DE3521627A1 - Method of producing an inclined composite grouted pile - Google Patents

Abstract

Method of producing an inclined composite grouted pile as a displacement bored pile, the screw casing (20) of which serves as a supporting member and remains in the soil or in which a steel section girder (31) is set as a supporting member which is connected to the casing base plate (25) remaining in the soil. The hollow spaces (27 or 35) between supporting member (20 or 31) and soil (17) are filled under pressure with a hardening grouting mass (27) so that a pile for an arrangement at a small angle results which is resistant to tension and compression and can be sunk without a noise nuisance and vibrations. <IMAGE>

Description

Title: Method of Making an Inclined

Composite Injection Pile The invention relates to a method of manufacturing an inclined composite injection pile with a prefabricated support member, in which the loosened soil area on the pile jacket when the pile is lowered a pressurized, hardening mass is pressed.

under inclined injection piles that are approximately / 45 "or a larger angle are introduced into the ground inclined to the vertical, are primarily used as tension piles and are used to anchor supporting structures such as sheet piling, quay walls, Construction pit walls, used for high terrain slopes. To make such Injection piles are driven into the ground by steel profile girders, the opposite one have the support cross-section enlarged shoe. The resulting cavity will pressed with mortar during ramming, reducing the skin friction between the support member and the floor is increased significantly.

However, such ram injection piles have the disadvantage that when ramming Considerable vibrations occur, which can damage neighboring structures or Result in traffic systems. In addition, the noise pollution when ramming is considerable.

For anchoring support structures to terrain discontinuities are also already known grouting anchor, which consists of a relatively thin tension rod or Pull wire bundles are made, which are surrounded by a cladding tube and pressed by pressing of the cavity between the anchor and the ground are anchored in the ground. Have these anchors however, the disadvantage that they can only absorb tensile forces, but not compressive forces, the with certain loads of the supporting structure, for example with a a ship caused ramming against a bank wall.

The object of the invention is to provide a method for producing an inclined Specify composite injection pile that absorbs high tensile and compressive forces and is vibration-free and can only be brought down with very little noise pollution.

This object is achieved with the invention in that the injection pile is produced as a displacement bored pile with a screwed drill pipe that has at least has a helical surface on its outer periphery over part of its length and is provided with a base plate.

By using a screw-type drill pipe, you can also do one flat sloping pile with a slope of 450 or more from the vertical, as a displacement bored pile, as the one on the outer circumference of the drill pipe provided screw surface ensures that the drill pipe is largely self-contained pulls into the ground as it rotates, without subjecting it to a high axial load of the drill pipe is required, which is difficult and high in the case of flat inclined piles Effort can be generated.

According to the invention, at least one steel profile support is in the drill pipe set, the one with the base plate of the drill pipe remaining in the ground is connected in a tensile manner.

The use of such steel profile girders as a support member is in the case of driven piles known per se. Here, however, the support member also serves as a propulsion element for the pile and must be driven in by a suitable pile driver. at the method according to the invention, however, it is possible to use the steel profile carrier only after the complete lowering of the drill pipe to set in this and to connect with its base plate, so that the steel profile beam when pulling the drill pipe cannot be pulled out at the same time.

The filler concrete to fill in the drill pipe and / or the grouted concrete to fill the cavity between the screwdriving tube and the ground can then when pulling out of the drill pipe can be filled under pressure.

Because the material to fill the cavity is introduced under pressure constriction of the pile as a result of the earth load is excluded and the skin friction, which is important for the transmission of tensile force, is significantly improved. the Bending loads caused by the earth load on piles inclined at a slight angle can be well received by the support member when this of the drill pipe or is formed by sectional steel girders. Furthermore, when using profile steel girders only a few spacers required as a support member.

As in the manufacture of flat inclined piles when pulling the drill pipe difficulties can arise that the support member on the drill pipe hangs up and is pulled out together with this, there is another possibility in that the screw drill pipe according to the invention itself as a support member in the ground remains and is filled with concrete. The loosened soil in the coat area of the screwed drill pipe can already be used when the pile is being lowered under pressure concrete be pressed. In this case, the grouted concrete can pass through openings in the screwed drill pipe be pressed into the cavity between the drill pipe and the ground.

Further features and advantages of the invention emerge from the following Description and drawings illustrate preferred embodiments of the invention are explained in more detail using examples. It shows: Fig. 1 as a bank reinforcement for a water-serving sheet pile wall, which at the head with a according to the invention Method produced tension pile is anchored, in a vertical section, Fig. 2 the lower end of the tension pile according to FIG. 1 in an enlarged view in a first embodiment, Fig. 3 the lower end of the brought down drill pipe for another embodiment of the tension pile according to FIG. 1 on an enlarged scale and FIG. 4 shows the object of FIG. 3 when pulling the drill pipe and pressing the loosened soil in the jacket area of the drill pipe in one of FIG. 3 corresponding Depiction.

In Fig. 1, 10 denotes a sheet pile wall with which the bank of a navigable body of water 11 is attached, the river bed 12 of which is much deeper lies as the upper edge of the terrain 13. The water level 14 of the body of water 11 lies below the top 15 of the site 13.

At its upper edge is the sheet pile wall 10 with a head beam 16 provided, which is arranged in the bottom 17 by several, Mm lateral spacing from one another Tension piles 18 is anchored, of which only one is shown in the drawing is. The tension piles 18 are inclined at an angle α, which is the one shown Embodiment 45 "is.

As will be explained in more detail below, the tension piles are 18 designed so that they can also absorb compressive forces, for example from a ram P of a ship directed horizontally against the head beam 16 can originate that applies to the bank wall 10.

To avoid noise and vibrations, the tension piles 18 as displacement bored piles in the ground 17 and with a hardening Grouting compound pressed.

A screw-type drill pipe 20 is used to produce the bore, that on the lower part 21 of its length L on its outer circumference 22 with a helical surface 23 is provided. This screw surface 23 is for example made of a sheet metal strip formed by the width b, the helical on the outer circumference 22 of the Drill pipe 20 is welded on.

The jacket of the Drill pipe 20 is provided with openings 24 by flaps or by a destructible Foil can be closed, but not shown in the drawing are.

A base plate 25 is arranged at the lower end 20a of the drill pipe 20, which closes the drill pipe 20 and with a cutting edge 26 or a drill bit 27 can be provided with a worm thread (Fig. 4).

When producing the composite injection pile according to FIG. 2, according to the Invention proceeded so that the Schaubbohrrohr 20 under a certain axial pressure at the angle a from the upper edge of the terrain while turning into the floor 17 is drilled until its lower end 20a has reached the desired depth. By the screw surface 23 on the outer surface of the drill pipe this is at its rotation is drawn into the ground by itself, with the ground outward is displaced because the openings 24 are closed when the drill pipe 20 is lowered are.

When the screw drill pipe 20 has reached the desired depth, remains it as a support member in the ground and is with a hardening grout 27, for example filled with concrete, under pressure. The grout penetrates after opening of folding or destroying the film through the openings 24 in the loosened Area 28 between the outer circumference 22 of the drill pipe 20 and the existing soil 17, so that a firm connection is made between the drill pipe and the ground will. The resulting composite injection pile can then with the head beam 16 of the Sheet pile wall to be connected.

In the embodiment shown in FIGS. 3 and 4, the Screwed drill pipe brought down in the same way as in the method described above. Here, the drill pipe is expediently provided with a screw surface over its entire length Mistake.

After the lower end 20a of the screw drill pipe 20 the desired Has reached depth, a steel profile support 31 is set in the interior 30 of the drill pipe, at its lower end 31a with the base plate 25 of the screw drill pipe 20 tensile strength connected. The base plate 25, which in this embodiment is attached to the drill pipe 20 is releasably attached and can also be designed as a drill bit 27 (Fig. 4), has for this purpose a special locking device 32 on its inside, for example a hook that is inserted into a recess 33 provided for this purpose in the steel profile support 31 can intervene and is locked in some way.

The screw drill pipe 20 is then moved axially in the direction of the arrows 34 pulled or unscrewed from the borehole 35, the borehole 35 continuously is filled under pressure with grouting material, for example with concrete.

Here, the soil 17 surrounding the borehole 35 is compacted and the support member 31 is completely enveloped with the molding compound and thereby protected from corrosion protected.

In the embodiment described last, it is not necessary to to provide the screw drill pipe 20 with openings, since the injection compound introduced 27 can exit at the lower end of the drill pipe 20 and the entire cavity between Support member 31 and bottom 17 fills. There is also the advantage that the screw drill pipe can be recovered.

The invention is not limited to the illustrated and described exemplary embodiments limited, but several changes and additions are possible without the To leave the scope of the invention. For example, it is also possible to bring it down of the screw drill pipe 20 the loosened area 28 between the outer circumference 22 of the drill pipe 20 and the bottom 17 as soon as the drill pipe 20 is lowered to be filled with the grouting compound under pressure if the screw-drilling pipe is used as a support member remains in the ground. Furthermore, instead of a single rolled profile carrier several rolled profile girders are used as a support member, which are in the manner of multi-part Tension and compression links are welded, riveted or screwed together. It is also possible to attach the profile support (s) to the base plate in some other way to attach the drill pipe, for example by a screw or bayonet connection.

Claims (6)

Claims: 1. Method for producing an inclined composite injection pile with a prefabricated support member, in which the loosened when the pile was lowered Soil in the mantle area of the pile with a pressurized, hardening Mass is grouted, characterized in that the grouting pile is a displacement bored pile is made with a screw drill pipe (20), which on at least one part (21) its length (L) has a helical surface (23) on its outer circumference (22) and is provided with a base plate (25). 2. The method according to claim 1, characterized in that the screw drill pipe (20) remains as a support member in the ground (17) and is filled with grout. 3. The method according to claim 1 or 2, characterized in that the loosened area (28) between screw drilling pipe (20) and floor (17) when lowering of the pile (18) is pressed out under pressure with grout, in particular concrete. 4. The method according to any one of claims 1 to 3, characterized in that that the grout (27) through openings (24) in the screw drill pipe (20) in the loosened Area (28) between screw drill pipe (20) and bottom (17) is pressed out. 5. The method according to any one of claims 1 to 4, characterized in, that as a support member at least one steel profile support (31) is used, which with the footplate (25) of the screw-drilling pipe (20) remaining in the bottom (17) tensile strength connected. 6. The method according to any one of claims 1 to 5, characterized in, that the steel profile support (31) after the complete lowering of the drill pipe (20) is set in this and connected to the footplate (25) and that the Filling compound (27) for filling the screw-drilling pipe (20) and / or the grouting compound for pressing the loosened area (28) between screw drilling pipe (20) and Bottom (17) is filled under pressure when pulling out the drill pipe (20).