FR2851779A1 - Prefabricated girder comprises two metallic parallel beams having web plate and lower web buried in concrete base plate - Google Patents

Abstract

The prefabricated girder comprises two metallic parallel beams (1) having a web plate (2) and a lower web (3) which is buried in a concrete base plate (5). There is a coupling iron (13) integral with the web plate for laterally extending the base plate.

Description

The present invention relates to a prefabricated building element.

  Such a prefabricated building element can be used horizontally, for example to form a spar of a crossing structure, or vertically, for example to form a retaining wall.

  BACKGROUND OF THE INVENTION Prefabricated construction elements are known comprising a metal beam having a central core on either side of which extend an upper wing and a lower wing, at least the lower wing being embedded in a concrete base. In general, the beam has been elastically deformed at the time of its coating in the concrete base in such a way that after the deformation has been relaxed, the concrete base is prestressed.

  To produce a horizontal structure by means of such prefabricated building elements, the prefabricated building elements are arranged side by side in such a way that the ends of their flanges rest on supports. Concrete is then poured on the prefabricated construction elements so as to cover the beams and form the upper surface of the structure.

  This structure is satisfactory for the production of works with little transverse stress, such as floors. On the other hand, in the context of highly stressed structures, such as bridges, it turns out that this structure poses problems of resumption of transverse forces such as shear forces and transverse bending.

  OBJECT OF THE INVENTION An object of the invention is to propose a means making it possible to improve the transverse resistance of the fabrics produced by means of such prefabricated construction elements.

  BRIEF DESCRIPTION OF THE INVENTION For this purpose, there is provided, according to the invention, a prefabricated construction element comprising at least 5 two substantially parallel metal beams having at least one core and one wing, at least the wing being embedded in a concrete sole, the element comprising at least one coupling iron secured to the core to extend laterally projecting from the sole.

  Thus, the coupling irons make it possible to reinforce the transverse connection of the adjacent prefabricated elements during the pouring of the concrete by ensuring a better distribution of the shear forces and a better recovery of the bending stresses when dirty.

  Other characteristics and advantages of the invention will emerge on reading the following description of particular non-limiting embodiments of the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

  Reference will be made to the accompanying drawings, in which: - Figure 1 is a cross-sectional view of a prefabricated building element according to a first embodiment of the invention, - Figures 2 and 3 are views similar to Figure 1 of a prefabricated building element according to second and third embodiments, Figures 4 and 5 are views similar to Figure 1 of two prefabricated building elements according to the fourth and fifth embodiments production.

  DETAILED DESCRIPTION OF THE INVENTION

  Referring to Figures 1 to 3, the prefabricated brick construction element comprises two metal beams 1, substantially parallel to each other, having an I-shaped section and comprising a central core 2 framed by a lower wing 3 and an upper wing 4. The lower wing 3 and an adjoining portion of the central core 2 are embedded in a concrete base 5.

  At the time of manufacture of the prefabricated construction element, the beams 1 could be flexed before their lower part was embedded in concrete to form the flange 5. After the concrete had dried, the bending force is released so as to prestress the concrete footing 5. The concrete footing 5 can also incorporate prestressing elements such as adherent cables tensioned before the concrete dries or cables tensioned after the concrete dries.

  The prefabricated construction element comprises irons connecting the metal beams to each other and coupling irons which extend transversely to the core 2 of the metal beams 1.

  In the simplest embodiment shown in FIG. 3, the connecting iron and the coupling irons consist of a rod 10 which crosses the central core 2 of the two metal beams 1 and is fixed by welding to it. this. The rod 10 thus comprises a central portion 11 forming the connecting iron and two ends 12 which extend laterally projecting from the sole and which are shaped in a loop to form the coupling bars. The loop can be opened like a hook or closed like a ring.

  In the embodiment of Figure 1, the coupling bars each comprise a rod 13 which passes through the central core of a metal beam 1 and is welded thereto. Each rod 13 secured to a metal beam 1 comprises, on the side opposite to the other metal beam 35, an end 14 shaped in a loop which extends projecting from the sole 5 and, on the side of the other metal beam 1 , a threaded end 15 which is engaged in one end of a lantern 16, the other end of which is engaged on the threaded end 15 of the rod 13 of the corresponding coupling iron of the other beam 1. Thus, the part of the rods 13 extending between the beams 1 provides the connection between them and the lantern 16 constitutes a means of attachment to one another of the rods 13 opposite. The lantern 16 can incidentally be used to adjust the spacing of the beams.

  Other means for fixing rods 13 to one another can be envisaged, such as welding.

  In the embodiment of FIG. 2, the prefabricated construction element comprises a connecting iron 15 constituted by a rod 17 threaded at its two ends 18, 19 and received in holes made in the central core 2 of each beam 1. Nuts 20 are screwed onto the threaded ends 18, 19 on either side of the central core 2 to tighten the latter between them.

  The coupling bars are referenced at 6 in Figure 2.

  Each coupling iron 6 consists of a rod having one end 7 bolted to the central core 2 and, on the other hand, a free end 8 which is shaped as a plug and extends laterally projecting from the sole. 5.

  The end 7 is here threaded and engaged in a hole in the central core 2. Nuts 9 are screwed onto the end 7 on either side of the central core 2 to clamp the latter between them. Alternatively, the hole in the central core 2 can be tapped. A single nut 9 can then be used to form a lock nut.

  The coupling bars - which extend on one side of the central core 2 - are here offset vertically with respect to the connecting bars - which extend on the other side of the central core 2. In as a variant, the coupling irons 6 can be offset horizontally relative to the connecting irons 17 which extend on the other side of the central core 2.

  In Figure 4, there is shown a brick prefa5 element generally designated at 22 according to the fifth embodiment according to two variants.

  In both variants, the prefabricated building element comprises three metal beams 1 having an I-section and comprising a central core 2 framed by a lower wing 3 and an upper wing 4.

  The lower wing 3 and the adjoining portion of the central core 2 are embedded in a concrete base 5.

  The prefabricated construction element 22.A according to the first variant comprises coupling bars 23 which pass through the central webs 2 of the beams 1 and which are welded to these so as to have free ends 24 shaped in a loop which s' extend laterally projecting from the sole 5 according to a structure similar to that of FIG. 3.

  In the prefabricated construction element 22.B of the second variant, one of the beams 1 located outside has a face 25, opposite the other beams, which is covered with a concrete coating 26 so as to form a bank. This avoids the costly realization of a formwork on the site to form this bank. The concrete coating 26 forming said bank also coats the part of the upper wing projecting from the face 25.

  The prefabricated construction element 22.B comprises coupling bars 27 which pass through the central webs 2 of the beams 1 and which are welded to them so as to have on one side an end 28 formed in a loop extending projecting from the sole, and on the other side an end 29 shaped in a loop and embedded in the concrete coating 26 forming the bank.

  Referring to Figure 5, the prefabricated building element according to the fifth embodiment, generally designated at 30, is made according to two va5 laughing.

  For both variants, the prefabricated construction element 30 comprises three metal beams 1 having an I-section and comprising a central core 2 framed by a lower wing 3 and an upper wing 10 4. The lower wings 3 and the adjoining portion of the central cores 2 are embedded in a concrete base 5.

  Concrete is also placed between the metal beams 2 and on the upper flanges 4 thereof. The sole 5 extends in lateral projection from the rest of the prefabricated construction element 30 in such a way that the prefabricated construction elements 30 can be joined to one another by their sole 5, leaving a reserve 31 between them.

  According to the first variant, the prefabricated element 20 of construction 30.A comprises coupling bars 32 which pass through the central webs 2 of the metal beams 1 and the concrete placed between the metal beams 1. The coupling bars are welded to the central cores 2 and have ends 32, 34 which are shaped as bou25 cle and which extend laterally projecting from the soles 5 in the reserves 31.

  In the prefabricated construction element 30.B according to the second variant, the central core 2 of one of the metal beams 1, located outside the two au30 very, has its face 35 opposite to the other beams 1 which is covered of a concrete coating 36, so as to form a bank.

  The prefabricated construction element 30.B comprises coupling bars 37 which pass through the central cores 2 of the metal beams 1 and the concrete placed between the central cores 2 of the metal beams 1. The coupling bars 37 are welded to the central cores 2 and have on one side an end 38 shaped in a loop which extends laterally projecting from the sole 5 and on the other side an end 21 shaped in a loop which is embedded in the concrete coating 36 forming the bank.

  Of course, the invention is not limited to the embodiment described and it is possible to make variant embodiments without departing from the scope of the invention as defined by the claims.

  In particular, the invention can be achieved by combining different characteristics drawn from the embodiments described.

  Furthermore, the metal beams may have sections of shapes different from that described, for example in H or in C.

Claims (9)

  1. Prefabricated building element comprising at least two metal beams (1) substantially parallel to each other having at least one core (2) and one wing (3), at least the wing being embedded in a concrete base (5), characterized in that it comprises at least one coupling iron (6; 10; 13; 21; 23; 27; 32; 37) integral with the core to extend laterally projecting from the sole.   2. Prefabricated building element according to claim 1, characterized in that the coupling iron (10) is welded to the core (2) and comprises at least one free end (12) shaped in a loop.   3. Prefabricated building element according to claim 1, characterized in that the coupling iron (6) has one end (7) bolted to the core.   4. Prefabricated construction element according to claim 3, characterized in that the coupling iron 20 (6) comprises opposite the bolted end (7) a free end (8) shaped in a loop.   5. Prefabricated building element according to claim 1, characterized in that it comprises a connecting iron (11; 17, 15, 16) having solitary ends of the webs of the metal beams.   6. Prefabricated building element according to claim 5, characterized in that the connecting iron comprises two rods (15) having an end each secured to a core (2) of one of the beams (1) and an opposite end 30 threaded engaged in a lantern (16).   7. Prefabricated building element according to claim 5, characterized in that the coupling bars (11) and the connecting iron (12) are in one piece (10).   8. Prefabricated building element according to claim 1, characterized in that at least one face (25; 35) of the core (2) being covered with concrete (26; 36), at least one coupling iron ( 27; 37) extends from this face and has a free end (29; 21) embedded in the concrete.   9. Prefabricated building element according to claim 8, characterized in that the free end (29; 21) is shaped in a loop.