SE529459C2 - Drilling equipment - Google Patents

Abstract

The present invention relates to a single pass drilling apparatus, a rock bolt, use of a drill bit and a method for single pass rock bolting for reinforcement and stabilization of excavations. The single pass drilling apparatus comprises an elongated drill steel ( 11 ) having a leading ( 12 ) and a trailing end ( 1 3 ) with reference to a drilling direction (F). The leading end ( 12 ) has a connection portion. A one-piece drill bit ( 16 ) is utilized having rock machining means ( 17,18;17'18' ). The drill bit is connectable to the drill steel. The single pass drilling apparatus ( 10 ) further comprises a rock bolt ( 21;121,221;321 ) adapted to at least partially enclose the drill steel ( 11 ). The greatest diametrical dimension (DB) of the drill bit ( 16 ) is smaller than the smallest diametrical dimension (DI) of the rock bolt.

Description

* 15 20 25 529 459 2 difficult with known single-stage rock bolts due to the use of special rock bolts and the exclusive use of any of the complex retractable crowns. Nevertheless, it is a fact that the installation advantages with a self-drilling rock bolt outweigh those with a non-self-drilling type.

The purpose of the drilling apparatus, the rock bolt, the use of the drill bit and the method of the present invention is thus to substantially overcome the above-mentioned problems associated with the prior art, or at least to designate an alternative thereto.

A further object of the present invention is to provide a single-stage drilling apparatus for rock bolts. Yet another object of the present invention is to provide a tubular expandable self-drilling rock bolt. Yet another object of the present invention is to provide a single stage drilling apparatus for rock bolts which is less expensive to use than rock bolts of the type described above and to make their use in the mining industry more attractive. Yet another object of the present invention is to provide an optimal single-stage drilling apparatus for rock bolts which enables the use of simpler and smaller equipment compared with today's mechanized systems. Yet another object of the present invention is to propose the use of a drill bit in a one-step drilling apparatus for rock bolts which enables the reuse of the drill bit.

Throughout the specification, unless the context otherwise requires, the word "include", or variations such as "includes" or "which includes", shall be understood to mean the inclusion of a given feature or group of features but not the exclusion of any other feature. or group of features. 10 15 20 25 30 529 459 Brief Description of the Drawings The accompanying drawings show examples of embodiments of the invention.

F ig. 1A-1G schematically show a sequence of single-stage rock bolting using an apparatus according to the present invention.

Fig. 1H shows a cross section of the drilling apparatus in the hole similar to Fig. 1D.

Fig. 1K shows a cross section of the drilling apparatus in the hole similar to Fig. 1E.

Fig. 1L shows an exploded view of the drilling apparatus according to the present invention. Figs. 2A and 2B show a side view of the drilling apparatus of Fig. 1C and an end view of the drill bit of the present invention.

Figs. 3A and 3B show an alternative embodiment of a one-step bolting drilling apparatus in similar views to Figs. 1H and 1K. Figs. 4A and 4B show an alternative embodiment of a one-step bolting drilling apparatus according to the present invention in similar views as in Figs. 1H and 1K. Figs. 5A and 5B show an alternative embodiment of a one-step bolting drilling apparatus according to the present invention in similar views to Figs. 1H and 1K.

Detailed Description of the Invention Figs. 1A-1G show a one-step drilling apparatus 10 according to the present invention. The one-step drilling apparatus 10 includes several parts. An elongate drill steel 11 having a front end 12 and a rear end 13 with respect to a drilling direction F. The front end 12 has a connecting portion comprising a thread 15, a cone or a bayonet connection, not shown. A drill bit 16, in one piece, with rock processing means 17 and 18. The drill bit 16 is connectable to the drill steel via a connecting portion which comprises a thread 20, a cone or a bayonet connection, not shown. The one-step drilling apparatus 10 further comprises a rock bolt 21 which is adapted to at least partially enclose the drill steel 11. The largest diameter dimension of the drill bit is smaller than the smallest diameter of the rock bolt. The basic idea of the one-step drilling apparatus 10 of the present invention is to drill the hole with the bolt enclosing the drill steel, and then to retract the crown without any problems. No crown parts are lost.

The drill bit 16 can be designed as follows, reference being made to Figs. 1K or 2A and 2B. The one-piece rock drill bit 16 has two integrated parts, i.e. a pilot part 14 which is long enough to steer the whole apparatus 10 properly where the axis CL1 of the pilot part 14 coincides with the axis CL3 of the hole 22, and a space part 19. The center axis or center line CL1 of the pilot part 14 coincides essentially with the center shaft of the rock bolt during drilling, but not during retraction of the drill bit. The center axis or centerline CL2 of the escape member 19 and the axis of the drill steel 11 coincide, but are substantially separated from the axis CL3 of the hole 22. It should be noted that neither the pilot part nor the escape part must be circular in cross section, so the reference to the axes CL1 and CL2 is to be understood as a reference to average center lines in the respective parts.

The one-piece rock drill bit 16 comprises a body 25 and cemented carbide means, i.e. inserts and / or pins 17, 18 and 17 ', 18'. The body of the drill bit is made of steel. The body 25 comprises the substantially conical pilot part 14 and the substantially conical space part 19. The pilot part 14 may have a circular cross-section as shown in Figs. 2B. The pilot part has a front surface which carries a diametrically extending insert 17 or two diametrically opposite front pins 17 '.

The escape part 19 can have a circular cross-section as shown in Fig. 2B.

The reamer portion has a front surface that carries three front pins 18 or four front pins 18 '. The front surfaces may be convex or substantially flat. The pins 18, 18 'can form a peripheral arc on the escape part. The pins 18, 18 'can protrude slightly outside the periphery of the escape part to machine a hole during drilling which has a slightly larger diameter than the steel body. Cuttings or recesses may be provided in areas between adjacent escape pins through which flushing medium may pass. The rock drill bit must be connected to the drill steel 11 by means of a connecting portion, not shown, or to a drive chuck on a submersible hammer, not shown, in order to transmit rotational movement in the normal way. The drill steel 11 includes a channel for transporting a rinsing medium. A main channel for flushing medium is arranged inside the drill bit. This main channel communicates at its front end with a number of branch channels, which extend into the front surfaces. The rinsing medium will in practice be water, cement or air. The pilot part makes a pilot hole 22A with smaller diameter and length in relation to the hole 22. The dimensions of importance are as follows: RP is the largest radius of the pilot part 14 compared to the shaft axis CL3. RR is the space radius' 19th largest radius. 1/2 (RP + RR) is the radius of the escape section 19 compared to the axis CL2 of the drill steel 11. DH is the hole 22 diameter which is equal to 2XRR. The thickness of the pipe 21 is drawn with E. OFF is the displacement between the axis CL3 of the hole 22 and the axis CL2 of the drill steel 11. DD is the 11 diameter of the drill steel. D1 is the minimum diameter in which the drill bit 16 can move freely. DB is the largest diameter dimension of the drill bit 16. OD is the outer diameter of the rock bolt. The following formulas are applicable: RR = 112D1-1, RP 2RR-E s DI S 2RR-2E applicable to rock bolts 221 and 321 to allow the drill bit 16 to retract through the rock bolt, DD <RR + RP-2E to allow the drill bit 11 to run eccentrically in the bolt 21.

DB = RP + RR Example: The following dimensions could be suitable for bolting applications: RR = 19 mm, RP = 14 mm, OFF = 2.5 mm and 10 mm mm. in The operation of the one-stage rock bolting apparatus 10 is shown in Figs. 1A-1G. The drill bit 16 is connected, for example threaded, to the drill steel 11. A drilling machine such as a standard drilling rig holds the drill steel. The bolt 21 is preferably fed automatically around the drill steel and placed behind the drill bit 16 in the drilling direction F. 1 F ig. 1A, the pilot member 14 will primarily abut the rock so that it will process the rock surface for a short time during circular interpolation. Then the pilot part 14 will find its right center and start drilling centrally while the drill steel 11 at the same time starts tilting around the axis CL1 of the pilot part, see Fig. 1B. Then the escape part 19 comes into contact with the rock surface and begins to escape the hole made by the pilot part 14. After a short while the bolt 21 reaches the hole and is forced into the hole as shown in Figs. 1C and 1H. Usually the bolt 21 is axially separated from the drill bit 16. The split bolt 21 can assume the diameter 22 of the hole via compression. The drill bit 16 will continue to drill and accommodate the hole 22, while the bolt is pushed forward by a coupling sleeve 26 on the drilling machine, see Fig. 1D, until feeding of the various parts is stopped. The depth of the hole 22 is essentially determined by the length of the bolt 21, i.e. when a bolt washer 23 located at the rear end of the bolt reaches the rock surface or the entrance of the hole, further feeding will be stopped, see Fig. 1E. There is a rock bolt pusher on the drill.

The bolt driver is a coupling sleeve 26 or an abutment tool 27, see Fig. 1L, which is driven by the drill steel. The abutment tool 27 rotates together with the drill steel and the bolt during insertion. It can turn an expander rock bolt when fully inserted. The retaining tool can also slide along the drill steel to enable easier installation of mechanical expander bolts and grouting bolts. Fig. 1E shows the rock bolt fully inserted, with the drill steel and drill bit fully inserted and the pusher pushes the plate against the rock surface. The bolt washer is a loose conventional plate with a central hole that cooperates with a bulge 24 at the rear end of the bolt. Then the drill bit is retracted from the pilot hole 22A, see Figs. 1F and 1K.

It is advantageous that the axial space between the bolt and the drill bit is greater than the depth of the pilot hole 22A so that the front end of the bolt does not interfere with the retraction of the drill bit. The drill bit and drill steel can be completely retracted and can be reused during repeated drilling procedures. In other words, the one-step rock bolting method includes the following steps. providing a one-step drilling apparatus 10 comprising: an elongated drill steel 11 having a front 12 and a rear 13 end with respect to a drilling direction F, said front end 12 having a connecting portion 15, a drill bit 16, in one piece, with rock processing means 17 , 18 or 17 ', 18', said drill bit being connectable to the drill steel 11, enclosing the drill bit 11 at least partially with a rock bolt 21, said drill bit 16 and said rock bolt 21 being designed to allow the drill bit 16 to pass the rock bolt 21 during retraction of the drill bit, drilling a hole 22 in a rock while the rock bolt is pressed into said hole, - retraction of said drill steel 11 and said drill bit 16 through the rock bolt 21.

The machine driving the apparatus 10 may be a top hammer drill, a rotary machine or a submersible drilling equipment. To avoid curvature, wear and reduction in holding diameter due to radial forces from the escape of the pilot, the upper part of the pilot could be formed at an angle which is diametrically opposite the escape part in order thereby to counteract said radial forces. Said forces opposite the escape portion will facilitate keeping the escape portion operating at its radially outermost portion, and it will also allow wear on the pilot portion on the escape side but not too much wear on its side facing away from the escape portion. The side of the pilot part facing away from the escape part may be provided with a nut guard. This wear of the pilot part on the reamer side would also be advantageous for maintaining the hole diameter and partially compensating for the peripheral wear of the reamer part. This geometry will provide a self-sharpening drill bit.

Figs. 3A and 3B show an alternative embodiment of a one-step bolting drilling apparatus in similar views to Figs. 1H and 1K. This embodiment differs from that previously described in that the bolt 121 has a different design. The rock bolt 121 is made of a steel pipe which has no longitudinal slot. The rock bolt 121 has a smaller diameter than the drilled hole.

When the hole has been drilled as discussed above, the drill bit and drill steel are retracted, see Fig. 3B, while the bolt 121 remains in the hole. The largest diameter dimension of the drill bit 16 is smaller than the smallest diameter dimension D1 of the rock bolt 121. The bolt remains in the hole thanks to an external system that is connected to the drilling device, depending on a loose expander, or due to an integrated expander on the rock bolt itself.

Then fill the bolt internally or externally with grout or resin and allow the filling to harden. A bolt washer is preferably used to cover the entrance of the hole as discussed above. Figs. 4A and 4B show an alternative embodiment of a drilling apparatus for one-step bolting in views similar to Figs. 1H and 1K. This embodiment differs from that previously described in that the bolt 221 has a different design. The rock bolt 221 is made of a steel pipe which has been deformed to have a deep cavity. that it assumes a substantially reduced diameter, i.e. the dimension is reduced to substantially half of a cylindrical tube. The liquid expandable tubular rock bolt 221 has an inner elongate pressure fluid receiving chamber which is closed at both ends but has a liquid inlet. A sleeve is pressed onto the outer end thereof which is sealed via welding or mechanically closed. The bolt is designed as a general U-shape so that the drill bit 16 can pass it. In the radial cross-section of Fig. 4B, the ends 221A and 221B are substantially diametrically opposite, i.e. the bolt is substantially semicircular. The rock bolt 221 is adapted to at least partially enclose the drill steel 11. The largest diameter dimension DB of the drill bit 16 is smaller than the smallest space or diameter dimension between the rock bolt and the hole 22.

The drilling process is performed as discussed above. When the rock bolt has been automatically inserted into a drill heel and the drill bit 16 and the drill steel has been retracted as explained above, high pressure fluid is passed through passages to a hole leading through the sleeve to an inner chamber of the pipe so that the pipe expands via plastic deformation. the borehole. The rock outcrop is then relieved of pressure and anchored. The main function of pressurizing the liquid chamber is described in more detail in US-A-4,423,986. A bolt washer is preferably used to cover the entrance of the hole as discussed above.

Figs. 5A and 5B show an alternative embodiment of a one-step bolting drilling apparatus in similar views to Figs. 1H and 1K. This embodiment differs from that previously described in that the bolt 221 has a different design. The rock cable bolt 321 is made of multi-wire steel cable. The drill bit 16 drills and accommodates in a drilling procedure. When the hole has been drilled as discussed above, the drill bit and drill steel are retracted, see Fig. 3B, while the bolt 321 remains in the hole. The largest dimension DI in connection with the cable bolt 321 is the space available between the cable when it is pressed against the hole wall and the diametrically opposite hole wall.

Then fill the bolt internally or externally with grout or resin and allow the filling to harden. Cable bolting is an established technology that is widely used for strengthening the rock mass next to surface-located and underground rock shafts. Cable bolts are long, fully injected, and slack reinforcing elements. The goal of cable bolting is to improve the shear and fracture toughness of the rock mass.

The one-step drilling apparatus according to the various embodiments of the present invention comprises a rock bolt which is adapted to at least partially enclose the drill steel during drilling and the largest diameter dimension of the drill bit is smaller than the smallest diameter dimension of the rock bolt.

Advantages of using a self-drilling bolt are: - Drilling and setting are performed simultaneously.

- Quick and easy installation reduces bolting costs: - Qualified for difficult geological conditions, especially with unstable boreholes.

- Rock consolidation when grouting.

- Choice of bolts depending on ground conditions.

- Drilling and setting with standard drilling rigs.

- No special equipment needed.

- The drill bit can be used to drill several holes.

- The drill bit does not need to be wedged into position before retraction can begin.

The invention described herein allows for variations, modifications and / or additions other than those specifically described and it is to be understood that the invention includes all such variations, modifications and / or additions as fall within the scope of the claims. There is no limit to rotating striking top hammers. The concept is also valid with pure rotary drilling or DTH column drilling machines. The number of cemented carbide pins in pilot and escape parts can be varied depending on the size of the drill bit diameter. The reamer part may be provided with a hard sleeve or insert substantially flush with its shell surface which aims to maintain the diameter of the reamer part and improve the quality of the cavity wall. It should also be understood that the drill steel and rock bolt can be extended with one or more components when deeper holes are to be drilled.

Claims (9)

10 15 20 25 30 529 459 11 Patent claims: A single-stage drilling apparatus comprising: an elongate drill steel (11) having a front (12) and a rear end (13) with respect to a drilling direction (F), said front end (12) having a connecting portion, a drill bit (16), in one piece, with rock processing means (17,18; 17'18 '), said drill bit being fixedly connected to the drill steel, characterized in that the single-stage drilling apparatus (10) further comprises a rock bolt (21; 121,221; 321) which is adapted to at least partially enclose the drill steel (11), in that the drill bit (16), in one piece, comprises a pilot part (14) and a space part (19) having separated center lines (CL1 and CL2, respectively) and that the drill bit (16) and the rock bolt (21; 121,221; 321) are designed to allow the drill bit (16) to pass the rock bolt (21; 121,221; 321) during retraction of the drill bit. One-step drilling apparatus according to claim 1, characterized in that the largest diameter dimension (DB) of the drill bit (16) is smaller than the smallest diameter dimension (DI) of the rock bolt. One-step drilling apparatus according to claim 2, characterized in that the center line (CL1) of the pilot part (14) substantially coincides with the center axis of the rock bolt during drilling. A single-stage drilling apparatus according to claim 2, characterized in that the center line (CL2) of the escape member (19) substantially coincides with the axis of rotation of the front end (12) of the drill steel (11). Use of a drill bit in a single-stage drilling apparatus according to claim 1 when drilling in rock. A method of single-stage rock bolting comprising the steps of: providing a single-stage drilling apparatus (10) comprising: an elongate drill steel (11) having a front (12) and a rear end (13) having a end of a drilling direction (F), said front end (12) having a connecting portion, a drill bit (16), in one piece, with rock processing means (17, 18; 17'18 '), the drill bit (16) comprising a pilot part (14) and a space part (19) having separated center lines (CL1 and CL2), respectively, said drill bit being fixedly connected to the drill steel, enclosing the drill steel at least partially with a rock bolt (21; 121, 221; 321), said drill bit (16) and said rock bolt (21; 121,221; 321) are designed to allow the drill bit (16) to pass the rock bolt (21; 121,221; 321) while retracting the drill bit, drilling a hole in a rock while the rock bolt is pressed into said hole, - retraction of said drill steel and said drill bit through rock bolt - ten. A method according to claim 6, in which the method comprises the further step of providing the drill bit (16) as a one-piece drill bit comprising a pilot part (14) and a reamer part (19) having separated center lines (CL1 and CL2, respectively). . A rock bolt for a single stage drilling apparatus according to claim 1, wherein said rock bolt (221) has a partially tubular body with a front end and a rear end, said rear end having a bolt washer and a bolt washer means, said rock bolt (221) being liquid expandable , characterized in that the rock bolt (221) is substantially semicircular and designed as a general U-shape to allow passage of a drill bit fixedly connected to a drill steel. Rock bolt according to claim 8, characterized in that ends (221A, 221B) in a radial cross-section of the rock bolt are substantially diametrically opposite each other.