting the apparatus of the cross-joint blocks. The method of manufacturing the block involves the use of dry molds, the skeleton of said block is composed of laterite, earth, sand, gravel or any other material that may be suitable. The binder of the materials can be a cement, a plaster or other constituent forming the fine element which completes the particle size zone offer the best compactness condition. The mixture is obtained by any mechanical or manual means. It is moistened so as to ensure crystallization of the binder different from that obtained by the usual mixing.

Once the molds are filled, the mixture is subjected to dynamic compaction. The stability of the component obtained allows demolding which ensures the self-cleaning of the mold and tools. The block is immediately handy.

The method of implementation involves the respect of the following chronology. - Install a perfectly flat rectangle clevis, whose sides are a multiple of the length of the oblique parallelepiped - to be positioned on the outside of the clevis opposite the side on which -6-

will locate the main door. - Starting from the right side, position the Right Angle Block Large Model (Figure 7). This angle will be our reference angle (Figure 15). Position a second Large Model Right Angle block on the opposite angle to the reference angle and a Large Left Angle Block (Figure 8) on the remaining two corners. - Starting from the reference angle, install all the Large Model Blocks (Figure 1) without worrying about the future doors. - As soon as all the first row blocks are laid, mount the second row from the reference angle with a Large Left Angle Block. - Following the same logic as for the first row, position the other three angles and the Large Model blocks. - The assembly of the first rank, even rank, and the second rank, rank 15 odd, had the effect of locking all the blocks between them and eliminating the games that could have been created during the establishment of the first rank . - According to the indications of the plan, locate the position of the doors whose axis falls obligatorily in the middle of a block of the second row. 20 - Remove this block and two other blocks on each side of the opening thus created. Also remove the four first rank blocks that were released. - Position a large Left Pattern Block (Figure 3) on the right side and a Large Pattern Right End Block (Figure 4) on the left side of the opening. In the second row, replace a Grand Pattern block on each side of the opening and then a Small Left Pattern Block (Figure 6) on the right and a Small Pattern Right End Block (Figure 5) on the left. - Continue assembling the rows in the even and even 30 rows to the seventh row. - According to the indications of the plan, locate the position of the windows whose axis falls obligatorily in the middle of a block of the seventh row. Remove this block and two other blocks on each side of the created holes (the number of blocks removed is a function of the width of the windows which on our sketch (FIG. 15) is three blocks). - Position a Large Left End Block (Figure 3) on the right and a Large Left End Block (Figure 4) to the left of the opening. - Continue assembling the rows respecting odd and even rows up to the fourteenth row. -7-

- Remove all the Right and Left Small Pattern blocks from the fourteenth row and put in place at the openings of the Chaining blocks (Figure 9).

The side faces of the Large Model blocks in contact with the Chaining blocks close the formwork formed by them. - Fill with reinforced concrete the cells located on both sides of the openings to fill then the Chaining blocks. - The amounts of the opening and the lintels being poured, set up the fifteenth rank. - The sixteenth rank depends on the type of housing built. If the dwelling is a single storey dwelling with no concrete floor, refer to the sixteenth row step. To build the floor walls, proceed as follows: 15 - Starting from the reference angle position a Left Angle Floor block (Figure 14), a second Block Left Angle Block on the opposite angle to our reference angle and a Right Angle Floor Block (Figure 13) on the remaining two corners. - Starting from the reference angle, install all the Floor 20 Blocks (Figure 12). - Fill the cells located at each corner of the building with reinforced concrete. Also fill one cell every three meters or so to create corner posts and intermediate posts to allow the recovery of horizontal forces. The other cells 25 will allow the passage of electrical and sanitary pipes. - Pour the floor using the upper face of the straight parallelepipeds of the floor blocks, which will give a perfectly flat floor surface. - Starting from the reference angle, repeat the above steps from the first step up to the fifteenth rank. The sixteenth row of the floor will consist either of floor blocks or as in our model (Figure 15) by Chaining blocks. Starting from the reference angle position a Left Angle Chaining block (FIG. 11), a second Left Angle Chaining block on the opposite angle to our reference angle and a Right Angle Chaining block (FIG. 10). on the two remaining angles. - Starting from the reference angle, fit all the Chaining Blocks (Figure 9). - Fill the cells at each corner of the building with reinforced concrete and a cell every three meters or so. The -8-

other cavities will allow the passage of electrical and sanitary pipes, then fill the Chainage blocks.

Claims (5)

CLAIMS1 - Self-aligning block, self-aligning, self-vertically, self-locking, mounting without binder with integrated rejection of infiltrations, whose profile ensures installation by translation without play, by a contact on a longitudinal and a facet lateral or transverse, constituted by a hollow straight parallelepipedal shape and, on its outer face of longitudinal alignment, by an oblique parallelepiped offset downward with respect to the outer longitudinal alignment surface of the right parallelepiped, said offset forming a heel dropped which positions said block in the direction of the thickness of the wall, said oblique parallelepiped being provided on its lateral faces at the junction with the right parallelepiped, of a vertical groove for recovering the fluids from the upper block, characterized in that, the transversal alignment surfaces are provided with at least one protuberance or recess, the surf upper ace has at least two symmetrical through recesses bordered by a protuberance, the lower surface has the right of these recesses symmetrical shapes to the protuberances of the upper surface so that the positioning of the through recesses allow when mounting blocks staggered perfect alignment of these recesses. 2 - Building block or agglomerate according to claim 1 characterized in that the lateral alignment surfaces of the right parallelepiped (Figure 1, rep B & C) comprise, on one side at least one protrusion (Figure 1, 2 rep) and the other at least one recess fitting perfectly into the protuberance (FIG. 3) thus ensuring installation by transverse fitting without games. 3 - Bloc or sinter according to claim 1 characterized in that the upper surface comprises at least two symmetrical through recesses (Figure 1, rep 4), which may be round or square in shape, bordered by a protuberance (FIG. 5) and the lower surface has recesses in the right of its recesses (Figure 2, 8 rep) fits perfectly in the protuberances of the lower blocks thus ensuring the positioning and blocking blocks. 4- block or building chip according to claim 1 characterized in that the symmetrical through recesses (Figure 1, rep 4), are arranged so that they are at equal distances from the edges of the upper and lower surface of the parallelepiped right and that the symmetry axis (Figure 1, AA rep), the perfect symmetry of the block-11- allowing a cross-joint assembly by ensuring the positioning, the blocks blocking, a load descent recovery in all points and the perfect extension of the recesses that can then serve as a formwork lost or passage for the pipes and electrical ducts