序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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141 | PROPELLING SYSTEM IN SMALL DIAMETER PIPE PROPELLER | EP91906267 | 1991-03-13 | EP0521157A4 | 1993-09-08 | AKIYAMA, HIROSHI, KABUSHIKI KAISHA KOMATSU SEISA- |
142 | APPARATUS FOR FEEDING A DRILLING MACHINE IN EXTENSION ROD DRILLING | EP91910426.0 | 1991-06-11 | EP0533716A1 | 1993-03-31 | LAUNIEMI, Markku |
Appareil d'alimentation destiné à une machine de forage dans la roche (8), comprenant un cylindre d'alimentation (5) mobile par rapport à l'appareil d'alimentation et un cylindre de liaison (6) disposé de façon mobile autour du cylindre d'alimentation (5) suivant sa direction longitudinale. Pour ajouter une nouvelle tige de forage à un train de tiges, la machine de forage (8) est déplacée au moyen du cylindre de liaison (6) et lors du mouvement de forage au moyen du cylindre d'alimentation (5). | ||||||
143 | PROPELLING SYSTEM IN SMALL DIAMETER PIPE PROPELLER | EP91906267.9 | 1991-03-13 | EP0521157A1 | 1993-01-07 | AKIYAMA, Hiroshi, Kabushiki Kaisha Komatsu Seisa- |
A propelling system in a small diameter pipe propeller, wherein in the small diameter pipe propeller for propelling small diameter pipes (4) into the ground using a main body (1) of the propelling system installed in a launching shaft (2) and burying it, propelling jacks (5) and propelling rods (14) are provided in the direction of propelling the small diameter pipes (4), the forward ends of the propelling rods (14) are movably supported by cylinders (5a) of the propelling jacks (5), the rear ends thereof are fixed to the forward ends of piston rods (5b), a driving device (7) for propelling the small diameter pipes (4) is reciprocatingly movably provided between the propelling rods (14), connecting means (8), (9) for selectively connecting the driving device (7) with the propelling jacks (5) or propelling rods (14) are interposed therebetween, and connecting means (12), (13) for selectively connecting the both ends of the propelling jacks (5) and reaction receiving means (6) are interposed therebetween. Consequently, the small diameter pipes can be propelled into the ground when either the shrinkage or extension of the propelling jacks is effected, and the works can be carried out in a limited space. |
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144 | Bohrvorrichtung | EP86101230.0 | 1986-01-30 | EP0190669B1 | 1989-11-23 | Klemm, Günter W. |
145 | RAISE BORING MACHINE WITH CHANGEABLE LENGTH, METHOD AND RAISE BORING RIG | PCT/SE2014051129 | 2014-09-29 | WO2015057130A2 | 2015-04-23 | JORMVIK FREDRIK |
Raise boring machine (1) for boring action in at least one boring direction (R1, R2) including a main frame (2) and an auxiliary frame (3) and a plurality of support means (4), a rotator unit (5) for rotational driving a drill string (10) through a region of the main frame (2), and torque transmitting support arms (6), which are rigidly connected to the rotator unit (5) and arranged slidable on at least two support arms (4) for transfer of torque from the rotator unit (5) to the body. The support means (4) are comprised of telescopic columns (7, 8) which allow change of a distance between the main frame (2) and the auxiliary frame (3) and thereby the length of the body (L, 1). The invention also relates to a method and a raise boring rig. | ||||||
146 | FORCE APPLICATION REDUCTION EMPLOYING ACTUATOR | PCT/US2013036974 | 2013-04-17 | WO2013162970A3 | 2014-05-08 | WEINTRAUB PRESTON; SLOCUM RANDY; KUTTEL BEAT; BHATNAGAR SAMVED |
An apparatus including a first actuator including a first housing defining a first internal region, a first head disposed in the first internal region, the first head defining first and second portions of the first internal region, and a first elongated member connected to the first head and extending out of the first housing. The apparatus further includes a first arm connected to the first elongated member to transfer to the first elongated member at least a first portion of a first force applied in a first direction by at least the weight of at least a tubular component, and a first pressurized fluid source in fluid communication with the first portion of the first internal region to apply a second force against the first head in a second direction that is opposite the first direction. According to one aspect, the tubular component is part of a quill. | ||||||
147 | METHOD FOR OPERATING A HORIZONTAL DRILLING DEVICE AND HORIZONTAL DRILLING DEVICE | PCT/EP2011001616 | 2011-03-31 | WO2011120696A3 | 2012-12-20 | KOCH ELMAR; FISCHER SEBASTIAN; HANSES ANDREAS JOACHIM |
The invention relates to a method for operating a horizontal drilling device (1) which comprises a linear drive, a rotary drive that can be displaced by means of the linear drive, and drill pipes (24) that are designed as a string of drill pipes from a plurality of interconnected pipe strands (23), the rotary drive forming a through-opening into which the drill pipes can be inserted. The through-opening is provided with force transmission means for transmitting compressive and/or pulling forces and/or a torque onto the drill pipes. The invention is characterized in that a pipe strand is fixed inside the through-opening of the drill pipes and is connected to the rear end of the drill pipes or detached from the drill pipes by a linear and/or rotary movement of the rotary drive. | ||||||
148 | METHOD OF MANUFACTURING AN INSULATED PIPELINE | PCT/US0324779 | 2003-08-08 | WO2004020895B1 | 2004-06-03 | COOK ROBERT LANCE |
A method of manufacturing an insulated pipeline. | ||||||
149 | LOAD COMPENSATOR FOR A PIPE RUNNING TOOL | PCT/US0229446 | 2002-09-16 | WO03025444A3 | 2003-05-30 | JUHASZ DANIEL; BOYADJIEFF GEORGE; EIDEM BRIAN L; VAN RIJZINGEN HANS |
A load compensator (304) is disclosed for use in connection with a pipe running tool (10). The load compensator (304) includes an outer housing (308) connected to the portion of the pipe running tool (10) that holds the pipe segment. A piston (310) is disposed within the housing (308), and is connected to a top drive system of the pipe running tool (10). The housing (308) is formed with a first port (312) through which pressurized air is delivered inside the housing (308) to drive the piston (310) within the housing (308). A second port (314) is disposed at a selected location on the housing (308), such that when the piston (310) is advanced past the second port (314), pressurized air passes through the port (314), and causes the control circuit (306) to stop delivering air through the first port (312). Once pressurized air no longer flows through the second port (314), the control circuit (306) causes air to be delivered to the first port (312). | ||||||
150 | System for handling equipments for the drilling of the ground | EP10195300.8 | 2010-12-16 | EP2339108B1 | 2018-10-10 | Biserna, Ezio |
A handling system (1") of drilling equipments (200) of the ground, in which said drilling equipment (200) slides along a support tower (101, 501) fixed or movable with respect to said ground; the handling system (1") being characterized in that it comprises at least one linear actuator (3, 3a, 3b) for handling said digging equipment; said linear actuator (3, 3a, 3b) being temporarily movable and releasable with respect to said tower (101, 501). | ||||||
151 | IMPROVED SELF-SUPPORTING PNEUMATIC HAMMER POSITIONER WITH UNIVERSAL JOINT | EP15834623 | 2015-08-17 | EP3183411A4 | 2018-05-02 | MORISSETTE DANNY; SMITH ERICK; GUIMOND LUC; BLANCHET GHISLAIN; JULIEN GUILLAUME; TREMBLAY GUY; LALONDE RÉJEAN; MAGNY JEAN-PIERRE; LAROCHE ANTHONY; CHROUROU YOUSSEF; JULIEN ALAIN; LALIBERTE STEVE; PAQUIN RAPHAEL; SIMARD MAXIME; TRUDEL CLAUDE; MENARD MARTIN; MANSEAU TOMMY |
A manually operated pneumatic rock drill positioner for mining shaft wall boring, said positioner comprising: an articulated boom having one end for releasable coupling to a mobile ground platform and another end opposite said one end thereof; a rigid elongated drill turret defining a main body with an exposed outer wall, an inner wall opposite said outer wall, and first side edge wall and second side edge wall opposite said first side edge wall, and first end and second end opposite said first end, a lengthwise rail member integrally mounted to said turret outer wall; a carriage slidingly engaging said rail member, said carriage for slidingly carrying a pneumatic drill head over said turret exposed outer wall for reciprocating motion thereof between said first end and second end thereof; drive means for power actuating said carriage sliding motion along said rail member; a cradle member releasably anchored to said boom another end and defining a well sized and shaped for releasable engagement by an intermediate section of said turret inner wall and said first side edge wall thereof; anchoring means for anchoring said turret to said cradle member; first coupling means for pivotally connecting said turret to said cradle member for relative pivotal movement of said turret about said cradle member along a first axis; second coupling means for pivotally connecting said turret to said cradle member for relative tilting movement of said turret about said cradle member along a second axis transverse to said first axis; all in such a way that the intersection of said first axis and second axis coincides with the center of gravity of said turret positioner and is located within said turret main body, providing a balanced load-free manual operation of the positioner. | ||||||
152 | RAISE BORING MACHINE WITH CHANGEABLE LENGTH, METHOD AND RAISE BORING RIG | EP14827286.7 | 2014-09-29 | EP3066290A2 | 2016-09-14 | JORMVIK, Fredrik |
Raise boring machine (1) for boring action in at least one boring direction (R1, R2) including a main frame (2) and an auxiliary frame (3) and a plurality of support means (4), a rotator unit (5) for rotational driving a drill string (10) through a region of the main frame (2), and torque transmitting support arms (6), which are rigidly connected to the rotator unit (5) and arranged slidable on at least two support arms (4) for transfer of torque from the rotator unit (5) to the body. The support means (4) are comprised of telescopic columns (7, 8) which allow change of a distance between the main frame (2) and the auxiliary frame (3) and thereby the length of the body (L, 1). The invention also relates to a method and a raise boring rig. | ||||||
153 | ANTRIEB EINER ERDBOHRVORRICHTUNG, ERDBOHRVORRICHTUNG UND VERFAHREN ZUM ANTREIBEN EINER ERDBOHRVORRICHTUNG | EP15003452.8 | 2015-12-04 | EP3029263A1 | 2016-06-08 | Fischer, Sebastian; Löher, Christian; Völkel, Gerhard |
Die Erfindung betrifft einen Antrieb für einen hin- und zurückbewegbaren Schlitten (5) einer Erdbohrvorrichtung zum Bewegen eines Gestänges, wobei in einem Rahmen (6) eine relativ gegenüber einem Zylinder (2) bewegbare Stange (7) und Zugübertragungsmittel (1) vorhanden sind, die am Schlitten (5) angreifen, wobei die Stange (7) mit dem Rahmen (6) verbunden ist, und Umlenkrollen (3, 4) für die Zugübertragungsmittel (1) am Rahmen (6) und am Zylinder (2) vorhanden sind.
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154 | DRILLING TOWER DEVICE AND DRILLING MACHINE SYSTEM | EP08766945 | 2008-06-26 | EP2173964A4 | 2016-05-18 | LAUVSLAND EGIL |
155 | DRILLING MACHINE AND METHOD | EP11733436 | 2011-01-14 | EP2524105A4 | 2015-03-04 | HARTKE LOUIS C; HACKMAN DAVID J; GUSTAFSON DANIEL L; BARTELS CHAD A; MILLER ORIN L; PHILBROOK JOHN WESLEY |
The present disclosure provides a machine (10) capable of drilling into the ground at a wide range of angles relative to the ground surface. The present disclosure also provides novel drilling methods. | ||||||
156 | DRUM UNIT FOR A WELL INTERVENTION STRING | EP12818942.0 | 2012-12-19 | EP2794459A1 | 2014-10-29 | MOEN, Rune; BJØRNENAK, Mats; ARMSTRONG, Kenny; AARSLAND, Tore; ZACHARIASSEN, Erik |
The invention is a drum unit (T) for an intervention string (0) for a well, comprising - a drum (1) with a radius (R) for the intervention string (0), arranged in a structural frame (2) and rotatable by a motor (22); - the drum (1) arranged translating along a drum axis (10) and driven by a translation motor (26), for controlled winding of the intervention string (0) onto the drum (1) relative to a first, fixed guide (4) in the structural frame (2); - a tension compensator (3) for the intervention string (0), - wherein the compensator (3) comprises a guide arch (31), the guide arch (31) being displaceable in a direction orthogonal to the drum axis (10) using a force device (6) at the structural frame (2); - wherein the intervention string (0) runs between the guide arch (31) and the first fixed guide (4) to or from a first end (31A) of the guide arch (31) to the drum (1), - wherein the intervention string (0) runs via a second, opposite end (31B) of the guide arch (31) via a second, fixed guide (5) at the structural frame (1), to or from the well. | ||||||
157 | DRILLING MACHINE AND METHOD | EP11733436.7 | 2011-01-14 | EP2524105A2 | 2012-11-21 | HARTKE, Louis, C.; HACKMAN, David, J.; GUSTAFSON, Daniel, L.; BARTELS, Chad, A.; MILLER, Orin, L.; PHILBROOK, John, Wesley |
The present disclosure provides a machine (10) capable of drilling into the ground at a wide range of angles relative to the ground surface. The present disclosure also provides novel drilling methods. | ||||||
158 | Bohrgerät und Verfahren zum Betreiben eines Bohrgeräts | EP12001750.4 | 2012-03-14 | EP2520758A2 | 2012-11-07 | Donner, Dietmar; Könnecker, Hans-Otto |
Die Erfindung betrifft ein Bohrgerät mit einem Trägergerät, einem Mast, welcher ein am Trägergerät angebrachtes Mastunterteil und mindestens ein am Mastunterteil teleskopierbar gelagertes Mastoberteil aufweist, einem Schlitten, welcher entlang des Mastes verfahrbar gelagert ist, einem Bohrantrieb zum Antreiben eines Bohrgestänges, welcher an dem Schlitten angeordnet ist, und einem Schlittenantrieb zum Verfahren des Schlittens entlang des Mastes. Der Schlitten umfasst einen hydraulischen Stellzylinder und ist mittels des hydraulischen Stellzylinders entlang des Mastunterteils verfahrbar. Die Erfindung betrifft weiterhin ein Verfahren zum Betreiben eines Bohrgeräts.
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159 | Work string controller | EP11169899.9 | 2009-06-11 | EP2383422A1 | 2011-11-02 | Borgstadt, Justin |
Well bore servicing equipment is provided. The well bore servicing equipment comprises a first manipulator (60a) to grip a well bore work string (152), to raise the work string, and to lower the work string. The well bore servicing equipment further comprises a controller (20a) to receive a work string trajectory input and to automatically control the first manipulator (60a) to raise and lower the work string (152) substantially in conformance with the work string trajectory input.
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160 | Stand compensator | EP09158793.1 | 2007-01-09 | EP2085568B1 | 2011-08-31 | Hollingsworth, Jimmy L. Jr.; Heidecke, Karsten; Wood, Kevin |