| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | 将数据检测装置送入地下岩层中的装置和方法 | CN01137076.9 | 2001-08-25 | CN1349037A | 2002-05-15 | F·埃斯皮诺萨; R·奇格莱尼; C·龙菲尔德 |
| 一种用于将数据检测装置配置到地下地质岩层中,以便间断或连续地从地下岩层中采集数据和将该数据传递给远程数据接收器的装置和方法。在一优选实施例中,枪管和燃烧室采用非线性布置方式,从而提供一种用于将子弹形数据检测装置发射到所关心的岩层中的类似于枪的装置。该数据检测装置一旦布置于所关心的岩层基体内,就将监测岩层状况和传送数据,以便用于优化钻井和生产活动。 | ||||||
| 62 | 一种射孔、造裂方法和装置 | CN00132624.4 | 2000-11-20 | CN1293300A | 2001-05-02 | 丛学沂 |
| 一种射孔、造裂方法,本发明提供了一种用于油田采油的射孔、造裂方法,主要用于改善非均质性、低渗透、老井区块和污染严重的油层油藏环境结构对于原油流动所产生的不利影响,提高单井原油产量,实现增产增注。本发明可根据不同油层结构条件对于射孔数量、孔径、深度和造裂的要求,在一个射孔装置上按所需数量、位置和方向装载多个不同功能的射孔弹,完成多次在同一位置的穿孔、扩孔和油层深度射孔及造裂,使射孔的方向、数量、孔径、深度和造裂效果均达到一个相对理想的程度。 | ||||||
| 63 | 油管运载射孔枪的引爆系统 | CN85107897 | 1985-10-28 | CN1006242B | 1989-12-27 | 詹姆斯·T·巴格利; 莫里斯·L·西蒙 |
| 在落井棒引爆系统中装有一个落井棒缩回装置,在未引爆的情况下打捞落井棒或取出由管时可以保证落井棒的下面端部不会与引爆器相撞。安全装料装置需要在射孔枪下到油井时所产生的油井压力来对油管运载射孔引爆装置进行装药,如果要将实弹的射孔枪收回的话,则在射孔枪从油井中取出来的时候,安全装药装置会自动地处于安全的位置上。油管运载射孔装置引爆的特殊形状的装置包括中心部分具有较大冲量的小直径的探棒。 | ||||||
| 64 | 油管运载射孔枪的引爆系统 | CN85107897 | 1985-10-28 | CN85107897A | 1986-09-10 | 詹姆斯·T·巴格利; 莫里斯·L·西蒙 |
| 在落井棒引爆系统中装有一个落井棒缩回装置,在未引爆的情况下打捞落井棒或取出油管时可以保证落井棒的下面端部不会与引爆器相撞。安全装料装置需要在射孔枪下到油井时所产生的油井压力来对油管运载射孔引爆装置进行装药。如果要将实弹的射孔枪收回的话,则在射孔枪从油井中取出来的时候,安装装药装置会自动地处于安全的位置上。油管运载射孔装置引爆的特殊形状的装置包括中心部分具有较大冲量的小直径的探棒。 | ||||||
| 65 | Radio communication network | JP2009163612 | 2009-07-10 | JP2009293370A | 2009-12-17 | SHELDON MICHAEL L |
| <P>PROBLEM TO BE SOLVED: To provide a system for remotely monitoring and controlling the amount of oil or gas produced in a well. <P>SOLUTION: As the method and apparatus for automatically metering the fluid recovered at the well, a system for automating the fluid recovery of the oil well using a pump jack or an oil extractor, and a communication device 16 are provided. The communication device is capable of bidirectional remote communication, and the system has functions of monitoring, controlling and diagnosing problems of the device or the system. <P>COPYRIGHT: (C)2010,JPO&INPIT | ||||||
| 66 | Tubing transport type drilling gun fire equipment | JP24124085 | 1985-10-28 | JPH0631517B2 | 1994-04-27 | JEIMUZU TEI BEIGURII; MOORISU ERU SHIMON |
| 67 | Wireless communication network | JP2009163612 | 2009-07-10 | JP4841653B2 | 2011-12-21 | マイケル エル. シェルドン |
| 68 | Firing system of tubing carrying type boring gun | JP24124085 | 1985-10-28 | JPS61109894A | 1986-05-28 | JIEIMUZU TEI BEIGURII; MOORISU ERU SHIMON |
| 69 | Pressure response type delay blasting apparatus and its use | JP4731985 | 1985-03-08 | JPS60203796A | 1985-10-15 | EDOWAADO EI KOORU JIYUNIA; FURINTO AARU JIYOOJI; DONARUDO ENU IEETSU JIYUNIA |
| 70 | System and method for automated or measure the recovery of the fluid in the well | JP2004519796 | 2003-07-02 | JP2005532491A | 2005-10-27 | マイケル エル. シェルドン |
| 井戸において回収される流体を自動的に測定するための方法、装置、およびシステムが本明細書に開示されている。 一例によれば、ポンプジャックまたは油抽出機を用いた油井での流体の回収を自動化するためのシステム(10)が記載されている。 また、通信デバイス(16)が、遠隔の双方向通信を可能とし前記デバイスまたは前記システムの問題を監視し、制御し、診断するために、各システムに搭載されている。 | ||||||
| 71 | JPH0472957B2 - | JP4731985 | 1985-03-08 | JPH0472957B2 | 1992-11-19 | EDOWAADO EI KOORU JUNIA; FURINTO AARU JOOJI; DONARUDO ENU IEETSU JUNIA |
| 72 | Firing head | JP22853990 | 1990-08-31 | JPH03156092A | 1991-07-04 | JIYON II ABUIRA; KEBIN AARU JIYOOJI; DEIBUITSUDO ESU UETSUSEN |
| PURPOSE: To make boring using a boring gun energized hydraulically by forming a well ring-shaped part of such a configuration that the boring gun hung down in a well and a firing head are sealed by a ring-shaped packer, moving a firing piston hydraulically, and allowing the gun to make firing. CONSTITUTION: A boring gun 34 and a main firing head 32 are hung down in a well 10 on a pipe string 22, and the gap between the pipe string 22 and the bore 38 of the well is sealed with a packer 24. The hydraulic force in a separate zone 42 is increased, and a differential pressure energize piston 72 is made movable upward in compliance with the hydraulic force increased to the specified value at which a shear pin 94 of a shear set 88 makes shearing, and a firing piston 100 is released to make movement downward in a housing 46. A firing pin 124 is struck, and a percussion start device 128 is struck to actuate the start of the firing sequence, and the gun 34 makes firing to form a hole 132. Thus the boring of a petroleum well is completed. COPYRIGHT: (C)1991,JPO | ||||||
| 73 | Specimen sampler for bed liquid | JP18463087 | 1987-07-23 | JPS6347493A | 1988-02-29 | JIYON JIEFUAASON PURITSUCHIYAA |
| 74 | SYSTEM AND METHOD FOR SHOCK MITIGATION | EP16177218.1 | 2016-06-30 | EP3112584B1 | 2018-12-26 | SPRING, Christian C.; GOLDBERG, Allan; RAEZER, Sheryl; RAYSSIGUIER, Christophe M. |
| A technique facilitates mitigation of shock loads. Subterranean communication systems may comprise components susceptible to various shock loads. A shock mitigation system (30) is physically coupled with the subterranean communication system (28) to mitigate such shock loads. The shock mitigation system (30) comprises components selected to enable reduction of various effects of shock loads, e.g. shock loads resulting from perforating procedures, which could otherwise be detrimental to continued operation of the subterranean communication system. | ||||||
| 75 | METHOD OF REMEDIATING A SCREEN-OUT DURING WELL COMPLETION | EP15756318.0 | 2015-08-20 | EP3201427B1 | 2018-11-21 | TOLMAN, Randy C.; MORROW, Timothy I.; BENISH, Timothy G. |
| A method of completing a well involving remediating a condition of screen-out that has taken place along a zone of interest. The method includes forming a wellbore, and lining at least a lower portion of the wellbore with a string of production casing and placing a valve along the production casing, wherein the valve creates a removable barrier to fluid flow within the bore. The barrier is removed by moving the valve in the event of a screen-out. This overcomes the barrier to fluid flow, thereby exposing ports along the production casing to the subsurface formation at or below the valve. Additional pumping takes place to pump the slurry through the exposed ports, thereby remediating the condition of screen-out. | ||||||
| 76 | REDUNDANT FIRING SYSTEM FOR WELLBORE TOOLS | EP15772741 | 2015-04-02 | EP3126622A4 | 2017-12-27 | MORRISON IAN; ANDRICH LYLE W; LAGRANGE TIMOTHY E; VASS BRADLEY J |
| An apparatus for detonating an explosive body associated with a downhole tool includes a plurality of firing heads, each firing head including an initiating explosive body generating a high-order input when detonated; and a funnel configured to detonate the explosive body associated with the downhole tool by using a single high-order output. The funnel has a body that includes: a plurality of input openings, each input opening positioned next to an associated initiating explosive body to receive the generated high-order input, a single output opening, and a flow path connecting the plurality of input openings with the single output opening. | ||||||
| 77 | ASSEMBLY AND METHOD FOR MULTI-ZONE FRACTURE STIMULATION OF A RESERVOIR USING AUTONOMOUS TUBULAR UNITS | EP11787443 | 2011-05-26 | EP2576979A4 | 2017-11-22 | TOLMAN RANDY C; ENTCHEV PAVLIN B; ANGELES BOZA RENZO M; PETRIE DENNIS H; SEARLES KEVIN H; EL-RABAA ABDEL WADOOD MOHAMMED |
| Autonomous units and methods for downhole, multi-zone perforation and fracture stimulation for hydrocarbon production. The autonomous unit may be a perforating gun assembly, a bridge plug assembly, or fracturing plug assembly. The autonomous units are dimensioned and arranged to be deployed within a wellbore without an electric wireline. The autonomous units may be fabricated from a friable material so as to self-destruct upon receiving a signal. The autonomous units include a position locator for sensing the presence of objects along the wellbore and generating depth signals in response. The autonomous units also include an on-board controller for processing the depth signals and for activating an actuatable tool at a zone of interest. | ||||||
| 78 | FIBER OPTIC CABLE IN DET CORD | EP15810148.5 | 2015-06-19 | EP3157890A1 | 2017-04-26 | BRADLEY, Richard Wayne; COLLINS, William Richard; LANE, Andy; LANGFORD, Dale; LEVINE, Charles; PUNDOLE, Faraidoon; SMITH, Rick |
| An apparatus and method for providing a fiber optic cord in a perforating gun. | ||||||
| 79 | PERFORATING SYSTEM COMPRISING AN ENERGETIC MATERIAL | EP07870697.5 | 2007-05-23 | EP2029955B1 | 2017-04-26 | EVANS, Randy L.; HILL, Freeman L.; HETZ, Avigdor; HONEKAMP, Jeffrey |
| 80 | PUNCHER TOOL | EP13779912.8 | 2013-08-16 | EP2885493B1 | 2017-01-11 | GEIR, Melhus |
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