NL1008856C1 - Concrete support post and method for installing it in the ground. - Google Patents

Abstract

Concrete pile (1) for supporting structures a certain distance above ground level (M), such as viaducts and the like. The pile is characterized in that it is entirely prefabricated and comprises a hollow cylindrical shaft (2), which contains an upper pier section (2a) and a foundation section (2b). The foundation section has an oppen bottom end (3) and is in its area which adjoins the said open end provided with an external screw thread (4, 5), for screwing said pile in the ground. The shaft of said pile containing a number of ducts (20), which are distributed over the circumference, which ducts open out on the outside of the shaft in the area of the external screw thread. The invention also relates to a method for positioning said pile in the ground, said method being characterized in that while the pile is being screwed in, a liquid medium is injected on its outside via the ducts (20) and the position of the pile while it is being screwed in is controlled by varying locally along the external circumference of the pile, the volume and/or pressure of the supplied liquid medium.

Description

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Concrete support post and method for installing it in the ground.

The present invention relates to a concrete support pile according to the preamble of claim 1.

For a large number of purposes it is desirable to anchor concrete piles or piles vertically in the ground, which piles in the anchored condition protrude some distance above ground level and serve to support concrete structures. Such posts can for instance advantageously be used as pillars for viaducts and the like.

15 An important aspect of such pillars is that their installation in the ground must take place as quickly as possible in order to be able to carry out the work within the shortest possible time frame and to keep nuisance to a minimum. Especially in the construction of viaducts and the like, this is an important requirement in order to minimize the nuisance to traffic.

Such pillars must also have a high load-bearing capacity and stable anchoring in the ground.

To date, such piles have been poured on site or assembled from prefabricated elements. As a result, the assembly and anchoring of the piles known to date always takes a long time, with all the disadvantageous consequences this entails.

It is therefore an object of the present invention to provide a pole which can be anchored in the ground in a simple and efficient manner.

This object is achieved according to the invention by means of a pole, which contains the features indicated in claim 1. Such a pile can be manufactured entirely in advance and simply screwed into the ground at the desired location with the aid of a suitable drive tool.

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Preferably, according to the invention, a centering lobe is arranged in the lower open end of the shaft, which protrudes some distance outside the open end and is provided along the outer circumference with a transport screw for discharging drilling soil.

The remaining claims indicate still further developments and effective details of the pile according to the invention.

The invention is also embodied in a method for installing such a pile in the ground, which method is distinguished by the measures indicated in claim 7.

By varying the amount and / or pressure of the supplied fluid medium locally as the screwing of the pile locally along its outer circumference, as proposed in claim 8, the resistance between the pile and the surrounding soil can locally increase. to a lesser extent, so that any “skewing” of the post during screwing in can be corrected.

The upward transport of the drilling soil into the interior of the shaft can be expediently aided by driving the pile and the centering lobe in the opposite direction.

The invention is further elucidated with reference to the annexed drawing, which schematically shows a preferred embodiment of the pile according to the invention.

Show in the drawing:

Figure 1 shows a side view of the lower part of a pile according to the invention;

Figure 2 shows a vertical section of the pole of figure 1, with a drive member arranged therein;

Figure 3 is a schematic perspective view of the centering loom of Figure 2 with the lower part of the pile interacting herewith.

Figure 1 shows the lower part of a pole indicated in its entirety by the reference numeral 1, which consists of a hollow cylindrical shaft 2, with an open lower end 3. The lower part or the base of the shaft is on the outside. provided with one or more ridges 4, 5 extending along them in a helical manner. In the embodiment shown here two ridges are present, which jointly form a two-threaded thread. With the help of this thread, the post is screwed into the ground, the ridges providing a sufficiently firm and stable anchoring of the post, and the top end of the shaft protrudes above ground level to form, for example, a pillar for construction works, such as 5 viaducts and such.

Each spine terminates at the open lower end 3 in a steel cutting edge 6, 7. In the embodiment shown here, the cutting edges are oriented vertically and extend to the adjacent spine.

In the cross-section of figure 2 there is present a centering pin indicated in its entirety by reference numeral 8, which is inserted into the interior of the shaft. This centering core consists of a hollow shaft 9, which is provided at the bottom end with a closed sharp point 9a. An outflow opening 9b is arranged near this sharp point, so that liquid can be supplied via the hollow shaft 9 into the interior of the shaft, for purposes to be described later. A transport screw 10 is formed around the axis 9, which extends along the axis for some distance from the said sharp point. The top end of the screw conveyor is surrounded by a cylindrical sleeve 11, which is fixedly connected to the outer circumference of the screw conveyor. The construction is such that the sleeve fits into the internal space of the shaft with some play and thus forms a guide for the hollow shaft 9. The diameter of the screw conveyor 10 thereby increases from the lower edge of the sleeve 11 to the sharp point 9a gradually.

The centering strut can be fixed or detachable in the interior of the post, the tip 9a in the mounted position protruding some distance from the lower open end of the shaft and serving as the centering point. In the embodiment shown here, the centering lug is releasably connected to the post. In this case, the centering stud is rigidly connected to a driving tool (not shown in the drawing), so that the pile can be rotatably driven via this doom, to be screwed into the ground to a desired depth.

In figure 3 a schematic perspective view is shown, in which it can be clearly seen how the doom is detachably connected to the pile and drives this pile. In the lower edge of the sleeve 11, three cams 12 are formed, which, viewed in the direction of rotation of the doom (arrow R), have a front driving face 12a, which is parallel to the axis of the doom. On the other hand, near the lower open end 3 of the pole, within the shaft, a metal driver 13 is provided, which forms a sudden narrowing of the internal diameter of the shaft. The surface of this ring facing away from the open end 3 is provided with a number of recesses 14, which correspond in arrangement and design to that of the cams 12 on the lower edge of the sleeve II. These recesses 14 have a carrier surface 14a corresponding to the carrier plane 12a, which runs parallel to the axis of the shaft.

Thus, when the centering rod is rotated in the direction of the arrow R downwards into the shaft, the cams 12 engage in the corresponding recesses 14, 10, the surfaces 12a of the cams abutting the surfaces 14a of the recesses. The pile is thus rotated by the centering pin 8 via the ring 13. This construction has the important advantage that the centering stud can be pulled up during the screwing in of the post to remedy any blockages in the interior of the shaft.

As mentioned, said ridges 4 and 5 together form a two-course screw thread for screwing the pile into the ground. In addition, these ridges in the screwed-in condition also serve to provide a stable and sturdy anchoring of the pile, wherein the pile obtains a great load-bearing capacity. As can be seen in Figure 2, these ridges each have a bottom downwardly facing surface 15, which is substantially perpendicular to the outer surface of the shaft, which surface transitions into the outer surface of the shaft via a chamfer 15a. A radially outer surface 16 of the mg extends substantially parallel to the outer surface of the shaft, and from this outer surface a surface 17 extends obliquely upwards to the outer surface of the shaft. The radially outer face 16 has a slightly hollow cross-section and is coated with a steel band 18 anchored in the concrete. This tape 18 serves as a cutting tape to facilitate screwing the pile into the ground. The hollow shape aims to reduce the adhesion of the soil and to improve the cutting action.

Finally, a number of channels 20 are arranged in the shaft, which extend in the longitudinal direction of the shaft from the top of the pile. These channels, shown in dashed lines in Figure 2, open out on the outside of the shaft in the region of the screw thread. In the illustrated case, two channels i: 1008856-5-20 are shown, both of which terminate near the bottom opening 3 in the plane 15 of the respective ridges. It will be understood, however, that more channels may be present, which may open out at different locations on the outside of the shaft or in the ridges. The purpose of these channels is to supply fluid fluid to reduce the friction between the outside of the pile and the surrounding soil during screwing in of the pile.

The above-described pile is placed in the ground by means of a driving tool (not shown in more detail). This drive tool preferably engages where the pile experiences the most resistance during screwing-in, i.e. in the region of the screw thread. The drive tool can thus engage or be connected to the centering lobe 8. During screwing in, the ground is cut loose by the cutting edges 6, 7. On the inside of the shaft, the soil is led upwards by the transport screw 10. By injecting liquid via the hollow shaft 9 via the mouth 9b near the lower open end 3, the transport 15 of the drilling soil within the pile is improved.

When the pile has been screwed to the desired depth in the manner described above, the load-bearing capacity of the pile is increased by filling the internal space of the shaft with suitable mortar or mortar and optionally applying a reinforcement. The top end of the post is then finished according to usage. The top part of the post, i.e. the part above the screw thread, is smoothly finished on the outside, so that the visible part needs no further finishing.

The pile according to the invention is manufactured from prestressed concrete and can be manufactured entirely in advance by centrifugal casting, in which the cutting edges 6, 7, the channels 20 as well as the cutting belts 18 arranged along the ridges are cast and anchored in an appropriate manner.

It will be clear that the invention is not limited to the pile shown and described here, but that a large number of variants will be obvious to the skilled person within the scope of the appended claims. For example, the shape of the ridges and the centering lobe may vary depending on the nature of the soil or the purpose of the pile.

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Nor does the pile need to be driven via the centering lobe, but it can also be driven with a suitable driving tool engaging the top of the pile. According to the invention it can even be very efficient to drive the centering rod and the pile separately with the same driving tool in a mutually opposite direction of rotation. In this case, therefore, no carrying members from the doom and on the inside of the shaft are required.

The pile according to the invention is particularly suitable for serving as a pillar for viaducts and the like. The completely prefabricated pile can be quickly installed in the ground on site, so that the inconvenience to traffic is minimal.

10! 1008856

Claims (10)

Concrete post, for supporting structures, characterized by: a hollow cylindrical shaft (2), with an open lower end (3), which is provided with one or more circumferential steel cutting edges (6, 7); one or more spirals extending over the outer surface of the shaft, in the region adjacent the lower open end, ridges (4, 5), which together form a single or multi-thread external thread; a plurality of channels (20) extending longitudinally downwardly from the upper end thereof into the wall of the shaft for guiding a liquid medium, which channels on the outside of the shaft terminate in the region of the exterior screw thread; means (11, 13) for engaging a drive tool to drive the pole rotatingly about its central longitudinal axis. Post according to claim 1, characterized in that each helical back (4, 5) is cast in one piece with the concrete shaft and is coated on the radially outer side (16) with a steel strip (18), which the concrete is anchored, and each back at the bottom open end ends in a steel cutting edge (6, 7). Post according to claim 2, characterized in that the radially outer side (16) of each back covered with the steel strip is slightly hollow in cross section. Post according to claim 1 or 2, characterized in that a centering lobe (8) is arranged coaxially in the lower open end of the shaft, which protrudes slightly outside the open end of the shaft and is provided along the outer circumference with a transport screw (10) for the removal of drilling soil; 1008856 - 8- Pole according to claim 3, characterized in that the centering pin (8) is fixedly connected to the driving tool, the centering pin consisting of a central hollow shaft (9), which ends in a dense sharp centering point (9a) and at some distance above this centering point has an outflow opening (9b), the conveying screw 5 (10) extending some distance from said centering point along the axis (9), and from a sleeve enclosing the upper part of the conveying screw coaxially around the axis (11), which connects with some play to the inner wall of the shaft. 5 - 7- Pole according to claim 4, characterized in that the bush (11) at its lower edge is provided with entraining members (12) which can cooperate with correspondingly shaped entraining members (14), which are arranged in a close-open position metal ring (13) located inside the shaft. Method for inserting a pile into the ground according to one or more of the preceding claims 1-7, characterized in that the pile is screwed into the ground to the desired depth, wherein transport liquid is injected into the interior of the pile during screwing-in shaft near the open bottom end thereof. 20 Method according to claim 7, characterized in that during screwing in on the outside of the pile thereof, fluid fluid is injected via the channels to reduce the resistance between the outside surface of the pile and the surrounding soil, and the position of the pile during screwing is controlled by varying the supply and / or pressure of fluid fluid locally along the outer circumference of the pile. 9. Method according to claim 7 or 8, characterized in that the centering stud and the pile are driven in the opposite direction during screwing into the ground. 1008856 - 9- Method according to one or more of the preceding claims 7-9, characterized in that the internal space of the pile is filled with grout after screwing in. 1008856