NL8102327A - METHOD FOR MANUFACTURING A FOUNDATION POLE AND A TUBE TO BE USED THEREOF - Google Patents

Abstract

A method is provided for making a foundation pile comprising a cylindrical tube (1) with one or more helically extending blades (14, 15) at its lower end to which a hardening liquid is supplied that is conducted in such a manner that it penetrates the soil below the helical blade part or parts and along the tube wall (2) thereabove at 13. Said hardable liquid serves as means for removing the friction between pile and soil during screwing in the soil.

Description

^ * Ν.β. 300½ "

Method for manufacturing a foundation pile and a tube to be used therewith.

The invention relates to a method for manufacturing a foundation pile, wherein a cylindrical tube which is provided on the outside of the lower part with a helically running blade, is screwed into the ground under vertical load with simultaneous supply via the hollow tube of a hardening liquid that exits near the bottom screw face, which tube with screw blade section remains in the ground.

Such a method is known from the published documents

Dutch patent application 7608927. In this known method, a tube of relatively large diameter is used, which is provided on its outer surface in several places, in particular on the lower part of the tube, with propeller blades of small radial width, with injection tubes at the location of the propeller blades are sink through which a hardening liquid, such as grout, can be injected into the soil. The tube is provided with several superimposed screw blades which mix the liquid injected according to the screw threads with the bottom, whereby a widened foot is formed after the mass has hardened. This known method is expensive. This is because the foundation pile. essentially it is formed by the large diameter steel pipe and a lot of energy is required to insert this pipe into the ground, due to the large sheath friction.

The aim of the invention is primarily to provide a method which requires considerably less energy and which allows an effective use of material.

According to the invention, this object is primarily achieved in that the hardening liquid is guided in such a way that it penetrates under the screw blade section and along the pipe wall located above the screw blade section 30.

Thus, in addition to injecting at the location of the screw blade or the screw blades, according to the invention it is now also injected downwards and upwards, so that the entire tubular body is surrounded by the as yet unhardened liquid mass.

Injection down results in the grain stress under and along the tip of the pile being reduced and possibly even largely eliminated while the friction along the shaft of the pile, which is formed by the tube between the ground and shaft urgent liquid is almost completely removed. This makes it possible to drive the pile into the ground with a fraction of the power previously required, for example, one quarter of the power currently used, while the shaft formed by the tube pile can have a considerably smaller diameter so that this shaft 5 with the surrounding mass can form a slender foundation pile.

The invention also relates to a tube for applying the method according to the invention and it is characterized in that the propeller blades are arranged on a sleeve, which is attached to the bottom end of the tube, leaving an upwards and downwardly partly open annular space which communicates with the interior of the tube and the lower end of the sleeve and / or tube carries a pointed portion which exposes the downwardly directed outflow opening. In contrast to the known application 7608927, which has been mentioned previously, which has been laid open to public inspection, the portion with the propeller blades is therefore limited to a short lower portion which is determined by the length or height of the sleeve on which the propeller blade or the propeller blades, respectively, preferably two , uninterrupted stretching. This can provides an increase in diameter so that the upwardly escaping liquid surrounds the tube section or shaft located above the can with a layer of relatively great thickness. Downwardly, the liquid flows into the soil along the base of the pile tip so that the tube with the propeller blade portion rotates in a mash-like mass during insertion. Penetrations to a sufficient depth in the supporting layer can thus be realized in a relatively simple manner, whereby the large amount of hardenable liquid emerging downwards and upwards and through the openings under the screw blades and after reaching the desired position ensures that by hardening the liquid is obtained a pile consisting of a tube of small diameter, a threaded portion formed by the propeller blades and a jacket of the hardened material, which material has penetrated into the softer layers where necessary, where necessary mixed with that.

This hardened layer also protects the pipes against corrosion. In addition to a point bearing capacity, such a per se slender pile also has a carrying capacity through the adhesive with respect to the surrounding soil.

It is noted that it is known per se to introduce a hardening liquid into the ground via a tube provided with screw blades, i.e. in the manufacture of a screw pile wherein after screwing the tube provided with screw blades into the ground, it is withdrawn 8102327 -3- while simultaneously filling the cavity formed.

The invention will now be further elucidated with reference to the drawing.

This shows in side view the device for applying the method according to the invention.

The drawing shows a tube 1, which may consist of successively fastened together, for example welded sections, such as parts 1 and 2. This tube is surrounded at its lower end by a sleeve 3 which is attached to the tube at the upper end, leaving outflow openings 10 by radial spacers 4 ·. The sleeve 3 forms an annular space 5 with the tube.

At the bottom end there is a pile point 6 which is attached to the sleeve 3 by means of radial ribs 7, 8, 9 and 10, which ribs 7 to 10 may have a port-oriented ridge portion 11, which in the bottom portion of the sleeve and keep the pipe at a distance from each other.

By this manner of attachment, an outflow opening is obtained, so that the liquid material supplied via the interior 12 of the tube can exit between the ribs 7 to 10 and flow downwards along the top edge of the pile tip 6. This liquid 20 can further flow upwards via the annular space 5 and flow upwards between the spacers 4 and surround the tube 1, 2 with a layer 13.

The sleeve 3 carries two screw blades 14 and 15, the outer edges of which lie on an outer diameter 3, which carries three to four times the outer diameter of the tube 1.

Under the propeller blades 14,15 there may be outflow openings 16 and 17 respectively, so that liquid can be injected at the location of the propeller blades.

This liquid can be formed by grout, water glass, carrot or other self-hardening material.

- claims 8102327

Claims (5)

A method of manufacturing a foundation pile, wherein a cylindrical tube provided on the outside of the lower part with a helically extending blade is screwed into the ground under vertical load with simultaneous supply via the hollow tube 5 of a hardening liquid which exits near the lower screw face, which tube with the propeller blade section remains in the ground, characterized in that the hardening liquid is guided such that it penetrates below the propeller blade section and along the pipe wall located above the propeller blade section. 10 2. Tube for applying the method according to claim 1, which tube has a screw blade at the bottom end and an outlet for liquid near the bottom screw face, characterized in that it or the screw blades are arranged on a sleeve attached to the bottom end of the tube, leaving an upwardly and downwardly partially open annular space which communicates with the interior of the tube and the bottom end of the sleeve and / or tube carries a pointed portion which release the targeted outlet. 3. Tube as claimed in claim 2, characterized in that the sleeve has opening openings of the annular space under the bottom screw blade or screw blades. Tube according to claim 3 or 4, characterized in that the tube has an outer diameter which is small relative to the outer diameter of the propeller blade section. 25 Tube according to claim 2, 3 or 4, characterized in that the tube consists of sections. 81 023 27