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MODULAR CONCRETE FOUNDATION

20230022855 · 2023-01-26

    Inventors

    Cpc classification

    International classification

    Abstract

    A modular foundation including plurality of prefabricated concrete modules defining an upper layer of modules including at least one internal passage opening onto at least its upper and lower faces, at least one lower layer of modules on which the upper layer at least partially rests, including at least one internal passage opening onto at least one of its sides and onto at least its upper face, this internal passage communicating at the level of the interface between the upper layer and the lower layer(s) with the internal passage of the upper layer in such a manner as to form at least one global internal passage in the foundation opening onto at least one side and onto at least the upper face of the foundation.

    Claims

    1. A modular foundation including: A plurality of prefabricated concrete modules defining: an upper layer of modules including at least one internal passage opening onto at least its upper and lower faces, at least one lower layer of modules on which the upper layer at least partially rests, including at least one internal passage opening onto at least one of its sides and onto at least its upper face, the internal passage of said layer communicating at the level of the interface between the upper and lower layers with the internal passage of the upper layer in such a manner as to form at least one global internal passage in the foundation opening onto at least one side and onto at least the upper face of the foundation.

    2. The modular foundation as claimed in claim 1, wherein the plurality of modules form a whole of substantially parallelepipedal general shape.

    3. The modular foundation as claimed in claim 1, wherein the modules of the same layer are assembled to one another laterally.

    4. The modular foundation as claimed in claim 1, including a stack of at least three layers of modules.

    5. The modular foundation as claimed in claim 1, wherein the modules in a layer are identical at least half by half.

    6. The modular foundation as claimed in claim 1, wherein the modules are disposed with an offset from one layer to the next, in particular by being disposed in a quincunx arrangement from one layer to the next.

    7. The modular foundation as claimed in claim 1, wherein at least one layer of modules of the foundation includes at least two modules with different lengths, preferably at least two modules one of which has a length substantially twice that of the other one.

    8. The modular foundation as claimed in claim 1, wherein the global internal passage in the foundation opens onto at least two sides and onto at least the upper face of the foundation, better still onto all the sides and onto the upper face.

    9. The modular foundation as claimed in claim 8, wherein the global internal passage has a section that has a diameter (d) at least equal to 80 mm.

    10. The modular foundation as claimed in claim 8, wherein the global internal passage includes at least one duct enabling the passage of cables, in particular electrical cables or optical fibres.

    11. The modular foundation as claimed in claim 1, including vertical reservations on at least two at least partially stacked modules, the vertical reservations communicating at the level of the interface between the two modules.

    12. The modular foundation as claimed in claim 11, wherein the vertical reservations are arranged to receive tie-rods for assembling modules to one another and/or bolts engaging in threaded inserts.

    13. The modular foundation as claimed in claim 1, wherein at least some of the modules include a vertical cavity on at least two opposite sides adapted to form with an opposite vertical cavity of an adjacent module a vertical internal passage of greater section.

    14. The modular foundation as claimed in claim 1, wherein the modules have a thickness between 200 and 300 mm inclusive.

    15. The modular foundation as claimed in claim 1, wherein the modules have first reliefs on their lower face, the modules of the lower layer or layers having second reliefs on their upper face, the second reliefs being arranged to be nested at least partially in the first reliefs.

    16. The modular foundation as claimed in claim 1, wherein the modules of the upper layer include at least one internal passage opening onto at least one of their upper and lower faces.

    17. The modular foundation as claimed in claim 1, wherein the modules of the lower layer or layers include at least one internal passage opening onto at least one of their sides and onto at least their upper face.

    18. The modular foundation as claimed in claim 1, wherein the modules of the lower layer or layers include at least one horizontal cavity on at least two opposite sides adapted to form with an opposite horizontal cavity of an adjacent module a horizontal internal passage of greater section.

    19. The modular foundation as claimed in claim 1, further including a support layer including concrete slabs on which all the modules rest.

    20. The modular foundation as claimed in claim 19, wherein the concrete slabs have on their upper face housings in which the modules of the layer resting on the support layer can come to be nested.

    21. The modular foundation as claimed in claim 1, including reservations passing vertically through the upper layer and at least partially through the lower layer or layers.

    22. The modular foundation as claimed in claim 19, wherein the reservations communicate with vertical reservations of the concrete slabs at the level of the interface between the support layer and the layer resting on the support layer.

    23. A method installing a modular concrete foundation as claimed in claim 1, the method including: producing an excavation, producing the foundation by placing prefabricated concrete modules in the excavation.

    Description

    BRIEF DESCRIPTION OF THE DRAWINGS

    [0055] The invention will be better understood after reading the following detailed description of non-limiting embodiments thereof and examining the appended drawings, in which:

    [0056] FIG. 1 represents schematically an example of a foundation according to the invention,

    [0057] FIG. 2a, FIG. 2b, FIG. 2c and FIG. 2d illustrate schematically other examples of foundations according to the invention,

    [0058] FIG. 3 is a schematic partial perspective view of an example of an upper module,

    [0059] FIG. 4a and FIG. 4b represent the upper and lower faces of the upper module from FIG. 3, respectively,

    [0060] FIG. 5a, FIG. 5b, FIG. 5c and FIG. 5d illustrate in schematic partial longitudinal section taken along the lines W, X, Y and Z in FIG. 4a, respectively, some structural elements of the module from FIG. 3,

    [0061] FIG. 6a and FIG. 6b represent a schematic partial perspective view of examples of lower modules,

    [0062] FIG. 7a and FIG. 7b represent the upper and lower faces of the upper module from FIG. 6a, respectively,

    [0063] FIG. 8a, FIG. 8b, FIG. 8c and FIG. 8d illustrate in schematic longitudinal section taken along the lines AF, AG, AK and AH in FIG. 7a, respectively, some structural elements of the module from FIG. 6a,

    [0064] FIG. 9 is a schematic partial perspective view of an example of a slab of a support layer,

    [0065] FIG. 10a, FIG. 10b, FIG. 10c and FIG. 10d illustrate in schematic partial longitudinal section taken along the lines AL, AM, AN and AQ in FIG. 9, respectively, some structural elements of the slab from FIG. 9,

    [0066] FIG. 11 represents schematically and partially the upper face of a foundation according to the invention,

    [0067] FIG. 12a, FIG. 12b, and FIG. 12c illustrate the foundation from FIG. 1 in longitudinal schematic and partial section taken along the lines P, Q and R in FIG. 11, respectively,

    [0068] FIG. 13a, FIG. 13b, and FIG. 13c illustrate in schematic and partial lateral section taken along the lines S, T and U in FIG. 11, respectively, some details as to the manner in which the modules of the foundation from FIG. 1 are arranged and fixed together, and

    [0069] FIG. 14 illustrates in schematic and partial longitudinal section taken along the line P in FIG. 11 a foundation including two layers.

    DETAILED DESCRIPTION

    [0070] There has been represented in FIG. 1 an example of a modular foundation 1 according to the invention. The modular foundation 1 has the shape of a slab and includes an upper layer 2 resting on a lower layer 3 and an underlying support layer 5.

    [0071] A continuous internal passage 10 extends horizontally and vertically in the upper layer 2 and the lower layer 3 and opens onto the upper face of the foundation 1 and onto all its sides.

    [0072] This internal passage for example enables cables to be passed toward the interior of the structure supported by the foundation 1, in particular when the latter receives electrical equipment.

    [0073] The upper layer 2 includes three identical modules 20 of parallelepipedal shape each referred to hereinafter as an “upper module”.

    [0074] The lower layer 3 includes four parallelepipedal modules assembled laterally together, each being referred to hereinafter as a “lower module”; thus the layer 3 includes two first modules 30 onto which are assembled, on either side, two identical modules 35 that are identical to half of the first modules 30.

    [0075] All the modules have the same width 1, for example approximately 100 cm.

    [0076] The upper modules 20 and the lower modules 30 have the same length L, for example approximately 150 cm, and are disposed in a quincunx arrangement from one layer to another. The two modules 35 assembled at the ends of the lower layer 3 have a length substantially equal to half the length L/2 of the other modules, so that the layers 2 and 3 stack exactly.

    [0077] The upper layer 2 has for example a thickness of approximately 200 mm.

    [0078] The upper layer 3 has for example a thickness of approximately 300 mm.

    [0079] In the example considered here the support layer 5 includes three concrete slabs 50 referred to hereinafter as the “support slabs”.

    [0080] The slabs 50 are parallelepipedal, with a length and a width equal to those of the upper modules 20, and for example are approximately 300 mm thick.

    [0081] In the example illustrated in FIG. 2a, the support slabs 50 are wider than the rest of the modules, which enables the foundation to support higher stresses.

    [0082] The size of the foundation 1 and the number of lower layers 3 varies and may be chosen as required. The foundation may include the support layer 5 or not, this choice depending in particular on climatic conditions and the nature of the soil on the site on which the foundation is installed.

    [0083] In the example illustrated in FIG. 2b, the foundation 1 includes two lower layers 3 on which rests an upper layer 2 including an upper module 20 and two upper half-modules 25 assembled on respective opposite sides of the module 20.

    [0084] The global internal passage 10 is formed by an internal passage 12 of the upper layer and internal passages 13 of the lower layers that communicate at the interface between two adjacent layers.

    [0085] The global internal passage 10 opens onto each of the lateral faces of the layers 2 and 3, that is to say on three levels of the foundation 1, and onto each of the front and rear faces (not visible in FIG. 2b) of the lower layers 3 at a number of locations regularly spaced in the lengthwise direction.

    [0086] The internal passage 10 also opens at a number of locations onto the upper face 2a of the upper layer.

    [0087] In the example illustrated in FIG. 2c the foundation includes four layers in total: an upper layer 2, two lower layers 3 and a support layer 5.

    [0088] The upper layer 2 and the lower layers 3 have the same thickness, for example equal to approximately 200 mm.

    [0089] In this example, the slabs 50 of the support layer 5 have two different lengths, one being twice the other, in order for the total length of the support layer 5 to be the same as that of the other layers 2 and 3.

    [0090] The support layer 5 is for example thicker than the other layers and is for example approximately 300 mm thick.

    [0091] When the soil conditions of the installation site allow it, the foundation need not include the support layer 5, and in particular may include an upper layer 2 and only one lower layer 3, as illustrated in FIG. 2d.

    [0092] In this case the lower layer 3 preferably includes means for fixing the supported infrastructure, as will be described below.

    [0093] Examples of modules will now be described with reference to FIG. 3 (upper module 20), FIG. 6a (lower module 30) and FIG. 9 (support slab).

    [0094] The assembly and fixing together of the various elements of the foundation and the fixing of the structure supported by the foundation will be described hereinafter with reference to FIGS. 11 to 13.

    [0095] The upper module 20 includes for example three vertical reservations 200 passing through it the axes of which are disposed in the median longitudinal plane of the module, as illustrated in FIG. 4a, and a horizontal reservation 250 passing through it that communicates with the vertical reservations 200, as illustrated in FIG. 5c.

    [0096] The reservations 200 have for example a diameter d between 80 and 220 mm inclusive. They are able to receive protection ducts serving for example for the passage of electrical cables or optical fibres toward the interior of the structure supported by the foundation, where they may be connected to the electrical equipment of the structure.

    [0097] The module 20 may also include a vertical cavity 220 of semi-cylindrical shape on its two lateral faces 30c which communicates with the horizontal reservation 250.

    [0098] Thus when the modules 20 are assembled together to form the upper layer 2 the vertical cavity 220 forms with the opposite cavity 220 of an adjacent module 20 a vertical reservation of circular section similar to the reservations 200.

    [0099] The upper module 20 preferably includes bosses 260 on its lower face enabling nesting of the upper layer 2 in the lower layer 3. These reliefs 260 have a frustoconical shape for example, as illustrated in FIG. 5a, with a diameter of the order of 100 mm and a height of approximately 80 mm.

    [0100] The reliefs 260 are for example disposed at the four corners of the module, as illustrated in FIG. 4b.

    [0101] The upper module 20 includes other vertical reservations 210 and 215. These are through-reservations and open onto its lower and upper faces, as illustrated in FIGS. 5b and 5d. They have a smaller diameter than the reservations 200, for example between 35 and 40 mm.

    [0102] The reservations 210, of which there are eight for example in the example under consideration, may receive means for fixing the structure supported by the foundation, in particular when the latter includes a mast.

    [0103] The reservations 215, of which there are six for example in the example under consideration, may receive fixing means between the upper module 2 and the lower layer 3 on which it rests, as described below.

    [0104] The lower module 30 includes for example a vertical reservation 300 passing through it and two horizontal reservations 350 passing through it, disposed for example perpendicularly so as to open onto all the sides 30c and 30d of the module 30, as represented in FIG. 6a.

    [0105] As illustrated in FIG. 8c, the reservations 300 and 350 communicate with one another, for example at the centre of the module.

    [0106] The vertical reservations 300 communicate at the level of the upper face 30a of the module 30 with those of the upper layer 2 so as to form the aforementioned internal passage 10.

    [0107] The module 30 may also include a horizontal cavity 320 of semi-cylindrical shape on its two lateral faces 30c, communicating with the horizontal reservation 350 that extends longitudinally.

    [0108] The cavity 320 forms a cylindrical horizontal reservation with that of a lower module 30 or 35 assembled to it laterally.

    [0109] In the example under consideration and as represented in FIG. 7b the lower module 30 includes on its lower face 30b bosses 360 intended to nest in corresponding housings disposed on the upper face of the modules on which the lower module 30 can rest.

    [0110] This means for example other lower modules 30 if the foundation includes a plurality of lower layers 30 which include for example eight housings 370 as illustrated in FIG. 7a.

    [0111] The housings 370 are for example disposed in rows of four along longitudinal edges of the upper face 30a of the module 30, the housings of one row being apparent in FIG. 8a, in such a manner as to be able to receive the bosses 260 of the upper modules 20 and/or the bosses 360 of the upper modules 30.

    [0112] The support slabs 50 may also include rows of housings 570, as illustrated in FIG. 10a.

    [0113] The lower module 30 includes other vertical reservations 310 that have a small diameter, for example of the order of 40 mm. These reservations 310 are arranged to communicate with the reservations 210 of the upper modules 20 in order to fix the structure supported by the foundation.

    [0114] The reservations 310 may be through-reservations, as illustrated in FIG. 8d, in particular in order to communicate with certain reservations of the support slabs when the foundation includes a support layer 5.

    [0115] The reservations 310 may also not be through-reservations, in particular when the foundation includes only two layers, namely an upper layer 2 and a lower layer 3.

    [0116] In this case, the reservations may take the form of housings at the bottom of which are for example placed plate bushes 600 when pouring the modules 30, as illustrated in FIG. 14. In the example under consideration, the lower module 30 additionally includes vertical reservations 315 used for fixing the module to the layer on which it rests, for example another lower layer or the support layer.

    [0117] As illustrated in FIG. 8b, the vertical reservations 315 are through-reservations and include an enlargement 315a in their upper part that makes it possible to receive the head of a fixing bolt when placing and fixing the module on and onto the underlying layer.

    [0118] The lower module 30 may include, in the same plane as the reservations 315, housings 317 adapted to align with the reservations 215 (respectively 315) of the upper module 20 (respectively lower module 30) resting on this module 30 in the foundation 1.

    [0119] For example anchor bushes 700 are placed in the housings 317 when pouring the concrete, which thereafter enables fixing the modules together, as illustrated in FIG. 12b.

    [0120] The lower “half-module” 35 illustrated in FIG. 6b is for example identical to half of the module 30 and therefore has the same features as those that have just been described.

    [0121] The support slab 50 represented in FIG. 9 may include different types of housings on its upper face 50a, enabling fixing and nesting of the modules of the foundation.

    [0122] In the example under consideration and as illustrated in FIG. 10c the support slab 50 has no reservations communicating with the internal passage 10.

    [0123] As described above, the housings 570 disposed at the four corners of the upper face 50a of the module enable reception of the bosses 360 of the lower modules 30 resting on the support layer 5.

    [0124] As illustrated in FIG. 10b the support slab 50 may include housings 517 that have a shallow depth, for example of the order of 80 mm, adapted to be aligned with the reservations 315 of an underlying upper module 30 and in which anchor bushes 700 are placed for example when pouring the slab.

    [0125] The support slab 50 may further include, as illustrated in FIG. 10d, housings 510, for example 200 mm deep for a slab 300 mm thick, adapted to be aligned with the reservations 310 of the overlying lower modules.

    [0126] When assembling the modules, vertical reservations 11 are therefore formed from the reservations 210, 310 and the housings 510 through all of the layers 2, 3 and 5 of the foundation 1, as illustrated in FIG. 12a.

    [0127] When the foundation includes only two layers, the vertical reservations 11 are formed from the reservations 210 and 310, the reservations 310 then taking the form of housings, as illustrated in FIG. 14.

    [0128] A plate bush 600 may be placed at the bottom of some housings 310 or 510 when pouring the slabs, which, once the modules are assembled, enables a structure to come to be fixed to the foundation for example by inserting assembly tie-rods (not represented) in the reservations 11. When these tie-rods are screwed into the plate bushes 600 the assembly of modules is consolidated through the effect of mutual compression of the modules.

    [0129] Assembling two adjacent layers by means of the anchor bushes 700 described above is effected directly during placing of the modules. These fixings are preferably disposed in the foundation with an offset, as illustrated in FIG. 12b and in FIG. 13b, which enables the solidarity of the assembly to be enhanced.

    [0130] The nesting of the bosses 260 and 360 with the housings 370 and 570 of the various layers of the foundation is illustrated in FIG. 12c and in FIG. 13c fora foundation including an upper layer 2, a lower layer 3 and a support layer 5.

    [0131] The unoccupied housings 370b enable nesting of two lower layers 3, for example if a 4-layer foundation is required.

    [0132] To produce a modular foundation 1 according to the invention the first step is for example to excavate a hole to the required depth, for example between 50 and 80 cm, and to level the bottom.

    [0133] A layer of sand may be placed on the bottom levelled in this way. The support slabs 50 are then placed to form the support layer 5, if the latter is necessary, depending on the structure to be supported.

    [0134] The prefabricated modules 20 and 30 are then placed in the excavation, fixing the modules to one another by means of the anchor bushes 700 as they are placed.

    [0135] Once the foundation has been assembled, the supported structure is for example bolted to the foundation by means of the plate bushes present in the support layer 5.

    [0136] The ducts may be placed in the internal passages formed inside the assembled module.

    [0137] Of course, the invention is not limited to the examples that have just been described.

    [0138] There may in particular be lower modules 30 including semi-cylindrical cavities on their upper face 30a in place of some horizontal reservations, as in the assembly illustrated in FIGS. 2b and 2c.

    [0139] The nesting of the layers relative to one another may be effected by means of reliefs different from the bosses 260 or 360 described above.