CA2492067A1 - Building block - Google Patents

Abstract

The invention concerns a block and a method for building walls wherein the blocks are assembled through thin joints, the block being easily adjusted, with blocks adapted to provide high manufacturing dimensional tolerance. The binder required to assemble the blocks is carried out by levelling the binder deposited in a groove of the building block. The building block is gripped, handled, deposited and adjusted when the wall is being constructed with a handle hammer specific to the block. The height of the blocks eliminates the need to produce cuts to adapt to the modulation of a building. The corners and masonry structural walls are built by bonding together the walls without nesting.

Description

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Construction element The present invention relates to a construction element for construction of a rnur, which element includes an upper side, a side inferior and sides (atteral, said element of cvnstnrctivn comprising at minus a groove provided for dosing by leveling a necessary binder when assembling the construction elements together, said groove extends on the upper side of the building element, said element of construction also comprising a protrusion extending in the hands on the lower ente of the building element, the groove being arranged so as to be in conformity with the protuberance for allow i ° assembly of two similar construction elements, said groove is associated with a bearing wall or partition of the element construction and is disposed at a distance from the lateral outer edge of 1.5 the building element which is sufficient to prevent overflow of the binder beyond the edge of the Ions element of the assembly.
For about 35 years, house building processes individual use a technique called "hollow wall technique". This guy ~ ... L: .o ....... .... r .... r "m .. ~~ ....;, 7: ar ~ n :,. ~ ... ~ L .. C, o .. ~~ t: .. ... ::, .. '~ t ~. r.; nhvW '. ..... .. ~, ..
of wall is 7 composed of two walls separated by ~ a space of a few 20. centimeters: The two walls are linked together by hooks.
The part of the hollow wall which is located towards the outside of the building is usually made of bricks (small elements), and it is often called "facing wall".
The part of the hollow wall which is located towards the inside of the building is 25 generally performed in blues (large elements), and it is often called "load-bearing wall".
The patent FR-É-x'3.363 describes such a construction element. The presence of protrusions and grooves not only allows to introduce the binder into the groove, but also to facilitate your Empf.zeit: ~ 8/07/2004 14:59 EmPf.nr.:509 P.004 ~~ 'CA 02492067 2005-O1-07 BEj0300'122 = 2., ~ 3 0 ~? 200 ~ 4:. ~,.,.,.
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2 construction by placing the protuberance in the groove_ The layout grooves and protrusions at a distance from the lateral outer edge of the wall makes it possible to prevent an overflow of binder beyond the edge. A
quality of completion can thus be obtained.
GB 204.263 A describes a dry masonry system 1 'by stacking which requires that the building elements present no dimensional tolerances. In addition, no adjustment of the elements is not possible.
The elements described in this document have proportions conventional ~ (height / length ~ 1) and have ribs and grooves which are used only for their positioning and their blocking. Moreover, the elements are in direct contact with each other.
A disadvantage of construction elements according to the FR patent E-73363 is that they require fairly tolerable dimensional tolerances and allow only the adjustment of the alignment during (assembly of construction elements The verticality is adjusted by plumb with the interior siding_ Document FR-A 1 271 506 describes building blocks of conventional dimensions which have grooves whose width cumulative is close to the width of the block. The cumulative width of . . . ,, .. ... grooves is clearly, more. -great.that the width cumulative, .. des.cloisons .. ~;.; ..... .. "_ ..
bearing. There are no grooves above the walls, which therefore are not load-bearing. A disadvantage of the described blocks is that for (assembly such blocks your quantity of binder used is conventional. Another ~,. ~
disadvantage is that the firm ribs in the groove on the lower part of the block being prewe to easily sink into the binder (P ~ P 'on the Fig. 1), there results an almost zero buoyancy of the block and therefore practically no possible adjustment of the height or the plumb of the blocks. The blocks usable in the system described in FR-A-1 271 506 must have very small dimensional tolerances or be rectified to ensure the horizontal alignment of the elements in the wall.
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3 Document FR-A 2 588 900 describes building blocks and their assembly in which there is no automatic dosing of the binder, and the blocks of classical dimensions used are imperatively without dimensional tvlances. The housing described on the blocks only serves for the reinforcement and for the binder intended for its coating.
The system described in FR-A-2 588 900, like the previous ones, requires many special parts for wall connections which are moreover carried out in a conventional manner_ The document EP 0 651 104 B1 describes blocks of proportions classics with ribs which rest on the bottom of the splines (see Fig. 4 8 ~ Fig. 2), thus preventing any adjustment.
All the disadvantages existing in the systems described above above are also present in document EP 0 651 104 B1.
In addition, all these elements are in no way provided for the realization of hollow walls. Indeed, there is nothing planned to put a hook that connects the walls together, since the hook should then place in the joint seen in the wall. Only the seal is not accessible and the walls are insufficiently sized to allow you hook housing.
The amount of human energy needed to build an o _. ..., ... _.:.,.;,. ::. u.:. ...,;,.,: building is. Particularly importantex.lors.: de ..: cvnstru.ction du,: gros. . ,, op.,:,. ..,. .
works, mainly during the canstn.tction of the walls, whether for the handling of construction elements or for their assembly using mortar.
The object of the present invention is to propose elements for construction which allow to have manufacturing tolerances important and which also allow adjustment of the height and the torso of the assembly. .
To this end, the invention provides a construction element for the construction of a wall, characterized in that the groove and the protuberance are dimensioned so as to allow, when assembling two Em ~ f .zei t: 28 / 07I ~ 004 15:00 EmPf .rir.: 509 P .006 F'Elrl, flle MC ~ ~ ~ I ~ E DI

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4 elements, partial interlocking to form a binder strip between the upper side and the lower side of the elements, the only contact Between the two superimposed elements then being done through this band to allow adjustment of alignment, (height and plumb with the elements to be assembled.
The dimensions of the groove and the protuberance being such that elves allow adjustment of the elements that will facilitate the cvnstrucfivn correct from the wall. In addition, the amount of binder to be used is highly scaled down compared to a traditional construction system, since the binder does not not overflow and the masonry is made with a thin joint. Indeed the difference in width between the protuberance and the groove allows precisely to use this difference to allow the height adjustment and balance by allowing the binder to use this difference in width.
The fact of forming a binder strip allows the only contact between two superimposed elements and therefore the adjustment of height and plumb is done through this tape.
The present invention applies to the hollow wall technique as well than simple interior or exterior walls, load-bearing or non-load-bearing.
A first preferred embodiment of an element of 2D construction according to the invention is characterized in that the height of the Christmas, element of çvnstru, ctiona _is dimensioned, in such a way a,;.;. çe ", gu'u, n., ., *; ..:. . ...:. ,,., ..,.,: ...,, ~, ~. , ... ~: t ~:.: ...,: ~, .- .. ::. ~
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height assembly of building elements forms a height, standard under interior lintels and under masonry belt under ceilings, and in that the weight of (building element is less or ~ 5 equal to 25 kg, and the height of (element is greater than or equal to its length, ' It is recognized that more (masonry element is large, for as long as it remains relatively light and easy to handle, the more speed of execution of the wall will be great.
30 It is also recognized that the number of horizontal joints is inversely proportional to the height of the building element.
It is also recognized that the number of vertical joints is inversely proportional to the length of the building element.
Empf. ~ Ei t: ~ 8/071 ~ 00 ~ 15:00 Empf .nr .: 509 P .007 The horizontal joints between masonry units will vary in thickness and this as a function of the dimensional tolerances of these elements.
Knowing that the vertical joint does not collaborate in an essential way

5 to the mechanical strength of the walls, the building element of the invention is designed to present the best compromise between its height, length and weight to present the best characteristics favoring the speed of assembly.
The elements of the invention are assembled by gluing to o using a binder and thin joints. It is known that to achieve this type of assembly, it is necessary to use elements having very weak dimensional tolerances.
The present invention, thanks to the buoyancy of the element on the binder obtained by the collaboration of the weight of the element, the dimensions ~ 5 and shapes of the grooves and protrusions, and the fluidity of the binder, allows adjustment of alignment, height and plumb, and therefore the use of construction elements including manufacturing tolerances are relatively large.
The technique of making corners and cross walls in 2o classic masonry requires the crossing of the elements of masonry of one wall with those of the other wall in order to secure the walls between them. This technique requires great know-how and significant amount of labor. In addition, when in use of masonry elements comprising tenons and mortises, it is 25 known and essential to provide a series of specific parts for link the walls together.
According to a preferred embodiment of the invention, it is possible to use a technique of making angles and walls of highly simplified slitting. Indeed, the connection between the walls is done by 3o simple bonding, using a binder, of a wall against the other and do not need more crossings of masonry elements.

6 A hammer handle used when assembling elements of construction of the present invention allows gripping, transport, the establishment and adjustment of the building element. Moreover, when the latter is suspended from this tool, it is automatically in ideal vertical position to be placed on the binder.
Other details and particularities of the invention will emerge from the description given below, without limitation and with reference to attached drawings.
Fig. 1 illustrates a perspective view of an embodiment ~ O preferred of a building element according to the present invention.
Fig. 2 illustrates a perspective view of another mode of realization of the building element according to the present invention.
Fig. 3. illustrates a perspective view of a third mode of realization of the building element according to the present invention.
~ 5 Fig.4 illustrates a front view of a building element used for the butts.
Fig. 5a illustrates a front view of the upper part of a construction element of the present invention.
Fig. 5b illustrates the assembly of two elements according to the 2o present invention.
Fig. 5c illustrates two elements of the present invention after their assembly.
Fig. 6a illustrates a tool according to the present invention.
Fig. 6b illustrates a use of the tool of FIG. 6a.
FIG. 7 illustrates a solid building element according to the invention with a housing (12) for a hook.
Figs. 8 and 9 illustrate a fraction of a wall constructed using of construction elements according to the invention.
The building element 1 shown in FIG. 1, FIG. 2 and the 3o Fig.3 is hollow, that is to say it is preferably pierced horizontally right through, its two lateral sides thus presenting

7 an opening. In a preferred embodiment, the element of construction also includes one or more internal partitions vertical and / or horizontal.
A groove 5 is arranged on the upper side 2 above of the wall 24 or load-bearing partition 25 of the construction element 1 and the width of the groove is preferably less than the thickness of the wall 24 or load-bearing partition 25. The groove is arranged sufficiently distant from the longitudinal upper edge 8 of the building element in such a way as to avoid that during the assembly of the elements of o construction, that the binder does not extend beyond the outer edge of the elements. For example, for an element with a thickness of 14 cm, the groove is located at a distance of 1.4 cm from the edge. This allows fully exploit the amount of binder required for assembly while doing a clean and neat job. In a mode of ~ s particular construction, the element, if it is intended for construction a non-load-bearing wall, can be made with grooves and protrusions can be offset or partially offset from the walls or element partitions and therefore extend partially or completely above the opening 7.
2o The construction element according to the invention also comprises a protrusion 6 intended to engage in the groove 5 when two construction elements are arranged one on top of the other. The protrusion is present on the lower side 3 of the element of construction. The groove and the protuberance are dimensioned 25 so as to allow, during assembly, a partial nesting allowing adjustment of the alignment, height and plumb of elements to assemble. To this end, the width of the protuberance is slightly less than the width of the groove.
The protrusion 6 and the groove 5 have a cross section 3o substantially trapezoidal as illustrated in FIG. 1. Their sides side extend substantially parallel to each other and the small

8 base of the trapezoid of the protuberance is arranged facing the small base of the trapezoid of the groove when they fit together (Fig. 5). Said flanks side being arranged so as to leave a first space between arranged for the release of the binder 17 when an element is placed s on another. The small bases being arranged so as to leave a second space between them intended to be filled with binder 17.
The depth of the groove 5 and the height of the protuberance 6 of the building element are substantially equal and proportional to the dimensional tolerance to catch up. The report of ~ o weight of the building element on the surface of the small base of the protuberance trapezoid is inversely proportional to the fluidity of the binder 17.
According to another embodiment of an element of construction according to the invention the groove overlaps several walls ~ s and / or partitions of the building element. So this groove is associated with several load-bearing walls or partitions distributed over the thickness of the block.
In order to build a wall, the assembly of elements of construction according to the present invention is carried out using a binder 2o which is first placed on a pallet. The mason presses the pallet flat on the element on which he wants to deposit the binder, then he slides the binding to using a spatula in the groove and leveling the binder using this same spatula, so that the binder practically does not overflow above the upper side 2 of the building element.
25 When the groove of a first element is filled with binder and that a second element is placed above Fig. 5a, 5b, 5c, the protuberance of the second element partially penetrates into the flute of the first element. The depression of the protuberance in the groove causes an overflow, via the first space between the 3o lateral flanks of the trapezoids, of part of the binder outside the groove, thus forming an adhesive strip between the upper side 2 of the

9 first element and the lower side 3 of the second element. The width of this adhesive strip, for a defined pitch (element height + joint) horizontal lines of masonry, will vary depending on the height specific to construction elements but will always remain sufficient to ensure the adhesion of the elements between them. The stability of the wall, without ever having a binder overflow outside the element of construction, is also ensured and due to the cooperation between grooves, protrusions and binder. This is partly due to the fact that the groove is offset from the edge that there is no ~ o overflow of the binder. The groove is thus used not only for guiding protuberances but also the dosage of the binder. The width of said adhesive strip will preferably be close to 90% of the the thickness of the load-bearing wall or partition of the building element.
This minimizes the punching effect of the second element ~ s on the first and vice versa as explained below.
The dimensioning of the assembly formed by the protuberance and of the groove can be determined on the basis of the above properties of the groove and protuberance. The width of the adhesive strips is determined mainly based on the cohesion of the binder and / or 20 the punching effect. If the cohesion of the binder is greater than that of the material, it is mainly the punching effect that will dictate the width of the adhesive strip which will preferably be equal to 90% of the thickness of the wall or partition. Once the width of the strip adhesive fixed as explained above, the dimensions are determined 25 minimum of the groove and the rib so that after partial interlocking and therefore sufficient expulsion of part of the binder, get the desired bandwidth knowing that part of the binder will be absorbed by the material. Construction elements having manufacturing tolerances, their adjustment is desirable for the 3o correct construction of the walls. The importance of this setting is related to the importance of these manufacturing tolerances. To get a setting more important, it will suffice to proportionally increase the height of the protuberance and depth of the groove and again proportionally decrease the width of the protuberance and the groove, so as to keep the same volume of expelled binder and therefore 5 the same width of adhesive tape.
The high buoyancy of the building element on the binder contributes to the adjustment of alignment, height and plumb and therefore the possible use of construction elements having relatively large manufacturing tolerances. Significant buoyancy 1o results from the collaboration of the fluidity of the binder used in the invention of weight of the element, the width of the small base of the protrusion and of the width of the large base of the groove that are present on the building element according to the invention.
The elements of a first line of masonry and the elements of a second line of masonry superimposed on the first, does not in no case touch horizontally, the only contact in the horizontal direction between these lines is done through the bands adhesives formed by the binder.
In a preferred embodiment an advantage of the element of 2o construction of the present invention is that it is hollow and that it has at least one opening 7 on a lateral side 4a, so that the open side can be attached to a side of another element of similar construction. The element being hollow, its weight is reduced, this which makes it easier to handle and allows it to be lifted by means 2s of an instrument which is preferably constituted by a handle 13 which also serves as a hammer 16 in order to adjust the alignment and the height of the element and its balance. The handle 13 is illustrated on Fig. 6a and its use for gripping the element in FIG. 6b.
This tool is profiled so that the bar under the handle 3o can be slid into the recessed part 7 of the construction element as shown for example in FIG. 6b.

The building element according to the present invention can also be full when its weight or format allows. Fig. 7 illustrates an embodiment of a solid building element according to the present invention. This preferably includes a housing 12 s designed to receive a connecting hook which allows the wall to be connected facing constructed with these structural elements on the load-bearing wall.
The building element of the present invention can be made from different compositions depending on the use that is made. For example, in the case of building a wall to be coated, the building element can be made of concrete to obtain relatively light elements. This allows to propose elements to dimensions such that their number per unit area is reduced by compared to conventional blocks.
In addition, a significant increase in the height of the element construction was carried out. An increase in the height of the building element reduces the number of lines horizontal masonry. In addition, knowing that often the vertical joint will not be filled, this saves the quantity of binder and hand of extremely significant works. This increase in height 2o reverses the classic height / length ratio <1 of the elements of construction. Similarly, the higher the element, the more the adjustment of its balance is facilitated. Preferably the weight of the building element is less than or equal to 25 kg and its height is greater than or equal to its length. However, the present invention also applies to elements of conventional weight and proportions, namely that their weight is less than or equal to 25 kg, and the height can be less than or equal to the length.
The height of the building element is preferably a module of standards of heights under interior lintels and under belt walls under ceilings, this avoids any cutting of element and n / a therefore saves considerable time when carrying out masonry.

In one embodiment of the building element of the invention as illustrated in FIG. 3, the groove 5 of the element of construction is provided with a recess 20 to receive a reinforcement metallic single or overlapped to allow the connection between two s reinforcements while minimizing the amount of binder required for coating of these. The building element according to the present invention can thus also be used for armed constructions.
In a preferred embodiment, the element of construction of the present invention also includes a marker 1o alignment 9 used during an assembly with thwarted joints of said building element with other building elements Similar. In this way, it is very easy to lay the element of construction to obtain an alternate alignment of the vertical joints of the construction elements when making a wall with a pose of those 15 Ci called "with opposed joints".
The building element of the invention may also include at least one horizontal 10 and / or vertical false seal 11 (Fig. 7) in the form of half dovetail. This configuration of false joints makes it possible to create a tightening of the joint at its ends which thus retains the binder used 2o at grouting.
In a preferred embodiment, the building element of the present invention is made of concrete whose composition preferential is as follows for 1 m3 Cement: 175 kg 25 Crushed expanded clay 4/8: 600 I
Expanded clay 0/4: 700 I
Sand 70 kg This type of concrete has the following characteristics: its mass dry volume is 870 kg / m3 and its compressive strength on 3o cubes of 5 cm side is> 4 N / mm2.

It is understood that other compositions can be used for manufacture the building element. The goal being to obtain an element of construction, which is easy to handle and which has a sufficient mechanical strength to be used in the construction of a detached house or for other works of masonry. It is possible, for example, to add beads of expanded polystyrene in concrete to lighten it or add gravel to strengthen it. It is also planned to use elements of construction according to the present invention which can be manufactured with 1o other materials such as terracotta, aerated concrete, etc.
The binder used in a preferred embodiment of this invention is a binder which hardens very quickly once implemented. This one, when assembling the elements, penetrates for about 30% of its volume in the material of the building elements. The rapid hardening of this binder is caused by a chemical reaction linked to a first transfer of water from the binder to the elements. It results wall stability and adhesion between elements which are very important after a few minutes, which allows for walls very high without ever having to wait for the binder to have made its 2o taken and therefore without stopping.
The preferred binder used for the assembly of the elements of construction of the invention has the following properties:
- a compressive strength which is higher than that of the building element itself, preferably 15 N / mmz;
- an adhesive force of at least 2 N / mm2, preferably 2.3 N / mm2;
- a density of 1.8 kg / I and - a shrinkage of 12 x 10-4 m / m - a water-to-cement ratio close to 0.45 Ilkg.
The mason prepares in a tub the binder which he mixes 3o carefully with water and then he can apply it in a row whole building elements aligned along a device guide then place a row of construction elements on top and and so on. In addition, the binder being thixotropic, it will suffice to remix this one a few moments in the bucket to thin it again if necessary.
s In the process of building a wall as described in present invention the amount of binder needed is about 20 times less than the amount of mortar usually used in traditional construction processes.
Figs. 8 and 9 illustrate a fraction of a wall constructed using 1o of construction elements according to the invention. The fraction of the wall can be built either by assembling several elements of construction in such a way as to form only one element of construction either in a single operation during the manufacture of building elements.
In the state of the art, it is known that the cross wall is interlocked in the main wall. As well as to realize the corners, the masonry are nested. This is no longer necessary thanks to the performance of the binder used in the present invention which collaborate with the characteristics of the building element of the 2o present invention. Indeed, this allows to stick the walls together against others without overlapping. In addition, when the elements are provided with protrusions and grooves it is no longer essential to have special construction elements to realize these masonry.
The building element shown in Fig. 4 is mainly used for buttocks because it has a side wall full, which allows to finish the header of a wall by a face closed.
Other advantages of building a wall as described in so the present invention are for example the absorption of tolerances manufacture of building components. Indeed, the elements of construction are usually manufactured in batches in a mold. All the elements will not be perfectly identical in the same batch.
In addition, as it is used, the mold wears and produces construction elements whose dimensions change. These 5 manufacturing tolerances that are unavoidable do not constitute a problem since they are easily accepted in the process of construction of walls of the invention.

Claims (18)

CLAIM

1. Building element (1) for building a wall, which element comprises an upper side (2), a lower side (3) and lateral sides (4), said construction element comprising at at least one groove (5) provided for metering a binder (17) by leveling necessary for assembling the construction elements together, said groove extends on the upper side (2) of the component, said building element also comprising at least one protrusion (6) which extends over the lower side (3) of the element of construction, the spline (5) being arranged so as to be in correspondence with the protrusion (6) to allow assembly of two similar construction elements, said spline (5) is associated with a wall (24) or load-bearing partition (25) of the element of construction and is arranged at a distance from the lateral outer edge (8) of the construction element which is sufficient to prevent the overflow of the binder (17) beyond the edge of the element during the assembly, characterized in that the groove (5) and the protuberance (6) are dimensioned in such a way as to allow, when assembling two elements, a partial interlocking allowing to form a band of binder between the upper side (2) and the lower side (3) of the elements, the only contact between the two superimposed elements then being made by through this band to allow adjustment of the alignment, the height and plumbness of the elements to be assembled.

Amended CLAIMS 1. Building element (1) for building a wall, which element comprises an upper side (2), a lower side (3) and of the lateral sides (4), said construction element comprising at at least one groove (5) provided for metering a binder (17) by leveling necessary for assembling the construction elements together, said groove extends on the upper side (2) of the component, said building element also comprising at least one protrusion (6) which extends over the lower side (3) of the element of construction, the spline (5) being arranged so as to be in correspondence with the protuberance (6) to allow assembly of two similar construction elements, said spline (5) being arranged at least partly above a wall (24) or partition bearing (25) of the construction element at a distance from the edge lateral exterior (8) of the building element which is sufficient to prevent the binder (17) from overflowing beyond the edge of the element when of the assembly, the groove (5) and the protrusion (6) being dimensioned in such a way as to allow during assembly a partial interlocking allowing adjustment of the alignment of the elements to be assembled, characterized in that the width of the protrusion (6) is less than the width of the spline (5), the spline (5) and the protrusion (6) also being dimensioned so as to allow during assembly a partial interlocking allowing adjustment of the height and plumb of the elements to be assembled. 2. Construction element (1) according to claim 1, characterized in that the protuberance (6) and the groove (5) each have a section of substantially trapezoidal shape, so that in position assembly of two construction elements their lateral sides extend substantially parallel to each other and the small base of the trapezium of the protuberance being arranged facing the small base of the trapezium of the spline when they fit together, said side flanks being arranged in such a way as to leave a first space between them arranged for the release of said binder (17), the small bases being arranged in such a way as to leave a second space between them filled by said binder (17). 3. Construction element (1) according to claim 1 or 2, characterized in that the depth of the groove (5) and the height of the protrusion (6) are substantially equal and proportional to the tolerance to be made up of the construction element. 4. Construction element (1) according to one of claims 2 or 3, characterized in that the ratio of the weight of the element of construction on the surface of the small base of the protuberance trapezium is inversely proportional to the fluidity of said binder (17). 5. Construction element (1) according to one of claims 1 to 4, characterized in that the width of the groove (5) is less than the thickness of the wall (24) or bearing partition (25) of the element of construction on which the spline is arranged. 6. Construction element (1) according to one of claims 1 to 4, characterized in that a groove (5) overlaps several walls (24) and/or partitions (25) of the construction element (1). 7. Construction element (1) according to one of claims 1 to 6, characterized in that the height of the building element is dimensioned in such a way that an assembly at height of construction elements forms a standard height under lintels interiors and under masonry belt under ceilings, and in that the weight of the construction element is less than or equal to 25 kg, and the element's height is greater than or equal to its length. 8. Construction element (1) according to one of claims 1 to 6, characterized in that the height of the building element is dimensioned in such a way that an assembly at height of construction elements forms a standard height under lintel, and in that the weight of the construction element is less than 25 kg. 9. Building element (1) according to any of the claims 1 to 5, 7 or 8, characterized in that a groove (5) is disposed above each of the forecourts (24) or load-bearing partitions (25) of said building element. 10. Construction element (1) according to one of claims 1 to 9, characterized in that the groove (5) is provided to receive also a plain or overlapped frame. 11. Construction element (1) according to one of claims 1 to 10, characterized in that it includes a vertical alignment mark (9) fear an assembly with upset joints of said construction element with other similar construction elements. 12. Construction element (1) according to one of claims 1 to 11, characterized in that it is provided with at least one false horizontal joint (10) in the shape of a half-dovetail on at least one lateral side. 13. Construction element (1) according to one of claims 1 â 12, characterized in that it is provided with at least one vertical joint rate (11) shaped, half-dovetail on at least one lateral side. 14. Construction element (1) according to one of claims 1 to 13, characterized in that it comprises at least one housing (12) provided to receive a connecting hook from the facing wall to the load-bearing wall. 15. Assembly of a constriction element (1) according to one any one of claims 1 to 14 and a tool (13) intended for the gripping said element, characterized in that the tool is dimensioned to allow gripping, handling, removal and adjustment of the alignment, height and plumbness of the element of construction (1). 16. Wall built with construction elements (1) according to one of claims 1 to 14, characterized in that it is made "with joints thin" between the construction elements (1). 17. Wall according to claim 16 characterized in that it comprises sets of construction elements (14, 15), each construction set comprising at least two elements of pre-assembled construction 18. Set of two walls built with elements of construction (1) according to one of claims 1 to 14, and forming between them an angle, characterized in that the connection between the two walls is made by gluing and without nesting.