WO2009122001A1 - Drilling unit, method for slot drilling and slotting device - Google Patents

Drilling unit, method for slot drilling and slotting device Download PDF

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Publication number
WO2009122001A1
WO2009122001A1 PCT/FI2008/050161 FI2008050161W WO2009122001A1 WO 2009122001 A1 WO2009122001 A1 WO 2009122001A1 FI 2008050161 W FI2008050161 W FI 2008050161W WO 2009122001 A1 WO2009122001 A1 WO 2009122001A1
Authority
WO
WIPO (PCT)
Prior art keywords
tool
axial
fluid
slotting device
volume chamber
Prior art date
Application number
PCT/FI2008/050161
Other languages
English (en)
French (fr)
Inventor
Maunu MÄNTTÄRI
Original Assignee
Sandvik Mining And Construction Oy
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Sandvik Mining And Construction Oy filed Critical Sandvik Mining And Construction Oy
Priority to EP08736810A priority Critical patent/EP2257687A1/en
Priority to JP2011502404A priority patent/JP5167404B2/ja
Priority to CN2008801283994A priority patent/CN101981269A/zh
Priority to PCT/FI2008/050161 priority patent/WO2009122001A1/en
Priority to US12/935,793 priority patent/US20110017513A1/en
Priority to AU2008353952A priority patent/AU2008353952B2/en
Priority to CA2714983A priority patent/CA2714983C/en
Publication of WO2009122001A1 publication Critical patent/WO2009122001A1/en
Priority to ZA2010/06643A priority patent/ZA201006643B/en

Links

Classifications

    • EFIXED CONSTRUCTIONS
    • E21EARTH OR ROCK DRILLING; MINING
    • E21BEARTH OR ROCK DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS
    • E21B19/00Handling rods, casings, tubes or the like outside the borehole, e.g. in the derrick; Apparatus for feeding the rods or cables
    • E21B19/24Guiding or centralising devices for drilling rods or pipes
    • EFIXED CONSTRUCTIONS
    • E21EARTH OR ROCK DRILLING; MINING
    • E21CMINING OR QUARRYING
    • E21C25/00Cutting machines, i.e. for making slits approximately parallel or perpendicular to the seam
    • E21C25/58Machines slitting by drilling hole on hole

Definitions

  • the present invention relates to a drilling unit and method for slot drilling and a slotting device.
  • slot drilling a plurality of holes are drilled closely together so as to form a slot in a rock material.
  • a slot may be formed in a rock surface or into rock mass by drilling a plurality of holes in the surface at a pitch substantially equal to the diameter of the holes.
  • slot drilling a special slotting device is needed for guiding the drilling tool along a previously drilled hofe.
  • the object of the invention is disclosed more closely in the preambles of the independent claims.
  • Slot drilling is a method used in underground and surface mining.
  • holes are successively drilled very close to each other and when a new hole is drilled next to a previously drilled hole, the wall of rock between the holes is broken.
  • a continuous slot is formed by the holes as they are successively drilled.
  • Such continuous slots i.e. elongated voids can be used in the surface blasting to protect buildings near a blasting site. In this manner propagation of the Shock waves outside the blast- ing site is prevented.
  • elongated voids or slots can be drilled in solid rock for example in a tunnel face in order to form a primary open space whereto a broken rock material can expand in blasting. This is needed e.g. in stope opening or drifting.
  • the drill bit as it drills the new hole tends to be displaced radially off a desired course under the combination of radial forces thus applied.
  • the guide rod is inserted into a previously drilled hole next to the position of the new hole so as to stabilize the support for the drill rod.
  • the support for the drill rod is prevented from shifting position even when large radial forces are imposed on the drill rod as it drills the new hole.
  • US Patent No. 5690184 discloses a rock drilling unit for slot drilling.
  • the drilling unit includes a guide rod fixed to a support for the drill rod at the front end of the feeding beam, whereby the guide rod extends to the front of the feeding beam.
  • the drilling unit is designed only for slot drilling.
  • WO 99/45237 discloses a slotting device, which includes a down-hole rock drilling machine inside a body portion of the slotting device and a parallel guide tube arranged by means of a strut to the body portion.
  • One disadvantage of the disclosed slotting device is that stress waves generated by a percussion device of the drilling machine are transmitted not only to a tool but also to the body structure and to the guide tube. The stress waves may cause serious damages to the body and the guide of the slotting device. This said disadvantage concerns especially top hammer applications.
  • the object of the invention is to provide a new and improved drilling unit and method for slot drilling and further a new and improved slotting device.
  • the drilling unit of the invention is characterized in that between the body portion of the slotting device and the tool there is at lest one axial volume chamber containing fluid so as to dampen transmission of the impact stress waves from the percussion device to the slotting device.
  • the slotting device of the invention is characterized in that the slotting device is provided with at least one axial volume chamber between the body portion and the tool; and wherein the slotting device comprises at least one flow channel for directing fluid into the chamber, whereby the fluid in the chamber is arranged to transmit axial forces from the tool to the body portion.
  • the method of the invention is characterized in that it comprises the steps of transmitting the feed force to the body of the slotting device in the drilling direction by means of fluid in at lest one axial volume chamber between the tool and the body portion; and dampening transmission of the im- pact stress waves from the percussion device to the slotting device by means of the fluid in the at least one axial volume chamber.
  • the slotting device comprises an axial volume chamber that contains flushing fluid so as to dampen transmission of the impact stress waves from a percussion device to the slot- ting device. Accordingly, impact stress waves are transmitted to a tool, but their transmission to a slotting device attached to the tool is damped. Further, during driiling feed force in the drilling direction is transmitted to the body of the slotting device by means of fluid.
  • An advantage of the invention is that in normal drilling situa- tion there is an axial gap in drilling direction between the mechanical counter surfaces of the tool and the body of the slotting device, whereby the energy of the stress waves generated by a percussion device are not transmitted to the body and to the guide of the slotting device. Thanks to this, stress waves do not damage the structure of the slotting device and the operating life of the slotting device may longer.
  • the slotting device is a dismountable auxiliary device connected to a shank of the rock drilling machine or to a drill rod connected to the shank. This being so, the slotting device can be easily connected and disconnected to a standard rock drilling machine according to the need. When the slotting device is disconnected, the rock drilling machine can be used in drilling normal single holes.
  • fluid is provided to flush drilling waste from a hole being drilled.
  • the fluid flows through an axial volume chamber that is defined between a body portion of a slotting de- vice and the tool, and the flushing fluid damps transmission to the slotting device of impact stress waves generated by a percussion device.
  • the slotting device is capable of dislodging itself in the event the slotting device becomes jammed in the slot.
  • the slotting device provides valve means regulating a flow of fluid through the axial volume chamber. The valve means restricts the fluid flow thereby increasing fluid pressure and providing additional force to move the slotting device if it becomes jammed.
  • the guide portion comprises a tube that is spaced from and parallel to the body portion. Further the tube may comprise a cutout in which an edge of the bit may rotate. This eliminates the risk that the drill bit comes in contact with the tube.
  • the guide portion comprises at least one elongated guiding flange extending longitudinally along a peripheral surface of the guide portion. These elongated guide flanges ensure that the distance of the hole being drilled is correct in relation to the previous hole.
  • Figure 1a is a schematic illustration of a rock drilling rig
  • Figure 1b is a schematic illustration of a rock drilling unit
  • Figures 2a - 2c are schematic illustrations showing how a slot is formed by successively drilling closely together a plurality of holes
  • Figure 3 is a first perspective view of a first embodiment of a slotting device according to the present invention
  • Figure 4 is a plan view of the slotting device shown in Figure 3;
  • Figure 5 is a partial cross-section view of the slotting device shown in Figure 3;
  • Figure 6 is a partial cross-section detail view of an area indicated in
  • Figure 7 is a partial cross-section detail view similar to Figure 6 but showing a second condition of the slotting device shown in Figure 3;
  • Figure 8 is a second perspective view of the slotting device shown in Figure 3;
  • Figure 9 is a schematic illustration showing a second embodiment of a slotting device according to the present invention.
  • Figure 10 is cross-section view taken along line X-X in Figure 9;
  • Figure 11 is a cross-section view taken along line Xl-Xl in Figure 10;
  • Figure 12 is a schematic illustration of a hold device through which the slotting device can be pushed.
  • FIG. 1a is a schematic illustration of a rock drilling rig 1 , that includes a boom 2, at the end of which there is a rock drilling unit 60.
  • the rock drilling unit 60 which is shown more detailed in Figure 1b, comprises a feed beam 3 with a rock drilling machine 6 including a percussion device 4 and possibly a rotating device 5.
  • the percussion device 4 comprises a percussion piston that is operated by a pressure medium, and strikes the upper end of a tool 7 or a connecting piece arranged between the tool 7 and the percussion device 4, such as a drill shank 61.
  • gener- ate impact pulses in the percussion device 4 in some other manner, for example electrically or without a reciprocating striking piston.
  • the proximal end of the tool 7 is connected to the rock drilling machine 6 by means of the shank
  • the rotating device 5 may transmit to the tool 7 continuous rotating force to cause the bit 8 connected to the tool 7 to change its position after an impact of the percussion device 4 and with a subsequent impact strikes a new spot in the rock.
  • the rock drilling machine 6 is arranged movably on the feed beam 3 in drilling direction D and in reverse direction R and during drilling the tool 7 is thrust with a feeding device 9 against the rock
  • the feeding device 9 can be for example a pressure-medium-operated cylinder.
  • drill rods 10a, 10b, 10c (the number of which depends on the depth of the hole to be drilled and which constitute the tool 7) are arranged between the bit 8 and the drilling machine 6.
  • the drilling machine 6 may comprise a flushing device 11 for supplying a flushing fluid through the tool 7 and the bit 8 to a bored drill hole so as to flush loose drilling waste there from.
  • Figure 1a does not show the flushing channels of the tool 7.
  • the rock drilling rig 1 may also be provided with at least one control unit 63 for controlling the drilling.
  • a hold- ing device 64 through which the tool 7 is arranged.
  • the hold 64 includes means for supporting the tool 7 during drilling.
  • a drilling component magazine 65 for storing drilling components such as drill bits 8, slotting devices and drilling rods 10.
  • the component magazine 65 may be pro- vided with a manipulator for transferring drilling components between the drilling axis and the magazine. Thereby drilling components, such as the slotting device, can be connected and disconnected to the drilling machine according to the need.
  • a feed pump 12 drives the feeding device 9, an impact pump 13 drives the percussion device 4, and a rotation pump 14 drives the rotating device 5.
  • the pumps 12, 13, 14 supply pressurized fluid, preferably hydraulic oil, to the respective dedicated devices 9, 4, 5 that they drive.
  • the pumps 12, 13, 14 are disposed along supply conduits 15, 16, 17 respectively connected to the devices 9, 4, 5 and through which pressurized fluid is supplied to the devices in the direction indicated by arrows A. Alternatively the needed pressure fluid is supplied from one single pump to the devices.
  • the fluid is returned from the devices 9, 4, 5 along respective return conduits 18, 19, 20 in the direction indicated by arrows B back to a tank.
  • the drilling machine 6 also comprises a flushing pump 21 that is disposed along a supply conduit 22 that is connected to the flushing device 11.
  • a flushing agent which is typically water, is supplied to the flushing device 11 in the direction of arrow A.
  • a slot S is formed in a rock surface by drilling a plurality of holes at a pitch substantially equal to the diameter of the holes. Since the holes are successively drilled very closely to each other, when a new hole is drilled next to a previously drilled hole, the wall of rock between these holes is broken. In this manner, a slot is formed along the holes as they are successively drilled. [0025] As shown in Figure 2a, when a single hole 50 is drilled in a rock surface, the fully circumferential wall 50a of the hole 50 is left intact.
  • FIG. 2c the utilization of a slotting device 100 according to the present invention will be described.
  • the hole 50 is initially drilled with a normal drill bit. Thereafter, the slotting device 100 is fitted to the rock drilling machine 6, and the holes 52 and 54 are successively drilled.
  • hole 52 is being drilled, it is parallel to and intersects previously drilled hole 50
  • hole 54 is being drilled, it is parallel to and intersects previously drilled hole 52.
  • the tool 7 including the bit 8 is withdrawn and positioned such that a guide portion 110 of the slotting device 100 will extend into the previously drilled hole 54.
  • a body portion 120 of the slotting device 100 which is fitted with respect to the tool 7 and connected to the guide portion 100 by at least one strut 130, maintains the desired course for the new hole being drilled.
  • the guide portion 110 may be provided with one or more longitudinally extending elongated guiding flanges 112a, 112b.
  • the guiding flanges 112a, 112b are disposed on the peripheral surface of the guide portion and are positioned on either side of the broken partition between the two previously drilled holes 52, 54.
  • the guiding flanges 112a, 112b facilitate locating the guide portion 110 in the previously drilled hole 54, particularly with regard to the absence that results from the broken partition.
  • a single flange that extends on the peripheral surface of the guide portion 110 beyond the opposite ends of the broken partition may also facilitate locating the guide portion 110 in the previously drilled hole.
  • the guide portion 110 which is to be disposed in a previously drilled hole, is tubular and extends longitudinally between a tapered leading edge 114 and a trailing end 116, which may also be tapered to facilitate extraction of the guide portion from the previously drilled hole.
  • a cutout 118 may be provided so as to avoid contact between the guide portion 110 and the bit 8 as it works in the hole being drilled.
  • the guiding flanges 112a, 112b may be disposed on the peripheral surface of the guide portion 110.
  • the slotting device 100 comprises one or more struts 130 for connecting the guide portion 110 to the body portion 120.
  • the strut 130 provide a structural link to convey movement of the body portion 120 to the guide portion 110, i.e., the guide portion 110 is displaced in the previously drilled hole in response to movement of the body portion 120.
  • the connection between the guide portion 110 of the slotting device 100 and the rock drilling apparatus 1 is, preferably, solely via the strut 130 and the body portion 120 of the slotting device 100.
  • the body portion 120 of the slotting device 100 is disposed in the hole being drilled, and is coupled to the tool 7 via a mutually defined axial volume chamber 140 that contains flushing fluid to damp transmission of the impact stress waves from the percussion device 4 to the slotting device 100.
  • the body portion 120 includes a sleeve 122 that defines a bore 124 in which extends the tool 7.
  • the bore 124 includes a first diameter portion 124a, a second diameter portion 124b that is smaller than the first diameter portion 124a, a shoulder portion 124c that extends between and couples the first and second diameter portions 124a, 124b, and a third diameter portion 124d that is smaller than the second diameter portion 124b.
  • the por- tion of the tool 7 that extends through the bore 124 includes a piston portion 7a and a rod portion 7b, which is proximal to the bit 8.
  • the piston and rod portions 7a, 7b are mechanically coupled between the drill rods 10a, 10b, 10c, if any, and the bit 8; but may alternatively be integrally formed as part of the tool 7.
  • the impact stress waves generated by the percussion device 4 are transmitted via a direct mechanical coupling, i.e., via the tool 7 including the piston and rod portions 7a, 7b, to the bit 8.
  • variable axial volume chamber 140 has an annular shape that is defined radially between the first diameter portion 124a of the bore 124 and the rod portion 7b of the tool 7, and is defined axially between the piston portion 7a of the tool 7 and the shoulder portion 124c of the bore 124.
  • flushing fluid is prevented from flowing between first diameter portion 124a and the piston portion 7a, such as with a seal 126.
  • the variable volume chamber 140 may contain flushing fluid, which is supplied via a flow passage 142 that connects a first internal passageway 144 that extends through the tool 7 and a second internal passageway 146 that also extends through the tool 7.
  • the first internal passageway 144 is distally disposed, and the second internal pas- sageway 146 is proximally disposed.
  • the second internal passageway 146 provides flushing fluid flow to the bit 8.
  • the flow passage 142 includes an axial flow passage 142a, a first generally radial How passage 142b, and a second generally radial flow passage 142c.
  • the axial flow passage 142a is disposed radially between the rod portion 7b of the tool 7 and the second di- ameter portion 124b of the bore 124.
  • the first generally radial flow passage 142b connects the first internal passageway 144 of the tool 7 to a first axial end of the axial flow passage 142a
  • a second generally radial flow passage 142c connects a second axial end of the axial flow passage 142a to the second internal passageway 146 of the tool 7.
  • the first and second generally radial flow passages 142b, 142c may extend obliquely or perpendicularly with respect to the axial flow passage 142a and to the first and second internal passageways 144, 146.
  • the third diameter portion 124d of the bore 124 in the sleeve 122 slidingly receives the rod portion 7b of the tool 7.
  • flushing fluid is prevented from flowing between third diameter portion 124d and the rod portion 7b, such as with a seal.
  • FIG. 6 a first relationship between the body portion 120 of the slotting device 100 and the tool 7. Flushing fluid is supplied to the variable volume chamber 140 via the first generally radial flow passage 142b.
  • the flushing fluid contained in the variable volume chamber 140 serves to damp transmission to the slotting device 100 of impact stress waves generated by the percussion device 4 of the rock drilling apparatus 1. Specifically, the impact stress waves generated by the percussion device 4 are transmitted through the tool 7, but the slotting device 100 is generally isolated from the impact stress waves by virtue of the coupling via the flushing fluid contained in the axial vofume chamber 140.
  • the slotting device 100 is advanced, i.e., the guide portion 110 is displaced in the previously drilled hole and the body portion 120 is displaced along with the tool 7, in accordance with the operation of the feeding device 9 and the flow of the flushing fluid along the tool 7 that fills the axial volume chamber 140.
  • the flushing fluid in the axial volume chamber 140 affects on the first and second working pressures surfaces 70 and 72 generating a force in drilling direction D and further on a third working pressure surface 71 generating a force in reverse direction R.
  • the fluid transfers the force that is supplied from the feeding device 9, via the piston portion 7a of the tool 7, to the sleeve 122 of the body portion 120, via the working pressure surfaces 70, 72, and on to the guide portion 110 via the strut 130.
  • the flushing fluid contained in the axial volume chamber 140 damps transmission to the slotting device 100 of impact stress waves generated by the percussion device 4 of the rock drilling apparatus 1.
  • FIG. 7 is shown a second relationship between the body portion 120 of the slotting device 100 and the tool 7.
  • a second relationship develops.
  • Resistance to the slotting device 100 advancing, in combination with the operation of the feeding device 9, causes flushing fluid flow through the axial flow passage 142a to be restricted by virtue of the third diameter portion 124d at least partially closing the second generally radial flow passage 142c. This raises fluid pressure in the axial volume chamber 140, and thus increases the force acting to dislodge the slotting device 100.
  • the second generally radial flow passage 142c is completely closed and the How of flushing fluid is blocked, which can be detected by the control unit 63 or the operator of the rock drilling rig 1 , and the tool 7 and slotting device 100 can be extracted from their respective holes.
  • the first generally radial flow passage 142b feeds into the variable volume chamber 140 during the first relationship between the body portion 120 of the slotting device 100 and the tool 7 of the rock drilling apparatus 1.
  • the first generally radial flow passage 142b may feed into the axial flow passage 142a rather than the variable volume chamber 140, thus the primary flow of flushing fluid bypasses the variable volume chamber 140, which is also reduced in capacity.
  • variable axial volume chamber 140 enhances the ability to increase the fluid pressure for dislodging the slotting device 100, and by limiting flushing fluid communication between the variable volume chamber 140 and the flow passage 142, the flushing fluid provides less damping whereby impact stress waves generated by the percussion device 4 may be transmitted to the slotting device 100 to assist in dislodging the guide portion 110 with respect to the previously drilled hole.
  • the third diameter portion 124d and the second generally radial flow passage 142c act like a valve to automatically control the position of the sleeve 122 with respect to the tool 7, thereby automatically reacting to feeding resistance of the guide portion 110.
  • variable volume chamber 140 of the first pre- ferred embodiment is in the shape of an annulus, with the tool 7 defining the piston portion 7a
  • the variable volume chamber 140a according to the second preferred embodiment has a generally cylindrical shape with a sleeve portion 122 and a dampening piston 128 disposed within a flow passage 142 that extends through the tool 7.
  • the flow passage 142 includes at least one axial flow passage 142a (four are shown in Figure 10), a first generally radial flow passage 142b, and a second generally radial flow passage 142c.
  • the first gener- ally radial flow passage 142b connects a first portion of the flow passage 142 to a first axial end of the axial flow passage 142a
  • the second generally radial flow passage 142c connects a second axial end of the axial flow passage 142a to the second portion of the flow passage 142 through the tool 7.
  • the piston 128 includes an interior portion 128a, an exterior portion 128b, and at least one coupling portion 128c.
  • the exterior portion 128b may comprise two halves the inner surfaces of which include protrusions for forming coupfing portions 128c, and wherein the halves are arranged against each other and coupled with the interior portion 128a for example by screw joints.
  • Each coupfing portion 128c defines a web that extends between and fixes together the interior and exterior portions 128a, 128b of the piston 128.
  • the interior portion 128a defines a first working pressure surface 80 affecting in drilling direction D and a second working pressure surface 81 affecting in reverse direction R when pressure fluid is arranged to flow through the slotting device 100.
  • the same pressure affects to the working pressure surfaces 80, 81 having the same surface area, whereby forces affecting the piston 128 are in equilibrium and the piston is positioned in its middle position.
  • the exterior portion 128b slidingly receives the tool 7 and contiguously engages the sleeve portion 122 during the first relationship between the slotting device 100 and the tool 7. There are axial gaps G in drilling direction D and in reverse direction R between the tool 7 and the damping piston 128 so as to prevent mechanical axial contact between them.
  • the dampening piston 128 automatically adjusts the feed force transmit- ted to the guide portion 110.
  • the dampening piston 128 is not in mechanical axial contact with the tool 7. Forces affecting on the pressure working surfaces 80, 81 of the piston 128 ensure that no axial mechanical surfaces between the tool 7 and the piston 128 are against each other.
  • the feed force is transmitted to the piston 128 by means of the fluid in the axial volume chamber 140a. Thereby the transmission of stress pulses to the slotting device is dampened.
  • the fluid can be for example hydraulic fluid led from the feed pump 12, the impact pump 13 or the rotation pump 14.
  • the tool 7 has to be provided with a special fluid channel and an axial volume chamber separated from the flushing system.
  • Figure 12 shows a hold device 64 having an opening 66 through which the sfotting device 100 can be pushed.
  • Dimensions and form of the opening 66 is designed according to a cross sectional profile of the slotting device 100, whereby it includes two intersecting minor openings.
  • the opening 66 may be provided with a flexible sealing material 67 such as rubber and having several cuts 68 for facilitating the penetration.
  • a flexible sealing material 67 such as rubber and having several cuts 68 for facilitating the penetration.

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  • Engineering & Computer Science (AREA)
  • Mining & Mineral Resources (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Geology (AREA)
  • Mechanical Engineering (AREA)
  • General Life Sciences & Earth Sciences (AREA)
  • Geochemistry & Mineralogy (AREA)
  • Physics & Mathematics (AREA)
  • Environmental & Geological Engineering (AREA)
  • Fluid Mechanics (AREA)
  • Earth Drilling (AREA)
PCT/FI2008/050161 2008-04-03 2008-04-03 Drilling unit, method for slot drilling and slotting device WO2009122001A1 (en)

Priority Applications (8)

Application Number Priority Date Filing Date Title
EP08736810A EP2257687A1 (en) 2008-04-03 2008-04-03 Drilling unit, method for slot drilling and slotting device
JP2011502404A JP5167404B2 (ja) 2008-04-03 2008-04-03 掘削装置、スロット掘削方法およびスロット形成装置
CN2008801283994A CN101981269A (zh) 2008-04-03 2008-04-03 钻孔单元、用于开槽的方法以及开槽装置
PCT/FI2008/050161 WO2009122001A1 (en) 2008-04-03 2008-04-03 Drilling unit, method for slot drilling and slotting device
US12/935,793 US20110017513A1 (en) 2008-04-03 2008-04-03 Drilling unit, method for slot drilling and slotting device
AU2008353952A AU2008353952B2 (en) 2008-04-03 2008-04-03 Drilling unit, method for slot drilling and slotting device
CA2714983A CA2714983C (en) 2008-04-03 2008-04-03 Drilling unit, method for slot drilling and slotting device
ZA2010/06643A ZA201006643B (en) 2008-04-03 2010-09-16 Drilling unit,method for slot drilling and slotting device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/FI2008/050161 WO2009122001A1 (en) 2008-04-03 2008-04-03 Drilling unit, method for slot drilling and slotting device

Publications (1)

Publication Number Publication Date
WO2009122001A1 true WO2009122001A1 (en) 2009-10-08

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ID=41134872

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/FI2008/050161 WO2009122001A1 (en) 2008-04-03 2008-04-03 Drilling unit, method for slot drilling and slotting device

Country Status (8)

Country Link
US (1) US20110017513A1 (ja)
EP (1) EP2257687A1 (ja)
JP (1) JP5167404B2 (ja)
CN (1) CN101981269A (ja)
AU (1) AU2008353952B2 (ja)
CA (1) CA2714983C (ja)
WO (1) WO2009122001A1 (ja)
ZA (1) ZA201006643B (ja)

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KR101404683B1 (ko) * 2013-10-04 2014-06-09 주식회사 기술나라 자유면 형성용 가이드 유니트 및 이를 이용한 자유면 형성방법
US10062044B2 (en) * 2014-04-12 2018-08-28 Schlumberger Technology Corporation Method and system for prioritizing and allocating well operating tasks
US9995137B2 (en) 2014-09-15 2018-06-12 Joy Global Underground Mining Llc Service tool for cutting bit assembly
EP3006662B1 (en) * 2014-10-09 2018-03-21 Sandvik Mining and Construction Oy Rotation unit, rock drilling unit and method for rock drilling
CN107448158B (zh) * 2016-05-31 2019-10-29 江苏银服智能装备有限公司 一种送钻工具钻井液
JP6901284B2 (ja) * 2017-03-07 2021-07-14 鹿島建設株式会社 コンクリート構造物の再削孔方法及びコンクリート構造物の再削孔用治具
CN106703685B (zh) * 2017-03-17 2018-08-03 吉林大学 一种高压脉冲动力锤钻具
CN109236215A (zh) * 2018-10-30 2019-01-18 西南石油大学 一种适用于激光机械破岩实验装置的钻杆稳定装置
CN111691828A (zh) * 2020-06-05 2020-09-22 芜湖青悠静谧环保科技有限公司 一种矿山开采用便携式钻岩打孔器
ES2954753T3 (es) * 2020-12-07 2023-11-24 Eurodrill Gmbh Dispositivo de accionamiento de perforación para un equipo de perforación de suelo
CN113464133A (zh) * 2021-07-22 2021-10-01 中国矿业大学(北京) 顶板切缝装置及方法

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EP2257687A1 (en) 2010-12-08
JP5167404B2 (ja) 2013-03-21
JP2011516760A (ja) 2011-05-26
CN101981269A (zh) 2011-02-23
CA2714983A1 (en) 2009-10-08
CA2714983C (en) 2012-08-28
US20110017513A1 (en) 2011-01-27
ZA201006643B (en) 2011-06-29
AU2008353952B2 (en) 2011-11-24

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