SE525765C2 - Method and device for rock bolting - Google Patents

Abstract

Method and device for rock bolting, wherein a tubular bolt (2) with closed cross-section is inserted and expanded for anchoring inside a bore hole (12), wherein the tubular bolt is expanded to contact in the inner portion of the bore hole, a tension element (3, 7, 8, 9) which is arranged in the outer portion of the bore hole with an inner part (7) attached to the tubular bolt (2) is pre-stressed and a settable medium is injected into the outer portion of the bore hole (14) between (27) the tension element and the wall of the bore hole and is allowed to set.

Description

Object and main features of the invention It is an object of the present invention to provide a method and an apparatus in which the problems of the prior art are eliminated. In particular, it is intended to provide a method and a device which entails fast, rational, economical and safe installation. This is achieved by the features of claims 1 and 11, respectively.

In this way it is achieved that prestress can be applied to the bolt before casting thereof with a hardenable medium, which means that the prestress is well defined after a full length of an element of the bolt, and that the safety of the installation is increased.

Furthermore, it is permitted that a rock bolt applied by a method according to the invention can be loaded immediately already after the tubular bolt has been expanded to abut in the borehole. This avoids the undesired waiting times required in procedures according to the prior art, and overall a less cumbersome and more economical rock bolting procedure is achieved. A channel for conveying said curable medium is opened for communication with the outside of the traction element by pressurizing to a certain pressure level, which exceeds a certain predetermined threshold whole value.

It is preferred that the pulling element is used for conveying medium to expand the tubular bolt, so that the pulling element has a continuous channel for conveying pressurized water or the like.

It is particularly preferred that the curable medium is also conveyed through a channel in the drawing element.

In case the same channel is used for conveying both media to expand the tubular bolt and the curable medium 72152b.doc; 2004-12-27 10 15 20 25 the said threshold level is set so that the channel opens when the pressure increases with a certain A-pressure in addition to the expansion pressure.

By providing the traction element with an explosive plate, which fails at a certain predetermined pressure level, this function is achieved in a simple manner.

In particular, the explosive sheet can be an integral part of the material in the towing element, for example a drilled or milled-out portion with a certain remaining wall thickness, which allows shearing of the goods when the said pressure level is reached.

Additional advantages are achieved with the features of the further dependent claims and corresponding advantages are achieved with a device for rock bolting according to the invention.

Brief description of drawings The invention will now be described in more detail with reference to exemplary embodiments and with reference to the accompanying drawings, in which: Fig. 1 shows a separate perspective view of a device for rock bolting according to the invention, Fig. 2 shows, partly in section, the device in fig. Fig. 3, assembled and inserted in a borehole, Fig. 3 shows a detail of the device in Figs. 1 and 2 with an explosion plate, Fig. 4 schematically shows a block diagram of steps included in a method according to the invention, Figs. according to the invention. 72l52b.doc; 2004-12-27 10 15 20 25 30 Description of exemplary embodiments In Fig. 1, reference numeral 1 generally refers to a device for rock bolting including prestressing of a rock bolt and including a tubular expandable rock bolt, substantially of the type shown in U.S. Pat. A-4459067 (Atlas Copco AB).

The tubular bolt essentially comprises an expandable portion 5 and a fastening part 6, in which a hollow pulling element 3 can be fastened comprising an inner part 7 with a thread for co-operation with the fastening part 6 and a female thread for co-operation with a pull section 8, which in turn via a joint piece 9 is arranged to be screwed together with an additional pull section 8.

Preferably, the parts included in the traction element 3 consist of standard components, which are combinable as desired, for example for adaptation to the depth of a borehole in which the device 1 is intended to be inserted.

An abutment element 4 comprising an abutment washer 10 and a clamping nut 11, which cooperates with an outer pull section 8, is arranged externally an inlet opening to said borehole.

Fig. 2 shows the device in Fig. 1 in composite condition inserted in a borehole 12, which is accommodated in a rock portion 20.

The borehole 12 has an inlet opening 13, an outer portion 14 and an inner portion 15.

The installation of the device for rock bolting takes place so that all the parts shown in Fig. 1 are screwed together sealingly so that a tight channel is established between the expandable portion 5 of the tubular bolt and the outer end 29 of the outermost pull section 8. Sealing is achieved per se known method through sealing elements not discussed in more detail here. 72152b.doc; 2004-12-27 10 l5 20 25 30 The outer end 29 of the outermost draw section 8 is connected after insertion of the device in the borehole 12 to a pressure water source or the like, for transmitting a pressure of, for example, 300 bar to the expandable portion 5.

This expandable portion 5 will then be brought into fixed abutment against the inside of the inner portion 15 of the borehole 12, so that already at this stage a significant anchoring of the total rock bolt arises.

After completion of the expansion, the tension element consisting of the parts 7, 8 and 9 can now be prestressed, which is done in such a way that the abutment washer 10 is clamped against the rock 20 around the entrance opening 13 by means of the clamping nut 11, which is tightened to a predetermined torque value.

After the prestress, the device must now be cast in to strengthen the attachment and for corrosion protection by injecting a hardenable medium into the space 27 between the draw element_ and the wall of the borehole 12.

According to the preferred embodiment shown in Figure 2, this is done so that first the channel inside the tension element is pressurized with a pressure which exceeds the pressure for expansion of the expandable part 5 and which is selected at such a level that an explosive plate 6, which is inserted in the inner part 7 of the traction element, breaks so that an open channel is formed between this channel 19 and said space 27.

Thereafter, the device is connected at its end portion 29 to a cement pump or to some other source of a suitable curable medium.

Fig. 3 shows a detail of an inner part 7 of a traction element with an explosive plate 16, which in this case is integrated in the goods to the part 7 in such a way that a milling-out 17 is made so that 72l52b.doc; 2004-12-27 10 l5 20 25 30 the circumferential portion 18 of the explosive ink 6 has a shearable wall thickness at a certain pressure setting level.

The method for rock bolting according to the invention can be summarized with reference to Fig. 4, wherein: position 21 indicates the start of the sequence, position 22 indicates assembly of a device for rock bolting and insertion thereof in a borehole, position 23 refers to expansion of a tubular bolt, position 24 refers to biasing of a tension element, position 25 injection of curable material, and position 26 the end of the sequence.

The invention can be modified within the scope of the following claims, and as an example a device for rock bolting can be used, in which medium for expanding the tubular bolt is conveyed to it in a manner other than through the traction element, for example by a separately insertable and removable element (28 in Fig. 5), in which case the pulling element can be made homogeneous.

Curable medium can also be conveyed to the outside of the traction element in another way, for example through a channel in a bearing washer (30 in Fig. 7), in which case it is preferred that air present in this space is evacuated through an opening (31 in Fig. 7) to a channel in a traction element or another element adjacent to the traction element.

The explosive plate can be a separate element inserted in the traction element and also other means for establishing a channel for conveying the curable medium can be present, for example an element with a valve function can be used. A further example is the use of a breaker pin which can be sheared at a certain pressure, which holds a potentially movable valve element. 72l52b.doc; 2004-12-27 - fi fwv ~ »'f As a further alternative, the pulling element can also be anchored, for example, in the manner shown in Fig. 6, by clamping a pulling element 29 between an expandable bolt 2 and the wall of the borehole, the pulling element in that case, it can consist of a cable, which can then be prestressed and anchored and corrosion-proofed by injecting cement or other binder. 72l52b.doc; 2004-12-27

Claims (19)

10 15 20 25 30 Patent claims: A method for rock bolting, wherein a tubular bolt (2) with a closed cross section is inserted and expanded into abutment in a borehole (12), which has an inner (15) and an outer (14) portion and an inlet opening (13), characterized of - that the tubular bolt is expanded to abut in the inner part of the borehole, - that a pulling element (3,7,8,9), which is arranged in the outer part of the borehole, with an inner part (7) attached to the tubular bolt the ten (2) is biased, - that a curable medium is injected into the outer portion (14) of the borehole, between (27) the traction element and the wall of the borehole and is allowed to cure, and the outside (27) of the traction element (3) by pressurizing to a certain pressure level. Method according to claim 1, characterized in that medium for expanding the tubular bolt is conveyed through a channel (19) in the pulling element (3). Method according to claim 1 or 2, characterized in that - said curable medium is conveyed through a channel in the tension element (3). Method according to one of the preceding claims, characterized in that - the channel is opened by causing an explosive plate (16) to rupture at said pressure level. 72l52a .doCi ZO04-O6-ll 10 15 20 25 30 Fflff 'ff / f -.-. «.- \ J' i Method according to claim 1 or 2, characterized in that said curable medium is conveyed (30) on the outside of the tension element (3). Method according to claim 5, characterized in that - air present in the borehole is evacuated (31) through a channel in the traction element (3) during the injection of said hardenable medium. Method according to claim 1, characterized in that - medium for expanding the tubular bolt is conveyed through a separate bolt installation element (28), which is fastened to a connecting portion on the tubular bolt (2). Method according to claim 7, characterized in that - the tension element (3) is fastened in said connecting portion after the expansion of the tubular bolt (2). Method according to Claim 1 or 2, characterized in that - the tension element (29) is fastened by clamping between the tubular bolt (2) and the wall of the borehole at the expansion of the former. Method according to one of the preceding claims, characterized in that - the tension element (3) is prestressed between the tubular bolt (2) and a bearing element (4) arranged at the entrance opening of the borehole. Device (1) for rock bolting, including a tubular bolt (2) with closed cross section for insertion and expansion into abutment in a borehole (12), which has an inner and an outer portion and an inlet opening, characterized by 72l52a.d0c; 2004-06-11 10 15 20 25 30 10 - a tension element (3) for arranging in the outer part of the borehole with an inner part (7) for fastening to the tubular bolt, - means (10, 11) for prestressing the tension element (3 ) in a longitudinal direction, between the tubular bolt and the inlet opening, - means for transmitting a hardenable medium to the outer portion of the borehole, between (27) the traction element and the wall of the borehole, and - a channel for transmitting said hardenable medium has means (16) which are opened for communication with the outside of the traction element by pressurizing to a certain pressure level. Device according to claim 11, characterized by - means for conveying medium for expanding the tubular bolt (2). Device according to claim 11 or 12, characterized by - said means for conveying said curable medium including a channel in the traction element (3). Device according to claim 13, characterized in that - said openable means is an explosive plate (16), which is caused to rupture at said pressure level. Device according to any one of claims 11 and 12, characterized in that - said curable medium is conveyed (30) on the outside of the tension element (3). Device according to claim 15, characterized by - an evacuation channel (31) in the traction element for evacuating air present in the borehole during the injection of said hardenable medium. 72l52a .docz 2004-06-11 10 15 11 Device according to claim 11 or 12, characterized by - a separate bolt installation element (28), which is attachable to a connecting portion of the tubular bolt (2) for conveying medium for expanding the tubular bolt. Device according to claim 11, 12 or 17, characterized in - that the traction element is provided with means for fastening in said connecting portion after the expansion of the tubular bolt. Device according to Claim 11 or 12, characterized in that - the tension element (29) is designed to be fastened by clamping between the tubular bolt and the wall of the borehole during the expansion of the former. 72l52a .doc; 2004-06-11