DE3912710A1 - Supporting structure for soil stabilisation - Google Patents

Abstract

A fill body (A) is closed off by a wall (10) forming its outer skin and consisting of prefabricated elements (9). Projecting through the passage openings of the prefabricated elements (9) are wall posts (7) which are connected via coupling sleeves (5) to grouted bearing piles (1). The prefabricated elements (9) rest on supports (11) which are screwed onto the lower sections of the wall posts (7). The horizontal and diagonal loads coming from the fill body (A) are ultimately absorbed by the wall posts (7) and are transmitted via the bearing piles (1) to the foundation soil. The prefabricated elements (9) stacked one on top of the other without a stagger form continuous vertical joints which connect adjacent wall segments to one another in an articulated manner. <IMAGE>

Description

The invention relates to a support structure for Protection of a winter filling, especially a floor fill according to the preamble of claim 1.

Over the past 10 years, Ge offer soil stabilization successful trials with the stabilization method known as "reinforced earth" carried out. Reinforced earth means one Earth fill with inserted reinforcement made of metal or Plastic tapes, which are layered in mutual horizon and vertical distances when filling the floor placed and on a final fill of the ground Outer skin to be attached. The reinforcement bands can pull absorb and transmit tension through friction on the ground, so that such reinforced floors themselves as support constructions can serve.

The application possibilities of this relatively new Procedures are limited, however, in that the An Bringing a reinforced earth filling a stable one Requires reason and therefore low shear on soft soils strength can not be used easily. There furthermore the "reinforced earth body" to a certain extent a sleep fe, flexible, flexible construction, which can perform slight compensatory movements under load, without affecting their security, it is up to her only used outer skin made of metal or conventional lining made from precast concrete elements  wall too immovable, so that certain advantageous Properties of the reinforced earth winter filling not at all can fully impact.

The construction of conventional concrete retaining walls as well the backfilling of the earth requires a stable reason and is therefore low shear strength on soft ground not easy to execute.

Examples of such concrete retaining walls that are concreted t required or otherwise executed foundation, erge ben from US-PS 35 37 687, FR-PS 20 55 983 and U.S. Patent 4,616,959. All of these documents are the prefabricated elements in their various forms always together according to the principle of a wall construction posed and anchored against each other, so that the ab supporting earth backfill to the, as mentioned above, immovable wall construction adjacent.

DE-A 27 56 047 discloses slope protection to prevent dam material from sliding sideways, where the support cheeks have continuous cavities, with which they are placed on the ends of support rods. If, according to this document, the ends of the support rods are removed be left standing for a long time so that three support cheeks are arranged one above the other can, as with the aforementioned documents ten, a wall - like structure in which the juxtaposed butt sides of the support cheeks so in interlock that they have a retaining wall, for example to protect against falling stones from a slope, form by the wall-like assembly of the support cheeks in connection with the support rods themselves deliver a stable construction.

The object of the invention is in particular a support structure of the type mentioned above to form that they take up a horizontal load has great flexural strength, but is not inherently rigid is so that it can move within certain limits remains to accommodate the load-related shifts to be able to adapt the backfill material. In addition, the Support structure to be able to fill the winter and the basic construction with regard to possible sufficient ground breakage or terrain breakage areas to back up.

According to the invention, this object is achieved by the support structure defined in claim 1. Preferred embodiments are in the dependent Claims defined.

An embodiment of the invention will follow described with reference to the accompanying drawing.

Fig. 1 is a simplified sectional view of an embodiment of the invention Stützkon constructive tion,

Fig. 2 shows a front view of the same,

Fig. 3 is a horizontal section along the line III; III in Fig. 1 and

Fig. 4 is a detailed view of a wall element and elements acting on the same supporting and securing elements.

Referring to FIG. 1 low shear strength are in a relatively soft bottom B a number of injection supporting piles 1 which are oriented in a known manner as a steel pipe 2 with lateral outlet openings 3 is formed. These steel pipes 2 are usually rammed into the ground B or drilled and then loaded with cement milk which exits through the openings 3 and thus securely anchors the pipes 2 in the surrounding floor area. The upper section of each support pile 1 has an external thread 1 a , onto which a coupling sleeve 5 provided with a threaded bore is screwed. On the circumference of the coupling sleeve 5 , two ground nails 4 are fastened, which protrude into the adjacent soil at different angles and thus secure the upper parts of the supporting piles 1 against lateral migration. In principle, it would also be possible for the ground nails 4 to be attacked directly at one point of the supporting posts 1 .

In each coupling sleeve 5 , the bottom part of a pipe 7 , which is provided with an external thread, is screwed in, which is referred to as wall post 7 with regard to its function to be described below. Each support post 1 is thus rigidly connected via the coupling sleeve 5 with an associated wall post 7 and forms with it a support column securely anchored in the ground.

Above the soil 8 is a bed A , which is designed as "reinforced earth" and is accordingly provided with inserted reinforcement made of metal or plastic strips 8 . This reinforced earth body thus forms a flexible, yet quasi monolithic composite body. The reinforcement strips 8 arranged in differing heights can absorb tension and transmit the same by treading to the ground, so that the reinforced soil itself can be used as a supporting structure. The outstanding advantages of this support structure, which is based on the principle of reinforced earth, are the significantly lower costs compared to conventional concrete walls, the simple manufacturing method and its flexible mechanical behavior. As shown in FIG. 1, the reinforcement strips 8 are fastened, for example screwed, to the prefabricated concrete elements 9 of a wall 10 forming the outer skin of the reinforced earth body.

On the threaded sections 6 of the wall posts 7 , supports 11 are also screwed on, which can be designed, for example, as steel disks with a threaded bore and on which the prefabricated elements 9 of the wall 10 are supported . The supports 11 can also be designed, for example, in the form of the holding clamps shown in Swiss Patent No. 6 44 171. The prefabricated elements 9 , the structure of which can best be seen from FIG. 4, are preferably molded concrete blocks which have at least two through holes 12 arranged symmetrically with respect to their vertical central plane. Fig. 4 shows a prefabricated element 9 with three sol through holes 12 , through which two the wall posts 7 protrude. At the wall posts 7 engage in the horizontal wall joints mesh-like reinforcement elements 13 , which are embedded in the heaped earth A , whereupon the earth heaped above is each compacted. The reinforcement elements 13 can be tied to the wall 7 at their ends by means of binding wires 13 a or attached in some other way to the same.

As shown in FIG. 3 in particular, each prefabricated element 9 is provided on the one hand with a projection 14 and on the opposite side with a correspondingly shaped indentation 15 , so that when the prefabricated elements are assembled, there is a type of tongue and groove connection. As shown in Fig. 2, the wall 10 is also in contrast to the usual masonry technology not with staggered prefabricated elements, but created so that there are continuous vertical joints V. In the area of these vertical joints, a type of joint is thus obtained at which the wall can give in slightly to the horizontal earth pressure; as a result, the forces acting on the wall due to compression pressure and vibration can be intercepted and damage or destruction can be avoided with certainty.

This lateral compliance of the wall will be improved even more by the fact that the projections 14 and recesses 15 of the prefabricated elements are not rectangular or square but tapered, for example, trapezoidal or circular arc-shaped, as can be seen clearly from Fig. 3 and Fig. 4.

The remaining cavities of the prefabricated elements are pouring the wall with concrete.

Thanks to the design described, the wall 10 forms a series of self-contained, single-foundation wall segments I, II, III. . . ( Fig. 2), which are articulated and the supporting piles 7 depending on the consistency of the ground can reach different depths 1 and L respectively.

The injection support piles are tion when creating the Stützkonstruk described initially rammed or drilled 1 and ver anchored by injection of cement milk in the ground, is screwed and then the coupling sleeves 5 and driven in the soil nails and attached on the coupling sleeves 5 depends be. Then the wall posts 7 are screwed on and the wall is successively raised with the filling of the soil A , the soil A being compacted in layers during construction after the reinforcement elements 8 and 13 have been inserted. Since the reinforcement elements 13 can simultaneously represent the reinforcement of the reinforced earth body A , the additional use of the reinforcement strips 8 can be dispensed with if necessary. The reinforcement elements 8 and 13 can also be connected to one another as required. Both reinforcement elements 8 and 13 are preferably network-like and can consist of metal wires or plastic bands. A preferred embodiment uses for both high tensile geotextiles.

The support structure described offers against over the previously known retaining walls a number of front share:

• - No strip foundations need to be created, so that there is no excavation work,
• - The wall acts as an open pile wall and the horizontal and vertical forces that occur are ultimately absorbed by the wall and support piles 7 and 1 ,
• the height of the prefabricated elements forming the wall can be regulated by adjusting the supports 11 ,
• - The described joint function gives the wall a ge know flexibility in horizontal and vertical direction tung  
• - The wall is made up of a series of wall segments of the width of the prefabricated elements used together, which are articulated with each other and allow an individual deep foundation and
• - The support structure proves to be particularly advantageous tion, if the ground under the wall base is a soft floor with low shear strength.

The resilience of such a floor is increased Lich improved because on the one hand the vertical load of the Wall segments over the support piles in the load-bearing Reason derived and on the other hand through the frictional connections a pile head lock against lateral migration is achieved. Besides, will the load-bearing capacity of the base through the nailing of the floor materials behind the wall, i.e. below the bulk body increases with the dowelling possible Partitions secure against breakage or terrain break results.

It is also of particular importance that the outer wall of the reinforced earth supporting wall 10 itself does not need to absorb practically any horizontal forces, since the horizontal or inclined loads occurring in the wall area from the prefabricated wall elements to the wall posts 7 and from these via the securely anchored injection supporting posts 1 forwarded to the ground.

According to a further variant, horizontally adjacent prefabricated elements can also be arranged at a mutual spacing, a plate-shaped latch being inserted through their indentations 15 , for example formed on both sides according to FIG. 3, the vertical longitudinal edges of which would be adapted to the profile of the indentations 15 .

This variant would also be used in the vertical joint area aimed joint function result.

The support designed as injection piles Piles, as is known to the person skilled in the art, can not only with the cement milk mentioned, but also with others Types of pile mortar can be fed, each for aqueous suspension of sand, lime and / or cement ver is reversible.

Claims (10)

1. Support structure for securing a rear filling ( A ), consisting of prefabricated elements ( 9 ), which are placed alongside one another to give a wall-like outer boundary for the backfilling, the prefabricated elements ( 9 ) having vertically extending cavities ( 12 ) with which they have a Row at predetermined positions in the ground inserted support piles ( 1,7 ) are set and furthermore have mutually form-fitting vertical joint sections ( 14 , 15 ) on both sides, via which horizontally adjacent prefabricated elements can be joined together, characterized in that the prefabricated elements ( 9 ) in each case on at least two support piles ( 1 , 7 ), in contrast to the usual bricklayer practice, with the formation of vertically aligned joints ( V ) by means of their vertical joint sections ( 14 , 15 ) and thereby an adjoining row of wall segments (I, II, III ) in the amount required for hedging, u nd that at least on some support piles ( 1 , 7 ) reinforcement elements ( 13 ) are attached, which are embedded at different heights in the backfill ( A ). 2. Support structure according to claim 1, characterized in that each support post comprises a support post anchored in the ground ( 1 ) and a through the cavities ( 12 ) of the prefabricated elements ( 9 ) projecting wall post ( 7 ) and that in the transition area between the support and the wall post is provided with a height-adjustable support ( 11 ) for supporting the lower prefabricated element. 3. Support structure according to claim 2, characterized in that the supporting piles ( 1 ) are designed as injection piles. 4. Support structure according to one of claims 1-3, characterized in that the rear filling (A) is provided in addition to the reinforcement elements ( 13 ) anchored to the wall posts ( 7 ) with further armoring inserts ( 8 ) lying at different heights, which are either loosely inserted into the floor or attached to the prefabricated elements ( 9 ). 5. Support structure according to one of claims 1-4, characterized in that the reinforcing elements ( 13 ) and / or reinforcing inserts ( 8 ) acting on the support piles ( 7 ) are grids or strips made of metal or plastic, preferably made of geotextiles. 6. Support structure according to one of claims 2-5, especially when creating the same on soft ground with low shear strength, characterized in that at least one with the Kopfab section of a supporting pile ( 1 ) connected ground nail ( 4 ) in the under the backfill ( A ) anchored in the ground and, in addition to the possible doweling of parting surfaces, also provides a fixation and protection against lateral displacement of the supporting pile head section. 7. Support structure according to one of claims 1-6, characterized in that the form-fitting coupling elements comprise front projections ( 14 ) and corresponding indentations ( 15 ) of the prefabricated elements ( 9 ) which are trapezoidal in horizontal section. 8. Support structure according to one of claims 2-7, characterized in that the wall posts ( 7 ) at their lower, the support piles ( 1 ) facing end portions with an external thread ( 6 ) and the support ( 11 ) as an adjusting nut the wall posts ( 7 ) are screwed on. 9. Support structure according to one of claims 2-8, characterized in that the supporting piles ( 1 ) are connected to the wall piles ( 7 ) by screw sockets ( 5 ) which are screwed onto the respective supporting pile head and the wall pile base. 10. Support structure according to one of claims 1-9, characterized in that the support pcap ( 1 ) of adjacent wall segments ( I , II, III ...) depending on the load-bearing capacity of the building ground in different depths.