DE3722426A1 - Arrangement and method for securing slopes - Google Patents

Abstract

An arrangement for securing slopes is proposed, in particular for securing artificial dams and fillings, with shaped bodies connected to one another. The arrangement is characterised in that the shaped bodies can be connected to form a network which can be put horizontally or at any angle into the interior of the slope. <IMAGE>

Description

The invention relates to a device and a Ver drive to secure embankments, in particular from artificial dams and fillings according to the genus of the main claim.

Such a device is from DE-AS 25 46 430 known from network-like interconnected Tread strips from car tires. This network works are parallel to the edge of the slope at the top surface of an embankment arranged.

Another device of this type is from DE-OS 24 34 161 known in which a network of concrete elements ten is described, which also parallel to the Gö arranged on the surface of a slope is not.

The disadvantage of these devices is that from the inside outward forces on the embankment be effectively intercepted so that the embankment slides off can slide or slide or the possibility of a Breakdown exists. To counter this danger, need additional earth in devices of this type anchors and / or drawstrings introduced into the slope the body of the embankment with the help of Combine attachment elements. This procedure is very time and cost intensive.

It is therefore an object of the invention, starting from the state der Technik, an apparatus and a method for To create protection of embankments, whereby simpl  che and inexpensive way all on one embankment acting forces are safely absorbed.

This task is the beginning of a device mentioned type with the help of the marked in claim 1 Features resolved. Has been particularly advantageous it has been found that the formed from the molded body networks at any angle inside the embankment can be arranged, the size the networks can be chosen arbitrarily. You can also, especially with dams, from a flank of the dam all the way to the other flank ken, whereby from the inside of the dam to the outside acting forces are intercepted particularly safely.

In a preferred embodiment of the device the moldings are composed of several elements sets that are rigidly or flexibly connected are. The shape of the elements is freely selectable with the Provided that under positive or non-positive Connection of the elements forms a network. Before Part of it is that the network is arbitrary is expandable and optimal to the material ratio se can be adapted to the embankment.

An embodiment is particularly preferred because the networks are designed to be layered can be arranged one above the other layers with each other positively or non-positively are connectable. In this way, embankments can be secure from practically any height.

To solve the above task is also a Proposed methods of the type mentioned at the beginning,  which is characterized by those in claim 8 Distinguished steps. It is particularly advantageous that the work when pouring a slope through does not hinder the introduction of the network or networks and that additional safeguards like ground anchors and / or drawstrings are completely eliminated.

Further advantages and further developments of the Vorrich The procedure results from the subclaims chen. It has proven to be particularly advantageous that the natural drainage of the embankment by the networks are in no way hindered and that planting without disadvantages for the plants and the embankment is possible.

The invention is described below with reference to the figures explained in more detail. Show it:

Fig. 1 is an isometric view of a network kes, which consists of molded parts which are composed of trapezoidal elements, and

FIG. 2 shows a top view of the network according to FIG. 1.

Fig. 1 shows a section of a network composed of molded parts ( 2 ) ( 1 ). The individual molded parts are composed of trapezoidal elements ( 3 ) in this embodiment. But it is also possible to use circular molded parts from one piece. It is readily apparent that both the width and the depth of the network are variable. The networks can also be easily adapted to any slope shape; for example, L- or U-shaped networks can also be displayed without any problems.

Fig. 2 shows a plan of the network of FIG. 1 again, the connection points ( 4 ) between the elements of the molded parts or between the molded parts are indicated. The game shown Ausführungsbei is characterized in that double-walled areas are present at regular intervals, the forces acting perpendicular to the plane of the network oppose particularly much resistance. It is thus shown that the individual elements can be formed relatively easily without loss of stability, which facilitates their handling. Due to the special design of the elements, the double-walled areas can be selected smaller or larger, which enables an optimal adaptation to the given force and load conditions.

The specified connection points can be omitted if the elements are designed so that in the double-walled areas produced a positive connection that prevents the elements from facing each other the move, and the one at the network level can absorb occurring forces.

If the networks of interconnected moldings consist of one piece or made of individual elements can be composed without further larger networks in one embankment at once be introduced. But if the local conditions prevented the establishment of larger networks, these can easily be put together on the spot Assemble molded parts or elements.

The moldings or their elements can from any Made of materials and rigid, resiliently deformed cash or flexible; the design  must be chosen so that they form networks can be placed.

The connections between the elements or the form bodies can be rigid or movable. The materials for the network and the connection must be chosen so that the occurring Tractive forces, which are essentially in the level of the network kes act, and absorbed forces acting perpendicular to it be.

When embanking an embankment, the networks horizontally or at any angle into the Soil introduced. It is particularly advantageous that the underground before introducing the networks does not need to be pretreated; so there are no foundations are necessary, nor does the subsurface to be smoothed. Warps are for safe Function of the device harmless.

The depth of the networks must be chosen so that Forces acting from the inside of the embankment be safely intercepted. This is an outer edge the network preferably arranged so that essentially ends with the slope edge.

If the dams are particularly stressed, it is also possible to that the depth of a network with the thickness of the dam mes matches, so that the safety device tion extends from flank to flank of the dam.

For additional security or for an optical design embankment can be on the molded parts or elements ten, which are arranged on the embankment edge, intent shells attached or anchoring a retaining wall  the. But the networks also bear without anchoring contributes significantly to the relief of retaining walls.

If a network is filled with embankment material, can immediately above or in any Ab another network was planned. On in this way, embankments, fillings and fillings Buildings, walls or dams of any height with a much steeper slope slope as the natural angle of friction corresponds. Provided with this safety device Embankments can also be large static and dynamic Safe loads even in the area of the slope edge intercept. Moreover, an extraordinary settlement insensitivity reached.

The networks can be used as individual backup or Support bodies act inside the embankment or else who are positively or non-positively connected to each other the. It is also possible to arrange the layers Networks through or brought into the embankment rammed struts or pillars to connect with each other and anchor it.

A particular advantage of the safety device is It is natural that even with several network layers embankment drainage is not hindered; Water can seep away unhindered. In addition, you can the molded parts or their elements due to moisture laid out casually or perforated.

Embankments with the securing device described above can be planted without further ado that the security function diminished or the growth which would hinder plants.

Claims (10)

1. A device for securing embankments, in particular artificial dams and fill-ups with interconnected shaped bodies, characterized in that the shaped bodies ( 2 ) can be connected to form a network ( 1 ) which is horizontal or at any angle into the interior of the embankment can be introduced. 2. Device according to claim 1, characterized in that an outer edge of the network ( 1 ) essentially closes with the slope edge. 3. Apparatus according to claim 1 or 2, characterized in that the shaped body ( 2 ) is formed in one piece or composed of rigidly or movably connected elements ( 3 ). 4. The device according to claim 3, characterized, that the elements rigid, elastically deformable or flexi are trained. 5. Device according to one of claims 1 to 4, characterized in that the networks ( 1 ) are arranged in layers one above the other bar. 6. The device according to claim 5, characterized in that the networks ( 1 ) can be connected to one another in a positive or non-positive manner. 7. Device according to one of claims 1 to 6, characterized, that they are combined with facing shells and / or retaining walls nable. 8. Procedures for securing embankments, in particular of artificial dams and embankments using a Device according to one of claims 1 to 7, characterized,  that at least one network is horizontal or under one any angle when pouring the embankment mate rials brought into the embankment and with the mate rial is filled in that it comes from inside the gust absorbs external forces. 9. The method according to claim 8, characterized, that another network is brought into the embankment and filled with material if the previous one is filled. 10. The method according to claim 8 or 9, characterized, that any number of networks are stacked will.