DE2348043A1 - COMPONENT FOR SECURING HANGS AND THE LIKE - Google Patents

Description

Component for securing slopes and the like.

The invention relates to a component for securing slopes and the like, and particularly relates to a particularly versatile and advantageous manner for avalanche walls, breakwaters, river and white water barriers, bank reinforcements, Sea closures and seawater protection usable building element.

Up to now, wire ballast cages have been used to secure slopes in mountain roads or locally concreted walls are used. The wire ballast baskets consist of one Wire housing into which stones found on the spot are manually inserted.

The filled wire gravel baskets allow easy slope stabilization with simultaneous passage of slope, ground or meteor water, the production However, the wire ballast cage is very labor-intensive and therefore expensive.

It is therefore the object of the invention to provide a component for building of slopes and the like, by which these disadvantages are avoided and that thus an economical creation of a slope protection or the like. enables. before Above all, the aim is to ensure that the component is manufactured mechanically on an industrial scale and that the individual elements can be quickly and easily at the construction site are to be put together, so that an industrial fabrication and also a universal one Usability is given and the creation of an obstacle is only minimal Requires time and manpower.

According to the invention, this is achieved in that the component for securing or building up slopes and the like from a rectangular, preferably square, stackable concrete body, which has a porous or perforated, having a water-permeable core.

The concrete body can here in an advantageous manner from a border made of fair-faced concrete and a firmly connected core or approach made of seepage or rubble concrete. According to a different embodiment, however, it is also possible to produce the concrete body from vibrated concrete and in its central area one or more free recesses preferably penetrating this axis perpendicularly incorporated so that the water can flow through.

In order to save weight, especially during transport, it is advisable to the concrete body on its front and / or its back in the central area to equip each with a recess, in such a way that the concrete body is U-shaped or double-T-shaped in its cross-section. With such a Design of the component should this in upper rear The area should be provided with a recess so that a gravel-sand mixture can be created easily and mechanically can be backfilled, due to the addition of the additional floor load on the elements predominantly a filter effect of the water flowing through is achieved.

In order to give the concrete body the necessary strength if necessary give, it is also appropriate to insert reinforcement bars in these or these to be provided with a surrounding mesh reinforcement.

In order to create a skimmed concrete body composite, it is moderately each one side face / two opposite side faces one Concrete body preferably at the same angle to its main axis to incline, so that by placing the according to the respective requirements inclined side surfaces also a barring tim a curve easy to accomplish is.

Of course, it is also possible to have two or more concrete bodies to be firmly connected to one another on their opposite side surfaces, in order to have larger components available as so-called double models.

This enables the rapid production of a one, two or three-dimensional Composite of concrete bodies is easy to accomplish, it is further appropriate to work recesses in the side surfaces of the concrete body or to form projections into which connecting means can be inserted, which interlock.

For the transport and assembly of the concrete body should also Through holes, notches or the like. be incorporated into the concrete body, wherein the drainage bores can possibly be used for this purpose.

For attachment to slopes can also be attached to the concrete element on the slope side also one or more anchors that are inserted into the ground, to be appropriate.

To secure sea or sea connections by means of the inventive Structural elements, it is useful to have one or more one-way valves in the concrete body to use, by means of which the land-based groundwater can be discharged, but that Sea or lake water cannot penetrate.

The creation of the concrete body is advantageously by means of a box-like, preferably collapsible formwork made of plastic, which is filled with concrete. It is appropriate to use the formwork for connection with the concrete body on its inside with ribs, projections or the like. equip.

A component designed according to the invention for building Hanging and the like is not only characterized by a simple design, see above that an economical industrial series production is easily possible, but above all by the fact that the components on a construction site are quick and easy can be joined together to form a one-, two- or three-dimensional composite. Is that especially for avalanche walls, breakwaters, river and white water barriers, Bank reinforcements, sea closures and seawater protection usable structural element designed as a square, preferably square, stackable concrete body, which has a porous or perforated water-permeable core, it is It is possible to create a permanent network without difficulties, but it can Water that collects behind the slope protection can be drained off.

In addition to simple slope stabilizers, those according to the invention are suitable Construction elements especially in mountain road construction and bank reinforcement for rivers, Sea impacts and sea water protection. For simple slope stabilization such as in road construction the components have the particular advantage that they can be used as required, e.g. when road widening can be removed and relocated again in the simplest way without damage gain weight.

For bank reinforcements of rivers, lake impacts and seawater protection the components also have the advantage that they can also be lowered from above under water can be moved permanently.

Due to the economic industrial fabrications of the Proposed seepage concrete components for slope stabilization will be used by planners and Civil engineering contractors have been provided with a concrete construction element that allows them to with the same properties of conventional, filled wire ballast baskets, the local one Significantly reduce manual labor, while maintaining resistance to atmospheric agents is increased. Likewise, the components can be compared to wire ballast cages and concrete walls subsequently if necessary, e.g. when the road or property is widened and can thus be used again * so that an economical use, especially the costs for building a structure are also low, is guaranteed.

Further details are the embodiments shown in the drawing, which are explained in detail below. This shows: FIG. 1 a square component in front view, Fig. 2 shows the component 1 in plan view, FIG. 3 shows a section along the line III-III of FIG. 1, FIG. 4 shows a different embodiment of a component according to FIG. 1, FIG. 5 shows a section along the line V-V in FIG. 4, FIG. 6 shows the component according to FIG. 4 in plan view, FIG. 7 shows a concrete body composed of two individual elements in view, FIG. 8 the concrete body according to FIG. 7 in plan view, FIG. 9 one of concrete bodies 1 to 3, or 4 to 6 formed slope protection in front view, Fig. 10 the slope stabilizer according to FIG. 9 in side view, FIGS. 11 to 14 different Slope stabilizers formed by concrete elements, each in a different configuration, 15 shows an avalanche protection dam composed of individual concrete bodies, FIG. 16 an avalanche pressure terrace formed from concrete bodies, FIG. 17 one from concrete bodies formed torrent control, 18 shows a curve around a road guided slope protection, stacked offset back, Fig. 19 a slope protection according to 18, but with concrete bodies stacked directly on top of one another, and FIG. 20 shows a Rectangular parcel boundary made of concrete bodies.

The component shown in FIGS. 1 to 3 and denoted by 1 to secure or to build up slopes or the like. consists of a concrete body 2, which consists of a border 3 made of exposed concrete and one firmly connected to this Approach 4 is composed of seepage concrete. In the concrete body 2 are drainage holes 5, which is also used for transport and assembly for inserting wire ropes can be incorporated, so that the collecting behind the concrete body 2 Water is drained well. The border 3 is in this case made of a smooth one closed high quality vibrated concrete type, e.g. BN 250 to 300.

During the production of the concrete body 2, hardening takes place after a short period of time the exposed concrete border 3, which is created in a row formwork, the seepage concrete 4 or rubble concrete introduced into the formwork. The seepage concrete 4 goes with it the fair-faced concrete border 3 a permanent connection without interfering with the fair-faced concrete to mix, so that a transportable component created in an industrial plant 1 is created.

For reasons of weight and appearance, the component 1 is on the front equipped with a recess 6. There are also in the side walls of the component 1 holes 7 provided in which means, e.g. in the form of pins, for connection of the individual elements can be used with one another. In the recesses 7 'of the Side walls or in the axially perpendicular recess 9 can also Anchors for holding the concrete body 2 are attached in the ground. Through notches 8 the assembly, i.e. the alignment of the concrete body 2, is made easier.

If component 1 is used to secure sea and sea connections, can be used in the drainage holes 4 one-way valves 5 ', by means of which the Land-based groundwater is to be diverted without leaving sea or sea water on land can penetrate.

The component 11 according to FIGS. 4 to 6 consists of a concrete body 12 made of vibrated concrete, e.g. BN 250 to 300, which is shown in a dash-dotted line Formwork 12 'is created. The formwork 12 ', which expediently consists of a collapsible, colored plastic film is formed is ribbed in such a way that after setting of the poured concrete an inseparable unit is created. Simultaneously takes over the plastic film, which is transported in the folded state like a folding box becomes, the task of the conventional wooden or metal formwork as lost one-way formwork a so-called economy formwork. Of course, a conventional direct Wood or metal shuttering can be used to produce the component 11.

The concrete body 12 is also here for weight reasons on its Equipped with recesses 13 and 14 on the front and also on the rear. When creating a structure, the recesses 14 can be made of gravel or sand fill out. For this purpose, the concrete body 12 is in the upper rear part with a Recess 14 'equipped through which gravel or sand is to be filled.

In addition, several drainage holes 15 are in the concrete body 12 as well Holes 19 incorporated for inserting a ground anchor and rebar 17 inserted to drain the slope-side water or the concrete body 12 if necessary to give the required strength. Visible notches 18 on the front of the component 11 facilitate machine moving and stacking. The side surfaces 20 are inclined in the case of the concrete body 12, so that a construction is also carried out around a curve can be.

The component 21 according to FIGS. 7 and 8 is according to the component according to 4 to 6 formed. Here, however, two concrete bodies 22 are to be created of a double element on the opposite side surfaces 29 and 30 firmly connected. There are also recesses in the front and back 23 and 24 provided in the structural element 21 made of vibrated concrete, wherein the recesses 24 through recesses 24 'provided in the rear upper area can easily be filled with gravel or sand. Also show the concrete body 22 continuous drainage holes 25 and there are continuous reinforcement bars 26 inserted.

To connect the stackable concrete bodies 22 are in these are inserted on one side perforated sleeves 27 and on the other side are slots 28 incorporated so that pins inserted into the perforated sleeves 27 easily enter the slots 28 click into place and stretch lengthways.

In addition, the side surfaces 29 and 30 are inclined. In this way it is possible to build a block around a curve by means of the components 21.

When securing the slope according to FIGS. 9 and 10, concrete bodies 2 are next to one another and stacked one on top of the other. The connection of the concrete body 2 is by means of Pins 10 accomplished, which are inserted into aAe perforated sleeves 7. The anchorage takes place here, if necessary, by means of the recesses 7 'or 9, Ground anchor not shown.

FIGS. 11 to 14 show different height constructions of Slope protection, which are formed from concrete bodies 2. According to Fig. 11, the concrete body 2 only arranged side by side. According to Fig. 12 there are three concrete bodies stacked on top of one another and connected to one another by pins 10. In Fig. 13 and FIG. 14 is the staggered arrangement of concrete bodies 2 when creating a slope stabilizer shown.

The avalanche protection dam according to Fig. 15 and the avalanche pressure terrace 16 are each made of stacked one above the other and next to one another, according to FIGS. 1 to 3 or according to FIGS.

4 and 5 trained concrete bodies 2 and 12 gschaffen.

The torrent barriers shown in FIG. 17 are made of concrete bodies 12 created according to FIGS. 4 to 6, which are provided with a mesh reinforcement 17. the Side surfaces 20 of the concrete bodies 12 arranged next to one another in the river bed are inclined here, so that the river bed rests on its side surfaces limiting concrete body 12 a V-shaped cross-section is created.

In FIGS. 18 and 19 there is a slope stabilizer guided around a bend in the road shown, which was created from concrete bodies 12 according to FIGS. The inclined extending side surfaces 20 are here in part against each other, so that a The radius of curvature arises and the structure, whereby of course the inclination must be adapted to the respective conditions in order to be able to guide a curve. The connection of the individual concrete bodies 12 takes place by means of the holes 16 as well the slots 16 'of inserted pins 16 ". In the" zisführungbeispiel according to Fig. 18, the concrete bodies 12 are stacked offset to one another, according to FIG. 19, however the concrete bodies 12 are stacked directly on top of one another.

By means of the corner construction made of concrete bodies shown in FIG 12, for example, parcel delimitations and leveling are easy to accomplish.

Claims (14)

Patent claims: 1 component for securing slopes or the like., Characterized in, that this is particularly important for avalanche walls, breakwaters, river and white water barriers, Bank reinforcements, sea closures and seawater protection means usable structural elements (1; 11; 21) made of a rectangular, preferably square, stackable concrete body (2; 12; 22) consists of a porous or perforated water-permeable core (4, 5; 15; 25). 2. The component according to claim 1, characterized in that the concrete body (2) from a border (3) made of exposed concrete and one firmly connected to Dieter Core or approach (4) consists of seepage or rock concrete. 3. The component according to claim 1, characterized in that the concrete body (12) is made of vibrated concrete and that in its central area a or several free recesses preferably penetrating this axis perpendicularly (15) are incorporated. 4. Component according to one of claims 1 to 3, characterized in that that the concrete body (2; 12; 22) on its front and / or its back in each has a recess (6; 13; 14; 23, 24) in the middle area, such that that the concrete body (2; 12; 22) is U- or double-T-shaped in its cross-section is. 5. The component according to claim 4, characterized in that for filling a gravel-sand mixture in the rear recess (14) of the component (11) of this is provided with a recess (14 ') in the upper rear area. 6. Component according to one of claims 1 to 5, characterized in that that the concrete body (2; 12; 22) with inserted reinforcing iron (17) and / or with a mesh reinforcement (26) surrounding this is provided. 7. Component according to one of claims 1 to 6, characterized in that that for the creation of a curved concrete body composite in each case one side surface (20) or two opposite side surfaces (29, 30) of a concrete body (12; 22), preferably inclined at the same angle to its main axis are. 8. Component according to one of claims 1 to 7, characterized in that that two or more concrete bodies (12) on their opposite side surfaces (29, 30) are firmly connected to each other. 9. Component according to one of claims 1 to 8, characterized in that that for the creation of a one, two or three-dimensional composite of concrete bodies (2) these with recesses (7) worked into their side surfaces for insertion of connecting means (10) are provided. 10. Component according to one of claims 1 to 9, characterized in that that for transport and assembly of the concrete body (2; 12) in these recesses, for example in the form of through holes (5; 15), notches (8, 18) or the like. are incorporated. 11. Component according to one of claims 1 to 10, characterized in that that an anchor is attached to the concrete body (2) on the slope side or on the ground is. 12. Component according to one of claims 1 to 11, characterized in that that to secure sea and sea connections in the concrete body (2) or several one-way valves (5 ') are used, by means of which the landside groundwater can be derived. 13. Component according to one of claims 1 to 12, characterized in that that to create the concrete body (12) a box-like, preferably collapsible Formwork (12 ') made of preferably colored plastic is provided. 14. The component according to claim 13, characterized in that the Formwork (12 ') for connection to the concrete body (12) on its inside with Ribs, projections or the like. is provided so that it is inseparable from the concrete Unity forms.