CH699202B1 - Block wall construction - Google Patents

Abstract

The present invention relates to a substantially hexahedral concrete wall construction block (1, 2, 3) comprising at least one rough lateral surface (11) imitating the appearance of natural stone and at least one cell (12) passing through said block, said cell being separated from said lateral surface (11) of said block by a wall (13) whose thickness is, relative to the width (B) of the block, in the range from 1/6 to 1/3 to allow the mechanical aging of the side surfaces of the block, said at least one cell (12) being, when said block is in the position of construction, disposed vertically in said block so that said cell is adapted to allow the passage, within said block, vertical connection means. The invention also relates to a foundation element.

Description

The present invention relates to a wall construction block substantially hexahedral having at least one rough side surface imitating the appearance of natural stones and at least one cell vertically traversing said block. The invention also relates to a foundation element.

This invention is in the context of development projects, often, but not exclusively private, such as the realization of retaining walls or fence walls in a garden of a particular house. For a few years now, the trend has been on the market to use noble natural materials and materials, such as stone, to carry out such projects. Moreover, even in the context of small private projects, the need to build retaining walls or fences at increasingly higher heights is clearly visible in the market. In meeting these needs, the building materials industry has turned to materials that mimic the rustic look and warm colors of natural stone. Concrete is a durable and durable material, easy to rework to give an aesthetic appearance equivalent to any other product such as natural stone, wood, marble, etc., it lends itself to such use. Thus, there is currently on the world market a wide variety of concrete building blocks, part of which has at least one surface having the appearance of natural stones.

[0003] This type of block is generally used to make walls using a technique using anchoring devices called "geogrids". This technique is particularly used in large-scale public projects and has the advantage of simultaneously allowing the mounting of walls and their loading, ie backfilling and compaction. Indeed, said geogrids are in this case horizontally inserted at several levels in the retaining wall, as well as in the ground behind this wall. This technique is mainly suitable for medium and high-rise retaining walls and executed by experienced workers, because of its complexity of realization.

The conventional technique for producing concrete walls in two phases, that is to say that mounting and loading are deferred, is better suited for small private development projects, but the heights achievable, especially for fence walls, are more limited.

It is then to be noted that currently, there are no wall construction blocks made of concrete and intended to be concreted and reinforced reinforcement allowing the user, particularly to a particular, to mount a wall with the aesthetics of a natural stone wall and can reach average heights (between two to three meters).

Therefore, the object of the present invention is to obviate the aforementioned drawbacks of current systems and to provide concrete wall building blocks to achieve a wall imitating the natural appearance of the stone and can reach the desired heights. Simultaneously, the invention aims to simplify the user the realization of such walls that can be performed by low-skilled workers in this area. Furthermore, the invention also targets the simple manufacture of such building blocks.

For this purpose, the present invention is distinguished by the features listed in independent claims 1 and 7. In particular, the invention provides a substantially hexahedral concrete wall construction block having at least one rough side surface imitating the appearance of natural stone and at least one cell passing through said block, characterized in that said cell is separated from said lateral surface of said block by a wall whose thickness is, relative to the width (B) of the block, included in the range from 1/6 to 1/3, to allow the mechanical aging of the side surfaces of the block, and in that said at least one cell is, when said block is in the position of construction, arranged vertically in said block so said cell is adapted to allow the passage within said block of vertical connection means.

This has the advantage that walls imitating the appearance of natural stones can be mounted at average heights of up to about two to three meters, both for fence walls and retaining walls.

In addition, the invention provides a foundation element adapted to be used with this kind of building blocks and having an upper portion having a bearing surface having a first width (BF), a lower portion having a surface having a second width (BA), a central portion having a hollow space, a lateral opening and an upper opening, the width of said bearing surface being dimensioned to substantially correspond to the width (B) of a block of construction as described above.

By using the building blocks and foundation elements according to the present invention, even a low-skilled worker in this field or a non-professional can then achieve a retaining wall or a fence wall meeting the above objectives, the fact that these means greatly simplify the method of construction of such a wall and allow to guarantee the good design and safety that derive therefrom.

Other advantages will emerge from the features expressed in the dependent claims and in the description which sets forth the invention in more detail, with the aid of the drawings.

The accompanying drawings illustrate schematically and by way of example building blocks and foundation elements according to the present invention.

FIG. 1a shows a plan view of three examples of standard pieces of wall building blocks according to the present invention; fig. 1b shows two examples of head pieces of the building blocks according to the present invention, and FIG. 1c shows an example of a corner piece of such a building block; fig. 1d shows a perspective view of the three parts illustrated in FIG. 1a; fig. 1e illustrates an example of straight line mounting with standard parts and a wall building block head piece; fig. 1f shows an example of corner mounting with standard parts and corner piece of wall building blocks; fig. Figure 1g shows an example of a straight line assembly of standard building blocks and FIG. 1h shows an example of mounting with the same type of blocks in a concave curve thanks to the adapted geometry of the wall building blocks.

Fig. 2a is a schematic and exemplary illustration of a wall wafer made using building blocks according to the present invention, the blocks having different lengths and heights so as to make a wall mounted in Roman opus imitating as perfectly as possible the aesthetic appearance of natural stone walls; fig. 2b is a horizontal section along the line B-B of the wall section shown in FIG. 2a; fig. 2c is a cross-section along line C-C of the wall wafer shown in FIG. 2a; fig. 2d is a vertical section along the line D-D of the wall section shown in FIG. 2a; fig. 2e is a perspective view of a wall wafer raised using the means according to the present invention.

FIG. 3a shows schematically and by way of example a side view of a foundation element according to the present invention, and a vertical connection means inserted therein; fig. 3b is a plan view of a foundation element, as well as the vertical connection means according to FIG. 3a.

FIG. 4a illustrates wall building blocks manufactured together in a mold according to the present invention; fig. 4b is a similar view of wall building blocks made in a similar mold but modified to produce both standard parts and special parts including head and corner parts.

The various aspects of the present invention will now be described in detail with reference to the aforementioned drawings.

Figs. 1a, 1b and 1c show plan views illustrating wall building blocks according to the present invention which make it possible to produce a retaining wall or a fence wall imitating the appearance of a natural stone wall and mounted in Roman opus , this up to heights of about two to three meters in case of armed wall. Generally, the wall building blocks 1, 2, 3, 4, 5, 6, 1, 2, 3, 4, 5, 6, according to the present invention, are substantially hexahedral in shape and comprise at least one rough side surface 11 that mimics the appearance of the natural stone. These blocks also comprise at least one cell 12 vertically traversing said blocks. In fig. 1a are shown standard parts 1, 2, 3 of a first height H1, these standard blocks having, as visible in FIG. 1a, a trapezoidal base surface. In this way, the blocks can be mounted in a straight line as shown in FIG. 1g or in convex and / or concave curve with a radius as a function of the angle of the inclined sides of the trapezium as illustrated in FIG. 1h. Fig. 1b shows head pieces of the building blocks according to the present invention, these head pieces having only one inclined side instead of two, like the standard parts shown in FIG. 1a. In fig. 1c finally, is illustrated a corner piece of such a building block, a portion of one of the two side surfaces has been adapted to have an edge for receiving a piece having the same dimensions and angle; therefore to receive one of the standard parts illustrated in fig. 1a. This is illustrated in fig. 1f.

As is more clearly apparent in the perspective view of FIG. 1d, all these embodiments of a building block according to the present invention have at least one rough side surface 11 imitating the appearance of the natural stone, as well as at least one cell 12 traversing vertically said block. Furthermore, these building blocks are distinguished by the fact that at least the outer walls 13 of the block surrounding said at least one cell 12 have a thickness relative to the width B of the block in the range from 1: 3 to 1 : 6, so as to allow the aging of the side surfaces of the block. Indeed, in this way the thickness of these outer walls 13 is sufficient to allow mechanical treatment of these concrete blocks according to the present invention. This treatment artificially ages the outer surfaces of the blocks, to give them an aesthetic appearance approaching almost perfectly the appearance of natural stones, as will be explained in more detail later in the description.

In addition, said at least one cell is disposed in the horizontal plane of the building block so that the cells 12 of the wall construction blocks of different dimensions are at least partially superimposed during the stacking of these cells. last for the construction of a wall, so as to allow the location of vertical connection means 8, this being clearly visible in FIGS. 2b, 2c, 2d and 2e. Indeed, the cells in the blocks according to the present invention serve, on the one hand, to lighten the blocks and to ensure ease of handling and assembly on site. On the other hand, these cells are useful during the construction of walls using these blocks, either to anchor reinforcement reinforcing said wall, or to contain concrete or other bonding material or stabilization adapted to stabilize the walls mounted, as will be further detailed below in the description.

FIG. 1a also shows that the wall building blocks according to the present invention can have at least two, preferably at least three lengths L1, L2, L3 and / or two different heights H1, H2 for a given block width B. In particular, the different lengths L1, L2, L3 of blocks can have a ratio of 1: 1, 2: 1.3: 1 or 4: 1 with respect to a base length of LBdata. This basic length LB may, for example, be identical to the length L1 of the first, smaller standard part illustrated in FIG. 1a having only one cell 12. In order to allow the realization of walls in Roman opus mimicking as perfectly as possible a natural stone wall of different shapes, the wall building blocks according to the present invention may also have at least two heights H1, H2different, so that blocks of different dimensions, for example at least six different embodiments in the presence of for example three lengths and two different heights, can be assembled in a chaotic manner according to the builder's taste when making the wall. If both longitudinal side surfaces are aged, the blocks, in particular those of trapezoidal shape, can be used reversibly in on-line or curved fixtures, which enhances the aesthetic appearance due to a slight modification of the length visible from each block.

As can be seen in particular from FIG. 1a, a wall building block according to the present invention comprises a number of cells corresponding to its length, this number being in particular proportional to the total length of the block. In this way, and as visible in FIGS. 1a, 1b and 1c, the cells 12 of a block are arranged substantially around the center of each part of the block corresponding to a base length LB. Indeed, once said building blocks mounted, the cells are superimposed and form channels around centers of said base length LBon the entire height of the wall. Thus, the distance between the centers of each part corresponding to a cell and having a length corresponding to said base length LB is regular, which allows a regular positioning of the connecting means, or even reinforcements which are optionally integrated into the wall in order to strengthen it.

This aspect of the present invention is particularly clearly visible in FIGS. 2a - 2d. Fig. 2a shows schematically a wall slice mounted in Roman opus with building blocks of different lengths and heights and having a visible rough surface imitating the appearance of natural stones, the same-looking canopies being placed in top of the wall to allow the evacuation of rainwater and direct their runoff outside the apparent faces of the wall. Fig. 2b shows a horizontal section along the line B-B of the wall section shown in FIG. 2a and FIG. 2c shows a cross section along the line C-C of the same wall. In particular, it is clearly visible in FIG. 2b an arrangement of the cells 12 in the building blocks, as mentioned above, induces that these cells 12 are at least partially superimposed, regardless of the location of the blocks during the assembly of walls, this making it possible to have a channel, available for concreting or even reinforcement, of the wall on greater heights, that is to say, for example, on at least two, three or even four or more rows of blocks. In the case illustrated by way of example in FIGS. 2c and 2d, the armatures are mounted in a channel formed by cells 12 of the individual blocks of different dimensions, this channel traversing the entire height of the wall constructed, from the foundation to the canopies 10. This important feature of the present invention is also clearly visible in the perspective view fig. 2e, in which one recognizes in particular means of connection respectively vertical reinforcements 8 as well as horizontal reinforcements 8.

For this purpose, a wall construction block according to the present invention may also comprise, on its upper and / or lower surface, a longitudinal housing for the location of a horizontal connection means 8. The longitudinal housing may in particular be made by a reservation or a chamfer, as visible for example on the upper surface of the blocks illustrated in perspective view in FIG. 1d. An armature 8 placed in a longitudinal housing is shown in the perspective illustrated by way of example in FIG. 2nd.

In particular the fact of the regular between-center between the centers of each part of a block corresponding to a base length LB, the realization of such walls, even at average heights, from two to three meters, and thus requiring a reinforcement or even another type of connection, is greatly facilitated by the concrete building blocks according to the present invention, even if a large number of these blocks of different dimensions is used. The realization of such concrete walls imitating the aesthetics of natural stone walls is also possible for an individual who does not have professional knowledge in this field.

This aspect is further reinforced by the fact that the present invention also provides foundation elements 7 adapted for use with wall building blocks as described in detail above.

An embodiment of such a foundation element 7 is illustrated in side view in FIG. 3a and in plan view in FIG. 3b. Such a foundation element 7 is distinguished by the fact that it comprises an upper part 7.1 having a bearing surface 7.1.1 having a width BF substantially corresponding to a block width B of said building blocks. This foundation element 7 also comprises a lower portion 7.2 having a laying surface 7.2.1 having an enlarged width BA and a central portion 7.3 having a hollow space 7.3.1 having at least one lateral opening 7.3.3, an upper opening 7.3. 4, and at least one side wall 7.3.2 for increasing the rigidity of the foundation element 7. In the embodiment of the foundation element 7 illustrated in FIG. 3a, the difference between the width BF of the bearing surface and the enlarged width BAof the laying surface is distributed asymmetrically on each side of the bearing surface. This is not mandatory, however, so that the foundation element 7 can be substantially symmetrical in cross section, especially in the case of a fence wall. Similarly, the width BF of the support surface 7.1.1 does not necessarily correspond exactly to a given block width B, but may for example be slightly larger, so that the building blocks 1-6, 1 -6 intended to be placed on the support surface 7.1.1 are easily supported on this surface.

[0028] Referring to FIG. 3b, it is noted that said upper opening 7.3.4 of the foundation element 7 preferably forms a lateral opening in the upper part 7.1 of the foundation element, so as to allow, on the one hand, the lateral introduction into this foundation element 7 of vertical connection means 8 and, on the other hand, the vertical introduction of the connecting concrete into said foundation elements 7 assembled with their respective connecting means. Such a vertical connection means 8 inserted and placed in a stable position is illustrated by way of example in FIGS. 3a and 3b.

The top view of the foundation element 7 visible as an example in FIG. 3b also shows that this element 7 preferably comprises at least one abutment 7.1.2 and / or at least one recess on the wall at least partially surrounding said upper opening 7.3.4 of the hollow space 7.3.1 of the central part 7.3 . It is in this way that the stable position of the vertical connection means 8 introduced into said hollow space 7.3.1 is defined. It is however not required that the foundation element 7 comprises such a stop 7.1.2 and the wall surrounding, at least partially, said upper opening 7.3.3 could also be completely rounded or have any other suitable shape. As shown in fig. 3b, or the side walls 7.3.2 which normally have the same depth as the foundation element 7 are also also provided with at least one recess adapted to receive the horizontal portion 8.2 of the connecting means 8. These recesses are provided at the lower limit, and possibly also at the upper limit, of said side walls 7.3.2, thereby enabling insertion of the connecting means 8 and stabilization of its stable position in cooperation with said stops 7.1.2 and / or recesses corresponding to the wall at least partially surrounding said upper opening 7.3.4.

Finally, as regards said vertical connection means 8 adapted for use with the foundation elements described in detail above, it should be noted that it has a first part 8.1 extending vertically and a second part 8.2 extending horizontally. As illustrated in particular in FIG. 3a, the second part 8.2 has a shape substantially corresponding to the contours of the hollow space 7.3.1 of the foundation element 7, so as to be inserted laterally into said foundation member 7. Because the stops defining the stable position of vertical connecting means introduced into a foundation element 7 are arranged so that their distances correspond to the distances between the cells 12 of the building blocks intended to be placed on the bearing surface 7.1.1, the use of these foundation elements 7, respectively vertical connection means 8, greatly facilitates the construction of particularly armed walls, since the location of the connection means is thus predefined. The vertical connection means 8 may in particular consist of galvanized reinforcements, to prevent their deterioration and increase the service life of walls built with them.

After this description of the structure of a wall building block, a foundation element, respectively vertical connection means according to the present invention, their use in consultation, or not, can be easily understood. Indeed, a method of building walls, for example a retaining wall or a fence wall, using these elements according to the present invention comprises in particular the steps of placing one next to the other of the foundation elements. 7 on the ground or in a trench. Then, after each placing of a foundation element 7, at least one connecting element 8 is inserted into said hollow space 7.3.1 and placed in the stable position, this preferably using said stops arranged on the The foundation element 7. Once these foundation elements are assembled, a connecting concrete is poured through the opening 7.3.4. The first part 8.1 of vertical connection means 8 serves as a waiting frame on the wall and is anchored in the foundation elements 7. The foundation elements 7 and the vertical connection means 8 as well as the connecting concrete being in Instead, the wall building blocks 1-6, 1-6 are then placed first on the support surface 7.1.1 of the foundation members 7 and then on the upper surfaces of the building blocks. The vertical connection means 8 are placed in the cells 12 of each building block, as can be seen for example in FIG. 2nd. Advantageously, it is possible to place a connecting means 8 in said longitudinal housing to the upper and / or lower surface of each building block, reinforcing the wall thus also in this dimension. This way of proceeding then makes it possible to produce a reinforced wall which takes up the tensile forces induced by bending moments due either to the thrust of the earth, in the case of retaining walls, or to the thrust of the wind or the like in the case of walls. Closing. Alternatively, it is also possible to use for low heights, the elements proposed by the present invention, in particular the wall building blocks for producing an unreinforced wall, the cells 12 only serving in this case to accommodate the concrete Poured through the channels formed by these cells 12. Nevertheless, the building blocks according to the present invention facilitate in this case the realization of the wall that the channels formed by the cells 12 through the entire height of the wall. Finally, it is also possible to use the cells 12 as cores to contain any other material used to stabilize the drywall walls with building blocks according to the present invention. Moreover, the building blocks according to the present invention make it possible, as mentioned above, to produce walls either in a straight line or in a convex and / or concave curved line, because of their trapezoidal base shape, this allowing then their use reversibly. In addition, the head pieces and corner pieces illustrated in FIGS. 1b respectively 1c allow a harmonious realization with the rest of the wall of the wall heads, respectively angles. The wall building blocks according to the present invention thus make it possible, in combination with the reinforcement and the concreting inside the cells 12 of the blocks and thanks in particular to the use of the foundation elements 7 and the vertical connection means 8, the construction of fence or retaining walls that can reach heights of about two to three meters. When it comes to making walls of low height, the building blocks according to the present invention can be used either without reinforcement or in dry mounting. According to the present invention, the mounting of such a wall is greatly simplified, so that even a low-skilled worker in this field or a non-professional can easily tackle, for example as part of a project development of a private garden.

The present invention also relates to a method of manufacturing a wall building block, as described above. Such a method notably comprises the steps of pouring the concrete into a mold 9, 9, then the concrete parts 1, 2, 3, 4, as illustrated by way of example to fig. 4a and 4b, are out of the mold 9, 9, these parts concreted in one set comprise several building blocks 1-6, 1-6 delimited between them by several cleavage planes. When these concrete parts are out of the mold 9, 9, the concrete constituting them has at least partially, but not necessarily completely, hardened. After a first waiting period, which is normally between 3 and 10 days, preferably 6 to 7 days of their production, said concrete parts 1, 2, 3, 4 are separated by cleavage into individual building blocks. The cleavage line is predefined on the surface of these parts due to the shape of the mold 9, 9. Finally, after a second waiting period of about 10 and 50 days after the production of the concreted parts, but preferably between 25 and 30 days, the cleaved building blocks 1-6, 1-6 are mechanically treated to to produce at least some of these surfaces, including the side surfaces, an aesthetic appearance imitating as perfectly as possible natural stone. The mechanical treatment used for this artificial aging normally involves introducing the cleaved individual blocks into a rotating drum, thereby creating a rough surface on the building blocks according to the present invention. The mechanical aging process of this kind in a rotating drum normally lasts between 5 and 60, preferably between 10 and 30 minutes. Other means of artificial aging known to those skilled in the art can also be used.

For the implementation of this manufacturing method, a mold 9, 9 comprising several compartments corresponding to said concrete portions 1, 2, 3, 4 and as schematically illustrated and for example in fig. 4a and 4b is used. Such a mold comprises in particular reliefs forming predefined cleavage lines on the surface of the concrete portions 1, 2, 3, 4, as schematically represented in FIGS. 4a and 4b. Furthermore, a mold 9, 9 according to the present invention is particularly modifiable, so that the contours of said compartments and / or the location of said reliefs are movable. For example, the mold 9 illustrated by way of example in FIG. 4a makes it possible to produce the three concreted parts 1, 2, 3, these concreted parts then being able to be separated by cleavage along said predefined cleavage lines and shown schematically in FIG. 4a, so as to produce building blocks of standard type 1, 2, 3. The modified mold 9 illustrated in FIG. 4b, likewise by way of example, produces concrete parts 1, 2, 4, the latter being distinguished from the concrete portion 3 produced by the mold 9 illustrated in FIG. 4a. Indeed, as seen more clearly in FIG. 4b, the modified location of the contours of said compartments and said reliefs of the mold 9 with respect to the mold 9 thus makes it possible to produce, by means of the concrete part 4, not only standard building blocks 1, 2, 3, but also two head pieces 4, 5 and a corner piece 6. Obviously, molds of different heights can produce this same type of building blocks 1-6 having a different height. In general, the geometry of the molds 9, 9 reflects the geometry of the building blocks to be produced.

In view of the above description, it is clear that the present invention provides wall building blocks, foundation elements and vertical connection means to achieve easily, including retaining walls and fence walls. at average heights of about two to three meters and optimally imitating the appearance of natural stones. It is thanks to the geometry of the building blocks and the quality of the concrete and aging in the rotating drum that the final product does not have the appearance of an industrial product but that of a natural stone wall. . The use of the elements according to the present invention is mainly intended for private projects, thus allowing the realization of walls imitating natural stone in this kind of project in a simple way and at a reasonable cost. The use of the present invention in the context of larger public projects is of course also possible. It goes without saying that building blocks can be produced with concrete of all shades and that it is possible to adapt the mechanical aging treatment, in order to better reproduce the aesthetic appearance of several types of natural stones.

Claims (9)

1. Wall building block (1, 2, 3, 4, 5, 6, 1, 2, 3, 4, 5, 6) of substantially hexahedral concrete having at least one side surface roughened (11) imitating the appearance of natural stone and at least one cell (12) passing through said block, characterized in that said cell is separated from said lateral surface (11) of said block by a wall (13) whose thickness is, in relation to the width (B) of the block, in the range of 1/6 to 1/3, to allow mechanical aging of the lateral surfaces of the block, and in that said at least one cell (12) is when said block is in the position of construction, arranged vertically in said block so that said cell is adapted to allow the passage within said block of vertical connection means (8). 2. Wall building block according to claim 1, characterized in that it comprises at least a first portion containing a first cell and a second portion containing a second cell (12). 3. wall building block according to claim 2, characterized in that said first cell is disposed substantially around the center of said first portion and in that said second cell is disposed substantially around the center of said second portion. 4. Wall building block according to claim 2, characterized in that said first cell is separated from said second cell by an inner wall (14) whose thickness relative to the width (B) of said block is included in the range from 1/8 to 1/3. 5. Wall building block according to one of the preceding claims, characterized in that it comprises at least two opposite side surfaces rough (11) imitating the appearance of natural stone. 6. Wall building block according to one of the preceding claims, characterized in that it comprises, at its upper surface and / or lower, a longitudinal housing for the location of horizontal connection means (8). Foundation element (7) for supporting a building block according to one of claims 1 to 6, said foundation element having an upper portion (7.1) having a bearing surface (7.1.1) having a first width (BF), a lower portion (7.2) having a laying surface (7.2.1) having a second width (BA), a central portion (7.3) provided with a hollow space (7.3.1), a lateral opening ( 7.3.3) and an upper opening (7.3.4), characterized in that the width of said bearing surface is dimensioned to substantially correspond to the width (B) of the building block. 8. foundation element (7) according to the preceding claim, characterized in that said upper opening (7.3.4) and said lateral opening (7.3.3) are shaped to allow the lateral introduction of a connecting means vertical (8) in said foundation member (7). 9. Foundation element (7) according to one of claims 7 and 8, characterized in that at least one stop (7.1.2) and / or a recess are provided on the wall at least partially surrounding said upper opening ( 7.3.4), so as to define a stable position of a vertical connection means (8) introduced into said hollow space (7.3.1).