| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | 자동화된 파이프 트립핑 장치 및 방법 | KR1020157011392 | 2013-10-22 | KR1020150074014A | 2015-07-01 | 필그림,릭 |
| 자동화된파이프트립핑장치는외부프레임과내부프레임을포함한다. 내부프레임은트립핑슬립과강철러프넥을포함한다. 자동화된파이프트립핑장치는엘리베이터및 권양기와협력하여연속적운동으로관형스트링을트립인할수 있다. 트립핑슬립및 강철러프넥은내부프레임과함게외부프레임내에서수직으로이동할수 있다. 관형스트링의중량은트립핑슬립과엘리베이터사이에서전달된다. 강철러프넥은관형세그먼트사이의나사연결부를조립또는분해할수 있고, 상부관형세그먼트는엘리베이터에의해지지되고, 하부관형세그먼트는트립핑슬립에의해지지된다. 자동화된파이프취급장치는엘리베이터로또는엘리베이터로부터파이프의섹션을공급또는제거할수 있다. 제어시스템은엘리베이터와권양기및 자동화된파이프트립핑장치양자모두를제어할수 있다. | ||||||
| 22 | 시추 시스템의 행 오프 타입 호스 가이드 장치 | KR2020130003589 | 2013-05-08 | KR2020140005820U | 2014-11-18 | 서성주 |
| 시추 시스템의 행 오프 타입 호스 가이드 장치를 개시한다.
시추 시스템의 행 오프 타입 호스 가이드 장치는 시추작업 시 드릴 보호를 위해 사용하는 머드의 순환과정에서 마우스 홀에 적재되는 머드를 드레인하기 위한 호스와, 선체의 메인 데크 상부에 설치된 비오피 트롤리 레일(Bop trolley rail)과의 간섭을 피하기 위하여 설치되는 시추 시스템의 호스 가이드 장치로서, 상기 호스를 지지하는 곡면 지지 플레이트; 상기 곡면 지지 플레이트의 양 측면에 형성되어 상기 호스를 가이드하는 측면 가이드 플레이트; 및 상기 곡면 지지 플레이트를 지지하기 위하여 상기 비오피 트롤리 레일에 탈착 가능하게 설치되는 고정 유닛;을 구비한다. |
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| 23 | 락드릴 로드 수납용 암 | KR1020120014923 | 2012-02-14 | KR1020130093368A | 2013-08-22 | 황운규; 양정우 |
| PURPOSE: An arm for a rock drill rod storage is provided to prevent a leak of a hydraulic oil, and to adjust a position of a grip and an arm for a rod storage without disassembling a structure and a cylinder. CONSTITUTION: An arm (100) for a rock drill rod storage comprises a link body (110), a grip cartridge (120), and a combining unit (130). The grip cartridge comprises a cartridge base (121), a driving grip member (122), and a grip cylinder (123). The combining unit binds a rotating member and the cartridge base. The grip cartridge is capable of controlling a position to a radial direction of the cartridge base about the rotating member. | ||||||
| 24 | 라이저 핸들링 시스템 | KR1020140112065 | 2014-08-27 | KR1020160025190A | 2016-03-08 | 배재류; 추교식; 김인수; 이수호; 김진강; 장웅권; 이규석; 김건호; 권정한; 김성수 |
| 본발명은라이저핸들링시스템에관한것으로, 보다상세하게는, 시추선에구비된시추장비중 하나인라이저를선체내에수직으로보관한상태에서수직으로인양한뒤 시추작업을위해연속적으로하역할수 있도록하는라이저핸들링시스템에관한것이다. 본발명에따르면, 선체에수직으로저장된라이저를수직인상태로인양하여연속적으로시추를위한하역작업에투입할수 있음에따라, 종래가로로적재된라이저를인양한뒤 수직으로세우기위해인양된라이저를잠시두었던캣웍을별도로설치하지않아도되고, 이에따라, 시추선의무게중심을낮출수 있어안정성을향상시킬수 있다. | ||||||
| 25 | 회전형 핑거보드 및 이를 가지는 파이프 핸들링 시스템 | KR1020140110677 | 2014-08-25 | KR1020160024178A | 2016-03-04 | 구정민; 배재류; 추교식; 김성수 |
| 본발명은회전형핑거보드및 이를가지는파이프핸들링시스템에관한것으로서, 더욱구체적으로는드릴파이프나라이저등과같은시추용파이프의핸들링에소요되는시간을단축시킬수 있고, 파이프의이동거리와시간을단축시킴으로써파이프의핸들링과관련된시추작업의효율을높일수 있는회전형핑거보드및 이를가지는파이프핸들링시스템에관한것이다. 본발명에따르면, 파이프의연결내지해체작업을수행하는러프넥(roughneck); 드릴플로어에설치되는레일; 및상기레일을따라이동하는본체에수직의회전축을중심으로회전체가회전하도록설치되고, 파이프를각각클램핑하기위한클램프가상기회전체의가장자리를따라간격을두고서다수로마련되는회전형핑거보드;를포함하는파이프핸들링시스템이제공된다. | ||||||
| 26 | 라이저 파이프의 경사로 이송 시스템 | KR1020130033758 | 2013-03-28 | KR1020140118224A | 2014-10-08 | 김생호 |
| The present invention relates to an inclined transportation system for riser pipes. The inclined transportation system for riser pipes comprises an inclined path inclined from a drill floor in which a drilling work using riser pipes is operated to a loading space at a predetermined angle to serve as a path through which the riser pipes are moved. The inclined transportation system for riser pipes can increase the size of a V-door opening and the design load of a derrick structure by obliquely arranging the path through which the riser pipes are transported, and can increase the gross nominal capacity of the derrick and the maximum hook load of a travelling block. Also, the present invention can increase the space utilization of a deck area by forming a cat walk used in the transportation of the riser pipes on the hull of a drill ship. | ||||||
| 27 | 시추선의 라이저 이송 브리지 | KR1020130030828 | 2013-03-22 | KR1020140115771A | 2014-10-01 | 김병곤 |
| A riser transporting bridge for a drill ship is disclosed. The riser transporting bridge, which is installed in a position for connecting a catwalk deck and a drill floor of the ship, comprises a riser transporting bridge body installed to be rotary against a hinge unit between the catwalk deck and the drill floor; and a derrick winch installed in the derrick to rotate the riser transporting bridge body centering the hinge unit. | ||||||
| 28 | LOGGING TOOL DEPLOYMENT SYSTEMS AND METHODS WITH PRESSURE COMPENSATION | PCT/US2008077671 | 2008-09-25 | WO2009085348A3 | 2009-11-12 | GUERRERO JULIO C |
| Systems and processes are provided for facilitating transfer of downhole devices through a reversibly sealable wellhead fixture capping a well under pressure, without jeopardizing operators, equipment, or the well itself. An open ended pressurizable vessel is provided that is sized and shaped to accommodate a substantial portion of a particular downhole device, such as a logging tool. The vessel includes a mating flange for coupling its open end to a reversibly sealable wellhead fixture. A pressure can be equalized between an internal cavity of the pressurizable vessel and the wellbore. Once the pressure has been equalized, a channel can be opened between the pressurizable vessel and the wellbore, allowing for transfer of the downhole device in a preferred direction, either into or out of the wellbore. One or more robotic systems can be provided to further expedite manipulation of at least one of the tool and the vessel. | ||||||
| 29 | A DEVICE FOR AN ELECTROMECHANICAL HOISTING MACHINE, ESPECIALLY FOR USE WHEN DRILLING OIL- AND GAS WELLS | PCT/NO2009000048 | 2009-02-10 | WO2009102215A3 | 2010-04-22 | HAUGHOM PER OLAV |
| A device for an electromechanical hoisting machine (10) with driving gears (6) in engagement with rack rails (5) fixed to a steel structure (1). The hoisting machine is driven by electromotors (8) which transmit torque to the driving gears (6) through the gearing (11), the shaft (15) and further the bevel gear drives (14, 16, 17) and gears (18, 19) to the driving gears (6) in engagement with rack rails (5). To achieve flexible load distribution on the driving gears (6), differential gears (12) supported on projecting shaft journals (20) connected to the main shaft (15) are arranged between the bevel gear drives (16). | ||||||
| 30 | Duplex Snubbing Jack | US15712998 | 2017-09-22 | US20180080291A1 | 2018-03-22 | David L. Sipos |
| A duplex snubbing jack and method of snubbing pipe into a well bore is disclosed. The duplex snubbing jack includes first and second gripping units that alternately and synchronously grip and release a length of pipe to be attached to a pipe string. The first and second gripping units are synchronously movable upward and downward toward and away from each other to push or pull the pipe through a BOP stack and into or out of a wellbore. Linear actuators are used to synchronously move the first and second gripping units. Guide rails are provided to laterally support the pipe as the pipe is pushed or pulled through the BOP stack into or out of the wellbore. The first and second gripping units are preferably slip-type spiders. | ||||||
| 31 | HORIZONTAL DIRECTIONAL DRILLING RIG | US15605324 | 2017-05-25 | US20170342816A1 | 2017-11-30 | Jason LaValley; Jesse J. Kilde; Daniel L. Larson; Bill Brandt |
| A horizontal directional drilling rig is described. The rig can be entirely electrically powered. The performance (or “health”) and/or the life cycle of individual components of the rig can be electronically monitored. This permits identification of specific individual components that are performing in a substandard manner or are not performing properly or have reached the end of their life cycle. Individual improperly performing components or components at the end of their life cycle can thus be specifically identified. The improperly performing component(s) or components at the end of their life cycle can then be replaced. In some embodiments, when a component is identified as performing improperly, the operation of other, properly functioning components of the rig can be modified accordingly to account for the improperly performing component. | ||||||
| 32 | Drilling rig employing top drive | US13788239 | 2013-03-07 | US09790751B2 | 2017-10-17 | Padira Reddy; Ashish Gupta; Sean M. Bailey |
| An apparatus includes a carriage movable along a drilling tower, a linking member pivotally coupled to the carriage, at least one actuator extending between the carriage and the linking member to pivot the linking member between first and second pivot positions, and a top drive pivotally coupled to the linking member. According to another aspect, an apparatus includes a drilling tower, a carriage movably coupled to the drilling tower, a linking member pivotally coupled to the carriage to permit the linking member to pivot between first and second pivot positions, and a top drive extending longitudinally in a parallel relation to the drilling tower, the top drive being pivotally coupled to the linking member to permit the top drive to continue to extend longitudinally in a parallel relation to the drilling tower when the linking member pivots between the first and second pivot positions. | ||||||
| 33 | AUTOMATED PIPE TRIPPING APPARATUS AND METHODS | US15259869 | 2016-09-08 | US20160376857A1 | 2016-12-29 | Rick Pilgrim |
| An automated pipe tripping apparatus includes an outer frame and an inner frame. The inner frame includes a tripping slips and iron roughneck. The automated pipe tripping apparatus may, in concert with an elevator and drawworks, trip in a tubular string in a continuous motion. The tripping slips and iron roughneck, along with the inner frame, may travel vertically within the outer frame. The weight of the tubular string is transferred between the tripping slips and the elevator. The iron roughneck may make up or break out threaded connections between tubular segments, the upper tubular segment supported by the elevator and the lower by the tripping slips. An automated pipe handling apparatus may remove or supply sections of pipe from or to the elevator. A control system may control both the automated pipe tripping apparatus and the elevator and drawworks. | ||||||
| 34 | DRILLING RIG CARRIAGE MOVABLE ALONG RACKS AND INCLUDING PINIONS DRIVEN BY ELECTRIC MOTORS | US15200963 | 2016-07-01 | US20160312548A1 | 2016-10-27 | Padira Reddy; Ashish Gupta; Sean M. Bailey; Todd Fox; Scott G. Boone; Beat Kuttel |
| According to one aspect, a drilling rig carriage is adapted to move along a drilling mast, and includes a body structure, electric motors coupled to the body structure, and pinions operably coupled to the electric motors, respectively. The pinions are adapted to engage racks, respectively. According to another aspect, a drilling mast includes a longitudinally-extending frame having a first side portion and a second side portion spaced therefrom. Racks are coupled to the frame at the first side portion thereof. According to yet another aspect, an apparatus includes a drilling mast or tower extending longitudinally along an axis, the tower including racks spaced in a parallel relation. A top drive is movable along the axis and relative to the tower. Electric motors are coupled to the top drive and movable therewith. Pinions are operably coupled to the electric motors, respectively, and engage the racks, respectively, to move the top drive. | ||||||
| 35 | Drive of an earth drilling device, earth drilling device, and a method for driving an earth drilling device | US14957015 | 2015-12-02 | US20160160585A1 | 2016-06-09 | Sebastian FISCHER; Stefan HERMES; Raimund GROBBEL |
| The invention relates to a drive of a slide of an earth drilling device having a rotary drive and a pinion that is driven by the rotary drive and can be engaged with a rack, wherein the rotary drive is engaged with another pinion which can be engaged with the rack. | ||||||
| 36 | Drilling rig employing tubular handling device | US13788994 | 2013-03-07 | US09309728B2 | 2016-04-12 | Padira Reddy; Ashish Gupta; Sean M. Bailey |
| A tubular handling device includes a first arm movable along, and pivotable about, a first axis, and a first gripper to engage a first tubular member, the first gripper being coupled to the first arm and rotatable, relative to the first arm, about a second axis that is perpendicular to the first axis. According to another aspect, a method includes providing a first gripper; coupling a first arm to the first gripper, moving the first arm, pivoting the first arm, and rotating the first gripper, relative to the first arm. According to another aspect, an apparatus includes a drilling tower, and a tubular handling device to position one or more tubular members proximate the drilling tower, the tubular handling device including a first gripper to engage a first tubular member, and a first arm coupled to the first gripper. | ||||||
| 37 | Drilling rig carriage movable along racks and including pinions driven by electric motors | US13797265 | 2013-03-12 | US09273524B2 | 2016-03-01 | Padira Reddy; Ashish Gupta; Sean M. Bailey; Richmond Todd Fox; Scott G. Boone; Beat Kuttel |
| According to one aspect, a drilling rig carriage is adapted to move along a drilling mast, and includes a body structure, electric motors coupled to the body structure, and pinions operably coupled to the electric motors, respectively. The pinions are adapted to engage racks, respectively. According to another aspect, a drilling mast includes a longitudinally-extending frame having a first side portion and a second side portion spaced therefrom. Racks are coupled to the frame at the first side portion thereof. According to yet another aspect, an apparatus includes a drilling mast or tower extending longitudinally along an axis, the tower including racks spaced in a parallel relation. A top drive is movable along the axis and relative to the tower. Electric motors are coupled to the top drive and movable therewith. Pinions are operably coupled to the electric motors, respectively, and engage the racks, respectively, to move the top drive. | ||||||
| 38 | Drill rig and associated drill rig traverse system | US14677095 | 2015-04-02 | US09260928B2 | 2016-02-16 | Warren Strange |
| A drill rig 10 has a drill tower 12, rotation head 14 and drill table 16. The rotation head 14 is supported on and linearly traversable along drill tower 12. A drill rig traverse system 20 provides pull back and pull down force to the rotation head 14 enabling the rotation head 14 to traverse along drill tower 12 and controlling contact force between a drill bit and toe of a hole being drilled. The system 20 is formed as a combination of a hydraulic ram traverse system 22 providing both pull back and pull down force; and a winch pull back system 24 providing pull back only. Both hydraulic ram traverse system 22 and winch pull back system 24 can traverse the rotation head for the full length of the tower 12 when simultaneously applying pull back to the rotation head 14. | ||||||
| 39 | Storage, handling and positioning device for drill rods and methods thereof | US13730194 | 2012-12-28 | US09121236B2 | 2015-09-01 | Tomasz Matlewski; Dan Garland |
| Implementations described herein comprise systems, apparatus and methods for drill string component storage, handling and positioning devices. The handling device can comprise a magazine assembly configured for storing and handling elongate members having a magazine assembly and at least one conveyor roller chain operatively associated with the magazine assembly. The magazine assembly can further comprise an internal path having a loading aperture and a dispensing aperture disposed on opposing ends of the internal path. The at least one conveyor roller chain can be configured to controllably urge the at least one drill string component from the loading aperture to the dispensing aperture. The handling device can further comprise an armature assembly operatively associated with the magazine assembly. The armature assembly can be configured to selectively grasp one of the at least one drill string components located at the dispensing aperture and subsequently move the drill string component to a desired position. | ||||||
| 40 | Apparatus and method for a drilling rig assembly | US13545133 | 2012-07-10 | US08671626B1 | 2014-03-18 | Dan Marty; Eddie Stuckert; Kalpeshkumar Patel |
| A drilling rig assembly having a longitudinal axis and comprising a drilling rig skid and a derrick assembly having a derrick assembly pivot axis and being adapted to move relative to the drilling rig skid. The derrick assembly comprises a pair of derrick masts disposed on opposite sides of the longitudinal axis and comprising a rack, and a carriage assembly being substantially disposed between the pair of derrick masts, being adapted to move along the pair of derrick masts and comprising a pinion. The drilling rig assembly also comprises a means for moving the derrick assembly relative to the drilling rig skid, a pipe loader assembly having a pipe loader assembly pivot axis, and a means for moving the pipe loader assembly relative to the drilling rig skid. The derrick assembly pivot axis and the pipe loader assembly pivot axis are co-axial. | ||||||
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