NL192530C - Method and device for installing an elongated foundation element in the ground. - Google Patents

Description

1 192530

Method and device for installing an elongated foundation element in the ground

The invention relates to a method for installing an elongated concrete foundation element in the ground, in particular foundation pile or tensile anchor, in which a hole is drilled in the ground by means of a drill and in which binder via the drill reaches into the ground is brought to form a foundation for said elongated concrete foundation member.

Such a method is known from Japanese patent publication 59-150822. In this case, cement-milk or mortar, which of course contains a binder, is injected via the auger screw at the end of the drill into the bottom end of the tubular drill shaft, from where it can penetrate down into the borehole. From the drawing of the said Japanese publication it can be concluded that the intention is thus to create a pile base on which a prefabricated concrete pile is lowered. In this known method, a concrete lump is formed at the bottom of the pile base by mixing stirred soil with binder. The soft soil surrounding the concrete lump remains soft. As a result, it is not certain how much greater the carrying capacity of the soil will be thanks to the concrete clog at the bottom of the pile. The object of the invention is to increase the load-bearing capacity of the foundation element and thereby to drill little. To this end, the binder is injected into the soil pores of the undisturbed soil via the drill ......... .......-

It is noted that it is generally known to be a pore-penetrating binder, for example, so-called "micron S" from the French firm Bachy (trademark) or "Silicafume", which is a by-product of the ferrosilicon industry, and that mixed is introduced into the soil with calcium. The binder is a thin liquid with finely divided particles, which penetrates into soil pores and then interconnects the soil grains to form a concrete-like block. This soil improvement injection is performed with injection lances that are inserted into the ground evenly distributed over the soil. This is an extensive and time-consuming work. Because of the high costs, this known method is hardly eligible, because usually another method can be applied much more easily and with much lower costs, in order to provide a sufficient soil load-bearing capacity. The intended injection of silica volume is, for example, eligible for the temporary or temporary support of monumental buildings, on or in the vicinity of which soil-disturbing activities are being carried out.

From US patent 4,659,259 a method for soil improvement is known, in which piles are formed in a layer of soft soil by mixing the locally present soft soil with a binder. For this purpose, a drill is drilled into the soft soil with one or more external screws and the binder is introduced into the soil, possibly from the screw windings. The soil and the soil that has not been stirred with the aid of the screw are mixed. By carrying out these activities at a gradually higher level, a kind of pile is formed, consisting of a mixture of soft soil with binder.

U.S. Pat. No. 3,604,214 discloses a method of drilling a shaft into the ground with a first screw drill while sliding a second narrower screw drill from the first axially. Compared to the first screw drill, this second screw drill can be seen as an injection tube that is extended. However, the injection takes place in soil stirred by the second screw drill.

If at least one injection lance is moved outwardly beyond the bore boundary and binder is injected from the outwardly moved injection lance into the ground, one does not have to drill, or at least less deeply, into the harder soil layer.

If binder is injected into the soil from at least one helical injection tube arranged on the periphery of the drill, the binder is more strongly assured into the undisturbed soil.

It should be noted that a patenting method is known from US patent 4,659,259, in which soil-improved liquid is injected into the ground from a screw thread. The exit holes are provided both on the circumference of the screw thread and between the drilling shaft and the circumference. In this method, the soil is mixed with liquid using the screw. The liquid then enters almost exclusively into the stirred soil because the exit resistance is the least there.

The invention also provides a device for performing the method according to the invention as described in claim 4.

The devices for carrying out the preferred methods are indicated in claims 5 and 6. 55

The mentioned and other features of the invention will be elucidated in the following description with reference to a drawing. Schematic represent in the drawing.

Claims (6)

192530 2 figures 1 and 2 show a device according to the invention in two successive steps during the execution of the method according to the invention; figure 3 shows a foundation element manufactured according to the method of figures 1 and 2; figure 4 shows another device according to the invention while performing the method according to the invention; figures 5 and 6 each a foundation element manufactured according to the method of figure 4; and figure 7 detail VII of figure 4 on a larger scale. In the method according to the invention, use is made of a screw drill 1, which is carried, guided 10 and driven by a mobile conventional tool 2. The drill 1 is screwed into the ground by a soft soil layer 11 up to a soil layer 3 with considerable higher load capacity. Then an injection lance 4, which is arranged axially displaceable in the drill 1, is inserted outwardly outside the booing boundary into the base layer 3 by means of a hydraulic cylinder assembly 5 and binder is supplied under considerable pressure via a hose 18 connected to the lance 4 . This binder then passes through the lance 4 and a plurality of openings distributed over the lance surface present in the base layer 3 into the soil pores of this soil. The binder has a thin liquid for this purpose and contains fine binder particulate requirements such as silica volume with calcium or another binder. which forms concrete together with soil grains. The lance 4 is then retracted again and the conventional work is again carried out for installing a cast-in-place concrete pile 6, 20 while the drill 1 is gradually withdrawn. Hereby, optionally, concreteite or the like support fluid may be used to support the drill shaft when the drill 1 is withdrawn, or concrete may be injected into the hole at the bottom of the gradually raised drill tip. Figure 3 shows that the base pile 6 thus manufactured has its lower end on a wide concrete block 8, which itself is again supported by the reaction forces 9 of a load-bearing soil layer 3, when the pile 6 is loaded by a compression force 10. The method and The arrangement of Figures 4 and 7 correspond to that of Figures 1 and 2 with the proviso that the injection means at the lower end of the screw drill 1 consist of a screw tube 14, which is arranged on the outer circumference of the screw blade 13 of the drill 1 and which has longitudinally outwardly opened openings 15 for injecting binder 30 according to arrows 16 into the base layer 3. The screw tube 14 is connected via an axial supply tube 17 to a supply hose 18 for binder. Figure 7 also shows a central tube 19 for supplying concrete from the foundation pile 20. According to Figure 5, the foundation pile 20, which is loaded by a pressure load 26, rests directly on the load-bearing soil layer 3 and also via the concrete ring 21 formed according to the invention. is. A wide pile base is created on which the reaction forces 9 can act at a pressure load 26. According to figure 6, the foundation element 22 can form a tensile anchor. For this purpose, a widened pile base 23 is applied somewhat deeper than in figure 5 in the load-bearing soil layer 3, so that a tensile force 24 is absorbed by means of downward reaction forces 25 acting on the pile base 23. 40 A method for applying an elongated concrete foundation element in the ground, in particular foundation pile or tension anchor, in which a hole is drilled in the ground by means of a drill and 45 in which binder is introduced into the ground via the drill for forming a foundation for said elongated concrete foundation element, characterized in that the binder is injected through the drill (1) into the soil pores of the undisturbed soil (11,3). Method according to claim 1, characterized in that at least one injection needle (4) is moved outwardly beyond the bore boundary and the binder from the outwardly moved injection needle (4) into the pores of the undisturbed soil (3) is injected. A method according to claim 1, wherein the binder is introduced into the soil (3) with a feed tube arranged on the drill, characterized in that the feed tube is a helical injection tube arranged along the circumference of the drill, whereby the binder is the soil pores of the undisturbed soil are injected. Device for applying the method according to any one of the preceding claims, comprising means for placing an elongated concrete foundation element in the ground, in particular a foundation pile or tension anchor, a drill (1) for grounding (3) drilling a hole, and comprising 3 192530 feed means to the binder insertion drill to form a foundation for the elongated foundation element, characterized by injection means (4,14) for inserting into the injecting undisturbed soil of binder penetrating into soil pores. 5. Device according to claim 4, characterized by at least one hypodermic needle movable outside the drill boundary. Device according to claim 4 or 5, characterized by at least one helical injection tube (14) arranged on the periphery of the drill (1). Hereby 2 sheets drawing