- E21D9/1006: ..{具有旋转切割工具(用于同时切割整个横截面的入E21D9/11;钻头入E21B10/00)}
- E21D9/1053: ..{用于沿着隧道外形形成一个狭缝,剩余的芯部随后被去除,例如通过爆炸}
- E21D9/106: ..{具有敲击的工具,例如,鹤嘴锤}
- E21D9/1066: ..{用流体喷射(喷射热的气体入E21D9/1073;通过液体或气体钻进入E21B7/18;用液体喷射掏槽入E21C25/60}
- E21D9/1073: ..{应用热能,例如,通过喷射火焰或热的气体,通过激光束(火焰钻进入E21B7/14)}
- E21D9/108: ..{专用于为了驱动隧道或平巷的及其的遥控装置(用于掏槽或使矿物完全落离矿层的机器入E21C35/24)}
- E21D9/1086: ..{专用于此的驱动或传送装置}
- E21D9/1093: ..{用于支撑、推进或定位机器或者刀架的装置(用于导向的机器的测量装置入E21D9/00C;井眼内的固定入E21B4/18)}
- E21D9/11: ..利用一个旋转钻头同时截割整个断面,即全断面设备
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | 高频振动纵向铣挖头及具有该铣挖头的铣挖机和掘进机 | CN201510336477.1 | 2015-06-17 | CN104912567A | 2015-09-16 | 唐忠盛 |
| 本发明公开了高频振动纵向铣挖头及具有该铣挖头的铣挖机和掘进机,铣挖机和掘进机采用的高频振动纵向铣挖头的铣挖头座安装在铣挖机体的一端,铣挖机体另一端设有连接座,切削马达和变速箱安装在铣挖头座上,纵向铣挖头上设有铣挖截齿,纵向铣挖头的顶部转轴安装在铣挖头座上并与变速箱输出端联接,变速箱的输入端与切削马达联接;铣挖头座的上方安装有振动箱体,振动箱体对铣挖头座输出高频振动力,使纵向铣挖头在实现自身旋转运动的同时还能实现高速反复振动运动。本发明通过将纵向铣挖头与振动箱体结合,可以实现纵向铣挖头旋转运动的同时可进行高频反复振动,使铣挖头上的截齿对接触物料进行冲击和切削复合作用力,从而轻易破碎硬岩。 | ||||||
| 82 | 一种高应力巷道围岩卸压控制大变形的方法 | CN201510041552.1 | 2015-01-27 | CN104763432A | 2015-07-08 | 刘增辉; 孟祥瑞; 冯英华; 赵光明; 高召宁; 王向前; 娄嵩 |
| 本发明属于矿山高应力巷道围岩大变形控制的一种方法,该方法主要包括:判断围岩压力是否为高应力,卸压时机的确定,卸压方式确定,钻孔或预裂切割爆破卸压,缷压区域充填,围岩压力监测和变形监测。发明的特征在于:通过巷道围岩岩石样品的强度测试和成分分析判断高应力围岩的性质,通过变形监测和实验研究确定卸压时机和方式,在巷道围岩内采用钻孔或预裂爆破技术缷压,并在缷压槽内充填围岩变形缓冲材料,同时在缷压槽内埋设压力传感器和布设围岩变形监测断面以监测缷压效果。本发明能有效控制矿山大埋深或者非冲击地压的高地应力地质条件下巷道围岩变形,保证矿山高地应力环境中的巷道能在生产期间正常使用。 | ||||||
| 83 | 具有掘进功能的轨道吊机 | CN201410825772.9 | 2014-12-28 | CN104632241A | 2015-05-20 | 李宝 |
| 具有掘进功能的轨道吊机由吊车驱动装置1、多功能掘进平台3构成,吊车驱动装置1由大功率锂电池组1.1供电,多功能掘进平台3通过两组液压支臂2.1与吊车轨道轮相连接,多功能掘进平台3由掘进机3.1,锚杆机3.2,钻探机3.3组成,其中掘进机3.1安装于机械最前端,锚杆机3.2采用可收缩折叠设计,安装于掘进钻头后方,钻探机3.3安装于掘进机3.1后部。本发明的有益效果是:将掘进机,锚杆机,钻探机与单轨吊车结合,使用便捷,减少了工人的劳动强度,提高了井下掘进工作的效率。 | ||||||
| 84 | 防爆柴油机掘进机 | CN201410796622.X | 2014-12-12 | CN104632240A | 2015-05-20 | 杨立斌 |
| 本发明公开了一种利用防爆柴油机作为动力源的防爆柴油机掘进机,其特征是:利用防爆柴油机作为动力源,利用防爆柴油机输出的动力直接带动油箱里的柱塞泵做功,利用油箱里的柱塞泵输出液体做功,带动行走部马达做功,带动升降油缸做功,实现铲板和掘进机头的升降和掘进机臂旋转,利用油箱里的柱塞泵输出的液体带动马达实现掘进机裁割头的旋转。 | ||||||
| 85 | 用于多管间距断面的矩形顶管施工方法 | CN201410830161.3 | 2014-12-26 | CN104632234A | 2015-05-20 | 陈卓; 王家祥; 刘杰; 刘向阳; 陈强; 王启成; 何达兵; 夏炜洋; 梁梦秋 |
| 本发明涉及用于多管间距断面的矩形顶管施工方法,包括以下步骤:确定顶进顺序,选用矩形顶管机,针对多管通道,采用“跳格”顶进施工顺序;渣土改良,采用调节浆液对所挖渣土进行改良;减摩泥浆选择,减摩泥浆由膨润土、水、纯碱、CMC/CMS、乳化油组成;管节纵向拉结,采用后张法预应力钢绞线将待顶管通道的管节纵向拉结为一起;根据“跳格”顶进施工顺序完成顶进施工。本发明所述用于多管间距断面的矩形顶管施工方法采用了“跳格”顶进施工顺序实现对多管间距断面顶进施工,确保了相邻管节结构安全,有效控制了地面及管线沉降,施工安全性高,工程综合成本低等优势,形成了良好的环保效益、节能效益以及社会效益。 | ||||||
| 86 | 特大溶洞洞底处理施工方法 | CN201410745067.8 | 2014-12-09 | CN104532821A | 2015-04-22 | 马良; 张博轩; 宋国映; 王波 |
| 本发明属隧道穿越特大溶洞施工的技术领域,为解决现有基础施工方法不能适用于特大溶洞的问题,提供一种特大溶洞洞底处理施工方法。采用跟管钻进工艺,在钻进过程中同步跟进套管,将套管穿过易坍塌地层,将其隔住,跟管钻进至溶洞部位停止钻进后采用细石混凝土进行回填,回填完成后继续钻进。大大提高了工效,减少了成本,节约了时间。跟管钻进技术对于易坍塌的复杂地层施工是行之有效,可以在类似地质条件的边坡防护、基底加固处理工程中普遍采用。采用全自动注浆记录仪进行记录,发现单孔注浆量过大或长时间无压力的情况采用间歇注浆或调整浆液配合比的方式及时进行处理,同时确保注浆压力及注浆量的要求,保证了注浆加固的效果。 | ||||||
| 87 | 隧道关门塌方快速救援方法 | CN201410661849.3 | 2014-11-19 | CN104481582A | 2015-04-01 | 杨积凯; 吴小维; 吴大胜 |
| 一种隧道关门塌方快速救援方法,其步骤如下:步骤一、在开挖隧道洞内的安全区处安装具有螺旋出土功能与油缸顶进功能、可同时进行螺旋出土作业与油缸顶进作业的螺旋出土顶管管幕施工设备;步骤二、用螺旋出土顶管管幕施工设备,在开挖隧道洞内的关门塌方区的底部打设一根至少能容纳一人通过的钢管,使钢管穿过关门塌方区并进入到开挖隧道洞内的施工作业区中,此时钢管形成了逃生通道;步骤三、指挥施工作业区中的人员从逃生通道逃至安全区。本发明属于已知产品的新用途发明,它将螺旋出土顶管管幕施工设备由隧道超前支护施工方向,转移应用到了隧道塌方人工救援方向,这样大大降低了隧道塌方救援的复杂性,提高了隧道塌方救援的速度。 | ||||||
| 88 | 隧道掘进机 | CN201410572156.7 | 2014-10-23 | CN104481528A | 2015-04-01 | 牛建强; 李章博; 姜海涛 |
| 本发明公开了一种隧道掘进机,隧道掘进机包括行走机构、设置于所述行走机构上的驾驶室及设置于所述驾驶室前端的截割部,所述截割部包括截割头、用于驱动所述截割头转动的驱动装置、截割臂及用于驱动所述截割臂摆动的摆动油缸,所述驱动装置的输出端与所述截割头相连接,所述隧道掘进机截割部还包括打孔装置,所述打孔装置可前后移动地设置于所述截割臂上。本发明提供的隧道掘进机中由于截割部设置有打孔装置,因此,在隧道截割的过程中还可以对隧道进行打孔作业以对顶板进行加固,可增加隧道掘进机的作业功能,从而节省了作业时间,降低现场工人劳动强度。 | ||||||
| 89 | 一种防涌门装置及具有该防涌门装置的掘进机 | CN201410467942.0 | 2014-09-15 | CN104389616A | 2015-03-04 | 刘飞香; 程永亮; 姚满; 梁兴生; 李丹岚; 董堃 |
| 本发明涉及一种防涌门装置及具有该防涌门装置的掘进机,其包括:内部具有容纳腔的支撑组件,所述支撑组件上设置有第一输送孔;与所述支撑组件相固定的盖板件,所述盖板件上设置有与所述第一输送孔相配合的第二输送孔;设置在所述容纳腔中并相对所述支撑组件的底壁和上壁进行左右滑动的第一门板件和第二门板件;分别与所述第一门板件和所述第二门板件的端部相铰接,驱动所述第一门板件和所述第二门板件相互靠近或分离以使所述第一输送孔和所述第二输送孔关闭或打开的驱动单元。所述防涌门装置具有密封效果好以及耐磨性强的优点。 | ||||||
| 90 | 预防土压平衡盾构机因摩阻力过大而卡滞的方法及系统 | CN201110144493.2 | 2011-05-31 | CN102226400B | 2012-09-12 | 李建斌; 谭顺辉; 何於琏 |
| 一种土压平衡盾构机中预防因摩阻力过大导致盾体卡滞的方法,通过安装在盾构机盾壳上的土压传感器,对盾体和地层之间的土压信号进行实时监测,结合已知的盾构机参数及施工地质参数,计算盾构机运行中的相关阻力;通过PLC中的CPU模块,根据土压传感器传输的压力信号计算盾体和地层之间的摩擦阻力F1,并最终判断盾体和地层之间的摩擦阻力F1是否小于等于盾构机推进油缸的总推力Ft除以修正系数Kxz之商与阻力F2+F3+F4+F5之间的差值;若是,则盾构机正常推进;若否,则预警装置报警。可以有效地避免因盾体卡滞而导致盾构机被迫性停机的故障发生,从而降低施工风险,提高施工效率。 | ||||||
| 91 | BARRIER FORMING APPARATUS | EP14842227.2 | 2014-09-04 | EP3042038A1 | 2016-07-13 | Maynard, Glen Roy |
| A barrier forming apparatus for forming a barrier between an exposed tunnel face (107) and a tunnel boring machine (100), the barrier being formed by the application to the tunnel face of a barrier mixture comprising two highly reactive first and second components. The barrier forming apparatus (10) includes a first reservoir (11) for storing the first component, a second reservoir (12) for storing the second component, and a plurality of applicators (13, 14 and 15). The barrier forming apparatus (10) also includes a third reservoir (56) that is used to store a clearing fluid and a piston flow divider (58) having an inlet (59) and three chambers having respective outlets, (61, 62 and 63) that are in fluid communication with a respective applicator (13, 14 and 15). The applicators are maintained in a state of readiness by a regular supply of clearing fluid passing there through. | ||||||
| 92 | Abrasion detecting apparatus detecting abrasion of component of cutter head and tunnel boring machine including abrasion detecting apparatus | EP10171397.2 | 2010-07-30 | EP2295705A3 | 2016-06-15 | Iwata, Hiroyoshi; Kondo, Yasunori; Sakai, Yoshio; Aimi, Taso |
An abrasion detecting apparatus is configured to detect an abrasion of a component of a cutter head of a tunnel boring machine configured to excavate a ground using a cutter to bore a tunnel, the abrasion detecting apparatus including: an abrasion detection probe located rearward of a front end of the cutter by a certain distance and located forward or rearward of a front end of a component, whose abrasion needs to be detected, of the cutter head by a certain distance, the abrasion detection probe including an abrasion detecting portion at a front end portion thereof, the abrasion detecting portion abrading away by contact with the ground to be excavated; and a detecting device configured to detect an abrasion of the abrasion detecting portion.
|
||||||
| 93 | VORTRIEBS- ODER GEWINNUNGSMASCHINE MIT ANKERSETZEINRICHTUNG UND AUSBAUMANIPULATOR ODER STÜTZEINRICHTUNG | EP13703719.8 | 2013-01-24 | EP2807337A2 | 2014-12-03 | WELS, Franz; PIRKER, Bernd |
| In a tunnelling or extraction machine comprising cutting tools (4) which are movable over the heading face and are arranged on a boom (2), and a platform (10) which is movable in the longitudinal direction of the machine and carries roof support devices, the roof support devices comprise a support manipulator (13) or a supporting device (40) and an anchor-boring and anchor-setting device (14), wherein the anchor-boring and anchor-setting device (14) is fastened to the movable platform (10) in a pivotable manner between a parked position and an operating position and the support manipulator (13) or the supporting device (40) has a telescopic arm (16) which is fastened to the movable platform (10) in a vertically pivotable manner, wherein the support manipulator (13) or the supporting device (40) and the anchor-boring and anchor-setting device (14) are fastened to the movable platform (10) at a predefined, fixed distance apart from one another and are displaceable together with the movable platform (10) between a retracted position and a forwardly displaced position. | ||||||
| 94 | TERRAIN-BEARBEITUNGSMASCHINE | EP08700013.9 | 2008-01-03 | EP2122069B1 | 2012-06-06 | Staubli, Herbert |
| The invention relates to a ground-working machine (11) equipped with a drive and with transporting means (21). Its transporting means (21) serve inter alia to carry a supporting structure (23) at a distance from the positioning plane of the machine, on which supporting structure (23) is arranged, in the region of a central axis (Z), a cutting tool (25) with at least one transverse cutting roller (13) for working the ground on which the ground-working machine is standing. The cutting roller (13) can be rotated about its roller axis (V). This roller axis (V) can be pivoted about a steering axis (W), which steering axis (W) is arranged in the direction of the central axis (Z) at a distance from the transporting means (21). | ||||||
| 95 | METHOD AND COMPOSITION FOR REDUCING WEAR IN A CUTTING HEAD OF A TUNNEL BORING MACHINE | EP03779786.7 | 2003-09-02 | EP1556583B1 | 2006-05-17 | EGLI, Herbert; ELLENBERGER, Peter |
| A method of reducing wear in a cutting head of a tunnel boring machine, by means of the addition at the cutting head of a foamed aqueous liquid composition, which comprises a foaming agent and a lubricant, the lubricant being selected from the group consisting of high molecular weight polyethylene oxides and bentonite. Preferred foaming agents are anionic and nonionic surfactants. Wear rates of cutting elements of TBMs boring in hard rock are considerably reduced. A wear-reducing foamable concentrate is also described. | ||||||
| 96 | Multi-purpose anchor bolt assembly | EP01310651.3 | 2001-12-19 | EP1217167A2 | 2002-06-26 | Xu, Shulin; Mahtab, Ashraf |
A multi-purpose anchor bolt, which performs two principle functions: (1) it acts as an active reinforcement for the ground when it is installed and tensioned, and (2) it is used to excavate and advance the face in steps. The invention also includes the method of the multi-purpose anchor bolt's use. This invention is a hybrid of traditional and mechanized excavation techniques. |
||||||
| 97 | Introduction assembly for reinforcement rods for drilling machine | EP01114640.4 | 2001-06-19 | EP1167683A1 | 2002-01-02 | Casagrande, Mauro |
Introduction assembly (10) for reinforcement rods (39) for drilling machines (20) having at least a drilling assembly (30) able to make a plurality of holes inside which said reinforcement rods (39) are inserted, said introduction assembly (10) comprising at least a guide beam or mast (28) for said reinforcement rods (39), normally arranged on one side of said drilling assembly (30), said mast (28) being able to assume at least a working configuration and a movement configuration wherein it is able to move from one side of said drilling assembly (30) to the other. |
||||||
| 98 | Einrichtung zum Auffahren von Hohlräumen | EP98890166.6 | 1998-05-28 | EP0881358A1 | 1998-12-02 | Schnee, Heinz Dieter, Dipl.-Ing. |
Bei einer Einrichtung zum Aufweiten von Hohlräumen (8) in einer Strecke oder einem Tunnel mit an einem schwenkbaren Auslegerarm (7) rotierbar gelagerten Schrämköpfen (9) mit Schneidwerkzeugen bzw. Meißeln, wobei der Auslegerarm (7) an einem um eine sich in Strecken- bzw. Tunnelachse erstreckende Rotationsachse (5) drehbaren Träger (1) um eine die Rotationsachse (5) des Trägers (1) rechtwinkelig schneidende oder kreuzende Achse (6) schwenkbar angelenkt und mit einem am Träger (1) abgestützten Schwenkantrieb verbunden ist, und wobei der drehbare Träger (1) an zumindest einem Lagerbock (2) in der Strecke bzw. dem Tunnel abstützbar ist und mit wenigstens einem Drehantrieb verbunden ist, ist der Träger (1) an beiden Enden in in der Strecke bzw. dem Tunnel abgestützten, höhenverstellbaren Lagerböcken (2) gelagert. Der die Schrämköpfe tragende Auslegerarm (7) ist zwischen den Lagerböcken (2) am Träger (1) angelenkt. |
||||||
| 99 | Machine pour l'extraction, l'ébauchage et l'équarrissage de blocs de pierres, marbres et granits, notamment en carrières | EP83401345.0 | 1983-06-29 | EP0099791B1 | 1987-04-22 | Marechal, Roger |
| 100 | Kombinierte Tunnel- bzw. Schachtbohrmaschine mit gleichzeitigem Verschalen und Versteifen des Schachttunnels sowie Rücktransport des Aushubmaterials | EP83100314.0 | 1983-01-15 | EP0084365A2 | 1983-07-27 | Merkle, Karl; Bingiesser, Erich |
Der mit harten Schneiden versehene, windmühlenartige Abräumschlagbohrkopf - mit installierten Neutronen-, Ultraschallbeschluß- oder Laserstrahlautomaten - leitet Abraum über Versteifungen auf Förderband zum Abtransport. Abraumreste oder Wasser werden mit Saugpumpen abgesaugt. Die von 6 Hydraulikzylindern getragene Antriebswelle wird im Meß- und Steuergehäuse - Mitte der welle hängend - per Computer, Ultraschall, Infrarot, Laser über Bildschirm nach Vorlage von Meßkarten gesteuert. Durch Pumpen, Schläuche, Düsen und Schweißgeräte wird Isolier- und Befestigungsmaterial über einem auf der Antriebswelle mit Kugelgelenk, Lager und entspannenden Federn montierten mit äußeren und inneren Kunststoffspritzdüsen und Baustoffanschlußstutzen besetzten Stahlring und anschließenden Stahltrichter an stehenbleibendes Material angetragen. Auf Federhalterungen montierte Rollen - ihrerseits an längs und quer mit Kugelgelenken versehenen Schienen am Stahlring befestigt- pressen lsolier- und Befestigungsmaterial bis zu dessen Erhärtung an. Der Gesamtantrieb der mit Abräumschlagbohrkopf versehenen Antriebswelle erfolgt mittels Elektro-, Verbrennungsmotor oder Druckluft. Bohren, Herausbefördern desAbraummaterials, Versteifen und Isolieren des Tunnels geschieht in einem Arbeitsgang. |
||||||
