WO2017020533A1 - 综合打桩机 - Google Patents

综合打桩机 Download PDF

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Publication number
WO2017020533A1
WO2017020533A1 PCT/CN2016/000387 CN2016000387W WO2017020533A1 WO 2017020533 A1 WO2017020533 A1 WO 2017020533A1 CN 2016000387 W CN2016000387 W CN 2016000387W WO 2017020533 A1 WO2017020533 A1 WO 2017020533A1
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WO
WIPO (PCT)
Prior art keywords
hammer
pile
drill rod
disposed
traverse
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PCT/CN2016/000387
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English (en)
French (fr)
Inventor
周兆弟
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周兆弟
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Publication date
Application filed by 周兆弟 filed Critical 周兆弟
Publication of WO2017020533A1 publication Critical patent/WO2017020533A1/zh

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    • EFIXED CONSTRUCTIONS
    • E02HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
    • E02DFOUNDATIONS; EXCAVATIONS; EMBANKMENTS; UNDERGROUND OR UNDERWATER STRUCTURES
    • E02D7/00Methods or apparatus for placing sheet pile bulkheads, piles, mouldpipes, or other moulds
    • E02D7/26Placing by using several means simultaneously

Definitions

  • the invention belongs to the technical field of construction equipment, and in particular relates to a comprehensive pile driver.
  • a type of rotary pile driver used on construction sites: a type of rotary pile driver.
  • the structure of the pile driver is a drill rod hanger that is pulled up by a hoist and drilled through a drill pipe.
  • the other is an impact hammer.
  • the pile driver, the structure of the pile driver is to use the hoist to pull up the impact hammer to repeatedly fall and lift to achieve piling.
  • the two piling methods have their own advantages and disadvantages.
  • a piling method requires difficulty, a piling method needs to be replaced, for example, When the rotary pile driver can not be drilled, it is necessary to additionally call the impact hammer pile driver, which greatly increases the construction cost, and needs to remove the rotary pile driver and reinstall the impact hammer pile driver, which increases the construction difficulty and reduces the construction. effectiveness.
  • the Chinese patent document discloses a hydraulic combined impact hammer drill [application number: 201410740085.7], which includes a power source, an overall frame, a traveling mechanism, a posture mechanism, a lifting and lowering pipe mechanism, an upper power head, a lower power head, Winch, drill holder, hydraulic combination impact hammer drill.
  • the traveling mechanism is a crawler belt driven by a hydraulic reducer, and the whole frame is mounted on the main body of the traveling mechanism; the whole frame is equipped with a power source, a posture mechanism, a power head, a lifting and lowering pipe mechanism, and a hydraulic combined impact hammer bit.
  • the above solution solves the problem that the existing pile driver cannot simultaneously have the rotary piling and the impact hammer piling, but the solution still has the problems of high operation difficulty, poor protection effect and mutual interference during construction.
  • the object of the present invention is to provide a comprehensive pile driver with simple and reasonable structure and good driving stability in response to the above problems.
  • the integrated pile driver includes a pile platform horizontally disposed above the ground, and the pile platform and the ground are arranged to drive the horizontal movement of the pile platform horizontally And/or a translational drive structure that moves longitudinally in the horizontal direction, characterized in that a piling platform is arranged in the middle of the pile platform, and the pile platform is provided with a lifting structure at one end and a vertical direction at the other end.
  • the bracket body has a construction passage extending vertically through the entire bracket body, the upper end of the bracket body is provided with a top frame body, and the top frame body has a drill pipe connected with the construction passage Positioning a cavity, in the drill rod placement cavity, a drill rod seat having a plurality of drill rod bodies located above the construction passage, the drill rod base being connected with the drive rod holder axially reciprocating along the construction passage and capable of driving the drill rod
  • An adjustable drill pipe driving structure for laterally moving along the construction channel, the side of the top frame body is provided with a piling hammer body above the construction channel, and the piling hammer body is connected with a driving piling
  • the adjustable pile driver driving structure of the hammer body reciprocating along the construction passage and driving the pile hammer body to move laterally along the construction passage.
  • the bracket body is disposed on the translation mechanism, so that the bracket body can move laterally and longitudinally, and the adjustable drill rod driving structure can drive the drill rod seat to lift and lower, so that the drill rod moves downward and drills to realize rotary piling.
  • the bracket body can be moved to move the piling hammer to the position of the original drill rod seat, and the lifting of the piling hammer body can be realized by the adjustable piling hammer driving structure.
  • the construction passage is formed by sequentially connecting the hammer passage, the drill rod passage and the driving passage which are respectively axially extended, and the pile hammer is located above the hammer passage.
  • the drill rod placement cavity is located above the drill pipe passage and communicates with the drill pipe passage
  • the side frame body side is provided with a side frame body located above the drive channel
  • the pile pile platform is provided with one end of the bracket body
  • There is a yielding gap and the yielding gap is disposed below the hammer channel and the drill pipe passage, and the positioning gap is respectively connected with the hammer channel and the drill pipe passage.
  • the bracket body has an opening extending in the axial direction of the bracket body on a side close to the hammer passage, and the opening communicates with the hammer passage. This facilitates the installation of the piling hammer and the drill stem assembly.
  • the adjustable drill pipe driving structure includes a drill pipe translation guide rail disposed in the top frame body and disposed laterally along the construction passage, and the drill pipe translation guide rail is slidably provided with a drill pipe translation trolley And the drill rod translation trolley is provided with a drill rod carriage translation assembly capable of driving the drill rod translation trolley to reciprocate axially along the drill rod translation guide rail, and the drill rod translation trolley and the side frame body are provided with energy a drill rod drive assembly for driving the drill rod base to move axially;
  • the drill rod carriage translation assembly includes a plurality of drill rod trolley rollers disposed on a circumferential side of the drill rod translation trolley and abutting against the drill rod translation guide rail, on the top frame
  • the first driver having a first telescopic rod is disposed on the body, and the first telescopic rod end of the first driver is coupled to the drill rod translation trolley;
  • the drill rod drive assembly includes at least two along the drill rod a drill rod cable roller disposed laterally of the translation trolley, wherein the
  • the adjustable pile driver driving structure comprises a pile hammer translation guide rail disposed at an upper end of the top frame body and disposed laterally along the construction passage, and the pile hammer shifting guide rail is slidably provided with a pile hammer translation a trolley, and the piling hammer translating trolley is provided with a piling hammer car translating assembly capable of driving the piling hammer translation car to reciprocate axially along the piling hammer translation rail, wherein the piling hammer translation trolley and the side frame body are disposed between a piling hammer driving assembly capable of driving the axial movement of the piling hammer; the piling hammer car translating assembly comprises a plurality of piling hammer trolley wheels disposed on the outer side of the piling hammer translation trolley and abutting against the piling hammer translation guide rail, on the top frame a second driver having a second telescopic rod is disposed on the body, and the second telescopic rod end of
  • the second driver is used to control the movement of the piling hammer to shift the trolley, thereby realizing the adjustment of the lateral position of the piling hammer;
  • the driving of the hoist by the piling hammer is used to control the ascending and falling process of the piling hammer; thus, the stability of the entire bracket body is good and difficult.
  • the tilting phenomenon occurs, and preferably, the pile driving hammer hoist and the drill rod driving hoist here both employ a hydraulic hoist.
  • the bracket body includes at least two sets of bracket frames that are disposed laterally, and the bracket frames are parallel and correspondingly disposed, and the above-mentioned construction channels are formed between the bracket frames.
  • a closed frame is disposed between the corresponding sides of the two bracket frames, and the above-mentioned openings are formed between the corresponding other sides of the bracket frame;
  • each of the bracket frames includes a vertical direction And the first frame body, the second frame body and the third frame body which are connected in the horizontal direction, and the first frame body, the second frame body and the third frame body in the two bracket frames are respectively arranged one by one to divide the construction channel a hammer channel located between the first frame and communicating with one side of the top frame body, located in the second frame A drill pipe passage communicating with the drill rod placement cavity and a drive passage between the third frame and communicating with the other side of the top frame body.
  • bracket frame and the closed frame are mutually enclosed to form a bracket body having an opening, so that the bracket body has high strength and good stability;
  • the hammer passage here is used for lifting and falling of the pile hammer, and the drill rod assembly is lifted and lowered in the drill rod passage. Therefore, the rotary piling and impact hammer piling do not affect each other.
  • the first frame body comprises a plurality of rectangular frame bodies connected end to end in the vertical direction from top to bottom, and the adjacent two rectangular frame bodies are connected by a detachable structure;
  • the detachable structure comprises an L-shaped mounting plate disposed between two adjacent rectangular frames, the mounting plate side being fixed to one of the rectangular frames, and the lower side and the remaining one of the rectangular frames Connected;
  • the second frame comprises at least one intermediate column disposed in a vertical direction and located outside the first frame, the intermediate column and the second frame are provided with a plurality of laterally disposed axial directions along the middle column a middle cross-link uniformly disposed in sequence, and one end of the intermediate cross-link is detachably connected to the middle pillar, and the other end is detachably connected to the rectangular frame;
  • the third frame includes at least one vertical direction a side pillar disposed on the outer side of the second frame, wherein the side pillar and the middle pillar are provided with a plurality of lateral cross-connections
  • a plurality of closed cross-connections are provided between the outer sides of the third frame bodies in the two bracket frames, and the closed frame body is formed between the closed cross-links and the side uprights, and the closed frame body is The two ends of the closed cross-link are respectively detachably connected with the side pillars; the intermediate pillars and the side pillars are respectively connected by a plurality of tubular profiles.
  • the hoisting structure includes a hoisting frame which is circumferentially rotated at one end of the pile platform, and the gantry is provided with a telescopic hoist which is connected by a plurality of jib bodies in sequence.
  • An arm, and one end of the telescopic boom is disposed on the hoist frame by an articulated ear hinge, and the other end is inclined upwardly and extends upwardly to the bracket body, and the end is provided with a hook assembly, the telescopic The boom is connected with a lifting drive assembly capable of driving the telescopic boom up and down and capable of driving the hook assembly to rise or fall;
  • the lifting drive assembly includes a cylinder body hingedly disposed on the crane frame.
  • the hydraulic piston rod of the cylinder body is hingedly connected to the telescopic boom, the hook assembly is connected to the lifting mechanism by a hoisting steel rope, and the lifting mechanism is connected to the crane frame end.
  • the translational drive structure includes a jacking mechanism disposed on a circumferential outer side of the pile platform and capable of raising or falling the pile platform in a vertical direction, the pile under the pile
  • the side is provided with a traverse driving mechanism capable of driving the lateral movement of the pile platform when the pile platform is raised, and the lower side of the pile platform is further provided with a longitudinal movement capable of driving the longitudinal movement of the pile platform when the pile platform is dropped
  • the traverse drive mechanism comprises two lower bases disposed laterally on the ground, and each lower base is provided with two mutually parallel traverse beams, and the traverse beams are respectively provided
  • There is a traverse trolley and the traverse trolley has a plurality of traverse rollers abutting on the traverse beam and connected by the traverse shaft, and the traverse trolley is disposed under the traverse beam in the axial direction.
  • the advantages of the integrated pile driver are that the piling frame body can realize the horizontal and vertical movement, and the piling frame body has good stability during the movement, and the pile driver is balanced in weight at each position, and has the advantages of rotary piling and impact hammer piling.
  • the two modes of operation, the two modes of action do not interfere with each other and are convenient to switch, the drive stability is good, the protection effect is good, and the safety is high.
  • Figure 1 is a schematic view showing the structure in the state of use of the present invention.
  • Figure 2 is a schematic partial view of the structure of the present invention.
  • Figure 8 is a schematic view showing the structure of the stent body in the state of use of the present invention.
  • Figure 11 is a schematic view showing another partial structure of the translational driving structure of the present invention.
  • the top frame body 3 has a drill rod placement cavity 31 communicating with the construction channel 2, and a drill rod seat 6 having a plurality of drill rod bodies 61 above the construction channel 2 is disposed in the drill rod placement cavity 31, and the drill rod base 6 is connected
  • the utility model has an adjustable drill rod driving structure 7 capable of driving the drill rod seat 6 to reciprocate axially along the construction channel 2 and capable of driving the drill rod base 6 to move laterally along the construction channel 2, and the side of the top frame body 3 is located above the construction channel 2
  • the piling hammer body 8 is connected with an adjustable piling hammer driving structure 9 capable of driving the piling hammer body 8 to reciprocate axially along the construction channel 2 and capable of driving the piling hammer body 8 to move laterally along the construction channel 2, during construction.
  • the bracket body 1 is disposed on the translation mechanism, thereby The bracket body 1 can be moved laterally and longitudinally, and the adjustable drill rod driving structure 7 can be used to drive the drill rod base 6 to move up and down so that the drill rod 61 moves downward and drills to realize rotary piling.
  • the bracket body 1 can be moved to move the pile hammer 8 to the position of the original drill rod seat 6, and the lift of the pile hammer body 8 can be realized by the adjustable pile driver drive structure 9.
  • the construction channel 2 in the present embodiment is formed by sequentially connecting the hammer channel 21, the drill pipe passage 22 and the driving channel 23 which are respectively axially extended, and the pile hammer 8 is located in the hammer.
  • the drill rod placement chamber 31 is located above the drill rod passage 22 and communicates with the drill rod passage 22, and the side frame body 3 side is provided with a side frame body 32 above the drive passage 23, and the pile pile table 13 is provided
  • One end of the bracket body 1 has a retaining notch 17 , and the retaining notch 17 is disposed below the hammer channel 21 and the drill pipe passage 22 , and the retaining notch 17 is respectively connected with the hammer channel 21 and the drill pipe passage 22 , such that The rotary piling and the impact hammer piling do not interfere with each other, and the protection effect during the operation can be improved.
  • the adjustable drill pipe driving structure 7 in this embodiment includes a drill pipe translation guide 71 disposed in the top frame body 3 and disposed transversely along the construction channel 2, and the drill pipe translation guide 71
  • the upper sliding slide is provided with a drill rod translation trolley 72
  • the drill rod translation trolley 72 is provided with a drill rod carriage translation assembly capable of driving the drill rod translation trolley 72 to reciprocate axially along the drill rod translation guide 71, and the drill rod translation trolley 72 and the side
  • a drill rod seat drive assembly capable of driving the drill rod base 6 to move axially is disposed between the frame bodies 32, wherein the drill rod carriage translation assembly includes a plurality of circumferentially disposed outer side of the drill rod translation carriage 72 and a translation guide rail with the drill rod
  • the 71-phased drill rod carriage roller 73 is provided with a first driver 74 having a first telescopic rod 741 on the top frame body 3, and the end of the first telescopic rod 741 of the first driver 74 is connected to the drill rod translation trolley 72
  • the adjustable piling hammer driving structure 9 includes a piling hammer translation guide 91 disposed at an upper end of the top frame body 3 and disposed transversely along the construction channel 2, and a piling hammer translation trolley 92 is slidably disposed on the piling hammer translation guide 91.
  • the piling hammer translation trolley 92 is provided with a piling hammer car translation assembly capable of driving the piling hammer translation trolley 92 along the piling hammer translation guide 91 axially reciprocatingly, and the piling hammer translation trolley 92 and the side frame body 32 are provided with driving piling.
  • the pile hammer drive assembly of the hammer body 8 is axially moved, wherein the pile hammer carriage translation assembly comprises a plurality of pile hammer trolley rollers 93 disposed on the outer side of the pile hammer translation carriage 92 and abutting against the pile hammer translation guide 91.
  • the top frame body 3 is provided
  • the second driver 94 having the second telescopic rod 941, and the end of the second telescopic rod 941 of the second driver 94 is connected to the pile hammer translation carriage 92, that is, the movement of the pile hammer translation carriage 92 is controlled by the second driver 94, thereby realizing
  • the lateral position adjustment of the piling hammer body 8 includes at least two piling hammer cable rollers 95 disposed laterally along the piling hammer translating cart 92, and the piling hammer cable roller 95 is provided with a piling hammer traction rope.
  • the end of the pile hammer traction rope is disposed on the pile driving hammer hoist 96, and the other end is connected with the pile hammer body 8, that is, the hoisting machine is driven by the pile hammer to control the ascending and falling process of the pile hammer body 8.
  • the pile hammer driving hoist 96 and the drill rod driving hoist 76 are all disposed on the side frame body 32, so that the stability of the entire bracket body 1 is good, and the inclination phenomenon is not easy, and the piling is performed here.
  • Both the hammer drive hoist 96 and the drill rod drive hoist 76 employ a hydraulic hoist.
  • the bracket body 1 includes at least two sets of bracket frames 4 disposed laterally.
  • the bracket frames 4 are parallel and correspondingly disposed, and the bracket frame 4 is formed between the brackets.
  • the construction channel 2 is provided with a closed frame 5 between the corresponding sides of the two bracket frames 4, and the above-mentioned opening 11 is formed between the corresponding other side of the bracket frame 4, that is, the bracket frame 4 and The closed frames 5 are mutually enclosed to form the bracket body 1 having the opening 11, so that the bracket body 1 has high strength and good stability.
  • each of the bracket frames 4 includes a first frame 41, a second frame 42 and a third frame 43 which are vertically arranged and connected in the horizontal direction, and the first frame in the two bracket frames 4
  • the body 41, the second frame body 42 and the third frame body 43 are respectively disposed in one-to-one correspondence, so that the construction channel 2 is divided into the hammer channel 21 which is located between the first frame body 41 and communicates with the side of the top frame body 3, a drill pipe passage 22 between the second frame 42 and communicating with the drill rod placement chamber 31 and a drive passage 23 between the third frame 43 and communicating with the other side of the top frame body 3, and the hammer
  • the channel 21 and the drill pipe passage 22 are in parallel with the driving passage 23, wherein the hammer channel 21 is used for lifting and falling of the pile hammer, and the drill pipe assembly is lifted and lowered in the drill pipe passage 22, so that the rotary piling and the impact hammer are not mutually piling. influences.
  • the first frame 41 herein includes a plurality of rectangular frames 411 connected end to end in the vertical direction from top to bottom, and two adjacent rectangular frames 411
  • the detachable structure includes a mounting plate 412 disposed between two adjacent rectangular frames 411 and having an L shape, and the upper side of the mounting plate 412 is fixed to one of the rectangular frames 411. The lower side is connected to the remaining one of the rectangular frames 411, so that the connection strength of the rectangular frame 411 is high, and the first frame 41 is prevented from collapsing and tilting.
  • the hoisting structure 16 herein includes a hoisting frame 161 which is circumferentially rotated at one end of the pile platform 13 and is provided with a plurality of jib bodies 162 in turn on the hoisting frame 161.
  • the telescopic boom 163 is connected, and one end of the telescopic boom 163 is hingedly disposed on the hoisting frame 161 through the hinged ears 164, and the other end is inclined upwardly to the upper side of the bracket body 1 and the end
  • a hook assembly 165 is disposed thereon, and the telescopic boom 163 is connected to drive the retractable boom 163 to swing up and down and can drive the hook assembly 165 to rise or fall.
  • a hoist drive assembly wherein the hoist drive assembly includes a cylinder block 166 hingedly disposed on the gantry frame 161, the hydraulic piston rod of the cylinder block 166 is hingedly coupled to the retractable boom 163, and the hook assembly 165 is The heavy steel rope is connected to the hoisting mechanism 167, and the hoisting mechanism 167 is connected to the oil tank body 168 provided on the side of the end of the hoisting frame 161, and the cab 169 is provided on the other side of the end portion of the hoisting frame 161.
  • the traverse drive mechanism herein comprises two lower bases 141 disposed laterally on the ground 12, each of the lower bases 141 is provided with two mutually parallel traverse beams 141a, and the traverse beams 141a are respectively provided There is a traverse trolley 141b, and the traverse trolley 141b has a plurality of traverse rollers 142a that abut against the traverse beam 141a and are connected by the traverse shaft 142, and the traverse trolley 141b is disposed along the axial direction of the traverse beam 141a.
  • the longitudinal displacement drive mechanism comprises two short boats 145 disposed longitudinally on the ground 12, the short ship 145 is located between the two lower bases 141, and each of the short boats 145 is provided with two parallel longitudinal movements.
  • Each of the beam 145a and the longitudinal beam 145a is provided with a longitudinally moving trolley 145b.
  • the longitudinally-moving trolley 145b has a plurality of longitudinally-moving rollers 146a which are abutted against the longitudinal beam 145a and are connected by the longitudinal axis 146.
  • the bracket body 1 can be moved to move the pile hammer body 8 to the original drill rod seat 6 Above the position, and through the second driver 94 to control the movement of the pile hammer translation carriage 92, thereby realizing the adjustment of the lateral position of the pile hammer body 8, and then driving the hoisting machine 96 by the pile hammer Control piling hammer 8 rises, the whereabouts of the process, until the completion of the piling hammer.

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  • Life Sciences & Earth Sciences (AREA)
  • General Life Sciences & Earth Sciences (AREA)
  • Mining & Mineral Resources (AREA)
  • Paleontology (AREA)
  • Civil Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Structural Engineering (AREA)
  • Placing Or Removing Of Piles Or Sheet Piles, Or Accessories Thereof (AREA)
  • Earth Drilling (AREA)

Abstract

一种综合打桩机,包括压桩台(13),平移驱动结构(14),打桩承台(15),起重结构(16),支架本体(1)与施工通道(2),支架本体(1)上端设有顶架体(3),顶架体(3)内部具有钻杆放置腔(31),在钻杆放置腔(31)内设有钻杆座(6),钻杆座(6)具有若干钻杆体(61),钻杆座(6)连接有可调式钻杆驱动结构(7),顶架体(3)一侧设有打桩锤体(8),打桩锤体(8)连接有可调式打桩锤驱动结构(9)。

Description

综合打桩机 技术领域
本发明属于建筑设备技术领域,尤其是涉及一种综合打桩机。
背景技术
目前,建筑工地上使用的打桩机械有两种:一种的旋转打桩机,这种打桩机的结构是利用卷扬机拉起的钻杆悬挂架,通过钻杆来钻孔;另一种是冲击锤打桩机,这种打桩机的结构是利用卷扬机拉起冲击锤反复下落,提升来实现打桩,两种打桩方式各自有优缺点,如果一种打桩方式需要困难时需要更换一种打桩方式,例如,当旋转打桩机无法钻动时,需要另外调用冲击锤打桩机,这样极大地增加了施工成本,且需要将旋转打桩机拆除,再重新安装冲击锤打桩机,增大了施工难度,降低了施工效率。
为了解决现有技术存在的问题,人们进行了长期的探索,提出了各式各样的解决方案。例如,中国专利文献公开了一种液压组合冲击锤钻机[申请号:201410740085.7],其包括动力源、整体机架、行走机构、姿态机构、可升降卷管机构、上动力头、下动力头、卷扬机、钻具夹持器、液压组合冲击锤钻头。行走机构为履带行走,由液压减速机驱动,整体机架安装于行走机构主体上;整体机架上安装有动力源、姿态机构、动力头、可升降卷管机构,液压组合冲击锤钻头。上述方案在一定程度上解决了现有打桩机无法同时具有旋转打桩与冲击锤打桩的问题,但是该方案依然存在着:操作难度大,防护效果差,施工时易相互干扰的问题。
发明内容
本发明的目的是针对上述问题,提供一种结构简单合理,驱动稳定性好的综合打桩机。
为达到上述目的,本发明采用了下列技术方案:本综合打桩机,包括水平设置在地面上方的压桩台,所述的压桩台与地面之间设有能驱动压桩台水平方向横向移动和/或水平方向纵向移动的平移驱动结构,其特征在于,在压桩台中部设有打桩承台,所述的压桩台上一端设有起重结构,另一端设有沿竖直方向设置的支架本体,所述的支架本体内部具有竖直方向贯穿整个支架本体的施工通道,所述的支架本体上端设有顶架体,所述的顶架体内部具有与施工通道相连通的钻杆放置腔,在钻杆放置腔内设有位于施工通道上方的具有若干钻杆体的钻杆座,所述的钻杆座连接有能驱动钻杆座沿施工通道轴向往复移动且能驱动钻杆座沿施工通道横向移动的可调式钻杆驱动结构,所述的顶架体一侧设有位于施工通道上方的打桩锤体,所述的打桩锤体连接有能驱动打桩锤体沿施工通道轴向往复移动且能驱动打桩锤体沿施工通道横向移动的可调式打桩锤驱动结构。施工时,支架本体设置在平移机构上,从而使得支架本体能横向与纵向移动,可以通过可调式钻杆驱动结构来驱动钻杆座升降从而使钻杆向下移动并钻孔实现旋转打桩,当需要切换成冲击锤打桩时,可以将支架本体移动从而使打桩锤体移动到原来钻杆座的位置,并通过可调式打桩锤驱动结构来实现打桩锤体的升降。
在上述的综合打桩机中,所述的施工通道由分别轴向延伸的击锤通道、钻杆通道与驱动通道依次横向连通而成,且所述的打桩锤体位于击锤通道上方,所述的钻杆放置腔位于钻杆通道上方且与钻杆通道相连通,所述的顶架体一侧设有位于驱动通道上方的侧架体,且所述的压桩台设有支架本体的一端具有让位缺口,且所述的让位缺口设置在击锤通道与钻杆通道的下方,且让位缺口分别与击锤通道与钻杆通道相连通。这样使得旋转打桩与冲击锤打桩两者之间互不干扰,且能提高作业时的防护效果。
在上述的综合打桩机中,所述的支架本体上靠近击锤通道一侧具有沿支架本体轴向延伸的开口,且所述的开口与击锤通道相连通。这样便于安装打桩锤体与钻杆组件。
在上述的综合打桩机中,所述的可调式钻杆驱动结构包括设置在顶架体内且沿施工通道横向设置的钻杆平移导轨,所述的钻杆平移导轨上滑动设有钻杆平移小车,且所述的钻杆平移小车上设有能驱动钻杆平移小车沿钻杆平移导轨轴向往复移动的钻杆小车平移组件,所述的钻杆平移小车与侧架体之间设有能驱动钻杆座轴向移动的钻杆座驱动组件;所述的钻杆小车平移组件包括若干设置在钻杆平移小车周向外侧且与钻杆平移导轨相抵靠的钻杆小车滚轮,在顶架体上设有具有第一伸缩杆的第一驱动器,且所述的第一驱动器的第一伸缩杆端部与钻杆平移小车相连;所述的钻杆座驱动组件包括至少两个沿钻杆平移小车横向设置的钻杆钢索滚轮,所述的钻杆钢索滚轮上绕设有钻杆牵引绳,且所述的钻杆牵引绳一端设置在钻杆驱动卷扬机上,另一端与钻杆座相连。即通过第一驱动器来控制钻杆平移小车移动,从而实现钻杆座的横向移动;通过钻杆驱动卷扬机来控制钻杆座的上下移动,从而实现钻杆的上升、下落过程。
在上述的综合打桩机中,所述的可调式打桩锤驱动结构包括设置在顶架体上端且沿施工通道横向设置的打桩锤平移导轨,所述的打桩锤平移导轨上滑动设有打桩锤平移小车,且所述的打桩锤平移小车上设有能驱动打桩锤平移小车沿打桩锤平移导轨轴向往复移动的打桩锤小车平移组件,所述的打桩锤平移小车与侧架体之间设有能驱动打桩锤体轴向移动的打桩锤驱动组件;所述的打桩锤小车平移组件包括若干设置在打桩锤平移小车周向外侧且与打桩锤平移导轨相抵靠的打桩锤小车滚轮,在顶架体上设有具有第二伸缩杆的第二驱动器,且所述的第二驱动器的第二伸缩杆端部与打桩锤平移小车相连;所述的打桩锤驱动组件包括至少两个沿打桩锤平移小车横向设置的打桩锤钢索滚轮,所述的打桩锤钢索滚轮上绕设有打桩锤牵引绳,且所述的打桩锤牵引绳一端设置在打桩锤驱动卷扬机上,另一端与打桩锤体相连;所述的打桩锤驱动卷扬机与钻杆驱动卷扬机均设置在侧架体上。即通过第二驱动器来控制打桩锤平移小车移动,从而实现打桩锤体横向位置的调整;通过打桩锤驱动卷扬机来控制打桩锤体的上升、下落过程;这样使得整个支架本体的稳定性好,不易出现倾斜现象,且优选地,这里的打桩锤驱动卷扬机与钻杆驱动卷扬机均采用液压卷扬机。
在上述的综合打桩机中,所述的支架本体包括至少两组横向设置的支架框体,所述的支架框体相互平行且对应设置,所述的支架框体之间形成上述的施工通道,在两个支架框体相对应的一侧之间设有封闭框体,且所述的支架框体相对应的另一侧之间形成上述的开口;每一个支架框体均包括竖直方向设置且横向依次相连的第一框体、第二框体与第三框体,两个支架框体内的第一框体、第二框体与第三框体分别一一对应设置从而将施工通道分割呈位于第一框体之间且与顶架体一侧相连通的击锤通道、位于所述的第二框体之 间且与钻杆放置腔相连通的钻杆通道以及位于第三框体之间且与顶架体另一侧相连通的驱动通道。即支架框体与封闭框体相互合围形成具有开口的支架本体,这样使得支架本体强度高,稳定性好;这里的击锤通道供打桩锤吊起、下落,钻杆组件在钻杆通道内升降,使得旋转打桩与冲击锤打桩互不影响。
在上述的综合打桩机中,所述的第一框体包括若干沿竖直方向自上向下依次首尾相连的矩形框体,相邻的两个矩形框体之间通过可拆式结构相连;所述的可拆卸结构包括设置在相邻两个矩形框体之间且呈L形的安装板,所述的安装板上侧与其中一个矩形框体固定,下侧与剩余的一个矩形框体相连;所述的第二框体包括至少一根沿竖直方向设置且位于第一框体外侧的中间立柱,所述的中间立柱与第二框体设有若干横向设置且沿中间立柱轴向依次均匀设置的中间横联,且所述的中间横联一端与中间立柱可拆式相连,另一端与矩形框体可拆式相连;所述的第三框体包括至少一根沿竖直方向设置且位于第二框体外侧的侧立柱,所述的侧立柱与中间立柱之间设有若干横向设置且沿侧立柱轴向依次均匀设置的侧横联,且所述的侧横联一端与中间立柱可拆式相连,另一端与侧立柱可拆式相连。
在上述的综合打桩机中,两个支架框体内的第三框体的外侧之间设有若干封闭横联,所述的封闭横联与侧立柱之间形成上述的封闭框体,且所述的封闭横联的两端分别与侧立柱可拆式相连;所述的中间立柱与侧立柱均由若干管状型材依次相连而成。
在上述的综合打桩机中,所述的起重结构包括周向转动设置在压桩台一端的起重机架,在起重机架上设有由若干起重臂体依次相连而成的可伸缩式起重臂,且所述的可伸缩式起重臂一端通过铰接耳铰接设置在起重机架上,另一端倾斜向上延伸至支架本体的上方且该端上设有吊钩组件,所述的可伸缩式起重臂连接有能驱动可伸缩式起重臂上下摆动且能带动吊钩组件升起或下落的起重驱动组件;所述的起重驱动组件包括铰接设置在设置在起重机架上的油缸体,所述的油缸体的液压活塞杆与可伸缩式起重臂铰接相连,所述的吊钩组件通过起重钢绳与起升机构相连,且所述的起升机构连接有设置在起重机架端部一侧的油箱体,且所述的起重机架端部另一侧设有驾驶室。
在上述的综合打桩机中,所述的平移驱动结构包括设置在压桩台周向外侧的且能使压桩台沿竖直方向升起或下落的顶升机构,所述的压桩台下侧设有当压桩台升起时能驱动压桩台横向移动的横移驱动机构,所述的压桩台下侧还设有当压桩台下落时能驱动压桩台纵向移动的纵移驱动机构;所述的横移驱动机构包括两个横向设置在地面上的下底座,每一个下底座上设有两个相互平行的横移梁,所述的横移梁之间设有分别设有横移小车,所述的横移小车周向外侧具有若干与横移梁相抵靠且通过横移轴相连的横移滚轮,所述的横移小车下方设有沿横移梁轴向设置在横移油缸,所述的横移小车下端具有与横移油缸的横移伸缩杆相匹配的横移弧形缺口,且所述的横移油缸的横移伸缩杆在横移弧形缺口内与横移轴相接触;所述的顶升机构包括若干活动设置在压桩台周向外侧且与横移小车一一相对应的顶升杆,且所述的顶升杆与横移小车上的行走小车座板相互抵靠设置;所述的纵移驱动机构包括两个纵向设置在地面上的短船,所述的短船位于两个下底座之间,且每一个短船上设有两个相互平行的纵移梁,所述的纵移梁之间设有分别设有纵移小车,所述的纵移小车周向外侧具有若干与纵移梁相抵靠且通过纵移轴相连的纵移滚轮,所述的纵移小车下方设有沿纵移梁轴向设置在纵移油缸,所述的纵移小车下端具有与纵移油缸的纵移伸缩杆相匹配的纵移弧形缺口,且所述的纵移油缸的纵移伸缩杆在纵移弧形缺口内与纵移轴相 接触,在所述的纵移小车上端具有滑动设置的纵移滑座,且所述的纵移滑座上具有定位孔,且所述的压桩台上设有与定位孔相对应的定位杆。当顶升机构将压桩台升起时,横移驱动机构就位驱动压桩台横向移动,当顶升机构将压桩台放下时,纵移驱动机构就位驱动压桩台纵向移动,从而实现支架本体的平移。
与现有的技术相比,本综合打桩机的优点在于:打桩架体能实现横向与纵向移动,且移动过程中打桩架体稳定性好,打桩机各个位置重量平衡,具有旋转打桩与冲击锤打桩两种作业方式,两种作用方式互不干扰且切换方便,驱动稳定性好,防护效果好,安全性高。
附图说明
图1为本发明使用状态下的结构示意图。
图2为本发明的局部结构示意图。
图3为图1中2处的放大图。
图4为本发明的可调式钻杆驱动结构和可调式打桩锤驱动结构的结构示意图。
图5为本发明中支架本体的结构示意图。
图6为图5中B处的放大图。
图7为本发明中支架本体的俯视图。
图8为本发明中支架本体使用状态下的结构示意图。
图9为本发明起重结构的结构示意图。
图10为本发明的的平移驱动结构局部结构示意图。
图11为本发明的平移驱动结构的另一个局部结构示意图。
图12为本发明的横移驱动机构的局部结构示意图。
图13为本发明的纵移驱动机构的局部结构示意图。
图中,支架本体1、开口11、地面12、压桩台13、平移驱动结构14、下底座141、横移梁141a、横移小车141b、横移轴142、横移滚轮142a、横移油缸142b、横移弧形缺口143、顶升杆144、短船145、纵移梁145a、纵移小车145b、纵移轴146、纵移滚轮146a、纵移油缸146b、纵移弧形缺口147、纵移滑座148、定位孔149、打桩承台15、起重结构16、起重机架161、起重臂体162、可伸缩式起重臂163、铰接耳164、吊钩组件165、油缸体166、起升机构167、油箱体168、驾驶室169、让位缺口17、施工通道2、击锤通道21、钻杆通道22、驱动通道23、顶架体3、钻杆放置腔31、侧架体32、支架框体4、第一框体41、矩形框体411、安装板412、第二框体42、中间立柱421、中间横联422、第三框体43、侧立柱431、侧横联432、封闭横联433、封闭框体5、钻杆座6、钻杆体61、可调式钻杆驱动结构7、钻杆平移导轨71、钻杆平移小车72、钻杆小车滚轮73、第一驱动器74、第一伸缩杆741、钻杆钢索滚轮75、钻杆驱动卷扬机76、打桩锤体8、可调式打桩锤驱动结构9、打桩锤平移导轨91、打桩锤平移小车92、打桩锤小车滚轮93、第二驱动器94、第二伸缩杆941、打桩锤钢索滚轮95、打桩锤驱动卷扬机96。
具体实施方式
下面结合附图和具体实施方式对本发明做进一步详细的说明。
如图1-3所示,本综合打桩机,包括水平设置在地面12上方的压桩台13,压桩台 13与地面12之间设有能驱动压桩台13水平方向横向移动和/或水平方向纵向移动的平移驱动结构14,在压桩台13中部设有打桩承台15,压桩台13上一端设有起重结构16,另一端设有沿竖直方向设置的支架本体1,支架本体1内部具有竖直方向贯穿整个支架本体1的施工通道2,支架本体1上端设有顶架体3,顶架体3内部具有与施工通道2相连通的钻杆放置腔31,在钻杆放置腔31内设有位于施工通道2上方的具有若干钻杆体61的钻杆座6,钻杆座6连接有能驱动钻杆座6沿施工通道2轴向往复移动且能驱动钻杆座6沿施工通道2横向移动的可调式钻杆驱动结构7,顶架体3一侧设有位于施工通道2上方的打桩锤体8,打桩锤体8连接有能驱动打桩锤体8沿施工通道2轴向往复移动且能驱动打桩锤体8沿施工通道2横向移动的可调式打桩锤驱动结构9,施工时,支架本体1设置在平移机构上,从而使得支架本体1能横向与纵向移动,可以通过可调式钻杆驱动结构7来驱动钻杆座6升降从而使钻杆61向下移动并钻孔实现旋转打桩,当需要切换成冲击锤打桩时,可以将支架本体1移动从而使打桩锤体8移动到原来钻杆座6的位置,并通过可调式打桩锤驱动结构9来实现打桩锤体8的升降。
如图1以及图5所示,本实施例中的施工通道2由分别轴向延伸的击锤通道21、钻杆通道22与驱动通道23依次横向连通而成,且打桩锤体8位于击锤通道21上方,钻杆放置腔31位于钻杆通道22上方且与钻杆通道22相连通,顶架体3一侧设有位于驱动通道23上方的侧架体32,且压桩台13设有支架本体1的一端具有让位缺口17,且让位缺口17设置在击锤通道21与钻杆通道22的下方,且让位缺口17分别与击锤通道21与钻杆通道22相连通,这样使得旋转打桩与冲击锤打桩两者之间互不干扰,且能提高作业时的防护效果。为了施工时安装打桩锤体8与钻杆组件,支架本体1上靠近击锤通道21一侧具有沿支架本体1轴向延伸的开口11,且开口11与击锤通道21相连通。
进一步地,如图2-4所示,本实施例中的可调式钻杆驱动结构7包括设置在顶架体3内且沿施工通道2横向设置的钻杆平移导轨71,钻杆平移导轨71上滑动设有钻杆平移小车72,且钻杆平移小车72上设有能驱动钻杆平移小车72沿钻杆平移导轨71轴向往复移动的钻杆小车平移组件,钻杆平移小车72与侧架体32之间设有能驱动钻杆座6轴向移动的钻杆座驱动组件,其中,这里的钻杆小车平移组件包括若干设置在钻杆平移小车72周向外侧且与钻杆平移导轨71相抵靠的钻杆小车滚轮73,在顶架体3上设有具有第一伸缩杆741的第一驱动器74,且第一驱动器74的第一伸缩杆741端部与钻杆平移小车72相连,即通过第一驱动器74来控制钻杆平移小车72移动,从而实现钻杆座6的横向移动。这里的钻杆座驱动组件包括至少两个沿钻杆平移小车72横向设置的钻杆钢索滚轮75,钻杆钢索滚轮75上绕设有钻杆牵引绳,且钻杆牵引绳一端设置在钻杆驱动卷扬机76上,另一端与钻杆座6相连,通过钻杆驱动卷扬机76来控制钻杆座6的上下移动,从而实现钻杆61的上升、下落过程。
更进一步地,这里的可调式打桩锤驱动结构9包括设置在顶架体3上端且沿施工通道2横向设置的打桩锤平移导轨91,打桩锤平移导轨91上滑动设有打桩锤平移小车92,且打桩锤平移小车92上设有能驱动打桩锤平移小车92沿打桩锤平移导轨91轴向往复移动的打桩锤小车平移组件,打桩锤平移小车92与侧架体32之间设有能驱动打桩锤体8轴向移动的打桩锤驱动组件,其中,这里的打桩锤小车平移组件包括若干设置在打桩锤平移小车92周向外侧且与打桩锤平移导轨91相抵靠的打桩锤小车滚轮93,在顶架体3上设有 具有第二伸缩杆941的第二驱动器94,且第二驱动器94的第二伸缩杆941端部与打桩锤平移小车92相连,即通过第二驱动器94来控制打桩锤平移小车92移动,从而实现打桩锤体8横向位置的调整,这里的打桩锤驱动组件包括至少两个沿打桩锤平移小车92横向设置的打桩锤钢索滚轮95,打桩锤钢索滚轮95上绕设有打桩锤牵引绳,且打桩锤牵引绳一端设置在打桩锤驱动卷扬机96上,另一端与打桩锤体8相连,即通过打桩锤驱动卷扬96机来控制打桩锤体8的上升、下落过程。为了使得支架本体1上端两侧重量平衡,打桩锤驱动卷扬机96与钻杆驱动卷扬机76均设置在侧架体32上,这样使得整个支架本体1的稳定性好,不易出现倾斜现象,这里的打桩锤驱动卷扬机96与钻杆驱动卷扬机76均采用液压卷扬机。
优选地,如图1以及图5-8所示,这里的支架本体1包括至少两组横向设置的支架框体4,支架框体4相互平行且对应设置,支架框体4之间形成上述的施工通道2,在两个支架框体4相对应的一侧之间设有封闭框体5,且支架框体4相对应的另一侧之间形成上述的开口11,即支架框体4与封闭框体5相互合围形成具有开口11的支架本体1,这样使得支架本体1强度高,稳定性好。其中,这里的每一个支架框体4均包括竖直方向设置且横向依次相连的第一框体41、第二框体42与第三框体43,两个支架框体4内的第一框体41、第二框体42与第三框体43分别一一对应设置从而将施工通道2分割呈位于第一框体41之间且与顶架体3一侧相连通的击锤通道21、位于第二框体42之间且与钻杆放置腔31相连通的钻杆通道22以及位于第三框体43之间且与顶架体3另一侧相连通的驱动通道23,且击锤通道21、钻杆通道22与驱动通道23横向依次相连通,这里的击锤通道21供打桩锤吊起、下落,钻杆组件在钻杆通道22内升降,使得旋转打桩与冲击锤打桩互不影响。
优选地,本实施例中,为了便于安装与拆卸,这里的第一框体41包括若干沿竖直方向自上向下依次首尾相连的矩形框体411,相邻的两个矩形框体411之间通过可拆式结构相连,优选地,可拆卸结构包括设置在相邻两个矩形框体411之间且呈L形的安装板412,安装板412上侧与其中一个矩形框体411固定,下侧与剩余的一个矩形框体411相连,这样使得矩形框体411连接强度高,防止第一框体41出现倒塌,倾斜现象。
优选地,这里的第二框体42包括至少一根沿竖直方向设置且位于第一框体41外侧的中间立柱421,中间立柱421与第二框体42设有若干横向设置且沿中间立柱421轴向依次均匀设置的中间横联422,且中间横联422一端与中间立柱421可拆式相连,另一端与矩形框体411可拆式相连。同样地,这里的第三框体43包括至少一根沿竖直方向设置且位于第二框体42外侧的侧立柱431,侧立柱431与中间立柱421之间设有若干横向设置且沿侧立柱431轴向依次均匀设置的侧横联432,且侧横联432一端与中间立柱421可拆式相连,另一端与侧立柱431可拆式相连,其中,两个支架框体4内的第三框体43的外侧之间设有若干封闭横联433,封闭横联433与侧立柱431之间形成上述的封闭框体5,且封闭横联433的两端分别与侧立柱431可拆式相连。为了安装与拆卸,这里的中间立柱421与侧立柱431均由若干管状型材依次相连而成。
进一步地,如图1以及9-13所示,这里的起重结构16包括周向转动设置在压桩台13一端的起重机架161,在起重机架161上设有由若干起重臂体162依次相连而成的可伸缩式起重臂163,且所述的可伸缩式起重臂163一端通过铰接耳164铰接设置在起重机架161上,另一端倾斜向上延伸至支架本体1的上方且该端上设有吊钩组件165,可伸缩式起重臂163连接有能驱动可伸缩式起重臂163上下摆动且能带动吊钩组件165升起或下落的 起重驱动组件,其中,起重驱动组件包括铰接设置在设置在起重机架161上的油缸体166,油缸体166的液压活塞杆与可伸缩式起重臂163铰接相连,吊钩组件165通过起重钢绳与起升机构167相连,且起升机构167连接有设置在起重机架161端部一侧的油箱体168,且起重机架161端部另一侧设有驾驶室169。
本实施例中的平移驱动结构14包括设置在压桩台13周向外侧的且能使压桩台13沿竖直方向升起或下落的顶升机构,压桩台13下侧设有当压桩台13升起时能驱动压桩台13横向移动的横移驱动机构,压桩台13下侧还设有当压桩台13下落时能驱动压桩台13纵向移动的纵移驱动机构,当顶升机构将压桩台13升起时,横移驱动机构就位驱动压桩台13横向移动,当顶升机构将压桩台13放下时,纵移驱动机构就位驱动压桩台13纵向移动,从而实现支架本体1的平移。
其中,这里的横移驱动机构包括两个横向设置在地面12上的下底座141,每一个下底座141上设有两个相互平行的横移梁141a,横移梁141a之间设有分别设有横移小车141b,横移小车141b周向外侧具有若干与横移梁141a相抵靠且通过横移轴142相连的横移滚轮142a,横移小车141b下方设有沿横移梁141a轴向设置在横移油缸142b,横移小车141b下端具有与横移油缸142b的横移伸缩杆相匹配的横移弧形缺口143,且横移油缸142b的横移伸缩杆在横移弧形缺口143内与横移轴142相接触。这里的顶升机构包括若干活动设置在压桩台13周向外侧且与横移小车141b一一相对应的顶升杆144,且顶升杆144与横移小车141b上的行走小车座板相互抵靠设置。
其中,这里的纵移驱动机构包括两个纵向设置在地面12上的短船145,短船145位于两个下底座141之间,且每一个短船145上设有两个相互平行的纵移梁145a,纵移梁145a之间设有分别设有纵移小车145b,纵移小车145b周向外侧具有若干与纵移梁145a相抵靠且通过纵移轴146相连的纵移滚轮146a,纵移小车145b下方设有沿纵移梁145a轴向设置在纵移油缸146b,纵移小车145b下端具有与纵移油缸146b的纵移伸缩杆相匹配的纵移弧形缺口147,且纵移油缸146b的纵移伸缩杆在纵移弧形缺口147内与纵移轴146相接触,在纵移小车145b上端具有滑动设置的纵移滑座148,且纵移滑座148上具有定位孔149,且压桩台13上设有与定位孔149相对应的定位杆。
本实施例的原理在于:当顶升杆144将压桩台13升起时,定位孔149与定位杆相互脱离,横移油缸142b带动横移小车141b横向移动从而带动压桩台13横向移动实现支架本体1的横向移动,当顶升杆144将压桩台13落下时,定位孔149与定位杆插接,纵移油缸146b带动纵移小车145b纵向移动,从而带动纵移滑座148纵向移动实现支架本体1的纵向移动,当需要进行旋转打桩时,第一驱动器74来控制钻杆平移小车72移动,从而实现钻杆座6的横向位置调整,再通过钻杆驱动卷扬机76来控制钻杆座6的上下移动,从而实现钻杆61的上升、下落过程,完成旋转打桩过程,当需要切换成冲击锤打桩时,可以将支架本体1移动从而使打桩锤体8移动到原来钻杆座6的位置的上方,并通过第二驱动器94来控制打桩锤平移小车92移动,从而实现打桩锤体8横向位置的调整,再通过打桩锤驱动卷扬96机来控制打桩锤体8的上升、下落过程,直至完成冲击锤打桩。
本文中所描述的具体实施例仅仅是对本发明精神作举例说明。本发明所属技术领域的技术人员可以对所描述的具体实施例做各种各样的修改或补充或采用类似的方式替代,但并不会偏离本发明的精神或者超越所附权利要求书所定义的范围。
尽管本文较多地使用了支架本体1、开口11、地面12、压桩台13、平移驱动结构14、下底座141、横移梁141a、横移小车141b、横移轴142、横移滚轮142a、横移油缸142b、横移弧形缺口143、顶升杆144、短船145、纵移梁145a、纵移小车145b、纵移轴146、纵移滚轮146a、纵移油缸146b、纵移弧形缺口147、纵移滑座148、定位孔149、打桩承台15、起重结构16、起重机架161、起重臂体162、可伸缩式起重臂163、铰接耳164、吊钩组件165、油缸体166、起升机构167、油箱体168、驾驶室169、让位缺口17、施工通道2、击锤通道21、钻杆通道22、驱动通道23、顶架体3、钻杆放置腔31、侧架体32、支架框体4、第一框体41、矩形框体411、安装板412、第二框体42、中间立柱421、中间横联422、第三框体43、侧立柱431、侧横联432、封闭横联433、封闭框体5、钻杆座6、钻杆体61、可调式钻杆驱动结构7、钻杆平移导轨71、钻杆平移小车72、钻杆小车滚轮73、第一驱动器74、第一伸缩杆741、钻杆钢索滚轮75、钻杆驱动卷扬机76、打桩锤体8、可调式打桩锤驱动结构9、打桩锤平移导轨91、打桩锤平移小车92、打桩锤小车滚轮93、第二驱动器94、第二伸缩杆941、打桩锤钢索滚轮95、打桩锤驱动卷扬机96等术语,但并不排除使用其它术语的可能性。使用这些术语仅仅是为了更方便地描述和解释本发明的本质;把它们解释成任何一种附加的限制都是与本发明精神相违背的。

Claims (10)

  1. 一种综合打桩机,包括水平设置在地面(12)上方的压桩台(13),所述的压桩台(13)与地面(12)之间设有能驱动压桩台(13)水平方向横向移动和/或水平方向纵向移动的平移驱动结构(14),其特征在于,在压桩台(13)中部设有打桩承台(15),所述的压桩台(13)上一端设有起重结构(16),另一端设有沿竖直方向设置的支架本体(1),所述的支架本体(1)内部具有竖直方向贯穿整个支架本体(1)的施工通道(2),所述的支架本体(1)上端设有顶架体(3),所述的顶架体(3)内部具有与施工通道(2)相连通的钻杆放置腔(31),在钻杆放置腔(31)内设有位于施工通道(2)上方的具有若干钻杆体(61)的钻杆座(6),所述的钻杆座(6)连接有能驱动钻杆座(6)沿施工通道(2)轴向往复移动且能驱动钻杆座(6)沿施工通道(2)横向移动的可调式钻杆驱动结构(7),所述的顶架体(3)一侧设有位于施工通道(2)上方的打桩锤体(8),所述的打桩锤体(8)连接有能驱动打桩锤体(8)沿施工通道(2)轴向往复移动且能驱动打桩锤体(8)沿施工通道(2)横向移动的可调式打桩锤驱动结构(9)。
  2. 根据权利要求1所述的综合打桩机,其特征在于,所述的施工通道(2)由分别轴向延伸的击锤通道(21)、钻杆通道(22)与驱动通道(23)依次横向连通而成,且所述的打桩锤体(8)位于击锤通道(21)上方,所述的钻杆放置腔(31)位于钻杆通道(22)上方且与钻杆通道(22)相连通,所述的顶架体(3)一侧设有位于驱动通道(23)上方的侧架体(32),且所述的压桩台(13)设有支架本体(1)的一端具有让位缺口(17),且所述的让位缺口(17)设置在击锤通道(21)与钻杆通道(22)的下方,且让位缺口(17)分别与击锤通道(21)与钻杆通道(22)相连通。
  3. 根据权利要求2所述的综合打桩机,其特征在于,所述的支架本体(1)上靠近击锤通道(21)一侧具有沿支架本体(1)轴向延伸的开口(11),且所述的开口(11)与击锤通道(21)相连通。
  4. 根据权利要求2或3所述的综合打桩机,其特征在于,所述的可调式钻杆驱动结构(7)包括设置在顶架体(3)内且沿施工通道(2)横向设置的钻杆平移导轨(71),所述的钻杆平移导轨(71)上滑动设有钻杆平移小车(72),且所述的钻杆平移小车(72)上设有能驱动钻杆平移小车(72)沿钻杆平移导轨(71)轴向往复移动的钻杆小车平移组件,所述的钻杆平移小车(72)与侧架体(32)之间设有能驱动钻杆座(6)轴向移动的钻杆座驱动组件;所述的钻杆小车平移组件包括若干设置在钻杆平移小车(72)周向外侧且与钻杆平移导轨(71)相抵靠的钻杆小车滚轮(73),在顶架体(3)上设有具有第一伸缩杆(741)的第一驱动器(74),且所述的第一驱动器(74)的第一伸缩杆(741)端部与钻杆平移小车(72)相连;所述的钻杆座驱动组件包括至少两个沿钻杆平移小车(72)横向设置的钻杆钢索滚轮(75),所述的钻杆钢索滚轮(75)上绕设有钻杆牵引绳,且所述的钻杆牵引绳一端设置在钻杆驱动卷扬机(76)上,另一端与钻杆座(6)相连。
  5. 根据权利要求4所述的综合打桩机,其特征在于,所述的可调式打桩锤驱动结构(9)包括设置在顶架体(3)上端且沿施工通道(2)横向设置的打桩锤平移导轨(91),所述的打桩锤平移导轨(91)上滑动设有打桩锤平移小车(92),且所述的打桩锤平移小车(92)上设有能驱动打桩锤平移小车(92)沿打桩锤平移导轨(91)轴向往复移动的打桩锤小车平移组件,所述的打桩锤平移小车(92)与侧架体(32)之间设有能驱动打桩锤体(8)轴向移动的打桩锤驱动组件;所述的打桩锤小车平移组件包括若干设置在打桩锤平移小车(92)周向 外侧且与打桩锤平移导轨(91)相抵靠的打桩锤小车滚轮(93),在顶架体(3)上设有具有第二伸缩杆(941)的第二驱动器(94),且所述的第二驱动器(94)的第二伸缩杆(941)端部与打桩锤平移小车(92)相连;所述的打桩锤驱动组件包括至少两个沿打桩锤平移小车(92)横向设置的打桩锤钢索滚轮(95),所述的打桩锤钢索滚轮(95)上绕设有打桩锤牵引绳,且所述的打桩锤牵引绳一端设置在打桩锤驱动卷扬机(96)上,另一端与打桩锤体(8)相连;所述的打桩锤驱动卷扬机(96)与钻杆驱动卷扬机(76)均设置在侧架体(32)上。
  6. 根据权利要求3所述的综合打桩机,其特征在于,所述的支架本体(1)包括至少两组横向设置的支架框体(4),所述的支架框体(4)相互平行且对应设置,所述的支架框体(4)之间形成上述的施工通道(2),在两个支架框体(4)相对应的一侧之间设有封闭框体(5),且所述的支架框体(4)相对应的另一侧之间形成上述的开口(11);每一个支架框体(4)均包括竖直方向设置且横向依次相连的第一框体(41)、第二框体(42)与第三框体(43),两个支架框体(4)内的第一框体(41)、第二框体(42)与第三框体(43)分别一一对应设置从而将施工通道(2)分割呈位于第一框体(41)之间且与顶架体(3)一侧相连通的击锤通道(21)、位于所述的第二框体(42)之间且与钻杆放置腔(31)相连通的钻杆通道(22)以及位于第三框体(43)之间且与顶架体(3)另一侧相连通的驱动通道(23)。
  7. 根据权利要求6所述的综合打桩机,其特征在于,所述的第一框体(41)包括若干沿竖直方向自上向下依次首尾相连的矩形框体(411),相邻的两个矩形框体(411)之间通过可拆式结构相连;所述的可拆卸结构包括设置在相邻两个矩形框体(411)之间且呈L形的安装板(412),所述的安装板(412)上侧与其中一个矩形框体(411)固定,下侧与剩余的一个矩形框体(411)相连;所述的第二框体(42)包括至少一根沿竖直方向设置且位于第一框体(41)外侧的中间立柱(421),所述的中间立柱(421)与第二框体(42)设有若干横向设置且沿中间立柱(421)轴向依次均匀设置的中间横联(422),且所述的中间横联(422)一端与中间立柱(421)可拆式相连,另一端与矩形框体(411)可拆式相连;所述的第三框体(43)包括至少一根沿竖直方向设置且位于第二框体(42)外侧的侧立柱(431),所述的侧立柱(431)与中间立柱(421)之间设有若干横向设置且沿侧立柱(431)轴向依次均匀设置的侧横联(432),且所述的侧横联(432)一端与中间立柱(421)可拆式相连,另一端与侧立柱(431)可拆式相连。
  8. 根据权利要求7所述的综合打桩机,其特征在于,两个支架框体(4)内的第三框体(43)的外侧之间设有若干封闭横联(433),所述的封闭横联(433)与侧立柱(431)之间形成上述的封闭框体(5),且所述的封闭横联(433)的两端分别与侧立柱(431)可拆式相连;所述的中间立柱(421)与侧立柱(431)均由若干管状型材依次相连而成。
  9. 根据权利要求1所述的综合打桩机,其特征在于,所述的起重结构(16)包括周向转动设置在压桩台(13)一端的起重机架(161),在起重机架(161)上设有由若干起重臂体(162)依次相连而成的可伸缩式起重臂(163),且所述的可伸缩式起重臂(163)一端通过铰接耳(164)铰接设置在起重机架(161)上,另一端倾斜向上延伸至支架本体(1)的上方且该端上设有吊钩组件(165),所述的可伸缩式起重臂(163)连接有能驱动可伸缩式起重臂(163)上下摆动且能带动吊钩组件(165)升起或下落的起重驱动组件;所述的起重驱动组件包括铰接设置在设置在起重机架(161)上的油缸体(166),所述的油缸体(166)的液压活塞杆与可伸缩式起重臂(163)铰接相连,所述的吊钩组件(165)通过起重钢绳与起升机 构(167)相连,且所述的起升机构(167)连接有设置在起重机架(161)端部一侧的油箱体(168),且所述的起重机架(161)端部另一侧设有驾驶室(169)。
  10. 根据权利要求1所述的综合打桩机,其特征在于,所述的平移驱动结构(14)包括设置在压桩台(13)周向外侧的且能使压桩台(13)沿竖直方向升起或下落的顶升机构,所述的压桩台(13)下侧设有当压桩台(13)升起时能驱动压桩台(13)横向移动的横移驱动机构,所述的压桩台(13)下侧还设有当压桩台(13)下落时能驱动压桩台(13)纵向移动的纵移驱动机构;所述的横移驱动机构包括两个横向设置在地面(12)上的下底座(141),每一个下底座(141)上设有两个相互平行的横移梁(141a),所述的横移梁(141a)之间设有分别设有横移小车(141b),所述的横移小车(141b)周向外侧具有若干与横移梁(141a)相抵靠且通过横移轴(142)相连的横移滚轮(142a),所述的横移小车(141b)下方设有沿横移梁(141a)轴向设置在横移油缸(142b),所述的横移小车(141b)下端具有与横移油缸(142b)的横移伸缩杆相匹配的横移弧形缺口(143),且所述的横移油缸(142b)的横移伸缩杆在横移弧形缺口(143)内与横移轴(142)相接触;所述的顶升机构包括若干活动设置在压桩台(13)周向外侧且与横移小车(141b)一一相对应的顶升杆(144),且所述的顶升杆(144)与横移小车(141b)上的行走小车座板相互抵靠设置;所述的纵移驱动机构包括两个纵向设置在地面(12)上的短船(145),所述的短船(145)位于两个下底座(141)之间,且每一个短船(145)上设有两个相互平行的纵移梁(145a),所述的纵移梁(145a)之间设有分别设有纵移小车(145b),所述的纵移小车(145b)周向外侧具有若干与纵移梁(145a)相抵靠且通过纵移轴(146)相连的纵移滚轮(146a),所述的纵移小车(145b)下方设有沿纵移梁(145a)轴向设置在纵移油缸(146b),所述的纵移小车(145b)下端具有与纵移油缸(146b)的纵移伸缩杆相匹配的纵移弧形缺口(147),且所述的纵移油缸(146b)的纵移伸缩杆在纵移弧形缺口(147)内与纵移轴(146)相接触,在所述的纵移小车(145b)上端具有滑动设置的纵移滑座(148),且所述的纵移滑座(148)上具有定位孔(149),且所述的压桩台(13)上设有与定位孔(149)相对应的定位杆。
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