CS229624B2 - Building element for the reinforced outer retaining wall of the earth work - Google Patents

Description

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A cavity for a reinforced outer ground support wall formed with a T-shaped frontal contour provided with an anchor, an anchoring element, and at least one guide and connecting projection corresponding to a groove on the opposite bearing surface .

As is well known, lattice walls, such as a motorway, a bridge and an access ramp, an upper and the like are increasingly reinforced with retaining walls. These retaining walls are retaining walls constructed of steel-concrete or reinforced concrete. the parts in which the support wall stability, which consists in retaining the tensile forces occurring in the soil, is secured by anchors firmly connected to the supporting wall components and embedded approximately in the soil. photo stiffening improves, similarly to the reinforcement of reinforced concrete, the mechanical properties of the soil, as the retaining wall retains the water-stress to the frictional thrust between the soil and the stiffener.

It is also known that the guiding and interconnection of the supporting walls of the retaining wall placed one above the other is secured by steel pins inserted into the structural parts of the supporting wall and projecting out of this wall and by recesses for inserting the steel pins. Therefore, in this \ t

"SO - 229 824 falls concreted for anchoring steel mesh anchors in which steel anchorage elements are fastened. Although this solution has great advantages compared to retaining walls that are concrete and build at their destination, A significant drawback is that it is not possible to satisfactorily solve the protection of anchoring elements and anchoring parts of steel, which are made of stainless steel, even by the special coating of the guide pins or by the use of stainless steel. In addition, the anchoring elements are further improved by the special anti-corrosion treatment of the surface of the guide pins or by the use of stainless steel, as a further disadvantage of the aforementioned construction of the retaining wall is that the individual elements of the supporting wall are subjected to local deformation due to local inevitability. and to the great extraordinary stress that the joining of the wall components is released, thereby greatly affecting the stability of the wall. SUMMARY OF THE INVENTION It is an object of the present invention to provide a structural component for a reinforced supporting wall of an earthwork which overcomes the aforementioned drawbacks. The object of the present invention is to provide a prefabricated structural element for the construction of reinforced retaining walls which serve as external support surfaces of said structures, by means of which it is possible to maintain a stable structure.

2 »KM casting support walls built of these parts extend the service life considerably even when the soil drops. it

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The object of the present invention is to improve the prefabricated structure of the reinforced earthwork support wall formed with an H-shaped front end contour, an anchor, an anchor fastener, and at least one connecting and connecting tongue on one of its loading surfaces. , to which the groove is on the opposite loading surface. The essence of the invention is that on its upper and lower surface and along its troughs 11, the inclined sides are inclined towards the center of the building part for rebinding the components by self-bonding and the anchoring element no. on the side of the building component, it is formed by the end of the anchor of the structural component of the non-metallic material for insertion into the shaped recess in the positioning of the component. The rebates on the upper loading surface, parallel to the web and along the upper loading surface of the recess, are guided on the front side of the building component and the rebate on the lower surface and along the lower loading surface of the recesses are provided on the underside of the building component, on the opposing surfaces and depressions of the vertically adjacent components, the rebates are reversed. The construction element according to the invention has a number of advantages over known components. The trapezoidal depressions, the sides of which converge to the center of the building component, facilitate the connection of the supporting wall components, in addition to which the supporting wall becomes flexible. In this case, the stress exerted in the plane of the wall is transferred to the individual building elements, thereby achieving effective cooperation between the wall components. By forming the rebates of the loading surfaces, alternately on the face and the underside of the webs and the recesses of the building component, it achieves a continuous support wall without the need for any necessary work to clog the openings. By producing an anchoring element for non-metallic material, the danger of corrosion is eliminated, and not only anchoring, but the wall is flexible. An advantage is also the belt shape of the anchors with a roughened surface, since it enables the construction of the supporting walls of the building elements according to the invention even in the case of earthworks made of bulk material with low internal friction. The masonry of the prefabricated building components according to the invention is facilitated by inserting them side by side and overhead. The creation of semi-rebate and rebate structural components is a relative displacement of the individual components even when the soil is down. In the following, the invention is explained in detail with reference to the drawings, in which: Figure 1 is a front view of an embodiment of a retaining wall constructed of components according to the invention; Figure 2 is a sectional view of II-II of Figure 1; Fig. 4 is a cross-sectional view taken along line -V in Fig. 3; Fig. 6 is a section along line VI-VI in Fig. 3; 1 and 2, the object 10 of the earthwork is a support wall 12 formed of the building elements 14 of the retaining wall 11. These building blocks 6, 6, 14 of the supporting structure 12 are assembled side by side and above each other. In the exemplary embodiment shown, the horizontal row l0 of the building wall 14 of the retaining wall 14 is built-in with overlapping κ. by half the length of the supporting walls 14 of the retaining wall 12. The building wall 11 of the retaining wall 14 is provided with anchors 16 and a guide and connecting element 20 for connecting the anchor lb with the support 1g.

According to the invention, the support 14 of the supporting wall 12 is formed by a yoke plate with a T-shaped front contour, the guide and connecting element of which is formed on the contact surface 22 of the building part 14 of the retaining wall 12.bT of the illustrated example is a guide and connecting element 20 a projection 24 of the trapezoidal cross-section, the groove 2 ', which fits the tongue 24 (FIGS. 3, 4) on the opposite contact surface 2 ' 22 of the retaining wall 14 of the supporting wall 12 is provided with a plurality of projections. The lower and lower recesses 30 of the supporting panel 12 have a trapezoidal shape with the inclination of the oblique sides of the outer wall towards the center of the building panel 14 of the supporting wall 12. The partition 14 of the supporting wall 12 are, as shown in the drawing, on the upper loading surfaces 32 and the lower loading surfaces 34 and with the recesses 30 provided with additional coupling pins and protrusions? improving the mutual matching of the building elements of the 14-wall wall 12. 229 924

The rebates on the upper loading surface portion 32 and along the upper portion of the depression 30 are provided on the front side of the building panel 14 and are provided on the lower loading surface 34 and along the loading surface of the recess 11 on the reverse side of the building component 14 and opposite. The recesses 30 of the building members 14, 34 and 24, 32, respectively, and the recesses 30 of the building members 14 abutting themselves in the vertical direction are in reverse. The articles 18 of the present invention are made of a non-metallic material, in the present example of glass fiber reinforced polyester artificial resin? and have the shape of belts. The surfaces of the anchors 18 are ground-hardened for better cohesion. The guide and connecting element 20 for connecting the anchors 18 to the support wall 12 according to the invention is formed by the end 38 of the armature 18 extending into the shaped recess 36 in the building part 14. In the example described, the end 36 of the anchors 18 has a T-shape which slides into the a T-shaped recess 10 and the outer side 40 of the retaining wall 14 of the retaining wall 12 are closed. From the recess 3d, the end 8 of the anchors 18 is fastened, and in this way the desired rigid connection between the structural part 14 of the retaining wall 12 and the anchors 18 of the building component according to the invention can be used in the construction of the reinforced supporting wall of any ground work.

Claims (1)

1. A component for a reinforced external earth wall, constructed with an h-shaped customs outline, provided with an anchor, an anchorage element, and one of the following: \ t of the plurality of at least one guiding and connecting tongue, the man is at the opposite surface of the groove, characterized in that it is at its upper and lower bearing surface (32, 34) and the trapezoidal recesses (30) of the Uu At the center of the building part (14), the half-rebate of the building elements (14) and the element (20) for fastening the anchor (1G) on the reverse side of the building part (14) is provided with an anchor end (1G). ) of a non-metallic material for insertion into a shaped recess (35) in the building component (14). 2. Building component according to claim 1, characterized in that the soles on a part of the upper loading surface (32) and along the upper bed. the recesses (30) are provided on the front end of the building component (14) and the rebate on the lower loading surface (34) and the sub-floor loading surface of the recess (30) are provided on the side of the building component (14), The rebates are in the opposite direction provided in the bearing surfaces (34, 32) and in the recesses (30) of the vertically adjacent building elements (14). * rjbc ·