FR2992335A1 - SUPPORT STRUCTURE, ASSOCIATED SUPPORTING DEVICE, AND SKIABLE TRACK LEADING DEVICE USING THE SAME - Google Patents

Abstract

The invention relates to a support structure (1), comprising: - an anchor rod (3), intended to be driven into the ground of a slope to form an anchor, - two intertwined metal bars, forming a central cross (5), - four beams, forming a pyramidal point (7), arranged on the branches of the central cross (5), the top of the pyramidal point (7) pointing in the opposite direction to that of the end self-drilling screw (3) intended to be driven into the ground and having an orifice (71) through which the self-drilling screw (3) passes, characterized in that it further comprises: a frame (9) formed of beams; , surrounding the central cross (5) and attached thereto at the ends of the branches of the central cross (9). The invention also relates to the support device (100) using the structures (1) connected to one another, and to a runway edge device the ski (200) using such a support device (100).

Description

The present invention relates to a retaining structure, in particular of the type used to prepare or reinforce earthworks and in the field of earthworks. development of sloping land. The invention also relates to a support device obtained by adding structures, and to a ski slope edge layout using such a device. It is known to use walls, of stone, metal or wood generally, to create support structures. Such structures serve, for example, to retain soil in a sloping terrain, so that a strip of flat terrain can be constructed, especially for building a road or a building. These earthworks structures are subject to strong constraints, due to the weight of the earth retained, and the structures must be designed to resist. One known example is the retaining wall, also known as a retaining wall. Such a wall is usually built of stone, concrete, or metal sheet piling in a slope. The earth is held behind the wall, and presses against it in an effort that tends to push the wall and to tilt it. It is known, for example, to anchor the retaining wall to one or more dead bodies, to associate a cantilevered sole, to add buttresses or to push a portion of the wall into the ground for resist the efforts mentioned above, when the weight alone of the wall is no longer sufficient. However, these methods are expensive in terms of resources and money, and often laborious to implement. For example, sheet piles require vibrators or 25 pistons to be driven. Dead bodies for anchoring should, if not naturally present, be moved and buried properly, and the cantilevered soles should also be buried deep enough to play their part. BRT0998 - AcroSol -2- In order to at least partially meet the previously mentioned need, the invention relates to a support structure, comprising: - an anchor rod, intended to be driven into the ground of a slope to form an anchorage, - two interlocking metal bars, forming a central cross, four beams, forming a pyramidal point, arranged on the branches of the central cross, the top of the pyramidal point pointing in the opposite direction to that of the end of the anchor rod intended to be driven into the ground and having an orifice through which the anchor rod passes, characterized in that it further comprises: a frame formed of beams, surrounding the central cross and attached thereto; at the ends of the branches of the central cross. The support structure thus obtained is feasible at low cost, and can be implemented easily without the need for heavy machinery. The retaining structure may further have one or more of the following features, taken alone or in combination. The anchor rod, the central cross, the pyramidal tip, and the frame are made of steel. The anchor rod may be a self-drilling screw, or a rod intended to be engaged with a cement or concrete dead body. It further comprises a retention layer disposed on the frame, preferably a metal grid welded to the frame. It has a slash at each corner of the frame, and the ends of the branches of the central cross are attached to said slashes. BRT0998 - AcroSol -3- The ends of the branches of the central cross are welded at a certain distance from the corners of the frame, on a straight portion of the beams forming the frame. It comprises fasteners arranged on the frame, intended to engage with fasteners of a nearby retaining structure.

The invention also relates to the retaining device characterized in that it comprises a plurality of support structures as described above, wherein the retaining structures are connected by fasteners arranged on the frame. In particular, for such a retaining device, the retaining structures can be aligned in staggered rows. Finally, the invention also relates to a device for skateboard edge arrangement comprising a support device as previously described, further comprising at least one panel attached to the upper edge of the frame of the structure or structures of support forming the upper line of the retaining device, 15 for retaining a snowpack. Said device may then comprise vertical rods attached to the top of the pyramidal tip, to which is attached a safety net. The lower edge of said safety net is then potentially attached by fast-opening rings to said at least one panel. Other characteristics and advantages of the invention will emerge more clearly on reading the following description, given by way of illustrative and nonlimiting example, and the appended drawings among which: FIGS. 1a, 1b, 1c show in a variety of views, an embodiment of a supporting structure, FIG. 2 shows an alternative embodiment of a retaining structure, FIG. 3 shows the retaining structure of FIGS. 1a, 1b, 1c in the state. Figure 4 shows a support device obtained from structures such as those of the preceding figures, - Figure 5 shows an alternative embodiment of the retaining structure according to the invention. FIG. 6 shows a device for arranging a runway edge. In FIG. 1a, 1b, 1c is schematically shown a structure 1 of reinforcement of the ground according to the invention, respectively of face (1a), of profile (FIG. ) and three-quarters (1c). Such a support structure 1 comprises an anchor rod 3, a central cross 5, a pyramidal tip 7, and a frame 9. The anchor rod is here produced in the form of a self-drilling screw 3, partially visible in FIG. Figure lb is made of steel, in the form of a shaft with a thread. This self-drilling screw 3 is called to be driven into the ground by one of its ends, in particular by screwing the thread into the ground by rotation of the shaft, which makes it possible to tapping around the hole formed by the This tapping retains the screw 3 once it is depressed. The central cross 5 is composed of two intersecting metal bars, and carries the pyramidal point 7. Said pyramidal tip 7 has four beams, forming the edges of a pyramid whose base is in the plane of the central cross 5. The four beams meet at the tip of the pyramid, which is an orifice 71, in which is passed the self-drilling screw 3. The top of the pyramidal tip 7 points in the opposite direction to that of the end of the self-drilling screw 3 intended to be buried in the ground. The screw 3 is retained in translation at the orifice 71, for example via a screw head of greater diameter or with the aid of one or more nuts. Alternatively, the anchor rod 3 may be a rod, particularly solid, intended to be surrounded by cement or concrete. The rod 3 is then put in place in a prior art in which the cement or concrete has been injected, then the cement or concrete is allowed to take, which then acts as a dead body. For better strength, the outer wall of at least the end portion of the rod 3 may be knurled, serrated or at least roughly frosted for better attachment of cement or concrete.

The central cross 5 comprises at its center a bore 51, through which the self-drilling screw 3 is passed. This piercing 51 contributes, with the orifice 71, to constrain the self-drilling screw 3. In particular, the bore 51 contributes to the alignment. said screw 3 relative to the plane of the central cross 5, which is, at the establishment of the structure 1 in the frame 10 of the retaining of a slope, disposed vertically, generally approximately aligned with a level line of the slope, ie perpendicular to the gradient of the slope. In an alternative use, the structure 1 is used to reinforce a plumb, for example such as an embankment or a cliff over a road. The structure 1 is then pressed by the screw 3 against the plumb, and then makes it possible to slow the erosion and to prevent landslides. The four beams forming the pyramidal tip 7 are attached by their base to the metal bars forming the central cross 5, at an angle of 10 to 40 °, preferably 30 °, by welding. In particular, the metal bars forming the central cross 5 and the beams 20 forming the pyramidal tip 7 are made of steel. These bars and beams may for example be segments of beams with square section, about ten centimeters of side, typically 5 to 20 cm, hollow, with walls with a thickness of 3 to 10 mm. Alternatively, these bars and beams may be H-section beam segments 25, with a central core and side wings (IPN type beam). The pyramidal tip 7 protrudes from the plane containing the central cross 5, its top intended to point in the opposite direction to the ground retained once the structure 1 BRT0998 - AcroSol -6- set up, thus defining a front face of the structure 1, the screw 3 is thus directed towards the rear of the structure (buried side). The connection between the bars forming the central cross 5 and the beams forming the pyramidal tip 7 may be reinforced by metal reinforcements 11, here in the form of metal plates, bent in their plane, the two sections of the elbow coming respectively against the bars. and the beams, and being welded or screwed to them. The frame 9 comprises four metal beams, assembled in a rectangle. The beams may in particular be of the same type as the beams of the pyramidal tip 7 and / or the central cross 5. The frame 9 is connected to the ends of the branches of the central cross 5, which are here welded to him. In particular, the frame 9 is here elongated with respect to the central cross 5. In this way, the ends of the branches of the central cross 5 are welded at a distance from the corners of the frame 9, on a flat lateral surface of the This configuration makes it possible to hold the branch ends of the central cross 5 by means of a single weld, made in one piece over the entire cross section of the beam forming a central cross branch 5. Such a weld is more economical and stronger. The frame 9 can typically have a size of the order of three meters side, the other elements (pyramidal tip 7, central cross 5) are dimensioned accordingly. The self-tapping screw 3 is a length of several meters, adapted to the estimated depth of drilling for good performance and a diameter of a few centimeters, typically 2 to 8cm. Figure 2 shows an alternative embodiment, in which the frame 9 includes slits 13 in the corners, forming a lattice. The branch ends of the central cross 5 are then welded to said slashes 13. The slits 13 may be beam portions identical to those used for the rest of the structure 1. BRT0998 - AcroSol -7- Figure 3 shows the Structure 1 of Figures la, lb, the installed state. To proceed with the installation, the structure 1 is placed approximately vertically (or inclined according to the desired plumb), the self-drilling screw 3 is pressed into the ground until a sufficiently hard layer 15 is obtained, for example the rock underlying if it is accessible. The screw 3 is then partially inserted into said hard layer 15, and taps into it, which fixes it with respect to the hard layer 15. If the hard layer 15 is too hard to allow a direct depression, a pre-drilling can be performed before screwing screw 3, so that said screw 3 only practices tapping. The structure 1 comprises a retention layer 17 disposed on the frame 9, on the face-to-ground side thereof. The retention layer 17 is advantageously a metal grid (stainless steel in particular) welded to the frame 9, and possibly to the central cross 5. Alternatively, said retention layer 17 may for example be a wooden panel, plastic or metal, which will then have to be pierced with holes for a flow of water. The space between the slope and the structure 1 is filled with embankment 19, for example earth, rubble, or sand. The embankment 19 is retained by the retention layer 17, the resulting pressure is applied on the central cross 5 and the frame 9. This resulting pressure is counteracted by the self-drilling screw 3, in engagement with the hard layer 15, which transmits the force reaction via the pyramidal tip 7, whose beams transmit the forces to the central cross 5.

The central cross 5 then transmits the forces to the frame 9. The pyramidal structure of the point 7 here acts as a vault in the transmission of the forces, so that the latter, starting from the orifice 71, are distributed over a surface. bigger possible. In particular, it is advantageous for the connection between the screw 3 and the orifice 71 to allow the adjustment of the length of the anchor rod 3, which is the case with the nut or nuts and / or with a self-locking screw retained. in translation to the orifice 71. Indeed, by making it possible to shorten the length of the anchoring rod 3 used, a prestressing of the ground behind the structure 1 is carried out by means of the forces transmitted during a shortening BRT0998 - AcroSol -8 - The length of the anchor rod 3. This shortening can be achieved after the implementation of said structure 1 because of the accessibility of the orifice 71 located on the apparent face of the structure 1. This preload reduces uncontrolled and subsequent settlement of the soil retained, and / or slow erosion by soil compaction.

Figure 4 shows a plurality of structures 1, implemented side by side, to form a support device 100. The structures 1 are here aligned in rows, which are themselves arranged on each other. The rows may in particular be shifted, with respect to the following, so that the supporting structures 1 are staggered in the retaining device 100. In particular, each structure 1 comprises fasteners 21, which are arranged on the frame 9 so as to engage with a supporting structure 1 neighbor, when said structures 1 are arranged side by side to achieve a tiling of the plumb plane to support. These fasteners 21 are, in the examples shown pierced protruding tabs, in which is inserted a pin. Other embodiments may be envisaged, such as rings and associated hooks. FIG. 5 shows an alternative embodiment of a support structure 1. In this alternative embodiment, the orifice 71 at the top of the pyramidal tip 7 is hinged by means of a hinge 73. The piercing 51 is carried by a sliding connection 53, movable along rails 55. The rails 55 comprise parallel metal bars, two in number and starting from the center of the central cross 5, welded to the frame 9, and forming a support for the piercing 51 carried by a slidable plate 25 along the parallel metal bars. Due to the presence of the hinge 73 and the slide connection 53, the angle formed by the self-drilling screw 3 with the frame 9 and the central cross 5 can be adjusted. For BRT0998-AcroSol -9- maintain said angle, a holding hole 57 is provided at the slide connection 53. By adjusting the length of self-drilling screw 3 between the two orifices 71, 57, by means, for example, of a device with nut and lock nut, the angle between the self-drilling screw 3 and the frame 9 is adjusted. Alternatively, the orifice 71 and the bore 51 may comprise a threading engagement with the screw thread of the screw 3. The embodiment shown also comprises feet 23, arranged on the side of the frame 9 intended to be in contact with each other. with the ground. These feet 23 can be adjustable in height to allow an adjustment of the height of the structure 1, and / or be provided with coatings and forms for better grip on the ground.

Such support structures 1 may in particular be used to prevent an avalanche, being arranged regularly on a slope before heavy snowfall. The retaining structures 1 thus arranged retain the snow which is then deposited in place of the embankment 19. It is then possible to influence the amount of snow retained by tilting the frame 9 (and hence the cross 5 and the point 7): if the retaining structure 1 is strongly inclined relative to the normal ground, it will retain only little snow but will be quickly covered, if on the other hand it is kept close to normal ground, it will be later covered but will retain a larger amount of snow. By modifying the inclination of the retaining structures 1, the volume of snow 20 retained by the structures 1 can be adapted to the amount of snow expected. The retaining structure 1 and the retaining device 100 according to the invention are easily installable, and in particular do not require heavy machinery for the insertion of supporting elements, in contrast to, for example, piles.

The retaining device 100 may therefore be installed in potentially more remote or difficult to access locations, and / or at a lower cost. The presence of the frame 9 and the fasteners 21 carried by it makes it easier and more solid to associate the structures 1 with one another to form the associated retaining device 100. Figure 6 shows a ski slope edge arrangement device 200 comprising a support device 100 as previously mentioned. The runway edge arrangement 200 is intended to be implemented on the slopes of said ski slopes at which the snow, pushed by the skiers, falls gradually out of the runway, resulting in premature closure. The arrangement device 200 comprises a support device 100, forming with the earth that it holds a plumb, marking in fact the limit of the track. In FIG. 5, the retaining device 100 comprises a single line of reinforcement structures 1, however, it is possible to produce a layout device 200 with several lines of structures 1. The upper line of structures 1 limits the height plumb, corresponding to the hard ground edge, without the snow. Said upper structural line 1 of the retaining device 100 carries bases 23 which carry vertical posts 25. These vertical posts 25 have two lateral notches, for example having an H section with a central core and side wings. Between the lateral notches of two consecutive posts 25, one or more panels 27 are inserted. The panel or panels 25 are intended to retain the snowpack 28 which is deposited on the embankment 19 behind the support structures. The panels 27 are preferably of wood, of a height corresponding to the expected thickness of the snowpack 28. Advantageously, each panel 27 is composed of a plurality of longitudinal planks, which can be placed one above the other and removed to adjust the panel height 27 to that of the snowpack. The dimensions of such boards are, for example 225mm wide, 75mm thick and 4500mm long. If there is a significant fall or melting of snow, the number of boards stacked in height can be adapted by the trackers. BRT0998 - AcroSol -11- The upper edge of the panels may additionally be covered with a metal angle (not shown) to prevent contact with a snow groomer damaging the arrangement 200. The device 200 may further comprise a safety net 29, 5 stretched by cables 33 above the panels 27, carried by vertical ropes. The vertical yards 35 are at their base integral with the top of the pyramidal tip 7. The yards 35 are tubes, metal, plastic or polymers, a height of a few meters. Their lower portion is straight, while the upper portion is curved, so that the upper end of the penis 35 is vertical to the panels 27. The management device here further comprises reinforcement arches 37, which are arranged on the upper limit bar of the frame 9, convex side outwardly. The reinforcing arches 37 comprise at their top a rod attachment 39, which solidifies the rod 35 and the reinforcing arch 37. The reinforcement arches 37 reinforce the rods 35 in their position. The safety net 29 is attached at its lower edge to the vertical rails 25. In addition, it is possible to include a system of tensioners for the safety net 29. For example, the vertical yards can be tensioned by flexion .

To avoid the formation of a hole under the safety net 29 as is formed in commonly used simple thread systems (with simply posts between which thread 29 is stretched), quick-opening rings, such as that carabiners or hooks said pigtail, can be positioned at regular distance on the panels 27, and a braided cable in the safety net 29 is then pasted in said rings fast opening and taut, for example at by means of a jack. By allowing a steeper plumb, the retaining device 100 of the runway edge device 200 widens said runway: an additional flat portion can be developed where, without support, the ground would collapse as far as possible. BRT0998 - AcroSol -12- more natural. In addition, the retaining structures 1 used to form the retaining device 100 form an appropriate base forming a support for the panels 27 and the safety net 29. The panels 27 retain the snow from the edges of the track, which is so undefined. progressively by the skiers to the outside, and the safety net 29 prevents a skier from falling into the plumb course formed by means of the support device 100. The support device 100 is preferably implemented before the first falls of snow and can remain in place after the melting of it for several 10 years. The device can be used off-season for slopes that offer downhill biking or other means of locomotion, and slows the erosion of the runway edge during the thaw. BRT0998 - AcroSol

Claims (14)

REVENDICATIONS1. Retaining structure, comprising: - an anchor rod (3), intended to be driven into the ground of a slope to form an anchor, - two intermeshing metal bars, forming a central cross (5), - four beams, forming a pyramidal tip (7), arranged on the branches of the central cross (5), the apex of the pyramidal tip (7) pointing in the opposite direction to that of the end of the anchor rod (3) intended to be driven into the ground and having an orifice (71) through which the anchor rod (3) passes, characterized in that it further comprises: a frame (9) formed of beams, surrounding the central cross (5). ) and attached to it at the ends of the branches of the central cross (9). 2. Structure according to claim 1, characterized in that the anchor rod (3), the central cross (5), the pyramidal tip (7), and the frame (9) are made of steel. 3. Structure according to claim 1 or 2, characterized in that the anchor rod (3) is a self-drilling screw. 4. Structure according to claim 1 or 2, characterized in that the anchor rod (3) is a rod intended to engage with a dead body made of cement or concrete. 5. Structure according to one of claims 1 to 4, characterized in that it further comprises a retention layer (17) disposed on the frame (9). 6. Structure according to claim 5, characterized in that the retention layer BRT0998 - AcroSol-14- (17) is a metal grid welded to the frame (9). 7. Structure according to one of claims 1 to 6, characterized in that it comprises a slash (13) at each corner of the frame, and in that the ends of the branches of the central cross (5) are fixed to said slashes (13). 8. Structure according to one of claims 1 to 6, characterized in that the ends of the branches of the central cross (5) are welded at a distance from the corners of the frame (9), on a straight portion of the beams forming the frame (9). 9. Structure according to one of the preceding claims, characterized in that it comprises fasteners (21) arranged on the frame (9) intended to engage with fasteners (21) of a retaining structure (1). ) neighbor. 10. Retaining device, characterized in that it comprises a plurality of retaining structures (1), said retaining structures (1) comprising: - an anchor rod (3), intended to be driven into the ground of a slope to form an anchor, - two intersecting metal bars, forming a central cross (5), four beams, forming a pyramidal point (7), arranged on the branches of the central cross (5), the top of the tip pyramidal (7) pointing in the opposite direction to that of the anchor rod (3) and having an orifice (71) through which the anchor rod (3) passes, a frame (9) formed of beams surrounding the central cross (5) and attached thereto at the ends of the branches of the central cross (5), wherein retaining structures are connected by fasteners (21) arranged on the frame (9). BRT0998 - AcroSol-15- 11. Device according to claim 10, characterized in that the retaining structures (1) are aligned in staggered rows. 12. A ski slope edge arrangement device (200), characterized in that it comprises at least one retaining device (100), comprising a plurality of retaining structures (1), said structures comprising: - a anchor rod (3), intended to be driven into the ground of a slope to form an anchor, - two intermeshing metal bars, forming a central cross (5), four beams, forming a pyramidal point (7), arranged on the branches of the central cross (5), the apex of the pyramidal tip (7) pointing in the opposite direction to that of the anchor rod (3) and having an orifice (71) through which the rod of anchoring (3) and attached thereto at the ends of the branches of the central cross (9), - a frame (9) formed of beams, surrounding the central cross (5) and attached thereto at the ends of the branches of the central cross (5), and further comprising at least one panel (25) attached to the upper edge upper frame (9) of the retaining structure (s) (1) forming the upper line of the retaining device, for retaining a snowpack (28). 13. Device according to claim 12, characterized in that it comprises vertical rods (35) attached to the top of the pyramidal tip (7), to which is attached a safety net (29). 14. Device according to claim 13, characterized in that the lower edge of the safety net (29) is attached by fast-opening rings to said at least one panel (25). BRT0998 - AcroSol