NL8303531A - METHOD FOR APPLYING A POLE INTO THE GROUND - Google Patents

Description

4 * - 4 »-1- 23495 / CV / tj

Short designation: Method for placing a pile in the ground.

The invention relates to the installation of piles and other similar objects, including temporary or permanent pile jackets in the ground.

For the sake of efficiency, all such objects will herein be referred to herein as "poles" unless specifically described otherwise, and the term "pole" used herein is intended to include all such objects within its scope of protection.

Posting is usually accomplished by applying axial impact hammer blows to the post or by rotating the post and simultaneously applying an axial force thereon to drive the post into the ground. A drawback associated with both said application method is that frictional forces develop between the sides of the pile and the ground, thereby increasing the energy required to penetrate the pile as well as the energy is required to retract the pile jackets or mandrels.

An object of the present invention is to reduce the above drawback.

A method of applying a pile according to the invention comprises orienting the pile relative to the ground in which the pile is to be placed, driving or pushing the pile into the soil and simultaneously introducing a hardenable liquid substance between the side of the pile and the ground in which the pile is driven.

The pile is expediently driven or pushed into the ground to apply an axial force thereto and by rotating the pile about its axis. The axial force is preferably applied by means of pushing hammer blows. The hammer blows and the rotation of the pile can take place simultaneously or alternately. The rotation can take place in a direction 30 or it can be rocking.

The curable liquid body, which may preferably be liquid grout or concrete, is conveniently introduced by arranging a reservoir thereof at the point where the pile enters the ground with the reservoir flowing the grout or concrete between the side of the pole and the ground under the action of gravity.

The pole can be hollow. In that case, the curable liquid substance may be additionally or alternatively introduced into the interior of the pile during its application - ---- 8303531 2 -2- 23495 / CV / tj. This can be achieved by providing openings in the wall of the pile through which the grout or concrete flows into the interior of the pile.

Furthermore, according to the invention, a pole suitable for use in the above described method comprises an elongated hollow member provided with openings in its wall at intervals along its length.

The post may have any suitable cross-section adapted to form a gap between the side of the post and the ground in which the post is driven or pushed as the post rotates about its axis.

The pile can thus be of a square cross section. Alternatively, the pole may have a circular cross section with one or more elongated formations applied to its exterior and extending externally therefrom.

The invention also includes, within its scope of protection, a pole mounted using the method of the invention.

An exemplary embodiment of the invention will be explained in more detail below with reference to the accompanying drawings.

Fig. 1 is a cross-sectional view showing the mounting of a pole in accordance with the invention.

FIG. 2 and 3 show in perspective pile jackets according to the invention.

In the illustrated exemplary embodiment of the invention, a pile must be introduced into flat ground indicated by reference numeral 1.

The application must be effected by means of a temporary pile jacket 2 such as that shown in fig. 2 or 3. The pile jacket shown in fig. 2 is in the form of a hollow metal tube of square cross section with openings 3 in each side wall of the tube with gaps along its length. The pile jacket shown in Fig. 3 is in the form of a hollow metal tube of circular cross section with openings 3 arranged in the side wall at certain distances from each other. Furthermore, the pile jacket 2 according to Fig. 3 has longitudinally extending formations 4 on its exterior, which formations protrude radially outward. Each formation 4 is formed with a leading edge 4a and a trailing edge 4b.

In order to arrange a pile according to this exemplary embodiment of the invention, a base 5 is placed on the ground 1 and a pile jacket 2 of an above-described exemplary embodiment is oriented vertically with one end of the pile jacket on the base 5. A container 6, which may consist of a base 6a and a separable wall 6b is placed 8303531 φ -3- 23495 / CV / tj around the base 5 and filled with a suitable curable liquid substance, such as a liquid grout or concrete 7.

The pile jacket 2 extends through a suitable turntable, schematically indicated by reference numeral 8 and with the aid of which the pile jack 2 can be rotated about its axis. The top end of the pile jacket 2 is provided with a suitable cover 9 to protect the pile jacket from damage by the impact of a hammer schematically indicated at reference 10.

Before the pile is applied, the pile jacket 2 is first driven into the tQ ground 1 under the combined action of intermittent blows of the hammer 10 and the rotation of the pile jacket by the turntable 8. When the pile jacket 2 is driven into the ground the liquid grout or concrete under the action of gravity in the space 11 between the side of the pile jacket and the ground. It will be clear that the shape of the pile jacket 2 ensures that the space 11 is formed when the pile jacket is rotated. At the same time, the grout or concrete will flow through the openings in the interior of the pile jacket 2.

The vertices of the pile jacket in the case of the jacket depicted in Fig. 2 and the formations 4 in the case of the jacket depicted in Fig. 3 will also tend to cause grout or concrete to penetrate into the ground 1 stocky. This will serve to obtain a final pile diameter in suitable soil which is considerably larger than that of the pile jacket 2. Furthermore, this will also ensure that a degree of mixing will occur at the interface between the soil and the filling mortar. or the concrete, which will improve the final adhesion between the pile and the ground.

The introduction of the liquid grout or concrete between the side of the pile jacket 2 and the soil will reduce the frictional forces normally developed in this area and will consequently reduce the energy required to drive the pile jacket into the soil.

Once the pile jacket 2 has been driven into the ground to the desired depth, a suitable steel reinforcement jacket (not shown) can be moved downwardly inside the pile jacket 2 if required. The pile jacket can then be retracted in a conventional manner leaving the base 5 at the base of the pile. Withdrawal is made considerably easier than with conventional piles because grout or concrete surrounds jacket 2. Alternatively, a suitable reinforcement cage (not shown) may be lowered into the interior of the pile jacket 2 before or during the driving of the jacket 2, if desired.

Many embodiments of the invention can be made without departing from the spirit or scope of the invention.

The openings 3 can for instance be left out in the pile jacket 2, in which case the interior of the pile jacket can be filled with highly compacted concrete after the jacket has been driven into the ground to the desired depth.

Furthermore, the mounting of the pipe can be accomplished by applying a non-impact axial force in any position to the post instead of using hammer 10.

The invention can also find application in the installation of composite posts. In such a case, a preformed pile, which has, for example, a square cross-section, is driven into the ground in the manner described above, while a suitable shoe is provided at the bottom end of the pile. Once the preformed pile has been driven into the ground, the application is complete and the infused filler will harden to form a composite pile.

Furthermore, the openings 3 in the pile jacket 2 can be omitted and openings can be formed in the trailing edge 4b of the formation 4. The interior of the jacket 2 can then be used for various purposes as explained above.

In this case, for example, the casing 2 can be driven into the ground by means of a hammer, which falls on a "plug" of concrete or other suitable material at the bottom of the casing 2, simultaneously with the rotation of the casing until the required depth has been reached. Further entry of the jacket 2 is then prevented and an enlarged base is formed under the bottom of the jacket 2 by expelling the plug and successive loads of concrete or other suitable material with direct blows from a hammer falling into jacket 2. A reinforcement cage can then be lowered into the interior of the jacket 2 if desired and the interior of the jacket 2 filled with highly compacted concrete or grout.

Alternatively, the jacket 2 can be driven through the "plug" as described above but without forming an enlarged base through the "plug".

As a further possibility, an enlarged base can be formed in the manner described, while the shell 2, on the other hand, is driven by the hammer 10.

8303531 4 * Λ -5- 23495 / CV / tj

Since rotation of a pile is used in the method of the invention, it is also possible to arrange suitable reaming elements on the pile where the ground conditions require to expand the diameter of the pile at any desired level.

5 -CONCLUSIONS- 8 3 0 3 5 3 t

Claims (21)

Method for applying a pile to the ground, characterized in that a pile is driven or pushed into the ground and at the same time a hardenable liquid substance is introduced between the outside of the pile and the soil in which the pole is inserted. Method according to claim 1, characterized in that the pile is driven or pushed into the ground by applying an axial force thereon while the pile is rotated about its axis. Method according to claim 2, characterized in that the axial force is applied by means of impact hammer strikes. Method according to claim 3, characterized in that the hammer blows and the rotation of the arrow take place simultaneously. Method according to claim 3, characterized in that the hammer blows and the rotation of the pile take place alternately. Method according to any one of claims 2 to 5, characterized in that the rotation takes place in one direction. Method according to any one of the preceding claims 2 to 5, characterized in that the rotation takes place back and forth. Method according to any one of the preceding claims, characterized in that the curable liquid substance is selected from liquid grout or liquid concrete. 9. A method according to any one of the preceding claims, characterized in that the curable liquid substance is introduced by arranging a reservoir 25 thereof at the point where the pile enters the ground, wherein the reservoir flows the curable liquid substance between the outside of the post and the ground under the influence of gravity. 10. A method according to any one of the preceding claims, characterized in that use is made of a hollow post. Method according to claim 10, characterized in that the pile is provided with openings in the pile wall through which the curable liquid substance can flow into the interior of the pile. 12. Method according to any one of the preceding claims, characterized in that the pile has a cross-section adapted to form a gap between its external side wall and the ground in which the pile is driven or pushed about its axis when the pile is rotated. Method according to claim 12, characterized in that the pile has a 8303531 -7- 23495 / CV / tj * square cross section. 14. A method according to claim 12, characterized in that the pile has a circular cross section while one or more longitudinally extending formations are arranged on the exterior of the pile such that they protrude from the pile. 15. Method of applying a post at least substantially as described above with reference to Figs. 1 to 3. Pile installed using the method according to any one of the preceding claims. 17. Pole provided with an elongated hollow member with openings in its wall spaced along its length. Pile according to claim 17, characterized in that the pile has a cross-section adapted to form a gap between the side of the pile and the ground in which the pile is driven or pushed upon rotation of the pile about its centerline. Pile according to claim 18, characterized in that the pile has a square cross-section. Pile according to claim 18, characterized in that the pile has a circular cross-section and on the outside of the pile one or more formations are arranged which extend outwards from the pile. 21. Post at least substantially as described above with reference to and as shown in Figures 2 or 3. 8303531