| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 立岩钻 | CN201710000568.7 | 2017-01-03 | CN106639867A | 2017-05-10 | 李景立; 闫志辉 |
| 本发明涉及一种立岩钻,包括一个筒状结构的外壳体,外壳体前端设置前接头、后端设置后接头,后接头上设置进气口,前接头上设置有钻头安装孔,在后接头和前接头之间的外壳体内依次设置气路转换机构、气动活塞机构和钻头;当气动活塞机构的活气动活塞机构塞体向前运动时,活塞体前端部对钻头做打击运动,活塞体向后运动时,活塞体内嵌设的螺套带动旋转杆和连接杆单向转动,进而带动钻头旋转。本发明可以自发旋转、其机动性高、消耗能源低、工作效率高、产生粉尘少、可无需看管作业。 | ||||||
| 2 | 具有绕簧离合器的冲击设备 | CN92102844.X | 1992-04-16 | CN1071430C | 2001-09-19 | L·H·莱昂; R·R·金伯林 |
| 一种在冲击设备中将旋转运动传递给一个钢钎的离合器装置。该离合器装置包括一个其上形成有第一圆柱面的第一毂。一个基本上转动地偶合在钢钎上的第二毂,它具有在其上形成的第二圆柱面。第二圆柱面与第一圆柱面同轴。一个绕簧与第一圆柱面和第二圆柱面二者的一部分相接合,其中第一毂和第二毂之间的相对转动在第一方向上是允许的,在第二方向上则受到限制。该绕簧离合器装置传递由一根来复杆组件以及一个柱塞杆装置提供的运动。 | ||||||
| 3 | 用于冲击设备的绕簧离合器 | CN92102844.X | 1992-04-16 | CN1065914A | 1992-11-04 | L·H·莱昂; R·R·金伯林 |
| 一种在冲击设备中将旋转运动传递给一个钢钎的离合器装置。该离合器装置包括一个其上形成有第一圆柱面的第一毂。一个基本上转动地耦合在钢钎上的第二毂,它具有在其上形成的第二圆柱面。第二圆柱面与第一圆柱面同轴。一个绕簧与第一圆柱面和第二圆柱面二者的一部分相接合,其中第一毂和第二毂之间的相对转动在第一方向上是允许的,在第二方向上则受到限制。该绕簧离合器装置传递由一根来复杆组件以及一个柱塞杆装置提供的运动。 | ||||||
| 4 | 凿岩机用不转动活塞及其可拆除的花键螺母 | CN93119342.7 | 1993-09-23 | CN1090012A | 1994-07-27 | P·B·坎贝尔; R·R·金伯林 |
| 一种流体驱动冲击工具,其内有一个可纵向往复移动但是不转动的活塞。活塞驱动一个使钻钢转动的卷簧离合器。可拆除的花键螺母与工具的壳体结合使活塞不能转动,但仍允许活塞作纵向往复运动。 | ||||||
| 5 | JPS5072260A - | JP9113774 | 1974-08-08 | JPS5072260A | 1975-06-14 | |
| 6 | I If wearing winding for shock device clutch | JP51089692 | 1992-04-16 | JPH08506644A | 1996-07-16 | キンバリン、ロバート・アール; エッチ リヨン、レランド |
| (57)【要約】 クラッチ組立体(16)が衝撃装置(10)内の回転運動をたがねに伝える。 クラッチ組立体(16)は第1の円筒形表面(24)が表面に形成された第1のハブ(18)を備えている。 事実上回転するようにたがねに結合されている第2のハブ(20)が第2の円筒形表面(26)を表面に形成されている。 第2の円筒形表面(26)は第1の円筒形表面(24)と共軸である。 巻きつけばね(17)が第1の円筒形表面(24)と第2の円筒形表面(26)の両方の一部分に係合し、その点で第1のハブ(18)と第2のハブ(20)の間の相対回転運動が第1の方向に許され、第2の方向に制限されている。 巻きつけばねクラッチ(16)はプランジャ棒装置と同様にライフルバー組立体から供給される運動を伝える。 | ||||||
| 7 | Non-rotary piston and removable splined nut for the for hand-held rock drill | JP50842793 | 1993-09-22 | JPH08501502A | 1996-02-20 | アール キンバーリン、ロバート; ビー チャンベル、ポール |
| (57)【要約】 流体作動形衝撃打撃工具が縦に往復運動するが回転しないピストンを中に備えている。 ピストンは巻き付けばねクラッチを作動させてドリルを回転させる。 工具のハウジングと組合せた着脱自在なスプライン付きナットがピストンの回転を阻止するが、ピストンの縦の往復運動を可能にしている。 | ||||||
| 8 | JPS61501640A - | JP50120285 | 1985-03-18 | JPS61501640A | 1986-08-07 | |
| 9 | JPS547482B2 - | JP9113774 | 1974-08-08 | JPS547482B2 | 1979-04-07 | |
| 10 | 충격장치용 랩스프링 클러치 | KR1019930703154 | 1992-04-16 | KR100234512B1 | 1999-12-15 | 르랜드에이취라이언; 로버트아아르킴버어린 |
| 본 발명의 충격 장치(10)의 회전동작을 드릴 스틸에 전달하는 클러치 조립체에 관한 것이다. 클러치 조립체(16)는 제1원통형 표면(24)이 위에 형성되 있는 제1허브(8)를 포함한다. 드릴 스틸에 실제적으로 회전하게 결합된 제2허브(20)에는 제2원통형 표면(26)이 위에 형성되어 있다. 제2원통형 표면(26)은 제1원통형 표면(24)과 공축을 이루고 있다. 랩 스프링(17)이 제1원통형 표면(24)과 제2원통형 표면(26)모두의 일부분과 결합하며, 제1허브(18)와 제2허브(20)사이의 상대적인 회전 동작은 제1방향으로는 허용되나 제2방향으로는 억제 된다. 랩 스프링 클러치(16)는 플런저 바 장치는 물론 라이플 바 조립체로 부터 공급된 동작을 전달한다. | ||||||
| 11 | METHOD AND DEVICE FOR DIRECTIONAL DOWN-HOLE DRILLING | EP03705624.9 | 2003-02-24 | EP1488071B1 | 2007-11-14 | EGERSTRÖM, Fredrik |
| The invention concerns a method and a device for directional drilling of a hole (3), in particular when drilling curved holes for mining, drift mining or similar, whereby a drill support (4) is used in the form of a flexible continuous drill tube with a proximal end and a distal end, that at the end of the drill support distal end is connected a down hole assembly (5) comprising a drill bit (13) for forming a drill string, which is fed into the gradually forming hole. To avoid and minimise the occurrence of "stick slip" during directional drilling, according to the method, the drill support (4) while drilling is taking place is held fixed at its proximal end against rotation outside the borehole and the rotating motion for indexing the drill bit (13) around an axis extending in the direction of drilling is performed in the area between the drill support's distal end and the drill bit while drilling is in progress. | ||||||
| 12 | Dispositif et procédé de foration par rotopercussion | EP06356035.3 | 2006-03-30 | EP1840322A1 | 2007-10-03 | Brongniart, Frédéric; Leon, Franck |
Le dispositif comporte un corps de perforatrice (8), de forme générale cylindrique, relié par un tubage flexible (7) à une pompe à eau sous haute pression (11) placée sur un véhicule porteur (1) de faible hauteur. Un piston de frappe est monté mobile, rappelé élastiquement, dans le corps de perforatrice (8), et soumis à une haute pression pulsée d'eau de manière à être animé d'un mouvement de percussion contre une enclume porte-taillant, le tubage (7) transmettant simultanément au corps de perforatrice (8) un mouvement de rotation alternatif autour de son axe principal (A). Une électrovanne (13), intercalée entre la pompe (11) et le point de départ du tubage (7), reçoit des impulsions électriques (I) successives pour commande d'ouverture et de fermeture, qui créent des ondes de choc sur la ligne d'eau contenue dans le tubage (7), lequel transmet ces ondes de choc jusqu'au piston de frappe du corps de perforatrice (8). Applications : travaux souterrains, exploitations minières, en particulier utilisation dans des galeries de faible hauteur.
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| 13 | WRAP SPRING CLUTCH FOR PERCUSSIVE APPARATUS | EP92911809.0 | 1992-04-16 | EP0580779A1 | 1994-02-02 | LYON, Leland, H.; KIMBERLIN, Robert, R. |
| Un ensemble d'accouplement (16) transmet le mouvement rotatif d'un appareil à percussion (10) à un acier à fleurets. L'ensemble d'accouplement comprend un premier moyeu (18) sur lequel est formé une première surface cylindrique (24). Sur un second moyeu (20), couplé rotatif à l'acier à fleuret, est formée une seconde surface cylindrique (26). Ladite seconde surface cylindrique (26) est coaxiale avec ladite première surface cylindrique (24). Un ressort enroulé (17) vient au contact d'une partie à la fois de la première surface cylindrique (24) et de la seconde surface cylindrique (26), de manière que le mouvement rotatif relatif entre le premier moyeu (18) et le second moyeu (20) est possible dans un premier sens et empêché dans un second sens. L'accouplement (16) par ressort enroulé transmet le mouvement produit par l'ensemble tige du marteau perforateur ainsi qu'un agencement de tiges de plongeur. | ||||||
| 14 | Hammer for use in a bore hole and apparatus for use therewith | EP85301858.8 | 1985-03-18 | EP0156609A1 | 1985-10-02 | Ennis, Melvyn Samuel James |
Apparatus for drilling a bore hole comprises a hammer (3) and a series of dual wall drill tubes (2). The hammer (3) is supplied with compressed air and is for use in applying successive percussive blows to a percussive drill cutting bit for taking core samples from the bottom of the bore hole while drilling same. An upstanding rig (37) is provided at surface level to support the hammer (3) and drill tubes (2) and to transmit push-down or pull-up movement thereto. First means (32) indexes rotationally the bit for drilling purposes and is operable by a portion of the supply of air. Second means conducts from the bottom end of the bore hole that portion of air used by and exhausted from the percussive cutting bit (27) and having core particles entrained therein. Third means comprises an annular flushing jet (7) to direct a portion of air upwardly through a sampling tube (6) co-axial with the drill tube (2) and hammer (3) to induce a venturi to assist in conducting core particle entrained exhaust air upwardly. |
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| 15 | Schlag- und Bohrvorrichtung | EP81106994.7 | 1981-09-07 | EP0047944B1 | 1984-12-19 | Paikert, Alfred |
| 16 | Trépan pour matériaux très durs | EP02292418.7 | 2002-10-02 | EP1302621B1 | 2006-04-19 | Binon, Stéphane, c/o Compagnie du Sol; Quandalle, Benoît, c/o Compagnie du Sol; Vacher, Olivier, c/o Compagnie du Sol; Viroles, Germain, c/o Compagnie du Sol |
| 17 | DUAL-MEMBER PIPE DRIVEN POWER GENERATOR | EP03707328.5 | 2003-01-09 | EP1466068B1 | 2006-03-29 | SHARP, Richard, F.; DOCK, Matthew, L. |
| A rotating inner member is used to drive a downhole tool housed within the hollow outer member of a dual-member drill string. The downhole tool preferably will be adapted t receive rotational energy from the inner member. In a preferred embodiment, the downhole tool is an electric generator connected to a downhole electric device. In another preferred embodiment the downhole tool is a mechanical transmission that uses the rotational energy from the inner member to drive a non-electric tool, such as a downhole hammer. This invention will increase the consistency and efficiency of downhole energy production. | ||||||
| 18 | Trépan pour matériaux très durs | EP02292418.7 | 2002-10-02 | EP1302621A1 | 2003-04-16 | Binon, Stéphane, c/o Compagnie du Sol; Quandalle, Benoît, c/o Compagnie du Sol; Vacher, Olivier, c/o Compagnie du Sol; Viroles, Germain, c/o Compagnie du Sol |
L'invention concerne un trépan. Le trépan comprend une partie inférieure (12) ayant une face inférieure active et une face supérieure (12') sensiblement parallèle à la face active ;
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| 19 | NONROTARY PISTON FOR JACKHAMMER AND REMOVABLE SPLINED NUT THEREFOR | EP93921718.0 | 1993-09-22 | EP0662026A1 | 1995-07-12 | CAMPBELL, Paul, B.; KIMBERLIN, Robert, R. |
| A fluid-activated, percussive impact tool has a piston (46) therein that reciprocates longitudinally but not rotationally. The piston activates a wrap spring clutch (96) to rotate the drill steel. A removable splined nut (84) in combination with the tool's housing (42) restrains rotation of the piston, while permitting longitudinal reciprocation of the piston. | ||||||
| 20 | WRAP SPRING CLUTCH FOR PERCUSSIVE APPARATUS | EP92911809.9 | 1992-04-16 | EP0580779B1 | 1995-03-01 | LYON, Leland, H.; KIMBERLIN, Robert, R. |
| A clutch assembly (16) transmits rotary motion in a percussive apparatus (10) to a drill steel. The clutch assembly (16) includes a first hub (18) having a first cylindrical surface (24) formed thereon. A second hub (20) which is substantially rotationally coupled to the drill steel, has a second cylindrical surface (26) formed thereon. The second cylindrical surface (26) is coaxial with the first cylindrical surface (24). A wrap spring (17) engages a portion of both the first cylindrical surface (24) and the second cylindrical surface (26), wherein relative rotary motion between the first hub (18) and the second hub (20) is permitted in a first direction and restricted in a second direction. The wrap spring clutch (16) transmits motion supplied from a rifle bar assembly as well as a plunger bar arrangement. | ||||||
