NL1025013C2 - Anchoring assembly. - Google Patents

Description

Short indication: Anchoring assembly.

The invention relates to an anchoring assembly comprising an anchor pole according to the preamble of claim 1.

It is known in the state of the art to anchor structures to the bottom with the aid of such anchor piles. These anchor piles usually consist of a rod with a screw blade arranged thereon extending over several turns. The anchor piles are intended for being rotated into the ground, to many meters, after which they can be loaded in the longitudinal direction for tension and / or pressure. Here, very diverse applications can be envisaged, including anchoring ground and / or water-retaining structures, anchoring trenches for mast constructions, anchoring concrete structures in the ground that need to be secured against floating up, and the like.

More in particular, an anchor pile of the screw injection anchor type is known, for example, from NL-C-1000439, the rod of which is hollow and with openings in the hollow rod wall which are spread over the length of the propeller blade. This makes it possible, already during and / or after the anchor pile has been screwed to depth, to reinforce the ground mass enclosed between the screw blade windings and / or around the rod by injecting it with a curable liquid mass which, under pressure, the hollow rod space is supplied and exits through the openings in the rod wall. In this way, a load-bearing column is formed at the location of the propeller blade and, if desired, along the rest of the rod, in which the anchor pole becomes immovably stuck and which obtains a close connection with the surrounding ground through lateral protuberances of the cured mass. The tensile and / or compressive load to be received by the anchor pile can be increased by increasing the axial length of the screw blade and thereby the length of the base column to be reinforced and / or by making the diameter of the screw blade turns larger.

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A disadvantage of the anchor pole is that it is relatively flexible in the transverse direction. If, therefore, constructions have to be anchored to the bottom, which can also be subject to loads laterally, a large number of anchor piles should be used and a number of these should be screwed obliquely into the bottom. The larger number of anchor piles makes anchoring expensive, while it is not always possible to screw the anchor piles obliquely into the ground. Furthermore, the maximum pressure load of the anchor piles is limited.

The present invention has for its object to at least partially obviate the above-mentioned disadvantages, or to provide a usable alternative. More in particular, it is an object of the invention to provide an anchoring assembly which can be fitted quickly and inexpensively, which can withstand both tension and pressure, and which can also provide sufficient rigidity in the lateral direction.

This object is achieved by an anchoring assembly according to claim 1. Herein, the assembly comprises a combination of an anchor pole with a foundation element, wherein connection means are provided which rotatably connect a rod of the anchor pole to the foundation element. The rod extends substantially in the longitudinal direction of the foundation element, while a drill member provided at the free end of the anchor pole extends at least partially below the foundation element. The assembly of anchor pole and foundation element can advantageously be arranged in the ground simultaneously, without too much force being required for this. The drilling member hereby paves the way for the foundation element that follows. During installation, the anchor pile moving in the ground by a screw movement can pull the foundation element behind it into the ground. It is also possible to exert a small external force on the foundation element. Once applied to a desired depth, the anchoring assembly provides a very advantageous combination of tensile strength with pressure loadability as well as lateral bending stiffness.

In a special embodiment, the foundation element is formed by a profile part with an at least half-open cross-section, for example an H-profile or a C-profile. This has the advantage that loosely drilled soil cannot accumulate within the foundation element. This will make it easier for the foundation element to be pulled along by the anchor pile without having to exert too much force from above on the foundation element.

More in particular, connecting means are provided between the anchor pole and the foundation element, which connecting means comprise a guide sleeve connected to the foundation element, through which the rod of the anchor pole extends. It has been found that such a simple solution is already sufficient for this purpose, while during assembly it is very simple to insert the rod of the anchor pole through the guide sleeve and thus to establish the desired connection.

In a variant, the anchor pole is movably connected up and down over a certain distance to the foundation element. This advantageously makes it possible to use the drill element of the anchor pole as a breaker in the event that a hard object is struck while screwing into the ground. The foundation element then does not have to be moved up and down during an open and falling breaking stroke of the anchor pile. The axial movability can be achieved, for example, by providing the rod on either side of the connecting means with limiting members at a desired mutual distance.

In a further variant, the drill member has a diameter that is substantially larger or equal to the largest transverse dimension of the foundation element. This ensures that the drill member drills soil for the entire cross-section of the foundation element, so that the foundation element can easily be moved along with it in the ground.

Further preferred embodiments are set out in the sub-claims.

The invention also relates to a method for arranging such an anchoring assembly in the ground.

The invention will be further elucidated with reference to the accompanying drawing, in which: 1 is a front view of an embodiment of the anchoring assembly according to the invention;

FIG. 2 is a top view of FIG. 1; u '^ ai3 4 «

FIG. 3 is a sectional view along the line III-III in FIG. 2; and

FIG. 4a, b and c are views similar to fig. 1 during subsequent phases of introduction into the soil.

In Figs. 1-3, the entire anchoring assembly is indicated by the reference numeral 1. The anchoring assembly 1 comprises a screw injection anchor 2 with a hollow rod 3 built up of several parts and provided with a screw blade 4 at its lower end.

The screw blade 4 is then provided with a double spiral blade over its first pitch. Injection openings 5 are provided in the rod 3 at the location of the screw blade 4 for supplying a lubricant and / or curable reinforcing mass from the inside via the hollow rod 3.

The rod 3 extends through a guide sleeve 7 which is connected to a wall part of a foundation element 8. The foundation element 8 is here formed by an H-profile, the anchor 2 extending on one side of a central wall part thereof. The center line of the anchor 2 here extends parallel to that of the foundation element 8.

The multiple parts of the rod 3 are connected to each other by means of a bayonet coupling 10. The lower end of the bayonet coupling 10 and the upper end of the screw blade 4 form limiting means which are located on either side of the guide sleeve 7. The mutual distance of the limiting means is then greater than the axial dimension of the guide sleeve 7. This provides an axial movability at the connection between the anchor 2 and the foundation element 8.

The bayonet coupling 10 which is located above the guide sleeve 7 is made up of two parts which are each screwed to a respective free end of the associated rod part 3 by means of a threaded connection. This makes it advantageously possible to insert a rod part 3 from below through the guide sleeve 7 during assembly, and only then to screw a bayonet coupling part 10 onto this rod part 3, whereafter the parts are secured with each other.

The diameter d of the screw blade 4 is larger than the largest transverse dimension of the H-profile, which is clearly visible in fig.

2.

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Figures 1 and 4a-c show the phases of installing the anchoring assembly 1 in the ground. Here, the anchor 2 is screwed into the ground from ground level MV. As soon as the anchor 2 has been screwed over a depth into the bottom corresponding to the length 5 of the part of the anchor 2 protruding below the foundation element 8, the foundation element 8 will also be pulled into the bottom. The foundation element 8 will hereby experience little resistance due to the fact that the ground has already been loosened on site by the screw blade 4. The tensile force of the anchor 2 is hereby transferred to the foundation element 8 via the bayonet coupling 10. After the assembly 1 has reached a desired depth is. The upper rod part 3 can advantageously be easily disconnected by turning this upper rod part 3 in a direction opposite to the screw-in direction. The two bayonet coupling parts 10 will hereby disengage, whereby the lower bayonet coupling part 10 remains behind on the lower rod part 3. The upper rod part 3 is hereby advantageously reusable for a subsequent anchoring assembly.

During screwing into the bottom, a grout mixture is supplied via the injection openings. This serves as a lubricant for the propeller blade and after hardening hardens the soil around the assembly 1.

During the bringing to depth or after the entire assembly 1 has been brought to depth and the superfluous rod part 3 has been removed, a curable reinforcing mass can also be provided around the foundation element 8 and in particular in the half open space (s) thereof. After this has hardened, the assembly 1 obtains its desired anchoring properties. The upper part of the foundation element 8, the so-called head profile, is ideal for welding parts thereon or for connecting a structure to be anchored thereto in another way.

In addition to the embodiment shown, many variants are conceivable.

Other types of anchor piles and / or foundation elements can thus also be used. The screw blade can also have other dimensions, or a different type of drill member can be used instead of a screw blade, for example a drill point. In addition to the supply of lubricant and / or curable reinforcing mass via the hollow rod of the anchor pole, separate supply lines provided with outflow openings can also be provided in the foundation element, or integrated therein.

Although in the drawings, the part of the anchor pile that is located below the foundation element appears to be relatively short, this can also be made a few meters long if desired. Depending on the soil composition, an optimization of the mutual relationships of the anchor pole and the foundation element can thus take place.

Thus, according to the invention, an anchoring assembly which can be arranged in the ground in a fast, efficient and inexpensive manner is provided which can accommodate both large forces in the axial direction and lateral loads.

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Claims (11)

An anchoring assembly for anchoring a structure to the ground, comprising: an anchor pole (2) with a rotatably drivable rod (3) which is provided at least at its free end with a ground drilling means (4) for screwing into the ground of the anchor pole (2); characterized in that the assembly further comprises an elongate foundation element (8) movable in the ground, the rod (3) of the anchor pole (2) being rotatably connected to the foundation element (8), substantially in the longitudinal direction of the foundation element (8). foundation element (8) and extends with the drilling member (4) at least partially below the foundation element (8). 15 Anchoring assembly according to claim 1, wherein the foundation element (8) is a profile part with an at least half-open cross-section. i The anchoring assembly according to claim 2, wherein the profile part is an H-profile. Anchoring assembly according to any one of the preceding claims, wherein the foundation element (8) is provided with a guide sleeve (7), through which the rod (3) extends. Anchoring assembly according to any one of the preceding claims, wherein the rod (3) is movably connected up and down over a certain distance to the foundation element (8). 30 Anchoring assembly according to any one of the preceding claims, wherein the drill member (4) has a diameter (d) that is substantially larger or equal to the largest transverse dimension of the foundation element (8). Anchoring assembly according to one of the preceding claims, wherein the rod (3) is made up of a plurality of releasably connected parts. 102 513 * * An anchoring assembly according to claim 7, wherein the rod parts (3) are connected to each other by means of a bayonet coupling (10). An anchoring assembly according to any one of the preceding claims, wherein the drill member (4) is a screw blade provided on the rod (3). An anchoring assembly according to any one of the preceding claims, wherein the rod (3) is hollow and is provided with injection openings (5) for supplying a lubricant and / or curable reinforcement mass, in particular grout. 11. Method for installing an anchoring assembly according to any one of the preceding claims in the ground, comprising the steps of: - screwing the anchor pole (2) into the ground; - moving the foundation element (8) connected thereto into the ground; and 20. applying a curable mass around the anchor pole (2) and / or the foundation element (8). 25 30 35 1026013 "