NL1015346C2 - Removal method for free anchor length of grouted anchor sunk into the ground, involves heating free anchor length to form point of weakness - Google Patents

Abstract

The free anchor length (4) is heated locally at a high temperature before or during removal, in order to form a point of weakness where the free anchor length can yield under the tensile pressure being applied to the construction (2) in order to hold it in place. The free anchor length is formed by an anchor rod or cable (6) made from high performance steel and joined at one end to an anchor section (5) fixed in the ground, and at the other end to a construction via an anchor head (3). An Independent claim is also included for a grouted anchor whose free anchor length is provided with an electric heating element (13) located close to the anchor section and connected to wires (14) that extend past the anchor head to a power supply.

Description

A method for removing the free anchor length from a grout anchor arranged in the ground, as well as a grout anchor for carrying out this method.

The present invention relates to a method for removing the free anchor length from a grout anchor installed in the ground.

So-called grout anchors are frequently used to anchor structures, earth-retaining walls and similar structures. Such a grout anchor consists of an anchoring length or plug, which is formed by a grout or cement body injected under high pressure into a load-bearing bottom layer, and a rod of high-quality steel, the so-called anchor rod, which is included on the one hand in the plug and on the other is connected to the structure to be anchored via an anchor head. The portion of the anchor rod that extends between the plug and the anchor head is called the free anchor length and is generally provided with a plastic shell so that no forces can be transferred from it to the surrounding ground. If large anchor forces are desired or if there are limiting working conditions, a so-called cable or strand anchor is used instead of the said anchor rod, which comprises a number of strands made of 15 wires of high-strength steel. Such a strand anchor is more flexible and can be adjusted more precisely to the desired load.

To install these grout anchors, a hollow hearing tube is driven into the ground, in which the grout anchor is placed. After this, the auditory tube is closed from above with an injection cap and injection grout is pressed into it under high pressure. The grout exits at the bottom of the tube and forms the plug in the ground along the grout anchor, which hardens after some time and forms the anchoring length. After the grout has hardened, the anchor rod or strand anchor is attached to the anchor head, which is attached to the structure to be anchored, and then tensioned.

In many cases the grout anchor has become superfluous after the construction work has been completed and it is desirable to remove the free anchor length. One method which has hitherto been used for this is to provide attenuation of the free anchor length near the plug, which is for example 101 5346 -2- formed by a local reduction in diameter. If one wants to remove the free anchor length, an extra tensile force is exerted on it, such that the free anchor length will break at the location of this weakening. The drawback of this method is that the free anchor length at the location of the weakening must be at least strong enough to be able to perform its normal function. This means that the remaining part of the free anchor length must in fact be oversized. Since such a free anchor length is made of expensive, very high-quality steel, this entails considerable additional costs.

The present invention now aims to provide a method with which the free anchor length of a grout anchor arranged in the ground can be removed in a simple and efficient manner, without thereby unduly increasing the costs of the grout anchor and whereby the construction is not unnecessarily stressed. .

These objects are achieved according to the invention in that the free anchor length before its removal is locally strongly heated to form a local attenuation, so that the free anchor length succumbs to the tensile stress prevailing therein. The invention is based on the idea that the very high-quality steel of the free anchor length is extremely sensitive to heating, or in other words the high-quality steel deteriorates relatively strongly at higher temperatures. The weakening in the high-strength steel is such that the free anchor length will collapse under the normal effective tensile stress present in the free anchor length. It is therefore not necessary to exert an additional tensile force on the grout anchor in order to remove the free anchor length, so that the construction is not subjected to additional loads, as is the case with the prior art.

Preferably, the grout anchor is locally heated to a temperature of 400-2500 ° C.

The invention is also embodied in a grout anchor, which is distinguished in that the free anchor length near or at the location of the anchoring section is provided with an electric heating element, which is connected to power supply lines, which extend from the heating element to and beyond the anchor head. connected to a power source. In this way, it is sufficient to equip the free anchor length with an inexpensive heating element which does not affect the normal operation of the grout anchor. Also, the free anchor length itself does not require: 01 53 4 6 -3- virtually no other provisions or structural adaptations have to be made, so that the costs remain the same compared to the tension anchors of permanent grout anchors.

The invention is further elucidated with reference to the drawing, which, as a non-limiting example, shows an embodiment of an in-ground grout anchor according to the invention, in which:

Figure 1 shows a schematic longitudinal section through a removable grout anchor according to the invention, and

Figure 2 shows a cross section of the grout anchor of figure 1, at the location of the heating element.

Figure 1 shows a grout anchor 1, for anchoring a structure in the ground, such as a partially shown dam or quay wall 2. The grout anchor mainly consists of an anchor head 3, a free anchor length 4 and an anchoring section 5. A strand anchor 6 extends from the anchor head 3 to the anchoring section 5, which strand anchor is here formed by a number of cable strands, each of which is made of very high-strength steel wires. Such a strand anchor is more flexible than a so-called rod anchor, which consists of a single rod of high-quality steel and is therefore easier to insert.

The anchor head 3 serves to connect the strand anchor 6 of the grout anchor to the wall 2. For this purpose an annular anchoring plate 7 is provided on the outside of the construction, the circular opening of which is covered by a centering plate 8, which is supported in a slightly movable manner on the top of the anchoring plate 7. The centering plate contains a number of openings through which the individual strands of the strand anchor are guided and secured and tensioned by suitable means.

The grout anchor 1 is essentially of a conventional type, wherein first a borehole 9 is made in the ground by means of a tubular tube, in which the grout anchor is subsequently lowered. The grout anchor is formed at the anchoring part 5 with an external rib tube 10a and at the free anchor length with a smooth tube 10b. Instead of the smooth tube 10b, each strand of the strand anchor can also be protected by a plastic coating, which serves as protection against corrosion. After insertion of the grout anchor, grout is injected into the borehole under pressure, and around the rib tube 10a in the solid bottom layer forms a grout body or 1015346-4-plug 12. Because the tube 10a in this region is designed as a ribbed tube, good adhesion of the grout body 12 to the tube 10a is obtained. The grout anchor described so far is conventional.

In order to be able to remove the free anchor length after the grout anchor has completed its task and has become superfluous, according to the invention an electric heating element 13 is arranged between the strands of the strand anchor 6. This heating element is connected to a power source not shown in the drawing by means of current wires 14, which run up between the strands and through the centering plate 8 of the anchor head 3. The purpose of this heating element is to locally strongly heat the strand anchor, so that the high-quality steel in that location will deteriorate strongly and thus have a local weakening. Due to the tensile stress, which is present in the free anchor length, the free anchor length will collapse at the location of this weakening and the free anchor length can then simply be pulled out. It is therefore not necessary to exert an additional tensile force on the grout anchor 15 in order to cause the strand anchor to collapse.

In the situation shown here, the heating element 13 is located in the area where the free anchor length 4 merges into the anchoring section 5. This means that the free anchor length is removed and the plug or the anchoring section remains in the ground.

Figure 2 shows how the electric heating element 13 is arranged between the individual strands of the strand anchor.

Although the invention has been shown here in combination with the so-called strand anchors, it is of course also conceivable to use the method according to the invention with rod anchors, which consist of a single rod of high-quality steel. In order to also ensure good local heating of the rod anchor here, the heating element will locally extend around the outer circumference of the rod.

The invention can be applied to grout anchors of any suitable type, where a free anchor length of high-strength steel is present, which must be removed again after the construction work has been completed. The location where the free anchor length must collapse can be pre-selected here by placing the heating element.

1015346

Claims (4)

Method for removing the free anchor length (4) from a grout anchor (1) arranged in the ground 5, which free anchor length is mainly formed by a rod anchor or strand anchor of very high quality steel and on the one hand connects to a in a solid bottom layer provided anchoring section or plug (5) and on the other hand is connected under tension to an anchored structure (2), via an anchor head (3), characterized in that the free anchor length during or before removal thereof is locally heated strongly for forming a local weakening, so that the free anchor length collapses due to the tensile stress prevailing therein. 2. Method according to claim 1, characterized in that the tensile anchor is locally heated to a temperature of 400-700 ° C. Method according to claim 1 or 2, characterized in that the tension anchor is heated at the location where the free anchor length (4) is adjacent to the anchoring section (5). 20 Grout anchor for anchoring a structure (2) in the ground, comprising a free anchor length (4), which is made of a high-quality steel, which is connected on the one hand to an anchoring part (5) arranged in a fixed bottom layer, and on the other hand connected via an anchor head (3) to a part of the structure to be anchored, characterized in that the free anchor length near the anchoring part is provided with an electric heating element (13), which is connected to power supply lines (14) extend from the heating element past the anchor head and can be connected to a power source. d u 1 5 3 4 6