HU223482B1 - Support wall system - Google Patents

Abstract

The retaining wall arrangement of the invention is for supporting steep embankments with the help of rectangular elements, which has a soil element (2), a front element (3) and a reinforcement (5) covering a soil element (2) and lying behind the front element (3) as a soil reinforcement (6) resting on the soil element (2) ) and designed as back anchoring (8) above the filled soil. The essence of the invention is that the ground element (2) and the front element (3) are produced as separate elements and are hingedly connected along one of their longitudinal edges by means of a hinged connection (9), and the angle between the ground element (2) and the front element (3) is a right angle it is fixed with several anchor rods (4), and the anchor rods are connected by being anchored on one element and hooked on the other element. ŕ

Description

BACKGROUND OF THE INVENTION The present invention relates to a support wall arrangement for supporting slopes, steep embankments, earth walls by means of a soil element, a forehead element and a hardware covering the soil element and located behind the forehead as ground reinforcement overlying the soil element. The part of the hardware behind the front element can also serve to retain the green plant.

For the support of slopes, slopes and other earth walls, reinforced concrete reinforced concrete walls have been used for a long time to support the ground so as to form as straight dividers as possible. In order for such steel wire mesh to be able to maintain the pressure of the soil behind it, these nets are bent so that there is a part of the ground and a support part, and the angle between the two parts is usually between 45 ° and 90 °. The greater this angle, the greater the ground pressure on the support wall. To counteract this support wall arrangement, the vertical upright hardware was anchored to the ground using anchor rods and retracted slightly during installation.

A common problem with these known types of retaining walls is that the front members are angled to the soil members and that the retaining wall can be installed with vegetation towards the visible side, i.e. it allows the creation of a green field on them and, of course, retains the soil behind them. To date, it is known to form such a support stand made of sand and soil in one piece by bending a steel wire mesh and transporting it to the construction site in a bent state. Alternatively, baskets are made of such steel wire mesh and then filled with stones at the place of use.

Fittings that serve to stabilize can be formed as single-arm anchors or double anchors. By double anchor, we mean an assembly in which the first iron rod is disposed between the ground element and the front element and is fixed to one end of the second rod on the first iron rod and the other end, but at a different height. This gives the front member sufficient strength even at higher heights.

The disadvantage of such a steel wire mesh retaining wall arrangement is that the user, a construction worker, does not immediately recognize how to place the retaining wall arrangement as he has to think about which element to install at which place. In addition, the size of such a scaffold structure, which consists of a bent steel wire mesh, is limited because the production width of a conventional steel wire mesh is limited to about 2.4 m. Thus, the front wall of the front element can be up to 1.2 m high. Furthermore, the storage and transport of such three-dimensional support racks is very complicated and time-consuming.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a retaining wall arrangement that is easy to manufacture, transport, store and erect on site.

According to the present invention, the object is solved by providing the ground element and the front element as separate elements and being articulated by an angular connection along a longitudinal edge thereof, the angle between the ground element and the front element being inclined with a plurality of anchors; the anchor rods are anchored to one element and hooked to the other element. This design allows the front element and the ground element to be manufactured in different sizes, and even much larger than previously, while each element can be made from a commercially available steel wire mesh with a commercial width of up to 2.4 m, thus facade elements, larger soil elements can be made, which also greatly facilitates the construction of larger retaining walls. The hinged connection between the front member and the ground member ensures that they can be stored and transported flat on top of each other, which provides very good space utilization. This design allows the support stand to be adapted to the future retaining wall after assembly, so that the user, i.e. the builder, can easily arrange and handle the support wall elements. The anchor rods to be used may be anchored to the ground element, but may be hinged to the front element, but in turn attached to the ground element. The advantage of hanging is that the angle of the retaining wall can be adjusted by changing the position of the hanging.

DETAILED DESCRIPTION OF THE INVENTION The invention will now be described in detail with reference to the drawings.

Figure 1 is a perspective view of a detail of an embodiment of a retaining wall arrangement according to the invention, a

Fig. 2 is a side view of the ground member and the front member in the assembled state, i.e. in the folded state, a

Figure 3 is an overall side view of Figure 2 in an intermediate position during installation, a

Fig. 4 is a side view corresponding to Figs. 2 and 3, with the retaining wall arrangement in an upright position

Fig. 5 is a variant of a retaining wall arrangement according to the invention, wherein the end member is a concrete wall anchored to the ground member;

Fig. 6 is a further version of a retaining wall arrangement with a basket filled with stones, while a

Figure 7 is a further variant of the retaining wall arrangement, with an additional steel wire mesh connected upstream to the front member.

The retaining wall arrangement 1 according to the invention consists, as shown in Fig. 1, of a support stand having a ground element 2 and a front element 3 and with an anchor rod 4 in the form of a coupling iron. Anchorage 5 is connected to the anchor rods 4. For example, this ironing can be a geogrid. The ground element 2 and the front element 3 are made of a steel wire mesh and are connected to one another by means of a joint 9 on one of their longitudinal sides. These joints 9 can simply be made by folding the wires on one side or the other of the steel wire mesh, as is customary for reinforcing the ground element 5 and reinforcing the ground 6 above the filled soil 7.

HU 223 482 Bl

Fig. 2 shows a ground element 2 and a front element 3 in a folded state, in which state they can be stored or transported. Fig. 3 illustrates the intermediate position at the time of the assembly of the front element, while Fig. 4 shows the ready-made retaining wall arrangement 1. Here, an anchor rod 4 is secured between the ground member 2 and the front member 3 to provide an inclination.

It is possible to make individual wires and rods 10 of the soil element 2 with larger diameters than the other wires and rods 11, respectively. The purpose of this is to better and more securely transfer the load from the front member to the anchor rod 4 and further to the ground member 2. Rods having different diameters refer to different angles of inclination, such as 60 °, 70 °, or 80 °, and thus such retaining wall arrangements indicate the required adjustment without significant time effort.

Of course, it is possible to use massive concrete elements 12 as shown in Fig. 5 or Fig. 6, ie a steel wire mesh bag filled with stones and hinged to the ground element 2. These can also be folded from the production site to the construction site as shown in Figure 2.

A special version is shown in Figure 7. Here, the upper longitudinal side of the front member 3, i.e. the longitudinal side facing the coupling side, may be connected by an additional hinged connection 14 to an additional steel wire mesh 15 and lying above the filled soil 7, forming a flat surface which may

The fact that the elements can be folded and stored folds ensures that the retaining wall arrangement can be prefabricated and stored in the factory, and packed with a sufficient number of anchor rods to the site. This system allows the full width of the steel wire mesh to be utilized and applied at conventional widths. Not only does this have the advantage of larger soil elements, but it also has a positive effect on higher construction heights.

Advantageously, a mattress mat may be fitted between the front member 3 and the hardware 5. If a fine humus is inserted between such a mattress mattress, the pressure of the filled soil 7 presses this mattress mat onto the front member 3 and the steel wire mesh bars are at least partially enclosed and thus become substantially invisible. In addition, such a mattress mattress serves as a better underlay for the mission. Instead of such a mattress, a so-called geogrid can be used.

Claims (11)

PATENT CLAIMS A retaining wall arrangement for supporting sloping, steep embankments by means of rectangular elements having a ground element (2), a front element (3) and a reinforcement (5) covering the ground element (2) and located behind the front element (3) and filled with soil (7). formed as a back anchor (8), wherein the ground element (2) and the front element (3) are separately connected to one another along their length, characterized in that the connection is formed as a hinged connection (9) and the ground element (2) ) and the front element (3) to define a closed angle as a slope angle, there are a plurality of anchor rods (4) which are connected to one element and hooked to the other element. Retaining wall arrangement according to claim 1, characterized in that both the ground element (2) and the end element (3) are made of steel wire mesh. Retaining wall arrangement according to claim 1, characterized in that at least the ground element (2) is a steel wire mesh and the front element is an element which provides aesthetic representation of the retaining wall. Retaining wall arrangement according to claim 3, characterized in that the front element (3) is a rigid element made of composite material. Retaining wall arrangement according to claim 4, characterized in that the composite material is a concrete mixture. Retaining wall arrangement according to Claim 3, characterized in that the end element (3) is a basket made of arched or filled steel wire mesh. 7. Retaining wall arrangement according to any one of claims 1 to 3, characterized in that the longitudinal side of the front element (3) opposite the ground element (2) has further hinged connections (14) and thereby an additional steel wire mesh is connected. 8. Retaining wall arrangement according to any one of claims 1 to 4, characterized in that the anchor rods (4) are pivotally connected to the front element (3). 9. Retaining wall arrangement according to any one of claims 1 to 3, characterized in that the anchor rods (4) are of single-arm design. 10. Retaining wall arrangement according to any one of claims 1 to 3, characterized in that the anchor rods (4) are hinged on the front element with two arms. 11. Retaining wall arrangement according to any one of claims 1 to 3, characterized in that each wire of the steel wire mesh on which the anchor rods (4) hang is made of a thicker material than the other wires.