WO2013174087A1 - 滑轮机构和旋挖钻机 - Google Patents

滑轮机构和旋挖钻机 Download PDF

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Publication number
WO2013174087A1
WO2013174087A1 PCT/CN2012/082050 CN2012082050W WO2013174087A1 WO 2013174087 A1 WO2013174087 A1 WO 2013174087A1 CN 2012082050 W CN2012082050 W CN 2012082050W WO 2013174087 A1 WO2013174087 A1 WO 2013174087A1
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WO
WIPO (PCT)
Prior art keywords
pulley
frame
bearing
axis
pulley mechanism
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Application number
PCT/CN2012/082050
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English (en)
French (fr)
Inventor
孙光庆
Original Assignee
中联重科股份有限公司
湖南中联重科专用车有限责任公司
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Publication date
Application filed by 中联重科股份有限公司, 湖南中联重科专用车有限责任公司 filed Critical 中联重科股份有限公司
Publication of WO2013174087A1 publication Critical patent/WO2013174087A1/zh

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66DCAPSTANS; WINCHES; TACKLES, e.g. PULLEY BLOCKS; HOISTS
    • B66D3/00Portable or mobile lifting or hauling appliances
    • B66D3/04Pulley blocks or like devices in which force is applied to a rope, cable, or chain which passes over one or more pulleys, e.g. to obtain mechanical advantage
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66DCAPSTANS; WINCHES; TACKLES, e.g. PULLEY BLOCKS; HOISTS
    • B66D1/00Rope, cable, or chain winding mechanisms; Capstans
    • B66D1/28Other constructional details
    • B66D1/36Guiding, or otherwise ensuring winding in an orderly manner, of ropes, cables, or chains

Definitions

  • Pulley mechanism and rotary drilling rig Pulley mechanism and rotary drilling rig
  • the present invention relates to a rotary drilling rig, and more particularly to a pulley mechanism disposed on a middle mast of a rotary drilling rig and a rotary drilling rig including the pulley mechanism.
  • a pulley mechanism is provided on the middle mast to guide the wire rope that is retracted by the hoisting.
  • the pulley mechanism comprises: a pulley 1, a pulley frame 2 for mounting the pulley 1, and a connecting frame 3 connecting the pulley frame 2 and the middle mast (not shown), wherein the extension of the pulley frame 2 The direction is perpendicular to the axis of the pulley 1.
  • the pulley frame 2 should be able to swing in a direction perpendicular to the direction in which the pulley frame 2 extends and the plane in which the axis of the pulley 1 lies.
  • the pulley frame 2 and the connecting frame 3 can be connected by the connecting pin 4', so that the pulley frame 2 can be rotated relative to the connecting frame 3 about the connecting pin 4' to achieve the above-mentioned swing.
  • the wire rope may exert an oblique pulling force on the pulley 1.
  • the pulley frame 2 can be rotated relative to the connecting frame 3 about the connecting pin 4' to make a slight positional adjustment corresponding to the pulling force, the pulley frame 2 cannot be adjusted to a position that perfectly matches the pulling force direction. Therefore, the pulling force still exerts a component force on the pulley 1 in the axial direction of the pulley 1, which causes the friction between the pulley 1 and the wire rope to become large, and at the same time wears the pulley 1 and the wire rope.
  • the wire rope is deflected relative to the pulley 1, and the wire rope is easily separated from the guide of the pulley 1 when passing through the pulley 1, resulting in an accident. Summary of the invention
  • the present invention provides a pulley mechanism including a pulley, a pulley frame and a connecting frame, the pulley being mounted on the pulley frame, the pulley frame extending in a direction perpendicular to an axis of the pulley
  • the pulley mechanism further includes a connecting device connecting the pulley frame and the connecting frame, wherein the pulley frame realizes swinging about the first axis relative to the connecting frame and the second axis by the connecting device Rotating, the first axis is perpendicular to a plane in which the pulley frame extends and an axis of the pulley, and the second axis is an extending direction of the pulley frame.
  • the pulley frame is rotated relative to the connecting frame about a third axis by the connecting means, the third axis being parallel to the axis of the pulley.
  • the connecting device comprises a bearing pin and a bearing
  • the bearing pin is connected to the connecting frame
  • the bearing is mounted on the bearing pin
  • the bearing is a joint bearing
  • a spherical roller bearing And one of the self-aligning ball bearings
  • the outer ring of the bearing is coupled to the pulley frame.
  • the connecting bracket comprises two mounting plates arranged in parallel, the two mounting plates are located on two sides of the pulley frame, and the bearing pin shaft is vertically disposed through the two mounting plates.
  • the pulley mechanism includes a pressure plate and a pressure plate bolt, and the pressure plate is disposed opposite to the mounting plate, and the pressure plate is fixed to the mounting plate by the platen bolt and presses the bearing pin shaft.
  • the connecting device comprises a bearing frame, the bearing frame being coupled to the outer ring, the pulley mechanism comprising an adjustable length connecting member, the pulley frame and the bearing frame being connected by the connecting member.
  • the connecting member is a stud bolt
  • one end of the pulley frame has a first screw hole
  • the bearing frame has a second screw hole
  • two ends of the stud bolt are respectively screwed to the first screw a screw hole and the second screw hole.
  • the pulley mechanism includes a stop nut disposed at a junction of the stud bolt with the first screw hole and/or the second screw hole.
  • the connecting member is a spring, and two ends of the spring are respectively fixed to the pulley frame And the bearing frame.
  • the present invention also provides a rotary drilling rig, wherein the rotary drilling rig includes a middle mast and a pulley mechanism of the present invention, the pulley mechanism being coupled to the middle mast by the connecting bracket.
  • the swing around the first axis can meet the normal working requirements of the pulley mechanism, and the rotation about the second axis can adapt to the oblique pulling force of the wire rope to adjust the position of the pulley frame relative to the connecting frame, so that the wire rope is basically not on the pulley Apply a diagonal pull.
  • 1 and 2 are a front view and a plan view illustrating a prior art pulley mechanism
  • 3 to 5 are a perspective view, a front view and a partial cross-sectional plan view showing an embodiment of the pulley mechanism of the present invention
  • FIGS. 6 and 7 are schematic views illustrating an embodiment in which the bearings in the pulley mechanism of the present invention are respectively a self-aligning ball bearing and a spherical roller bearing. Description of the reference numerals
  • Pulley 2 Pulley frame 3: Connection bracket 3a: Mounting plate
  • orientation words such as “up, down, left, and right” as used generally refer to the above, below, left, and right as shown in the accompanying drawings; “refers to the inside and outside of the outline of each component itself.
  • a pulley mechanism comprising a pulley 1, a pulley frame 2 and a connecting frame 3, the pulley 1 being mounted on the pulley frame 2, the direction in which the pulley frame 2 extends The axis of the pulley 1 is vertical, wherein the pulley mechanism further comprises a connecting device connecting the pulley frame 2 and the connecting frame 3, wherein the pulley frame 2 is wound around the connecting frame 3 by the connecting device.
  • the swing of the pulley frame 2 relative to the connecting frame 3 about the first axis AA can meet the normal working requirements of the pulley mechanism; the rotation of the pulley frame 2 relative to the connecting frame 3 about the second axis BB can adapt to the wire rope
  • the oblique pulling force adjusts the position of the pulley frame 2 relative to the connecting frame 3 so that the wire rope does not substantially apply an oblique pulling force to the pulley 1, thereby eliminating the adverse effect of the oblique pulling force.
  • the pulley frame 2 is capable of rotating relative to the connecting frame 3 about a third axis CC by the connecting means, the third axis CC being parallel to the axis of the pulley 1.
  • the pulley mechanism can be connected to a suitable machine by means of a connecting frame 3, for example to a central mast of a rotary drilling rig as described below, by retracting the pulley frame 2 relative to the connecting frame 3 about a third axis CC Institutions, in order to rotate the transportation and transition of the rig.
  • connection The device may include a bearing pin 4 and a bearing 5, the bearing pin 4 being coupled to the connecting frame 3, the bearing 5 being mounted on the bearing pin 4, the bearing 5 being a joint bearing, a spherical roller
  • the bearing 5 is a joint bearing, but a person skilled in the art can selectively use a spherical roller bearing or a self-aligning ball bearing. Instead of the joint bearing, as shown in Figure 6 and Figure 7.
  • the bearing 5 is a joint bearing
  • the bearing 5 includes an outer ring 5a and an inner ring 5b
  • the pulley frame 2 is mounted on the outer ring 5a
  • the inner ring 5b is mounted on the bearing pin 4.
  • the inner ring 5b has an outer spherical portion
  • the outer ring 5a has an inner spherical portion that can cooperate with the outer spherical portion, so that the outer ring 5a and the inner ring 5b can be relatively slid by the inner spherical surface and the outer spherical surface.
  • the relative sliding can be decomposed into a swing about the first axis AA and a rotation about the second axis BB, so that the normal working requirement of the pulley mechanism can be satisfied by the swing about the first axis AA, while being able to pass through the second axis BB.
  • Rotating to accommodate the oblique pulling force of the wire rope adjusts the position of the pulley frame 2 relative to the connecting frame 3 such that the wire rope does not substantially exert an oblique pulling force on the pulley.
  • the inner ring 5b is mounted on the bearing pin 4 to achieve pivotal connection with the bearing pin 4. By rotating about the bearing pin 4 (ie, the third axis CC), the pulley mechanism can be connected to the appropriate frame through the connecting frame 3. Mechanically.
  • the connecting frame 3 may include two mounting plates 3a arranged in parallel, the two mounting plates 3a are located on two sides of the pulley frame 2, and the bearing pin shaft 4 is vertically passed through.
  • the two mounting plates 3a are arranged.
  • the bearing pin 4 and the correspondingly disposed bearing 5 may be arranged in other positioning manners, as long as the pulley frame 2 can be rotated relative to the connecting frame 3 about the first axis AA, the second axis BB and the third axis CC. can.
  • the bearing pin 4 can be mounted to the mounting plate 3a by various appropriate means.
  • the pulley mechanism may include a pressure plate 9 and a platen bolt 10, the pressure plate 9 is disposed opposite to the mounting plate 3a, and the pressure plate 9 passes the plate bolt 10 is fixed to the mounting plate 3a and presses the bearing pin 4.
  • the connecting device may comprise a bearing frame 6, the bearing frame 6 being connected to the outer ring, the pulley mechanism comprising an adjustable length connecting piece 7, the sliding The wheel carrier 2 and the bearing frame 6 are connected by the connecting member 7.
  • the length of the connecting member 7 By adjusting the length of the connecting member 7, the distance between the pulley frame 2 (and the pulley 1) to the connecting frame 3 can be adjusted.
  • the pulley mechanism of the present invention is used for a rotary drilling rig, the length of the connecting member 7 is adjusted, and the distance between the pulley 1 and the middle mast can be adjusted, thereby adapting to different types of middle masts and force characteristics, to change through the pulley. 1 The force of the guided wire rope on the middle mast.
  • the connecting member 7 of the present invention can adopt various appropriate structures or components as long as it can function to stably connect the pulley frame 2 and the bearing frame 6 and can adjust the length.
  • the adjustment length means not only that the length of the connecting member 7 itself is adjustable, but also the distance between the positions of the connecting members 7 respectively connected to the pulley frame 2 and the bearing frame 6 can be adjusted.
  • the connecting member 7 may be a stud bolt, one end of the pulley frame 2 has a first screw hole, and the bearing frame 6 has a second screw hole, the double head Two ends of the bolt are respectively screwed to the first screw hole and the second screw hole.
  • the distance between the pulley frame 2 and the connecting frame 3 can be adjusted by screwing the first screw hole and the second screw hole to different positions of the stud bolt.
  • the pulley mechanism may further include a stopper nut 8 disposed at a joint of the stud bolt and the first screw hole and/or the second screw hole so as to be able to pass the stopper nut 8
  • the pulley frame 2 and the bearing frame 6 are stopped and the adjusted distance can be fixed.
  • a stop nut 8 is provided at each of the first screw hole and the second screw hole to stop from both ends of the connecting member 7.
  • the connecting member 7 may be a spring, and both ends of the spring are fixed to the pulley frame 2 and the bearing frame 6, respectively.
  • the spring should have sufficient rigidity to ensure a relatively fixed positioning of the pulley frame 2 and the bearing frame 6, and to maintain a stable connection between the pulley frame 2 and the bearing frame 6.
  • a rotary drilling rig is provided, wherein the rotary drilling rig includes a middle mast and a pulley mechanism of the present invention, and the pulley mechanism is coupled to the middle mast through the connecting bracket 3.
  • the connecting frame 3 and the middle mast are relatively stationary, and the pulley frame 2 can swing relative to the connecting frame 3 (and thus the middle mast) about the first axis AA, thereby Satisfying the normal working needs of the pulley mechanism; the rotation of the pulley frame 2 relative to the connecting frame 3 (and therefore relative to the middle mast) about the second axis BB can adapt to the oblique pulling force of the wire rope to adjust the position of the pulley frame 2 relative to the connecting frame 3 , so that the wire rope does not substantially apply an oblique pulling force to the pulley 1, thereby eliminating the adverse effect of the oblique pulling force.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Earth Drilling (AREA)
  • Pulleys (AREA)

Abstract

一种滑轮机构和包括该滑轮机构的旋挖钻机被提供,该滑轮机构包括滑轮(1)、滑轮架(2)和连接架(3),滑轮(1)安装在滑轮架(2)上,滑轮架(2)的延伸方向与滑轮(1)的轴线垂直,其中,滑轮机构还包括将所述滑轮架(2)和连接架(3)连接的连接装置,滑轮架(2)通过所述连接装置实现相对于所述连接架(3)绕第一轴线(AA)的摆动和绕第二轴线(BB)的转动,第一轴线(AA)垂直于滑轮架(2)的延伸方向和滑轮(1)的轴线所在的平面,第二轴线(BB)为滑轮架(2)的延伸方向。由此,绕第一轴线的摆动可以满足滑轮机构的正常工作要求,绕第二轴线的转动能够适应钢丝绳的斜向拉力来调整滑轮架相对于连接架的位置,使得钢丝绳对滑轮基本不施加斜向拉力。

Description

滑轮机构和旋挖钻机 技术领域
本发明涉及旋挖钻机, 具体地, 涉及设置在旋挖钻机的中桅杆上的滑 轮机构和包括该滑轮机构的旋挖钻机。 背景技术
旋挖钻机中, 在中桅杆上设置有滑轮机构, 以导向由卷扬收放的钢丝 绳。 其中, 如图 1和图 2所示, 滑轮机构包括: 滑轮 1、 用于安装滑轮 1的 滑轮架 2以及连接滑轮架 2和中桅杆 (未显示) 的连接架 3, 其中滑轮架 2 的延伸方向垂直于滑轮 1的轴线。 为适应旋挖钻机的工作, 滑轮架 2应当 能够绕垂直于滑轮架 2的延伸方向和滑轮 1的轴线所在的平面的方向摆动。 为此, 可以使滑轮架 2与连接架 3通过连接销轴 4'连接, 从而滑轮架 2能 够相对于连接架 3绕连接销轴 4'旋转而实现上述摆动。
在旋挖钻机的操作过程中, 钢丝绳可能对滑轮 1 施加斜向的拉力。 虽 然滑轮架 2可以相对于连接架 3绕连接销轴 4'旋转, 以相应于所述拉力做 出稍许位置调整, 但滑轮架 2无法调整到完全匹配所述拉力方向的位置。 因此, 所述拉力仍对滑轮 1施加沿滑轮 1轴向的分力, 该分力致使滑轮 1 和钢丝绳之间的摩擦力变大, 同时磨损滑轮 1 和钢丝绳。 另外, 由于拉力 的影响, 导致钢丝绳相对于滑轮 1偏转, 钢丝绳经过滑轮 1时容易脱离滑 轮 1的引导, 导致事故发生。 发明内容
本发明的目的是提供一种滑轮机构, 该滑轮机构的滑轮架能够根据斜 向拉力而相对于连接架转动到匹配拉力方向的位置, 从而消除斜向拉力的 不良 影响。 为了实现上述目的, 本发明提供一种滑轮机构, 该滑轮机构包括滑轮、 滑轮架和连接架, 所述滑轮安装在所述滑轮架上, 所述滑轮架的延伸方向 与所述滑轮的轴线垂直, 其中, 所述滑轮机构还包括将所述滑轮架和连接 架连接的连接装置, 所述滑轮架通过所述连接装置实现相对于所述连接架 绕第一轴线的摆动和绕第二轴线的转动, 所述第一轴线垂直于所述滑轮架 的延伸方向和所述滑轮的轴线所在的平面, 所述第二轴线为所述滑轮架的 延伸方向。
优选地, 所述滑轮架通过所述连接装置实现相对于所述连接架绕第三 轴线的转动, 所述第三轴线平行于所述滑轮的轴线。
优选地, 所述连接装置包括轴承销轴和轴承, 所述轴承销轴连接于所 述连接架, 所述轴承安装在所述轴承销轴上, 所述轴承为关节轴承、 调心 滚子轴承和调心球轴承中的一者, 所述轴承的外圈连接于所述滑轮架。
优选地, 所述连接架包括两个平行设置的安装板, 所述两个安装板位 于所述滑轮架的两侧, 所述轴承销轴垂直穿过所述两个安装板设置。
优选地, 所述滑轮机构包括压板和压板螺栓, 所述压板与所述安装板 相对设置, 所述压板通过所述压板螺栓固定在所述安装板上并压紧所述轴 承销轴。
优选地, 所述连接装置包括轴承架, 所述轴承架连接于所述外圈, 所 述滑轮机构包括可调节长度的连接件, 所述滑轮架和所述轴承架通过所述 连接件连接。
优选地, 所述连接件为双头螺栓, 所述滑轮架的一端具有第一螺孔, 所述轴承架具有第二螺孔, 所述双头螺栓的两端分别螺接于所述第一螺孔 和所述第二螺孔。
优选地, 所述滑轮机构包括设置在所述双头螺栓与所述第一螺孔和 /或 所述第二螺孔的接合处的止挡螺母。
优选地, 所述连接件为弹簧, 所述弹簧的两端分别固定于所述滑轮架 和所述轴承架。
本发明还提供一种旋挖钻机, 其中, 所述旋挖钻机包括中桅杆和本发 明的滑轮机构, 所述滑轮机构通过所述连接架连接到所述中桅杆。
通过上述技术方案, 绕第一轴线的摆动可以满足滑轮机构的正常工作 要求, 绕第二轴线的转动能够适应钢丝绳的斜向拉力来调整滑轮架相对于 连接架的位置, 使得钢丝绳对滑轮基本不施加斜向拉力。
本发明的其他特征和优点将在随后的具体实施方式部分予以详细说 明。 附图说明
附图是用来提供对本发明的进一步理解, 并且构成说明书的一部分, 与下面的具体实施方式一起用于解释本发明, 但并不构成对本发明的限制。 在附图中:
图 1和图 2是说明现有技术的滑轮机构的主视图和俯视图;
图 3至图 5是说明本发明的滑轮机构的一种实施方式的立体图、 主视 图和局部剖视的俯视图;
图 6和图 7是说明本发明的滑轮机构中的轴承分别为调心球轴承和调 心滚子轴承的实施方式的示意图。 附图标记说明
1: 滑轮 2: 滑轮架 3 : 连接架 3a: 安装板
4: 轴承销轴 4': 连接销轴
5: 轴承 5a: 外圈 5b: 内圈
6: 轴承架 7 : 双头螺栓
8: 止挡螺母 9: 压板 10: 压板螺栓 具体实施方式
以下结合附图对本发明的具体实施方式进行详细说明。应当理解的是, 此处所描述的具体实施方式仅用于说明和解释本发明, 并不用于限制本发 明。
在本发明中, 在未作相反说明的情况下, 使用的方位词如 "上、 下、 左、 右"通常是指参考附图所示的上、 下、 左、 右; "内、 夕卜"是指相对于 各部件本身的轮廓的内、 夕卜。
根据本发明的一个方面, 提供一种滑轮机构, 该滑轮机构包括滑轮 1、 滑轮架 2和连接架 3, 所述滑轮 1安装在所述滑轮架 2上, 所述滑轮架 2的 延伸方向与所述滑轮 1的轴线垂直, 其中, 所述滑轮机构还包括将滑轮架 2 和连接架 3连接的连接装置, 所述滑轮架 2通过所述连接装置实现相对于 所述连接架 3绕第一轴线 AA的摆动和绕第二轴线 BB的转动,所述第一轴 线 AA垂直于所述滑轮架 2的延伸方向和所述滑轮 1的轴线所在的平面, 所述第二轴线 BB为所述滑轮架 2的延伸方向。
在本发明的滑轮机构中, 滑轮架 2相对于连接架 3绕第一轴线 AA的 摆动可以满足滑轮机构的正常工作需要; 滑轮架 2相对于连接架 3绕第二 轴线 BB的转动能够适应钢丝绳的斜向拉力来调整滑轮架 2相对于连接架 3 的位置, 使得钢丝绳对滑轮 1 基本不施加斜向拉力, 从而消除斜向拉力的 不良影响。
优选地,所述滑轮架 2能够通过所述连接装置实现相对于所述连接架 3 绕第三轴线 CC的转动, 所述第三轴线 CC平行于所述滑轮 1的轴线。滑轮 机构可以通过连接架 3连接到适当的机械上, 例如连接到下文所述的旋挖 钻机的中桅杆上,通过使滑轮架 2相对于连接架 3绕第三轴线 CC转动,可 以收起滑轮机构, 以便旋挖钻机的运输、 转场。
本发明的连接装置可以采用各种适当的结构, 只要能够使滑轮架 2相 对于连接架 3进行上述转动即可。 在本发明的优选实施方式中, 所述连接 装置可以包括轴承销轴 4和轴承 5, 所述轴承销轴 4连接于所述连接架 3, 所述轴承 5安装在所述轴承销轴 4上, 所述轴承 5为关节轴承、 调心滚子 轴承和调心球轴承中的一者, 在图 5所示的实施方式中, 所述轴承 5为关 节轴承, 但本领域技术人员可以选择性地使用调心滚子轴承或调心球轴承 来代替关节轴承, 如图 6和图 7所示。
其中,如图 5所示,轴承 5为关节轴承,轴承 5包括外圈 5a和内圈 5b, 滑轮架 2安装在外圈 5a上, 内圈 5b安装在轴承销轴 4上。 内圈 5b具有外 球面部分, 外圈 5a具有能够与所述外球面部分相互配合的内球面部分, 从 而外圈 5a和内圈 5b能够通过内球面和外球面实现相对滑动。 该相对滑动 能够分解为绕第一轴线 AA的摆动和绕第二轴线 BB的转动,从而能够通过 绕第一轴线 AA 的摆动来满足滑轮机构的正常工作要求, 同时能够通过绕 第二轴线 BB的转动来适应钢丝绳的斜向拉力调整滑轮架 2相对于连接架 3 的位置, 使得钢丝绳对滑轮基本不施加斜向拉力。 另外, 内圈 5b安装在轴 承销轴 4上而实现与轴承销轴 4枢转连接, 通过绕轴承销轴 4 (即第三轴线 CC) 的转动, 可以将滑轮机构通过连接架 3连接到适当的机械上。
另外, 如图 5所示, 所述连接架 3可以包括两个平行设置的安装板 3a, 所述两个安装板 3a位于所述滑轮架 2的两侧, 所述轴承销轴 4垂直穿过所 述两个安装板 3a设置。 可选择地, 也可以按照其他定位方式设置轴承销轴 4和相应设置的轴承 5, 只要能够使滑轮架 2相对于连接架 3绕第一轴线 AA、 第二轴线 BB和第三轴线 CC转动即可。
另外, 轴承销轴 4可以通过各种适当的方式安装到安装板 3a。 在本发 明的优选实施方式中, 如图 4所示, 所述滑轮机构可以包括压板 9和压板 螺栓 10, 所述压板 9与所述安装板 3a相对设置, 所述压板 9通过所述压板 螺栓 10固定在所述安装板 3a上并压紧所述轴承销轴 4。
在本发明的优选实施方式中,所述连接装置可以包括轴承架 6, 所述轴 承架 6连接于所述外圈, 所述滑轮机构包括可调节长度的连接件 7, 所述滑 轮架 2和所述轴承架 6通过所述连接件 7连接。 通过调节连接件 7的长度, 可以调节滑轮架 2 (以及滑轮 1 ) 到连接架 3的距离。 在本发明的滑轮机构 用于旋挖钻机的情形中, 调节连接件 7的长度, 即可调节滑轮 1到中桅杆 的距离, 从而适于不同型号的中桅杆和受力特点, 以改变通过滑轮 1 导向 的钢丝绳在中桅杆上的作用力。
本发明的连接件 7可以采用各种适当的结构或部件, 只要能够起到稳 定连接滑轮架 2和轴承架 6的作用并能够调节长度即可。 这里, 调节长度 不仅指连接件 7本身的长度可调, 还包括连接件 7的分别与滑轮架 2和轴 承架 6连接的位置之间的距离可调。 例如, 如图 3和图 5所示, 所述连接 件 7可以为双头螺栓, 所述滑轮架 2的一端具有第一螺孔, 所述轴承架 6 具有第二螺孔, 所述双头螺栓的两端分别螺接于所述第一螺孔和所述第二 螺孔。 通过使第一螺孔和第二螺孔螺接在双头螺栓的不同位置, 可以调节 滑轮架 2到连接架 3的距离。 更优选地, 所述滑轮机构还可以包括设置在 所述双头螺栓与所述第一螺孔和 /或所述第二螺孔的接合处的止挡螺母 8, 从而能够通过止挡螺母 8止挡滑轮架 2和轴承架 6,并能够固定调整好的距 离。 在图示的实施方式中, 在第一螺孔和第二螺孔处分别设置有一个止挡 螺母 8, 以便从连接件 7的两端止挡。
可选择地, 所述连接件 7可以为弹簧, 所述弹簧的两端分别固定于所 述滑轮架 2和所述轴承架 6。在这种情况下, 弹簧应当具有足够的刚度, 以 确保滑轮架 2和轴承架 6的相对固定的定位, 并保持滑轮架 2和轴承架 6 之间的稳定连接。
根据本发明的另一方面, 提供一种旋挖钻机, 其中, 所述旋挖钻机包 括中桅杆和本发明的滑轮机构, 所述滑轮机构通过所述连接架 3 连接到所 述中桅杆。
在本发明的旋挖钻机中, 连接架 3与中桅杆相对静止, 滑轮架 2能够 相对于连接架 3 (也因此相对于中桅杆)绕第一轴线 AA的摆动, 从而可以 满足滑轮机构的正常工作需要; 滑轮架 2相对于连接架 3 (也因此相对于中 桅杆) 绕第二轴线 BB 的转动能够适应钢丝绳的斜向拉力来调整滑轮架 2 相对于连接架 3的位置, 使得钢丝绳对滑轮 1基本不施加斜向拉力, 从而 消除斜向拉力的不良影响。
以上结合附图详细描述了本发明的优选实施方式, 但是, 本发明并不 限于上述实施方式中的具体细节, 在本发明的技术构思范围内, 可以对本 发明的技术方案进行多种简单变型, 这些简单变型均属于本发明的保护范 围。
另外需要说明的是, 在上述具体实施方式中所描述的各个具体技术特 征, 在不矛盾的情况下, 可以通过任何合适的方式进行组合。 为了避免不 必要的重复, 本发明对各种可能的组合方式不再另行说明。
此外, 本发明的各种不同的实施方式之间也可以进行任意组合, 只要 其不违背本发明的思想, 其同样应当视为本发明所公开的内容。

Claims

权利要求
1、 一种滑轮机构, 该滑轮机构包括滑轮 (1 )、 滑轮架 (2) 和连接架 ( 3), 所述滑轮 (1 ) 安装在所述滑轮架 (2) 上, 所述滑轮架 (2) 的延伸 方向与所述滑轮 (1 ) 的轴线垂直, 其特征在于, 所述滑轮机构还包括将所 述滑轮架 (2) 和连接架 (3 ) 连接的连接装置, 所述滑轮架 (2) 通过所述 连接装置实现相对于所述连接架 (3) 绕第一轴线 (AA) 的摆动和绕第二 轴线 (BB) 的转动, 所述第一轴线 (AA) 垂直于所述滑轮架 (2) 的延伸 方向和所述滑轮(1 ) 的轴线所在的平面, 所述第二轴线 (BB)为所述滑轮 架 (2) 的延伸方向。
2、 根据权利要求 1 所述的滑轮机构, 其中, 所述滑轮架 (2) 通过所 述连接装置实现相对于所述连接架(3 )绕第三轴线(CC)的转动, 所述第 三轴线 (CC) 平行于所述滑轮 (2) 的轴线。
3、 根据权利要求 2所述的滑轮机构, 其中, 所述连接装置包括轴承销 轴 (4) 和轴承 (5 ), 所述轴承销轴 (4) 连接于所述连接架 (3 ), 所述轴 承 (5) 安装在所述轴承销轴 (4) 上, 所述轴承 (5) 为关节轴承、 调心滚 子轴承和调心球轴承中的一者,所述轴承(5)的外圈连接于所述滑轮架(2)。
4、 根据权利要求 3所述的滑轮机构, 其中, 所述连接架 (3) 包括两 个平行设置的安装板(3a), 所述两个安装板(3a)位于所述滑轮架(2) 的 两侧, 所述轴承销轴 (4) 垂直穿过所述两个安装板 (3a) 设置。
5、根据权利要求 4所述的滑轮机构,其中,所述滑轮机构包括压板(9) 和压板螺栓 (10), 所述压板 (9) 与所述安装板 (3a) 相对设置, 所述压 板 (9) 通过所述压板螺栓 (10) 固定在所述安装板 (3a) 上并压紧所述轴 承销轴 (4)。
6、 根据权利要求 3-5中任意一项所述的滑轮机构, 其中, 所述连接装 置包括轴承架 ( 6), 所述轴承架 (6〕 连接于所述外圈, 所述滑轮机构包括 可调节长度的连接件 (7 ), 所述滑轮架 (2 ) 和所述轴承架 (6 ) 通过所述 连接件 (7 ) 连接。
7、 根据权利要求 6所述的滑轮机构, 其中, 所述连接件 (7 ) 为双头 螺栓, 所述滑轮架 (2) 的一端具有第一螺孔, 所述轴承架 (6) 具有第二 螺孔, 所述双头螺栓的两端分别螺接于所述第一螺孔和所述第二螺孔。
8、 根据权利要求 7所述的滑轮机构, 其中, 所述滑轮机构包括设置在 所述双头螺栓与所述第一螺孔和 /或所述第二螺孔的接合处的止挡螺母(8)。
9、 根据权利要求 6所述的滑轮机构, 其中, 所述连接件 (7 ) 为弹簧, 所述弹簧的两端分别固定于所述滑轮架 (2) 和所述轴承架 (6)。
10、 一种旋挖钻机, 其特征在于, 所述旋挖钻机包括中桅杆和根据权 利要求 1-9中任意一项所述的滑轮机构,所述滑轮机构通过所述连接架(3 ) 连接到所述中桅杆。
PCT/CN2012/082050 2012-05-22 2012-09-26 滑轮机构和旋挖钻机 WO2013174087A1 (zh)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113120787A (zh) * 2019-12-30 2021-07-16 四川宏华石油设备有限公司 一种钢丝绳导向装置

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105257806A (zh) * 2015-11-11 2016-01-20 太原重工股份有限公司 滑轮装置

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN2926478Y (zh) * 2006-06-14 2007-07-25 郑州宇通重工有限公司 旋挖钻机
CN101781970A (zh) * 2009-08-28 2010-07-21 北京南车时代重工机械有限责任公司 一种用于旋挖钻机的钢丝绳导向装置和旋挖钻机
CN101913540A (zh) * 2010-06-28 2010-12-15 北京市三一重机有限公司 旋挖钻机及其钢丝绳导向装置

Family Cites Families (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB915459A (en) * 1959-11-13 1963-01-16 Ewen Paul Ansell Improvements in pulley blocks
US3705708A (en) * 1971-07-19 1972-12-12 Blockits Inc Pulley block
JP2594503B2 (ja) * 1993-07-09 1997-03-26 株式会社利根 ボーリング用マスト装置
CN2646181Y (zh) * 2003-08-07 2004-10-06 廖善赞 升降式晾衣架万向转向器
CN201306121Y (zh) * 2008-10-23 2009-09-09 苏长凡 一种旋挖钻机
CN201877722U (zh) * 2010-10-25 2011-06-22 河北省电力公司超高压输变电分公司 应用于高压工作中的高空作业装置
CN201980916U (zh) * 2010-11-23 2011-09-21 长沙中联重工科技发展股份有限公司 卷扬机构及应用该卷扬机构的旋挖钻机

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN2926478Y (zh) * 2006-06-14 2007-07-25 郑州宇通重工有限公司 旋挖钻机
CN101781970A (zh) * 2009-08-28 2010-07-21 北京南车时代重工机械有限责任公司 一种用于旋挖钻机的钢丝绳导向装置和旋挖钻机
CN101913540A (zh) * 2010-06-28 2010-12-15 北京市三一重机有限公司 旋挖钻机及其钢丝绳导向装置

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113120787A (zh) * 2019-12-30 2021-07-16 四川宏华石油设备有限公司 一种钢丝绳导向装置

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