GB2260999A - Ground anchorage - Google Patents

Abstract

The invention provides ground anchorage moans comprising a bore (10) containing a multiple of ground anchorages (11-14) each of which includes a tendon (11a-14a) having one end anchored in a capsule (15-18). The capsules (15-18) are arranged in spaced relation along the bore. Around each tendon, at locations adjacent a capsule anchoring another tendon is located a length of incompressible ducting 111a 112a 113a to increase the burst strength of the said adjacent capsule. The tendons are separately anchored to a common anchor head. <IMAGE>

Description

GROUND ANCHORAGE This invention relates to ground anchorages.

A description of the use and construction of ground anchorages is to be found in the Draft for Development DD81:1982 published by the British Standards Institution. This Draft also contains suggested terminology.

A typical ground anchorage comprises a bore in the ground which is filled with grout (the bore grout).

Received in the bore is a tendon which at its end remote from the open end of the bore is bonded in a capsule comprising a corrugated duct filled with resin or cement grout. The capsule is bonded in the bore grout and the tendon has a free length which has substantially no adhesion to the bore grout and is greased and sheathed.

The sheath enters into the capsule so that the tendon bond length in the capsule is somewhat less than the capsule length. At its free end the tendon is received in an anchor head, is stressed against the anchor head and is locked off against it.

The above description relates to a ground anchorage comprising a single tendon. Ground anchorages are also known in which there is a number of tendons which are bonded in a single capsule of elongate form. The ends of the tendons may be arranged in staggered relation within the capsule to spread the load along the capsule.

While this arrangement may transmit a greater tensile load than a ground anchorage comprising only a single tendon, there are limitations in its use since the tendons have to be greased, sheathed and bonded into the capsule under factory conditions and the anchorage then transported to the site where it has to be inserted and anchored in the bore. The length of the capsule which can be used in this construction is limited by the need to be able to transport the capsule from the factory where it is manufactured to the site where it is to be installed.

An earlier invention provides patentability of the present assignments ground anchorage means which has advantages over the then known constructions.

According to one aspect of this earlier invention, the Applicants provided ground anchorage means comprising a bore in the ground and filled with grout (the bore grout) and a multiple of ground anchorages received in the bore and extending therefrom, each anchorage comprisina a tendon having a bond length bonded in a capsule containing grout separate from the bore grout and a free length arranged so that there was little or no adhesion between the free length and the bore grout; and wherein each anchorage had a capsule separate from the capsules of the other anchorages, the capsules of the respective anchorages being arranged in staggered spaced relationship along the bore and anchored in the bore grout.

This ground anchorage means had several advantages over the prior art described above.

Firstly, since there was a plurality of separate ground anchorages in the bore, then if one of these ground anchorages should fail this would only reduce the load capacity by a certain amount and the other anchorages will still carry their full loads. Where multiple tendons were anchored in a common capsule then de-bonding of any one tendon will cause the anchorage to be rejected.

Secondly, the ground anchorages were convenient to transport to site since the capsule of each anchorage is comparatively short, e.g. one to three metres, and thus the capsule and the free length of the tendon could easily be transported to site.

Other features and advantages of this earlier invention may be established from British Patent Application 2223518A.

We have now discovered an improvement to the structure defined above.

The force exerted on a capsule by the anchored tendon acts in a direction to boost the capsule outwards. This outward bursting force is resisted by the surrounding bore grout and the walls of the bore, and is usually, if only one single anchored capsule is present, a problem only if the surrounding walls of the bore are themselves soft or compressible.

However, if several capsules are present each but the deepest capsule lies in the vicinity of one or more tendons, i.e. if four capsules are used the upper three lie as neighbours to successively one two or three parallel and surrounding tendons.

Because these tendons are greased for movement, i.e.

not bonded to the bore grout, they represent regions of weakness in the resisting of bursting force. This weakness is made worse if as is typically the case the tendons are individually sheathed with one or more layers of synthetic polymer material covering at least those portions of tendon nearest the capsule and optionally the whole length within the capsule.

The present invention sets out to overcome this problem of reduced resistance to capsule bursting force in multiple-cable assemblies.

In one aspect the present invention provides ground anchorage means comprising a bore in the ground and filled with grout (the bore grout) and a multiple of ground anchorages received in the bore and extending therefrom, each anchorage comprising a tendon having a bond length which is bonded in a capsule containing grout separate from the bore grout and a free length arranged so that there is little or no adhesion between the free length and the bore grout; and wherein each anchorage has a capsule separate from the capsules of the other anchorages, the capsules of the respective anchorages being arranged in staggered spaced relationship along the bore and anchored in the bore grout characterised in that, within the bore at least one tendon, at least in that portion thereof which lies adjacent and parallel to a capsule, is individually surrounded with a compression-resistant ducting.

Preferably, most or all such tendons are so surrounded.

The ducting usually extends longitudinally only for that distance equivalent to the length of an adjacent capsule. Suitable compression-resistant ducting may be composed for example of ferrous metal or the like.

As in earlier proposals, to increase the bond of a tendon within the capsule, each tendon is preferably deformed within its capsule. If a tendon is wire strand then outer wires may be unlaid, and a ferrule put on the king wire and then relaid.

The capsule will normally include one or more corrugated ducts containing grout.

The ground anchorage means will include an anchor head at the open end of the gore and each tendon will be received in a separate hole in the head and separately stressed and locked off in relation thereto.

The invention also provides a method of making ground anchorage means comprising forming a bore in the ground, placing a plurality of ground anchorages in the bore, each anchorage comprising a tendon having a bond length bonded in a capsule containing grout and a free length arranged to have little or no adhesion to surrounding grout in the bore, each anchorage having a capsule separate from the capsules of the other anchorages, arranging the capsules of the respective anchorages in staggered spaced relation along the bore, locating within the bore, around at least one tendon, and at least in tat portion thereof which lies adjacent and parallel to a capsule, an individual compressionresistant length of ducting and then filling the bore with grout to anchor said capsule therein, fitting an anchor head onto the tendons, stressing each tendon separately, and locking the stressed tendons individually with respect to the anchor head.

Alternative assembly methods, in which each tendon is surrounded by its ducting prior to placement, optionally with cutting to length as required, are also included within the scope of the invention.

The invention will now be described in detail by way of example with reference to the accompanying diagrammatic drawings in which: Figure 1 is a section through ground anchorage means embodying the invention, Figure 2 is a detail longitudinal section of the means of Figure 1 showing one capsule construction; Figure 3 is a section on a line B-B of Figure 2; Figure 4 is a detail longitudinal section of the means of Figure 1 showing another capsule construction; and Figure 5 is a section on the line A-A of Figure 4.

Referring now to Figure 1, the ground anchorage means comprises a bore 10 formed in the ground either vertically or at some other desired angle.

Within the bore are four separate ground anchorages generally indicated at 11, 12, 13 and 14. Each of these includes a tendon lia, 12a, 13a, and 14a respectively, which tendon conveniently consists of seven-wire strand with a king wire and six wires wound about it, and each anchorage also comprises a capsule indicated respectively at 15 to 18. The capsules are longitudinally spaced and (in bore cross section) located on dIfferent radii. Thus the capsule 15 is nearest to the bottom of the bore, the capsule 16 is spaced away from the capsule 15 towards the free end 19 of the bore, and capsule 17 is spaced from the capsule 17 and the capsule 18 is spaced from the capsule 16.

Each capsule defines a duct containing a mass of grout in which the bond length of the tendon (lea, etc) is anchored. Thus as shown in Figure 2 the bond length 16a of the tendon 12a for example is surrounded by a first corrugated plastic duct 20 which in turn is surrounded by a further corrugated plastic duct 21 spaced from the duct 20. The space within the plastic duct 20 which is indicated at 22 is filled with a cement or resin-based grout and the space 23 between the ducts 20 and 21 is also filled with a similar grout. The bond length of the tendon may be deformed in a manner not shown by unwrapping the strand, putting a ferrule on the king wire and then reforming the strand.

It will be seen from Figure 3 that the other tendons in the bore 10 pass alongside the capsule 16.

The free length of the tendon 13a is greased and is covered with a plastic sheath 24 and an outer plastic sheath 24a which extend at 24b into the grout 22 in the capsule 16 thus completely protecting the tendon.

Similarly the free length of each of the other tendons is greased and sheathed; for ease of illustration this is not separately shown.

At the positions where each tendon passes a capsule the grease and wrapping thereon, while allowing tendon movement, also represents a longitudinally extending zone of weakness against bursting force exerted on each capsule by its connecting tendon. There are accordingly provided around each such tendon lla, 12a and 13a, adjacent to the capsules 17,16 and 18 lengths of metal tubing villa, 112a and 113a axially resistant to compression, so as to retain burst strength in the zones around each capsule.

As shown in Fig 1, and in more detail in Figure 2, the lengths of tubing llla, 112a, 113a may extend for only those lengths necessary to retain burst strength around each capsule.

The plastic sheaths and the grease and the surrounding metal tubing prevents or reduces adhesion between the free lengths of the tendons and a mass of grout 25 which fills the bore 10. This bore grout anchors the capsules 16-18 of the anchorages 11-14 in the bore 10, good adhesion being obtained between the bore grout and the capsules due to the corrugated shape of the plastic ducts defining the capsules.

Thus since the capsules 15 to 18 are staggered along the length of the bore 10 and since there is substantially no adhesion between the free lengths of the tendons and the bore grout 25, the load transmitted between each anchorage and the ground is exerted over a fixed length through the bore grout 25, the load transmitted between each anchorage and the ground is exerted over a fixed length through the bore grout 25 to the ground. Since the capsules and their associated fixed lengths are staggered along the length of the bore 16, the loads of the separate anchorages are spread along the length of the bore so that there is less tendency for the ground to be overloaded by this multiple anchorage. Each anchorage will be separately stressed with respect to an anchor head (not shown) and locked off relative to the head.

Each anchorage is manufactured under factory conditions and the bond length of the anchorage tendon is encapsulated in its own capsule of grout within the plastic duct or ducts as described above. The free length of each tendon is greased and sheathed. The anchorages may then easily be transported to site since the capsules are approximately one to three metres in length and the free lengths of the tendons can be suitably coiled for transport purposes. The anchorages can be manufactured in appropriate lengths depending on their ultimate positions in the bore 10.

On arrival at site, the anchorages are then inserted into the bore so that the capsules are staggered along the length of the bore with the free lengths of the other anchorage tendons passing alongside the capsules as clearly shown in Figures 3 and 5. The bore 10 is then filled with grout. When this grout sets it anchors the capsules in the bore. The load which can be transmitted by the anchorage means is spread along the length of the bore due to the staggered spaced relation of the capsules of the anchorages.

The anchor head (not shown) is arranged at the open end of the bore and has a n mFer of holes equal to the number of anchorages, each anchorage tendon passing through a separate hole in the anchor head. The tendons are then individually stressed by means of a jack and each tendon is individually anchored with respect to the anchor head by the use of a collet.

Figure 4 shows a slightly different capsule. In this case the fixed length 14a is shown and this is surrounded by a single corrugated plastic sheath 26 which is filled with resin or cement based grout 27.

The free length of each tendon is greased and provided with a single plastic sheath (not shown in Fig.4).

Axially incompressible lengths of metal tubing, llla, 112a, extend in each case from the respective capsule to surround the tendon within the whole length of the bore. In the same manner as described above such tubes protects against burst forces exerted by each capsule.

It will be seen that the invention provides a anchorage means in which the load on the ground is staggered along the length of the bore hole and that therefore there is less likelihood of the ground being overloaded or the anchor failing. Moreover the ground anchorage components are easy to manufacture, transport and install. In addition should one of the ground anchorages fail t loads carried by the remainder will be unaffected.

Claims (11)

CLAIMS:

1. Ground anchorage means comprising a bore in the ground and filled with grout (the bore grout) and a multiple of ground anchorages received in the bore and extending therefrom, each anchorage comprising a tendon having a bond length which is bonded in a capsule containing grout separate from the bore grout and a free length arranged so that there is little or no adhesion between the free length and the bore grout; and wherein each anchorage has a capsule separate from the capsules of the other anchorages, the capsules of the respective anchorages being arranged in staggered spaced relationship along the bore and anchored in the gore grout characterised in that, within the bore at least one tendon, at least in that portion thereof which lies adjacent and parallel to a capsule, is individually surrounded with a compression-resistant ducting..

2. Means according to claim 1 in which most of all of the said tendons are individually surrounded with a compression-resistant ducting.

3. Means according to claim 1 or 2 in which the ducting extends longitudinally only for that distance equivalent to the length of an adjacent capsule.

4. Means according to claim 1,2 or 3 wherein the bond length of each tendon is deformed within its capsule.

5. Means according to any one of the preceding claims wherein the capsule of each tendon comprises one or more corrugated duct(s) containing grout.

6. Means according to any one of the preceding claims including an anchor head at the open end of the bore, each tendon being received in a separate hole in the anchor head and being separately stressed and locked-off in relation thereto.

7. A method of making ground anchorage means comprising forming a bore in the ground, placing a plurality of ground anchorages in the bore, each anchorage comprising a tendon having a bond length bonded in a capsule containing grout and a free length arranged to have little or no adhesion to surrounding grout in the bore, each anchorage having a capsule separate from the capsules of the other anchorages, arranging the capsules of the respective anchorages in staggered spaced relation along the bore locating within the bore, around at least one tendon, and at least in that portion thereof which lies adjacent and parallel to a capsule, an individual compression-resistant length of ducting and then filling the bore with grout to anchor said capsules therein, fitting an anchor head onto the tendons, stressing each tendon seprately, and locking the stressed tendons individually with respect to the anchor head.

8. A method as claimed in claim 7 in which as an alternative each tendon is surrounded by its ducting prior to placement in the bore.

9. A method according to claim 7 or 8 wherein each tendon passes through a separate hole in the anchor head.

10. Ground anchorage means substantially as hereinbefore described with reference to the accompanying drawings.

11. A method of making ground anchorage means substantially as hereinbefore described with reference to the accompanying drawings.