DE3722412A1 - Open grid retaining wall of concrete blocks - Google Patents

Abstract

Concrete dry retaining walls consist of solid blocks or formwork blocks. The latter, although only a concrete envelope, are relatively heavy and punch their way into the earth with their narrow-edged profile. Without a foundation, the wall is unstable. Yet as a gravity wall after earth filling it is too light, since earth scarcely loads the blocks but only the natural soil. The wall can only be of a small height or pronounced back-stepping is necessary. Then there is no longer a wall. The grid retaining wall according to the invention is the combination of a keyed, drawer-like concrete block, composed of two relatively light block halves, with an earth filling loaded by solid blocks so that the wall becomes a genuine gravity retaining wall. The rear side of the wall forming a narrow-edged concrete grid cuts into the slope and with the earth becomes a static, mutually supporting unit. The partly open front side of the wall permits a proportioned earth overflow of the pushing slope so that no slope pressure can build up. The large-area ground support of the wall dispenses with a concrete foundation on account of the low ground pressure. The wall can flexibly absorb any soil movements. Any horizontal adaptation to the terrain is also possible.

Description

The production of well-fitted and planted retaining walls in home gardens for the purpose of gaining flat garden areas fails often due to the too heavy stone weights, the too low possible wall heights, the price or even those to be feared Destruction in the already created or difficult to access cooking ten.

The task is a retaining wall, which can only be viewed skeleton and wheelbarrow, without specialist knowledge, without foundations, with cheap, machine-made stones, in all possible Build stable floor plans at least two meters high can be tet.

The solution is a gravity retaining wall made of relatively light ones Single concrete blocks, their overlapping longitudinally connected stone lay on the back an open grid and the drawers be properly filled with soil and thereby the empty weight and increase the standing torque up to four times.

The focus is shifted uphill, so that the Wall leans against the hillside after through finely dosed soil diffuse a zone on the back of the wall earth pressure.

In principle, the entire embankment is divided into individual mini embankments resolved within their natural slope angle within form a pressure-free unit of each stone.

The slope is supported in layers on the stone layers and the Stones in turn against the slope. The thrust will partially transformed into normal forces, the more like that compacting and rooting soil increasingly difficult becomes.

Any underground movements that may occur are recorded vertically flexible partition walls.

State of the art

Many types of retaining walls are known and in use Concrete blocks. They can be divided into three groups:

• Type 1) Reinforced, L-shaped thin concrete angles, the horizontal leg acts as an earth-loaded base.  
• Type 2) Full heavyweight wall, made of solid concrete blocks various shapes and gearing, made of pure Stone weight.
• Type 3) closed, e.g. B. ring double ring oval or rectangular shaped concrete paving stones or open U-stones that empty or filled with soil, usually to the rear graded to be stacked. They mostly point out a closed back. The soil filling lung hardly contributes to weight gain since it is on the other hand stands up on the ground and is only enveloped by the stones. Low heights.

The special shapes of the large structural elements can be used here incomparably be disregarded.

Common to the wall types 1 + 2 is that they are closed forms a slippery zone of increased pressure on the back, (Drainage) which must also be compensated.

The type 2, which is always vertical, must be on a solid strip find ment and for larger wall heights, something from one meter, be back-concreted.

Type 3 punches itself into the ground. The wall needs solid loading clay foundations. But even then, dimensional stability and stability low. Heavy re-grading required.

Description of the invention

The “open grid retaining wall” according to the invention, FIGS. 1, 2, 3; from concrete blocks according to the invention FIGS . 4 to 7; Fig. 8 to 11 and Fig. 12 to 15 differs from known retaining wall types by their principle of action, their stone shape, by their stone composite as well as by their versatile property combinations.

The principle of action is described in the introduction.

The stone form is a concrete angle plate in combination with a load-bearing partition wall plate Fig. 5 to 10, which is stretched by the aligned vertical legs 2 of the angle plate 1 . The openings in the intermediate wall 3 and the horizontal leg 4 of the angle plates 1 serve the internal earth and pressure compensation. The stiffening ribs 5 of the win kelplatten 1 apply in particular the initial stability of the fresh fittings during production.

The variant Fig. 8 to 11 for a depending on the machine park before more partial lateral production shows an angle plate combination Fig. 8 u. 10, which is not aligned, but alternately staggered and has the recesses 6 , in which the corresponding counter profiles 7 engage and fix the partition Fig. 9 in position.

The partitions 3 and Fig. 9 run from the rear pointed-keilför shaped, so that the thin-walled concrete grid opposes the slope pressure a minimal area and minimal resistance. The wall cuts into the slope and, together with the roots, becomes part of the natural environment.

The variant of the retaining brick cast in one piece Fig. 12 to 15 without a rear wall is of a drawer-like shape and is suitable for production in small businesses.

The stone composite occurs in such a way that the laterally over standing horizontal legs 4 of the angle plates Fig. 6 lie against each other overlapping-toothed and that the intermediate walls 3 are inserted as load-bearing and stiffening side walls in the resulting vertical spaces 8 . A vertical, diagonal and horizontal wall network is created with internal balancing of forces.

The wall is flexible and can be straight, angled, convex, con cav, vertical or staggered.

Property combinations

Light stones - heavy wall.
Low transport weight - high wall weight.
Low transport volume - large wall volume.
Simple basic shape - great variety of wall shapes.
Also for gardens that are difficult to access because no special aids are required.
Large self-supporting surface - low floor pressure.
No foundations on grown soil.
No drainage and filter layers.
Low stone and wall manufacturing costs.
Excavation becomes a wall - optimal planting.
Adapt to every topographical situation. Also suitable as a soundproof wall.

Claims (1)

Open grid retaining wall made of concrete blocks, characterized,

• 1. that the wall according to the invention Fig. 3 passively absorbs the natural fall process of an earth wall and converts the forces of the slope into its own stability by the wall consisting of concrete blocks according to the invention, which are open at the back and shovel-like absorb the embankment embankment so that the slope complaining lay on the wall wisely Fig. 2 + 3 and a wall-deep interlocking takes place between stone and slope,
• 2. that the wall is an earth-permeable gravity wall, which creates a zone of reduced earth pressure on the back through metered front overflow earth drainage and keeps the effective thrust within low limits,
• 3. that the bricks consist of simple, drawer-like troughs without rear wall-forming concrete angle plates Fig. 5, which with the laterally projecting horizontal legs 4 Fig. 6 are mutually overlapping-toothed and that the spaces 8 of the vertical legs 2, the partition walls 3 as support load-bearing and stiffening side walls,
• 4. that the increasingly compacted earth filling increases the empty weight of the wall and the standing moment up to four times and shifts the center of gravity on the mountain side,
• 5. that the partitions 3 and the horizontal legs 4 of the concrete angle plates 1 have recesses for internal metered material and pressure compensation and that the partitions 3 on the wall base can be lengthy and counteract the tilting moment as earth-loaded levers,
• 6. That the horizontal legs 4 and intermediate walls 3 ending in a pointed end form a slender open concrete grid on the slope side, and that the angle plates 1 have stiffening ribs 5 for increased rigidity,
• 7. that the corner stones Fig. 7 are formed according to the reverse principle of the normal stones Fig. 6 and clamp the wall as a corner or complete as an end,
• 8. that the stone variant for horizontal production Fig. 8 to 11 consists of two different angle plates, which are arranged alternately in front and behind each other Fig. 8 and overlap with the entire angular edges,
• 9. that the edges of the vertical legs 9 and 10 have recesses in which the counter profiles 7 of the intermediate walls Fig. 9 engage and fix them in position,
• 10. that the variant of the troughs open at the rear FIGS . 12 to 15 has a toothing and are on the bottom surface ent speaking guide profiles.