FI68292C - STIGORTSMASKIN - Google Patents

Description

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»» FSx * C (45) Patent granted on 12 August 1985

Patent application (51) Kv.lk.4 / lnt.CI. * E 21 B 10/00 (21) Patent application - Patentansökning 782652 (22) Application date - Ansökningsdag 29.08.78 (FI) (23) Starting date - Glltlghetsdag 29.08.78 (41) Made public - Blivit offentllg 15.03.79

Patent * and the National Board of Registration Date of entry and publication. - 30.0 ^, 85

Patent- och registerstyrelsen '' Ansökan utlagd och utl.skriften publlcerad (32) (33) (31) Pyydetty etuoikeus - Begärd priority 1 k. 09.77 USA (US) 833040 (71) Smith Internalional, Inc., 4343 Von Karman Avenue, Newport Beach,

California, USA (72) George A. Alther, Midland, Texas, USA (74) Berggren Oy Ab (54) Climbing machine - Stigortsmaskin

The invention relates to a riser for increasing the diameter of a guide hole, comprising: a blade having a body with a plurality of rotating cutting blades, the body having a central opening through which the lower end of the drive arm extends, resilient elastomeric members fitted between the drive arm and the blade body to dampen impulses and dynamic loads between and from and to transfer vertical pushing and torque loads from the drive arm to the blade body, a support plate attached to the lower end of the drive arm, the drive arm having members at one end for attachment to the drill column.

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A hole of relatively large diameter can be made between two areas of a mine, usually by a measure called ascent. The ascent run begins by drilling a small diameter guide hole through the inter-area ground using a small diameter lead drill. When the guide hole is completed, the lead drill is detached from the perforator column and a large diameter riser blade is attached to the drill. The riser blade is then rotated and pulled along the guide hole to facilitate the drill cutting blades to contact and disintegrate the ground formations surrounding the guide hole, while the guide hole expands to the desired size. In one example application, the diameter of the guide hole may be 280 mm and the diameter of the embossed hole may be 183 cm.

During ascent, the ascent blade is subjected to an enormous amount of wear and tear. In particular, the drive arm is subjected to considerable wear due to abrasive contact with the surrounding ground and is also subject to considerable stress due to a) tension due to the thrust acting on the drill, b) rotation due to the torque applied to the drill, and c) uneven stress around the drill circumference.

The advantages of a detachable drive arm are that parts with a relatively short span can be replaced, which increases the life of the blade and the low profile of the detached parts allows the riser blade to be transported through small longitudinal ridges or passages.

The disadvantage of a detachable drive arm is that a certain amount of downtime is still required to remove and replace the arm. This downtime is expensive and it is still advisable to provide the longest possible running time for each blade-arm combination.

One area that has not been sufficiently studied in climbing is an area related to improving the operation of the operating arm of a climbing machine. The present invention accomplished this by providing the drill with an impact means, uneven bending of the blade, and dynamic damping to prevent these from shifting into the drive arm.

Various shock absorbers have been used in drill beams or columns but none have ever been connected to the drill bit itself to dampen bending and dynamic loading. For example, it is known from U.S. Pat. No. 4,043,409 to place resilient elements between the axis of rotation and the rotatable drill bit for damping purposes (Fig. 11, parts 34). GB-1 498 739, on the other hand, discloses a separate damper to be placed on a drill rod.

68292 The present invention relates to an ascent machine which does not have the disadvantages of known devices. Such a machine is provided such that the support plate is arranged adjacent to the blade body, that the resilient elastomeric members are attached between the support plate and the blade body, and that the resilient members include an annular portion extending around the central opening of the blade body and the central opening of the support plate.

The advantage of the present invention is that it not only improves the service life of the operating arm, but the impact means can be used in an ascending machine having a detachable arm to take advantage of those abilities as well.

A further advantage of the present invention is that the shock absorbing devices increase the service life of the teeth and bearings of the cutting blades.

68292 4

A further advantage of the present invention is that the degree of penetration of the drill can be greatly improved because more weight and pressure can be applied to the drill than has hitherto been possible.

In addition to reducing the possibility of shank damage, an additional advantage of the present invention is that the entire drill is subjected to less wear and stress.

Those features of the present invention which are believed to be novel are set forth with particularity in the appended claims. This invention, both in terms of its organization and mode of operation, together with its additional advantages, is perhaps best understood by reference to the following description, taken in conjunction with the accompanying drawings.

Figure 1 is a partially sectioned elevational view of an ascent machine utilizing the elastomeric portion of the present invention; and Figure 2 is a fragmentary plan view of the ascent machine taken along line 2-2 of Figure 1, partially cut away to show the elastomeric portion.

Referring to the drawings, Figures 1 and 2 show a riser marked with an intermediate number 10, comprising a drive arm 11, a support plate 12 and a blade body 13. The upper end of the drive arm 11 has a tapered screw thread (not shown) adapted to be threaded into a normal drill beam. .

The support plate 12 has a central opening 14, the diameter of which is only slightly larger than the central spindle part 15 of the drive arm 11. The diameter of the central spindle part 15 is smaller than the lower end 16 of the drive arm 11 and forms an upward circumferential edge 17 against which the opening 14 in the support plate 12 fits. 12 being mounted together with the operating arm 11.

The drive arm 11 is releasably connected to the ascent machine assembly by the following configuration. The assembly to be connected comprises a cylindrical ring 18 which extends under and is attached to the support plate 12. The annular plate 19 is located inside the ring 18 and is attached to the inner walls of the ring. The annular plate 19 includes a central opening 21 extending approximately to the lower mandrel portion 16 of the drive arm 11. In addition, the annular plate 19 includes a plurality of threaded bore holes 22 circumferentially arranged around the central opening 21. In addition, the lower mandrel portion 16 includes a plurality of tapered smooth surfaces 23 .

A plurality of adjusting wedges 24 are provided and each adjusting wedge 24 has a through hole for a threaded bolt 25. The bolts 25 are adapted to be attached to threaded holes 22 in the annular plate 19. Each adjusting wedge 24 further includes a first inwardly tapering surface 26 for engaging a corresponding smooth surface 24 of the drive arm 11. Each adjusting wedge 24 further includes a second outwardly directed tapered surface 27 diametrically opposed to the first tapered surface 26. The second tapered surface 27 is adapted to engage the tapered surface 28 of the registration wedge 29 located within the ring 18 adjacent the corresponding adjusting wedge 24.

The wedges 29 are inextricably connected to the ring 18. The blade body 13 is formed by essentially two parallel plates 31 and 32 which are firmly attached to each other by a plurality of ribs 33 to form a frame. A plurality of brackets are integrally mounted on the upper plate 31 to rotatably support a plurality of rotating cutting blades 35. The two inner cutting blades 35 are connected to each other by a zinc joint 36 extending around a central shaft portion 37. The flexible seal 38 is located between the zinc joint 36 and the central shaft portion 37.

The blade body 13 further includes a central opening 39 extending around the central spindle portion 15 of the drive arm 11. The annular sealing member 41 is located between the central opening 39 and the central spindle part 15.

The support plate 12 and the blade body 13 are connected to each other by an elastomeric element marked by an arrow 40. The elastomeric element 40 comprises a substantially annular element 42 coaxial with the drive arm 11. The annular element 42 is made of polyurethane sandwiched between two plates 43 and 44, which are also annular in shape.

6,68292

The annular element 42 is polyurethane bonded to the plates 43 and 44 to form an inseparable unit. The annular shape of the elements 42 and the plates 43 and 44 are divided into four similar 90 ° blocks. The plates 43 and 44 include a plurality of threaded drill holes adapted to receive a plurality of bolts 45 for connection to the support plate 12 and the blade body 13.

The ascent drive 10 is utilized in the ascent run to make a relatively large diameter opening between the two levels of the mine. The ascent run begins by drilling a small diameter guide hole through the ground from the first area into the opening in the second area using a small diameter lead drill. When the guide hole is completed, the lead drill is detached from the perforator column and the riser blade 10 is connected to the drill ring. The riser blade 10 is rotated and pulled along the guide hole to facilitate cutting blades 34 to contact and disintegrate the ground formations surrounding the guide hole, while enlarging the guide hole to the desired size.

The riser blade 10 can be passed through small longitudinal ridges or passages by removing the drive arm 11 and transporting the drive arm and riser blade body 13 separately through the small longitudinal leads and passages. When removing the drive arm 11, the bracket connection 36 is first removed. The bolts 25 are then removed using conventional torque tools. After removing the bolts 25 and the adjusting wedges 24, the drive arm 11 is lowered through the central openings of the support plate 12 and the blade body 13 therefrom. The separate parts of the riser blade 10 can then be transported separately through small longitudinal stems or passages.

When the riser blade 10 is to be attached to the perforator post, the drill shank 11 is pushed through the central openings 14 and 21, respectively, until the ring 17 engages the edge of the support plate 12 around the central opening 14.

The adjusting wedges 24 are then positioned as shown in the drawing and the bolts 25 are then threaded to engage the plate 19 to force the adjusting wedges 24 into engagement with the smooth tapered surfaces of the drive arm 11 and the tapered surfaces 28 of the wedges 29.

7 68292

The bolts 25 are tightened individually to facilitate direct alignment of the control components. After tightening the bolts 25, the riser is then ready for operation. According to the present invention, an elastomeric portion 40 is connected between the support plate 12 and the blade body 13 to dampen bending forces due to uneven loading in the drill circuit.

The elastomeric portion 40 is also shaped to transfer all thrust and torsional load from the drive arm 11 to the riser blade body 13. Vertical thrust is transmitted from the drive arm 11 to the support plate 12 through the edge joint 17 and then through the elastomeric portion 40 to the blade body 13. Torque is transmitted from the drive arm 11 to the joint assembly to a support plate 12 integrally connected thereto. The torque is then transmitted through the elastomeric part 40 to the blade body 13.

By connecting the support plate 12 to the blade body 13, the blocked portions formed by the annular portions 42 and the plate blocks 43 and 44 are connected to the body by bolts 45. As the elastomeric part 40 dampens the bending stress on the blade body 13 during operation, a certain amount of deflection occurs. Due to this sliding deflection, a certain amount of clearance is provided between the drive arm 11 and the blade body 13 and the zinc connection 36. Although such a margin may be open, it is preferable to place the sealing portions 38 and 41 to prevent drilling fluids from flowing from the upper end of the blade body 13 into the chamber between the blade body 13 and the support plate 12.

It should be noted that the assembly may be modified in various ways while still remaining within the scope of the following claims. For example, the elastomeric impact member can also be used in pipe drills and vertical ground drills. The only difference is that the operating arms then operate under compression rather than tension. The forces passing through the blade bodies to the drive arms otherwise remain the same.

Claims (5)

68292 8 A riser for increasing the diameter of a guide hole, comprising: a blade having a body (13) with a plurality of rotating cutting blades (35), the body having a central opening (39) through which the lower end (16) of the drive arm (11) extends, elastic elastomeric means (40) arranged between the drive arm (11) and the blade body (13) for damping the impulses and dynamic loads therebetween and for transmitting vertical pushing and torque loads from the drive arm (11) to the blade body (13), a support plate (12) attached to the lower end (26) of the drive arm (11), the drive arm (11) having members at one end for attachment to the drill column, characterized in that the support plate (12) is arranged next to the blade body (13) so that the elastic elastomeric members (40) is fixed between the support plate (12) and the blade body (13), and that the resilient members (40) include an annular portion (42) extending from the central opening (39) of the blade body (13) and the support around the central opening (14) of the plate (12). Ascent machine according to claim 1, characterized in that the lower end (16) of the drive arm (11) includes an upwardly directed ring (17) and the support plate (12) includes a central opening (14) having a diameter larger than the drive arm (11). immediately above the ring (17) but smaller than the ring (17), the support plate (12) fitting into the ring (17) of the drive arm to transfer axial loads therebetween. Ascent machine according to Claim 1 or 2, characterized in that the shape of the annular part (42) is substantially annular and is arranged coaxially with respect to the drive arm (11). 1. A pair of stoppers having a diameter of one or more diameters, in which there is a ring between the bases (13), a pair of rollers (35) mounted on a base, colors of bases having a central stem (39), the genome of which is not known (16) ) with drives (11) straps, flexible elastomeric elements (40) with other drives (11) and with screws (13)