MODULAR SUPPORTING ELEMENT FOR MAKING RAISED AND/OR VENTILATED REINFORCED CONCRETE FLOORS

Abstract

A supporting element for cylindrical or column-shaped elements of modular elements for making raised and/or ventilated floors, includes a substantially plane base configured to be rested on the underlying floor, two or more lateral extensions arranged at sides of the plane base and coplanar with the plane base, coupling elements arranged on the portions of said lateral extensions that are far from the plane base. The supporting element includes a first series of projections arranged along a circle centered on the plane base, defining a seat in which a lower end of the cylindrical or column-shaped elements is inserted and housed, and wherein the projections of the first series are configured to adhere to the surface of the cylindrical or column-shaped element housed in the seat.

Claims

1. Supporting element for cylindrical or column-shaped elements of modular elements for making raised and/or ventilated floors, comprising a substantially plane base (B), configured to be rested on an underlying floor, two or more lateral extensions (E) arranged at sides of said plane base (B) and coplanar with said plane base (B), coupling elements (G′, G″, F) arranged on the portions of said lateral extensions (E) that are distal to said plane base (B), the supporting element comprising a first series of projections (R1) arranged along a circle centered on said plane base (B), define the defining a seat in which a lower end of the cylindrical or column-shaped elements is inserted and housed, and wherein said projections (R1) of the first series are configured to adhere to a surface of the cylindrical or column-shaped element housed in said seat.

2. The supporting element according to claim 1, wherein said plane base (B) is provided with holes (O1) or openings between each pair of consecutive projections (R1) of said first series, and wherein said holes (O1) are suited to allow identical projections (R1) of an identical modular supporting element to pass therethrough.

3. The supporting element according to claim 1, wherein said plane base (B) is provided with a second series of projections (R2) arranged along a circle that is concentric with the circle defined by said first series of projections (R1), and wherein said projections (R2) of said second series are suited to define the seat in which the lower end of the cylindrical or column-shaped elements is inserted and housed, and wherein said projections (R2) of the second series are suited to adhere to the other circular surface of the cylindrical or column-shaped elements.

4. The supporting element according to claim 3, wherein said plane base (B) is provided with holes (O2) or openings between each pair of consecutive projections (R2) of said second series, and wherein said holes (O2) or openings are suited to allow identical second series projections (R2) of an identical modular supporting element to pass therethrough.

5. The supporting element according to claim 3, wherein each projection (R1) of the first series is aligned with a corresponding projection (R2) of the second series along the direction defined by a radius of each of the two circles defined by the two series of projections (R1, R2).

6. The supporting element according to claim 3, wherein each projection (R1, R2) has a general T-shaped horizontal cross section with a first side (R1′, R2′), which corresponds to the horizontal bar of the “T” shape, facing towards the matching projections (R2, R1), and with the second side (R1″, R2″), which corresponds to the vertical bar of the “T” shape, arranged in the diametrically opposite position with respect to the matching projections (R2, R1).

7. The supporting element according to claim 3, wherein said projections (R1) of the first external series have a greater height than said projections (R2) of the second internal series.

8. The supporting element according to claim 1, wherein said mutual coupling elements (G′, G″) are matching male and female elements, so that each coupling element (G′, G″) is engagable with a corresponding mutual coupling element (G″, G′).

9. The supporting element according to claim 8, wherein each one of said mutual coupling elements (G′, G″) is provided with both the male and the female coupling portion, and wherein the male portion can be broken and removed, in such a way as to allow the coupling element to become engaged with the corresponding male or female portion of another coupling element.

10. The supporting element according to claim 1, wherein said coupling elements (F) are suited to become engaged with an edge (E′) of said lateral extensions (E) that is distal to said plane base (B) of an identical supporting element.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0036] The characteristics of the new modular supporting element for making raised and/or ventilated reinforced concrete floors will be highlighted in greater detail in the following description, with reference to the drawings that are attached hereto by way of non-limiting example.

[0037] Figures from 1 to 9 show a first example of embodiment of the new modular supporting element.

[0038] FIGS. 1, 2, 3 and 4 respectively show a plan view, an axonometric view and two details in axonometric view of the new modular supporting element.

[0039] FIG. 5 depicts an array of the modular supporting elements interconnected to each other.

[0040] FIG. 6 depicts a plurality of the modular supporting elements stacked on each other.

[0041] FIG. 7 is a detail of a portion of shown in FIG. 6.

[0042] FIG. 8 is a detail of an alternate configuration.

[0043] FIG. 9 shows an example of embodiment of the new modular supporting element having four lateral extensions (E) oriented according to four orthogonal directions.

[0044] FIGS. 10 to 13 show a second example of embodiment of the new modular supporting element.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0045] The new modular supporting element comprises a substantially plane base (B) suited to be rested on the underlying floor.

[0046] The new modular supporting element comprises, furthermore, a first series of projections (R1) arranged along a circle and suited to define the seat in which the lower end of the cylindrical or column-shaped elements is inserted and housed.

[0047] The new modular supporting element comprises also a second series of projections (R2) arranged along a circle that is concentric with the circle defined by said first series of projections (R1), and suited to adhere to the internal circular surface of the cylindrical or column-shaped elements.

[0048] The new modular supporting element comprises also two or more lateral extensions (E) arranged at the sides of said plane base (B) and coplanar with said plane base (B).

[0049] The new modular supporting element comprises, furthermore, mutual coupling elements (G′, G″) arranged on the parts of said lateral extensions (E) that are far from said plane base (B).

[0050] The first series of projections (R1) and the second series of projections (R2) are arranged along two concentric circles and constitute, together with the plane base (B), the seat in which the lower end and the lower portion of said cylindrical or column-shaped elements are inserted and housed.

[0051] Each projection of the first series (R1) is aligned with a corresponding projection of the second series (R2) along the direction defined by a radius of each of the two circles formed by the two series of projections (R1, R2).

[0052] The pairs of projections of the two series (R1, R2), one belonging to a series (R1, R2) and the matching one belonging to the other series (R2, R1), constitute a constrained housing for the lower edge of said cylindrical or column-shaped elements.

[0053] In the example illustrated above, the projections of the second series (R2), the innermost, are shorter than the projections of the first series (R1), the outermost.

[0054] All of said projections (R1, R2) have a generically T-shaped horizontal cross section, with the first side (RT, R2′), corresponding to the horizontal bar of the “T” shape, facing towards the matching projections (R2, R1), and with the second side (R1″, R2″), corresponding to the vertical bar of the “T” shape, arranged so that it is diametrically opposite the matching projections (R2, R1).

[0055] Said lateral extensions (E) are arranged at the sides of said base (B) and are joined to the base (B) itself.

[0056] Said lateral extensions (E) are arranged radially with respect to the base (B) and are orthogonal to each other.

[0057] In the example shown in FIGS. 1, 2, 3, there are three lateral extensions (E) arranged according to a generic “T” shape.

[0058] At the ends of said lateral extensions (E) there are said mutual coupling elements (G′, G″), as shown in FIG. 4, suited to connect and constrain each new modular supporting element to identical adjacent modular supporting elements.

[0059] In this example, said mutual coupling elements (G, G″) are constituted by seats (G″) and by hook-shaped parts (G) which are suited to be mutually coupled and constrained to each other.

[0060] In the example illustrated herein, at the end of each lateral extension (E) there is a mutual coupling element in the form of a seat (G″) and a mutual coupling element in the form of a hook (G). This configuration facilitates the connection of several new modular supporting elements with one another, as shown in FIG. 5.

[0061] Said plane base (B) is provided, both between each pair of consecutive projections (R1, R2) of said first series and between each pair of consecutive projections of said second series, with holes (O1, O2) or openings with size suited to allow the passage of identical projections (R1, R2) of an identical modular supporting element.

[0062] When two or more new modular supporting elements are superimposed, said holes (O1, O2) allow the passage of the projections (R1, R2) of the underlying modular supporting elements, as illustrated in FIG. 6 and in the detail shown in FIG. 7. Said superimposition of two or more new modular supporting elements, with the projections (R1, R2) of the underlying modular supporting elements inserted in said holes (O1, O2) or openings of the overlying modular supporting elements, makes it possible to limit the overall vertical dimensions of the stacked new modular supporting elements.

[0063] FIG. 8 shows in detail a second example of embodiment of a modular supporting element in which said projections (R1, R2) are provided in a smaller number and with larger cross section, and the base (B) is provided with corresponding holes (O1, O2) or openings in a smaller number and with size suited to accommodate said projections (R1, R2) of said second example of embodiment.

[0064] FIG. 9 shows an example of embodiment of the new modular supporting element having four lateral extensions (E) oriented according to four orthogonal directions. FIGS. from 10 to 13 show a second example of embodiment of the new modular supporting element.

[0065] In this second example, on the parts of said lateral extensions (E) that are far from said plane base (B) there are coupling elements (F) suited to be coupled with the edge (E) of said lateral extensions (E) that is far from said plane base (B) of an identical modular supporting element.

[0066] FIGS. 10 and 11 respectively show a plan view and an axonometric view of the second example of embodiment of the new modular supporting element.

[0067] FIG. 12 shows the ends of the lateral extensions (E) that are far from said plane base (B) of two modular supporting elements before they are coupled with each other, while FIG. 13 shows a side view of two modular supporting elements coupled with each other. In FIG. 13, for the sake of clarity, one of the two modular elements is indicated by a broken line.

[0068] The new modular element is joined to other identical modular elements, each rotated by 180 degrees with respect to the adjacent elements, as shown in FIG. 5. These are the schematic outlines that are sufficient to the expert in the art to carry out the invention, consequently, upon implementation, variants may be developed which do not affect the substance of the innovative concept introduced herein. Therefore, with reference to the above description and the attached drawings, the following claims are expressed.