WO2013149457A1 - Tower crane climbing frame and tower crane including same - Google Patents

Tower crane climbing frame and tower crane including same Download PDF

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Publication number
WO2013149457A1
WO2013149457A1 PCT/CN2012/082074 CN2012082074W WO2013149457A1 WO 2013149457 A1 WO2013149457 A1 WO 2013149457A1 CN 2012082074 W CN2012082074 W CN 2012082074W WO 2013149457 A1 WO2013149457 A1 WO 2013149457A1
Authority
WO
WIPO (PCT)
Prior art keywords
tower crane
sheet structure
climbing
climbing frame
disposed
Prior art date
Application number
PCT/CN2012/082074
Other languages
French (fr)
Chinese (zh)
Inventor
钱建军
毛快
付英雄
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
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
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 WO2013149457A1 publication Critical patent/WO2013149457A1/en

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66CCRANES; LOAD-ENGAGING ELEMENTS OR DEVICES FOR CRANES, CAPSTANS, WINCHES, OR TACKLES
    • B66C23/00Cranes comprising essentially a beam, boom, or triangular structure acting as a cantilever and mounted for translatory of swinging movements in vertical or horizontal planes or a combination of such movements, e.g. jib-cranes, derricks, tower cranes
    • B66C23/18Cranes comprising essentially a beam, boom, or triangular structure acting as a cantilever and mounted for translatory of swinging movements in vertical or horizontal planes or a combination of such movements, e.g. jib-cranes, derricks, tower cranes specially adapted for use in particular purposes
    • B66C23/26Cranes comprising essentially a beam, boom, or triangular structure acting as a cantilever and mounted for translatory of swinging movements in vertical or horizontal planes or a combination of such movements, e.g. jib-cranes, derricks, tower cranes specially adapted for use in particular purposes for use on building sites; constructed, e.g. with separable parts, to facilitate rapid assembly or dismantling, for operation at successively higher levels, for transport by road or rail
    • B66C23/28Cranes comprising essentially a beam, boom, or triangular structure acting as a cantilever and mounted for translatory of swinging movements in vertical or horizontal planes or a combination of such movements, e.g. jib-cranes, derricks, tower cranes specially adapted for use in particular purposes for use on building sites; constructed, e.g. with separable parts, to facilitate rapid assembly or dismantling, for operation at successively higher levels, for transport by road or rail constructed to operate at successively higher levels
    • B66C23/283Cranes comprising essentially a beam, boom, or triangular structure acting as a cantilever and mounted for translatory of swinging movements in vertical or horizontal planes or a combination of such movements, e.g. jib-cranes, derricks, tower cranes specially adapted for use in particular purposes for use on building sites; constructed, e.g. with separable parts, to facilitate rapid assembly or dismantling, for operation at successively higher levels, for transport by road or rail constructed to operate at successively higher levels with frameworks composed of assembled elements

Definitions

  • the present invention relates to the field of construction hoisting machinery, and in particular to a tower crane climbing frame and a tower crane including the same.
  • BACKGROUND OF THE INVENTION Existing tower cranes have two main forms. The first one is a pole structure. The climbing frame of this structure, all the webs and the jacking beams are connected to the main string by pins or bolts. On the pole, it can be dismantled into a single-rod structure when transported, which can save a lot of transportation space and reduce transportation costs.
  • the second is to adopt a monolithic structure.
  • the web of the introduction side of this structure is bolted to the main chord, and the other three sides are integrally welded.
  • the introduction surface structure only needs to be installed at the opening of the three-side structure of the integral welding, and the connection of the climbing frame can be realized by the connection, so that the assembly is convenient.
  • the overall welded structure on the three sides takes up a large space, the transportation space cannot be fully utilized, resulting in wasted space and high transportation costs.
  • a tower crane climbing frame comprising a climbing surface, an introduction surface, and two connection faces connecting the climbing surface and the introduction surface, the climbing surface, the introduction surface and the two connection surfaces.
  • the climbing surface and the introduction surface each comprise at least one set of sheet structures, the sheet structure being unitary and detachably coupled to the main chord.
  • the main chord includes two left main chords and two right main chords
  • the climbing surface is disposed between the two left main chords
  • the introduction surface is disposed between the two right main chords.
  • the sheet structure includes a first sheet structure located at the bottom of the climbing surface and disposed outside of the two left main chords.
  • the sheet structure further includes a second sheet structure, a third sheet structure and a fourth sheet structure detachably disposed between the two left main chords from the top of the climbing surface, and the fourth
  • the bottom of the chip structure has a connecting beam, and the first piece structure and the connecting beam of the fourth piece structure are connected by a web, the first piece structure, the second piece structure, the third piece structure, the web and The fourth piece of structure forms a climbing surface.
  • the introduction surface includes an inlet, and the right main chord on both sides of the inlet is detachably provided with a connecting rod, and the two connecting rods are diagonally disposed at the inlet. Further, the end of the connecting rod is adjustably connected to the right main chord by adjusting the length of the bolt. Further, the introduction surface further comprises a fifth sheet structure disposed above the connecting rod and a sixth sheet structure disposed under the connecting rod, and the fifth sheet structure, the sixth sheet structure and the connecting rod form an introduction surface. Further, the sheet structure includes at least one cross bar and two diagonal bars welded to the cross bar. Further, the connecting surface includes at least one set of detachably disposed sheet structures.
  • a tower crane comprising a standard section and a tower crane that is nested outside the standard section, the tower crane being any of the tower cranes of any of the above.
  • the tower crane includes a climbing surface, an introduction surface, and two connection surfaces connecting the climbing surface and the introduction surface, the climbing surface, the introduction surface and the two connection surfaces are connected by the main chord, the climbing surface and the introduction
  • the faces each comprise at least one set of sheet structures, the sheet structure being unitary and detachably attached to the main chord.
  • FIG. 1 is a schematic front view showing a tower crane climbing frame according to an embodiment of the present invention
  • FIG. 2 is a left side structural view showing a tower crane climbing frame according to the embodiment of FIG.
  • FIG. 3 is a schematic right side view showing the tower crane of the embodiment according to the embodiment of FIG. 1; 4 is a schematic structural view showing a connecting surface of a tower crane according to an embodiment of the present invention;
  • FIG. 5 is a schematic structural view showing a first sheet structure of a tower crane according to an embodiment of the present invention; 6 is a schematic structural view showing a third sheet structure of a tower crane according to an embodiment of the present invention; and
  • FIG. 7 is a view showing a structure of a second sheet structure of a tower crane according to an embodiment of the present invention.
  • a tower crane includes an oppositely disposed climbing surface 10 and an introduction surface 20, and two connection surfaces 30 connected between the climbing surface 10 and the introduction surface 20, according to an embodiment of the present invention.
  • the climbing surface 10, the introduction surface 20 and the two connecting surfaces 30 are detachably connected by four main chords.
  • the climbing surface 10 and the introduction surface 20 each comprise at least one set of sheet structures, the sheet structure being a unitary structure and detachably coupled to the main chord.
  • the two connecting faces 30 can be welded to the two main chords respectively to form two integral structures, or can be detachably coupled to the main chord.
  • the main chord includes two left main chords 40 and two right main chords 50, the climbing surface 10 is disposed between the two left main chords 40, and the introduction surface 20 is disposed between the two right main chords 50.
  • the climbing surface 10 is disposed between the two left main chords 40
  • the introduction surface 20 is disposed between the two right main chords 50.
  • the tower crane can include two integral connecting faces 30, and a climbing face 10 and an incoming face 20 having a sheet structure, two left main chords 40 and two right
  • the main chords 50 are respectively located on both sides of the two connecting faces 30, and the climbing face 10 and the introduction face 20 are fixedly coupled to the two left main chords 40 and the two right main chords 50.
  • the climbing surface 10 and the introduction surface 20 are removed from the main chord, and then loaded and transported. Since the four working surfaces are split into a piece structure, they can be stacked to reduce the tower crane. Space occupation during transportation.
  • the two connecting faces 30 When assembling, the two connecting faces 30 are first positioned, and then the climbing face 10 and the leading face 20 of the sheet structure are installed between the left main chord 40 and the right main chord 50 to complete the tower crane climbing frame. Assembly. Since the two connecting faces 30 are of a unitary structure, it is more convenient to mount and position the climbing face 10 and the lead-in face 20 of the chip structure.
  • the sheet structure of the climbing surface 10 of the tower crane may be an integral sheet structure detachably disposed between the two left main chords 40, or may include a plurality of left main chords arranged in sequence. A slice structure between 40.
  • the climbing surface 10 includes a second sheet structure 12, a third sheet structure 13, and a fourth portion that are detachably disposed between the two left main chords 40 in order from the top of the climbing surface 10.
  • the upper ends of the two webs 15 are connected to the middle of the connecting beam 16, and the lower ends are respectively connected to the two top connecting plates 111 of the first sheet structure 11.
  • the arrangement of such a structure is determined by the manner in which the first sheet structure 11 is disposed.
  • the first sheet structure 11 is disposed outside the two left main chords 40, so that in order to secure the connection of the first sheet structure 11 and the fourth sheet structure 14, a transition is made between the two webs 15 therebetween Connections enable better connection.
  • the plurality of sheet structures that make up the climbing surface 10 can also be other numbers of sheet structures.
  • Each of the sheet structures includes at least one crossbar and two diagonal rods attached to the crossbar to form a triangular joint structure to ensure a stable connection of the respective sheet structures of the climbing frame.
  • the introduction face 20 includes a fifth sheet structure 23 and a sixth sheet structure 24 respectively disposed at both ends of the two right main chords 50, and an introduction inlet between the fifth sheet structure 23 and the sixth sheet structure 24. twenty one.
  • the fifth sheet structure 23 is located above and the sixth sheet structure 24 is located below. Both sides of the fifth sheet structure 23 and the sixth sheet structure 24 are detachably coupled to the two right main chords 50.
  • Import 21 is used to introduce a new standard section.
  • the right main chord 50 on both sides of the position where the inlet 21 is located is detachably provided with a connecting rod 22, and the two connecting rods 22 are diagonally disposed at the inlet 21 .
  • the lower ends of the two connecting rods 22 are respectively connected to the two right main chords 50 by adjusting bolts, and the length of the connecting rods 22 can be adjusted by the adjusting bolts, thereby adjusting the structural strength of the introduction surface 20 of the inlet 21, enhancing the position Structural strength.
  • the attachment face 30 can include at least one set of sheet structures that are removably disposed on the main chord. In this way, when the connection is made, the main chord can be removed and transported separately, and the sheet structure of the four working faces can be loaded and transported, which can greatly reduce the transportation space and reduce the transportation cost.
  • the chip structure is different, and the shape of each chip structure is different, it is convenient to determine the mounting position on the main chord according to the shape of each chip structure, which is easy to identify and install.
  • a tower crane includes a standard section and a tower crane that is nested outside the standard section, the tower crane being any of the tower cranes described above. From the above description, it can be seen that the above-described embodiments of the present invention achieve the following technical effects:
  • the tower crane includes a climbing surface, an introduction surface, and two connection surfaces connecting the climbing surface and the introduction surface, the climbing surface, and the introduction surface. And the two connecting faces are connected by a main chord, the climbing face and the introducing face each comprise at least one set of sheet structure, the sheet structure is integral and detachably connected to the main chord.
  • the tower crane climbing frame When the tower crane climbing frame needs to be transported, the tower crane climbing frame can be divided into a plurality of chip structures according to each surface, and each chip structure takes up less space, thereby reducing transportation space occupation and reducing transportation cost.
  • the four faces When the tower crane is assembled, the four faces can be assembled directly, which avoids the problem that the assembly of multiple parts is difficult to identify, and the assembly is troublesome, and the assembly efficiency can be improved.

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  • Engineering & Computer Science (AREA)
  • Structural Engineering (AREA)
  • Transportation (AREA)
  • Mechanical Engineering (AREA)
  • Jib Cranes (AREA)

Abstract

The present invention provides a tower crane climbing frame and a tower crane including the climbing frame. The tower crane climbing frame comprises a climbing face (10), an insertion face (20) and two connecting faces (30) connecting the climbing face (10) and the insertion face (20), wherein the climbing face (10), the insertion face (20) and the two connecting faces are connected by main chords, and the climbing face (10) and the insertion face (20) each comprise at least one module-like structure. The module-like structures are monolithic and are removably connected to the main chords. The tower crane climbing frame according to the present invention can simplify the installation structure of a climbing frame, reduce the space taken up when transporting the climbing frame, and improve installation efficiency.

Description

塔机爬升架及包含该爬升架的塔式起重机 技术领域 本发明涉及建筑起重机械领域, 具体而言, 涉及一种塔机爬升架及包含该爬升架 的塔式起重机。 背景技术 现有的塔机爬升架主要有两种形式,第一种是采用杆式结构,此种结构的爬升架, 所有的腹杆和顶升横梁都是通过销轴或者螺栓连接到主弦杆上, 因此当运输时可以拆 成单杆结构, 能够大量节省运输空间, 降低运输成本。 但是当在工地上对杆式结构进 行安装时, 由于其装配单元过多, 且相似结构较多, 不易识别, 因此装配比较麻烦, 装配效率低, 严重影响安装和拆卸的效率。 第二种是采用整体式结构。 此种结构的引进侧的腹杆通过螺栓连接到主弦杆上, 其余三侧则为整体式焊接。 这种结构在安装时, 只需要将引进面结构安装到整体式焊 接的三侧面结构的开口处, 并进行连接即可实现爬升架的组装, 因此装配较方便。 但 是在运输时, 由于三侧的整体焊接结构占用了较大空间, 因此, 运输空间不能充分利 用, 造成空间浪费, 运输成本较高。 发明内容 本发明旨在提供一种塔机爬升架及包含该爬升架的塔式起重机, 能够简化爬升架 的安装结构, 降低爬升架运输过程中的空间占用, 提高安装效率。 为了实现上述目的, 根据本发明的一个方面, 提供了一种塔机爬升架, 包括爬升 面、 引进面以及连接爬升面和引进面的两个连接面, 爬升面、 引进面和两个连接面通 过主弦杆连接, 爬升面和引进面各自包括至少一组片式结构, 片式结构为整体式, 并 可拆卸地连接在主弦杆上。 进一步地, 主弦杆包括两个左主弦杆和两个右主弦杆, 爬升面设置在两个左主弦 杆之间, 引进面设置在两个右主弦杆之间。 进一步地, 片式结构包括位于爬升面底部并设置在两个左主弦杆外侧的第一片式 结构。 进一步地, 片式结构还包括从爬升面的顶部向下依次可拆卸地设置在两个左主弦 杆之间的第二片式结构、 第三片式结构和第四片式结构, 第四片式结构底部具有连接 横梁, 第一片式结构与第四片式结构的连接横梁之间通过腹杆连接, 第一片式结构、 第二片式结构、 第三片式结构、 腹杆和第四片式结构形成爬升面。 进一步地, 引进面包括引进口, 引进口两侧的右主弦杆上可拆卸地设置有连接拉 杆, 两个连接拉杆对角设置在引进口处。 进一步地, 连接拉杆的端部通过调节螺栓长度可调地与右主弦杆连接。 进一步地, 引进面还包括设置在连接拉杆的上方的第五片式结构和设置在连接拉 杆下方的第六片式结构, 第五片式结构、 第六片式结构和连接拉杆形成引进面。 进一步地, 片式结构包括至少一个横杆和焊接在横杆上的两个斜杆。 进一步地, 连接面包括至少一组可拆卸地设置的片式结构。 根据本发明的另一方面, 提供了一种塔式起重机, 包括标准节和套设在标准节外 的塔机爬升架, 该塔机爬升架为上述任一种的塔机爬升架。 应用本发明的技术方案, 塔机爬升架包括爬升面、 引进面以及连接爬升面和引进 面的两个连接面, 爬升面、 引进面和两个连接面通过主弦杆连接, 爬升面和引进面各 自包括至少一组片式结构, 片式结构为整体式, 并可拆卸地连接在主弦杆上。 当需要 对塔机爬升架进行运输时, 能够将塔机爬升架按照各个面拆分成多个片式结构, 每个 片式结构占用空间较少, 因此能够减少运输空间占用, 降低运输成本, 当对塔机爬升 架进行组装时,可以将四个面直接进行组装,避免了多个零件组装所带来的不易辨识, 装配麻烦的问题, 能够提高组装效率。 附图说明 构成本发明的一部分的附图用来提供对本发明的进一步理解, 本发明的示意性实 施例及其说明用于解释本发明, 并不构成对本发明的不当限定。 在附图中: 图 1示出了根据本发明的实施例的塔机爬升架的主视结构示意图; 图 2示出了根据图 1的实施例的塔机爬升架的左视结构示意图; 图 3示出了根据图 1的实施例的塔机爬升架的右视结构示意图; 图 4示出了根据本发明的实施例的塔机爬升架的连接面的结构示意图; 图 5示出了根据本发明的实施例的塔机爬升架的第一片式结构的结构示意图; 图 6示出了根据本发明的实施例的塔机爬升架的第三片式结构的结构示意图; 以 及 图 7示出了根据本发明的实施例的塔机爬升架的第二片式结构的结构示意图。 具体实施方式 下文中将参考附图并结合实施例来详细说明本发明。 需要说明的是, 在不冲突的 情况下, 本申请中的实施例及实施例中的特征可以相互组合。 如图 1至图 3所示, 根据本发明的实施例, 塔机爬升架包括相对设置的爬升面 10 和引进面 20, 以及连接在爬升面 10和引进面 20之间的两个连接面 30, 爬升面 10、 引进面 20和两个连接面 30之间通过四个主弦杆可拆卸地连接。其中爬升面 10和引进 面 20各自包括至少一组片式结构, 该片式结构为整体式结构, 并且可拆卸地连接在主 弦杆上。两个连接面 30可以分别与两个主弦杆焊接在一起, 形成两个整体式结构, 也 可以与主弦杆可拆卸地连接在一起。主弦杆包括两个左主弦杆 40和两个右主弦杆 50, 爬升面 10设置在两个左主弦杆 40之间, 引进面 20设置在两个右主弦杆 50之间。 当塔机爬升架处于运输状态时, 将爬升面 10、 引进面 20和两个连接面 30分开运 输, 能够有效利用运输空间, 降低整体式结构的空间占用, 从而降低运输成本。 当塔 机爬升架需要在工地进行组装时,将爬升面 10、引进面 20和两个连接面 30进行组装, 可以加快组装速度, 同时避免装配零件过多所带来的零件不易辨识, 安装不便的问题, 只需要直接能够各个工作面 (即爬升面 10、 引进面 20和两个连接面 30) 直接组合在 一起即可, 减少了组装步骤, 提高了组装效率。 结合参见图 4至图 7所示, 塔机爬升架可以包括两个整体式的连接面 30, 以及具 有片式结构的爬升面 10和引进面 20, 两个左主弦杆 40和两个右主弦杆 50分别位于 两个连接面 30的两侧, 爬升面 10和引进面 20均固定连接在两个左主弦杆 40和两个 右主弦杆 50上。 当进行拆卸时, 将爬升面 10和引进面 20从主弦杆上拆除, 然后装车 运输, 由于四个工作面均拆分成片式结构, 因此, 可以叠加放置, 降低了塔机爬升架 运输时的空间占用。 当进行组装时, 首先将两个连接面 30进行定位, 然后将片式结构 的爬升面 10和引进面 20安装在左主弦杆 40和右主弦杆 50之间, 完成塔机爬升架的 组装。 由于两个连接面 30均为整体式结构, 因此, 更加便于对片式结构的爬升面 10 和引进面 20进行安装定位。 塔机爬升架的爬升面 10的片式结构可以为一个可拆卸地设置在两个左主弦杆 40 之间的整体的片式结构, 也可以包括多个依次设置在两个左主弦杆 40 之间的片式结 构。 在本实施例当中, 爬升面 10包括从爬升面 10的顶部向下依次可拆卸地设置在两 个左主弦杆 40之间的第二片式结构 12、第三片式结构 13、第四片式结构 14和第一片 式结构 11, 其中第四片式结构 14包括设置在底部的连接横梁 16, 第四片式结构 14 和第一片式结构 11之间通过两个腹杆 15进行连接。两个腹杆 15的上端连接在连接横 梁 16的中部, 下端分别连接在第一片式结构 11的两个顶部连接板 111上。 此种结构 的设置是由于第一片式结构 11的设置方式决定的。 第一片式结构 11设置在两个左主 弦杆 40的外侧, 因此, 为了保证第一片式结构 11与第四片式结构 14的连接, 在它们 之间通过两个腹杆 15进行过渡连接, 能够实现更好的连接关系。 组成爬升面 10的多个片式结构也可以为其它数量的片式结构。每个片式结构均包 括至少一个横杆和连接在该横杆上的两个斜杆, 以形成三角形连接结构, 保证爬升架 的各片式结构具有稳定的连接。 引进面 20包括分别设置在两个右主弦杆 50两端的第五片式结构 23和第六片式结 构 24, 以及位于第五片式结构 23和第六片式结构 24之间的引进口 21。其中第五片式 结构 23位于上方, 第六片式结构 24位于下方。 第五片式结构 23和第六片式结构 24 的两边可拆卸地连接在两个右主弦杆 50上。 引进口 21用于引入新的标准节。引进口 21所在位置两侧的右主弦杆 50上可拆卸 地设置有连接拉杆 22,两个连接拉杆 22对角设置在引进口 21。两个连接拉杆 22的下 端通过调节螺栓分别与两个右主弦杆 50连接, 并可以通过调节螺栓调节连接拉杆 22 的长度, 从而对引进口 21的引进面 20结构强度进行调整, 增强该处的结构强度。 当 需要引入标准节时, 只需要将两个连接拉杆 22 拆卸下来, 就可以将标准节从引进口 21引入, 操作简单方便。 两个连接面 30与主弦杆之间可拆卸地连接时, 连接面 30可以包括至少一组片式 结构, 该片式结构可拆卸地设置在主弦杆上。 如此, 当进行连接时, 可将主弦杆拆除 下来, 另行运输, 而将四个工作面的片式结构装车运输, 能够大量减少运输空间, 降 低运输成本。 在组装时, 由于均为片式结构, 且各片式结构的形状各不相同, 因此, 可以很方便地根据各片式结构的形状确定其在主弦杆上的安装位置,易于识别和安装, 操作简单方便, 兼具了运输空间小和装配效率高的优点。 根据本发明的实施例, 塔式起重机包括标准节和套设在标准节外的塔机爬升架, 该塔机爬升架为上述任一种塔机爬升架。 从以上的描述中, 可以看出, 本发明上述的实施例实现了如下技术效果: 塔机爬 升架包括爬升面、 引进面以及连接爬升面和引进面的两个连接面, 爬升面、 引进面和 两个连接面通过主弦杆连接, 爬升面和引进面各自包括至少一组片式结构, 片式结构 为整体式, 并可拆卸地连接在主弦杆上。 当需要对塔机爬升架进行运输时, 能够将塔 机爬升架按照各个面拆分成多个片式结构, 每个片式结构占用空间较少, 因此能够减 少运输空间占用, 降低运输成本, 当对塔机爬升架进行组装时, 可以将四个面直接进 行组装, 避免了多个零件组装所带来的不易辨识, 装配麻烦的问题, 能够提高组装效 率。 以上所述仅为本发明的优选实施例而已, 并不用于限制本发明, 对于本领域的技 术人员来说, 本发明可以有各种更改和变化。 凡在本发明的精神和原则之内, 所作的 任何修改、 等同替换、 改进等, 均应包含在本发明的保护范围之内。 BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the field of construction hoisting machinery, and in particular to a tower crane climbing frame and a tower crane including the same. BACKGROUND OF THE INVENTION Existing tower cranes have two main forms. The first one is a pole structure. The climbing frame of this structure, all the webs and the jacking beams are connected to the main string by pins or bolts. On the pole, it can be dismantled into a single-rod structure when transported, which can save a lot of transportation space and reduce transportation costs. However, when the pole structure is installed on the construction site, the assembly unit is too much, and the similar structure is more and difficult to identify, so the assembly is troublesome, the assembly efficiency is low, and the efficiency of installation and disassembly is seriously affected. The second is to adopt a monolithic structure. The web of the introduction side of this structure is bolted to the main chord, and the other three sides are integrally welded. When the structure is installed, the introduction surface structure only needs to be installed at the opening of the three-side structure of the integral welding, and the connection of the climbing frame can be realized by the connection, so that the assembly is convenient. However, during transportation, since the overall welded structure on the three sides takes up a large space, the transportation space cannot be fully utilized, resulting in wasted space and high transportation costs. SUMMARY OF THE INVENTION The present invention is directed to a tower crane climbing frame and a tower crane including the same, which can simplify the installation structure of the climbing frame, reduce the space occupation during the transportation of the climbing frame, and improve the installation efficiency. In order to achieve the above object, according to an aspect of the invention, a tower crane climbing frame is provided, comprising a climbing surface, an introduction surface, and two connection faces connecting the climbing surface and the introduction surface, the climbing surface, the introduction surface and the two connection surfaces. By the main chord connection, the climbing surface and the introduction surface each comprise at least one set of sheet structures, the sheet structure being unitary and detachably coupled to the main chord. Further, the main chord includes two left main chords and two right main chords, the climbing surface is disposed between the two left main chords, and the introduction surface is disposed between the two right main chords. Further, the sheet structure includes a first sheet structure located at the bottom of the climbing surface and disposed outside of the two left main chords. Further, the sheet structure further includes a second sheet structure, a third sheet structure and a fourth sheet structure detachably disposed between the two left main chords from the top of the climbing surface, and the fourth The bottom of the chip structure has a connecting beam, and the first piece structure and the connecting beam of the fourth piece structure are connected by a web, the first piece structure, the second piece structure, the third piece structure, the web and The fourth piece of structure forms a climbing surface. Further, the introduction surface includes an inlet, and the right main chord on both sides of the inlet is detachably provided with a connecting rod, and the two connecting rods are diagonally disposed at the inlet. Further, the end of the connecting rod is adjustably connected to the right main chord by adjusting the length of the bolt. Further, the introduction surface further comprises a fifth sheet structure disposed above the connecting rod and a sixth sheet structure disposed under the connecting rod, and the fifth sheet structure, the sixth sheet structure and the connecting rod form an introduction surface. Further, the sheet structure includes at least one cross bar and two diagonal bars welded to the cross bar. Further, the connecting surface includes at least one set of detachably disposed sheet structures. According to another aspect of the present invention, there is provided a tower crane comprising a standard section and a tower crane that is nested outside the standard section, the tower crane being any of the tower cranes of any of the above. According to the technical solution of the present invention, the tower crane includes a climbing surface, an introduction surface, and two connection surfaces connecting the climbing surface and the introduction surface, the climbing surface, the introduction surface and the two connection surfaces are connected by the main chord, the climbing surface and the introduction The faces each comprise at least one set of sheet structures, the sheet structure being unitary and detachably attached to the main chord. When the tower crane climbing frame needs to be transported, the tower crane climbing frame can be divided into a plurality of chip structures according to each surface, and each chip structure takes up less space, thereby reducing transportation space occupation and reducing transportation cost. When the tower crane is assembled, the four faces can be assembled directly, which avoids the problem that the assembly of multiple parts is difficult to identify, and the assembly is troublesome, and the assembly efficiency can be improved. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in FIG. In the drawings: FIG. 1 is a schematic front view showing a tower crane climbing frame according to an embodiment of the present invention; FIG. 2 is a left side structural view showing a tower crane climbing frame according to the embodiment of FIG. 3 is a schematic right side view showing the tower crane of the embodiment according to the embodiment of FIG. 1; 4 is a schematic structural view showing a connecting surface of a tower crane according to an embodiment of the present invention; FIG. 5 is a schematic structural view showing a first sheet structure of a tower crane according to an embodiment of the present invention; 6 is a schematic structural view showing a third sheet structure of a tower crane according to an embodiment of the present invention; and FIG. 7 is a view showing a structure of a second sheet structure of a tower crane according to an embodiment of the present invention. schematic diagram. BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the embodiments in the present application and the features in the embodiments may be combined with each other without conflict. As shown in FIGS. 1 to 3, a tower crane includes an oppositely disposed climbing surface 10 and an introduction surface 20, and two connection surfaces 30 connected between the climbing surface 10 and the introduction surface 20, according to an embodiment of the present invention. The climbing surface 10, the introduction surface 20 and the two connecting surfaces 30 are detachably connected by four main chords. Wherein the climbing surface 10 and the introduction surface 20 each comprise at least one set of sheet structures, the sheet structure being a unitary structure and detachably coupled to the main chord. The two connecting faces 30 can be welded to the two main chords respectively to form two integral structures, or can be detachably coupled to the main chord. The main chord includes two left main chords 40 and two right main chords 50, the climbing surface 10 is disposed between the two left main chords 40, and the introduction surface 20 is disposed between the two right main chords 50. When the tower crane is in the transport state, the climbing surface 10, the introduction surface 20 and the two connecting surfaces 30 are separately transported, which can effectively utilize the transportation space and reduce the space occupation of the integral structure, thereby reducing transportation costs. When the tower crane climbing frame needs to be assembled at the construction site, the climbing surface 10, the introduction surface 20 and the two connecting surfaces 30 are assembled, the assembly speed can be accelerated, and the parts caused by excessive assembly parts are not easily recognized, and the installation is inconvenient. The problem is that the working faces (ie, the climbing surface 10, the introduction surface 20 and the two connecting surfaces 30) can be directly combined, which reduces the assembly steps and improves the assembly efficiency. Referring to Figures 4 to 7, the tower crane can include two integral connecting faces 30, and a climbing face 10 and an incoming face 20 having a sheet structure, two left main chords 40 and two right The main chords 50 are respectively located on both sides of the two connecting faces 30, and the climbing face 10 and the introduction face 20 are fixedly coupled to the two left main chords 40 and the two right main chords 50. When disassembling, the climbing surface 10 and the introduction surface 20 are removed from the main chord, and then loaded and transported. Since the four working surfaces are split into a piece structure, they can be stacked to reduce the tower crane. Space occupation during transportation. When assembling, the two connecting faces 30 are first positioned, and then the climbing face 10 and the leading face 20 of the sheet structure are installed between the left main chord 40 and the right main chord 50 to complete the tower crane climbing frame. Assembly. Since the two connecting faces 30 are of a unitary structure, it is more convenient to mount and position the climbing face 10 and the lead-in face 20 of the chip structure. The sheet structure of the climbing surface 10 of the tower crane may be an integral sheet structure detachably disposed between the two left main chords 40, or may include a plurality of left main chords arranged in sequence. A slice structure between 40. In the present embodiment, the climbing surface 10 includes a second sheet structure 12, a third sheet structure 13, and a fourth portion that are detachably disposed between the two left main chords 40 in order from the top of the climbing surface 10. The sheet structure 14 and the first sheet structure 11, wherein the fourth sheet structure 14 comprises a connecting beam 16 disposed at the bottom, and the fourth sheet structure 14 and the first sheet structure 11 are passed between the two webs 15 connection. The upper ends of the two webs 15 are connected to the middle of the connecting beam 16, and the lower ends are respectively connected to the two top connecting plates 111 of the first sheet structure 11. The arrangement of such a structure is determined by the manner in which the first sheet structure 11 is disposed. The first sheet structure 11 is disposed outside the two left main chords 40, so that in order to secure the connection of the first sheet structure 11 and the fourth sheet structure 14, a transition is made between the two webs 15 therebetween Connections enable better connection. The plurality of sheet structures that make up the climbing surface 10 can also be other numbers of sheet structures. Each of the sheet structures includes at least one crossbar and two diagonal rods attached to the crossbar to form a triangular joint structure to ensure a stable connection of the respective sheet structures of the climbing frame. The introduction face 20 includes a fifth sheet structure 23 and a sixth sheet structure 24 respectively disposed at both ends of the two right main chords 50, and an introduction inlet between the fifth sheet structure 23 and the sixth sheet structure 24. twenty one. The fifth sheet structure 23 is located above and the sixth sheet structure 24 is located below. Both sides of the fifth sheet structure 23 and the sixth sheet structure 24 are detachably coupled to the two right main chords 50. Import 21 is used to introduce a new standard section. The right main chord 50 on both sides of the position where the inlet 21 is located is detachably provided with a connecting rod 22, and the two connecting rods 22 are diagonally disposed at the inlet 21 . The lower ends of the two connecting rods 22 are respectively connected to the two right main chords 50 by adjusting bolts, and the length of the connecting rods 22 can be adjusted by the adjusting bolts, thereby adjusting the structural strength of the introduction surface 20 of the inlet 21, enhancing the position Structural strength. When it is necessary to introduce the standard section, only the two connecting rods 22 need to be removed, and the standard section can be introduced from the inlet 21, which is simple and convenient to operate. When the two attachment faces 30 are detachably coupled to the main chord, the attachment face 30 can include at least one set of sheet structures that are removably disposed on the main chord. In this way, when the connection is made, the main chord can be removed and transported separately, and the sheet structure of the four working faces can be loaded and transported, which can greatly reduce the transportation space and reduce the transportation cost. In the assembly, since the chip structure is different, and the shape of each chip structure is different, it is convenient to determine the mounting position on the main chord according to the shape of each chip structure, which is easy to identify and install. The operation is simple and convenient, and has the advantages of small transportation space and high assembly efficiency. In accordance with an embodiment of the present invention, a tower crane includes a standard section and a tower crane that is nested outside the standard section, the tower crane being any of the tower cranes described above. From the above description, it can be seen that the above-described embodiments of the present invention achieve the following technical effects: The tower crane includes a climbing surface, an introduction surface, and two connection surfaces connecting the climbing surface and the introduction surface, the climbing surface, and the introduction surface. And the two connecting faces are connected by a main chord, the climbing face and the introducing face each comprise at least one set of sheet structure, the sheet structure is integral and detachably connected to the main chord. When the tower crane climbing frame needs to be transported, the tower crane climbing frame can be divided into a plurality of chip structures according to each surface, and each chip structure takes up less space, thereby reducing transportation space occupation and reducing transportation cost. When the tower crane is assembled, the four faces can be assembled directly, which avoids the problem that the assembly of multiple parts is difficult to identify, and the assembly is troublesome, and the assembly efficiency can be improved. The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes can be made to the present invention. Any modifications, equivalent substitutions, improvements, etc. made within the spirit and scope of the present invention are intended to be included within the scope of the present invention.

Claims

权 利 要 求 书 Claim
1. 一种塔机爬升架, 包括爬升面 (10)、 引进面 (20) 以及连接所述爬升面 (10) 和引进面 (20) 的两个连接面 (30), 所述爬升面 (10)、 引进面 (20) 和两个 连接面通过主弦杆连接, 其特征在于, 所述爬升面 (10) 和所述引进面 (20) 各自包括至少一组片式结构, 所述片式结构为整体式, 并可拆卸地连接在所述 主弦杆上。 A tower crane climbing frame comprising a climbing surface (10), an introduction surface (20), and two connection surfaces (30) connecting the climbing surface (10) and the introduction surface (20), the climbing surface ( 10), the introduction surface (20) and the two connection faces are connected by a main chord, wherein the climbing surface (10) and the introduction surface (20) each comprise at least one set of sheet structures, the sheets The structure is monolithic and detachably coupled to the main chord.
2. 根据权利要求 1所述的塔机爬升架, 其特征在于, 所述主弦杆包括两个左主弦 杆(40)和两个右主弦杆(50),所述爬升面( 10)设置在两个所述左主弦杆(40) 之间, 所述引进面 (20) 设置在两个所述右主弦杆 (50) 之间。 2. The tower crane climbing frame according to claim 1, wherein the main chord includes two left main chords (40) and two right main chords (50), the climbing surface (10) ) is disposed between two of the left main chords (40), and the introduction surface (20) is disposed between the two of the right main chords (50).
3. 根据权利要求 2所述的塔机爬升架, 其特征在于, 所述片式结构包括位于所述 爬升面(10)底部并设置在两个所述左主弦杆(40)外侧的第一片式结构(11 )。 3. The tower crane climbing frame according to claim 2, wherein the sheet structure comprises a portion located at the bottom of the climbing surface (10) and disposed outside the two left main chords (40) One piece structure (11).
4. 根据权利要求 3所述的塔机爬升架, 其特征在于, 所述片式结构还包括从所述 爬升面 (10) 的顶部向下依次可拆卸地设置在两个所述左主弦杆 (40) 之间的 第二片式结构 (12)、 第三片式结构 (13 ) 和第四片式结构 (14), 所述第四片 式结构 (14)底部具有连接横梁(16), 所述第一片式结构 (11 )与所述第四片 式结构 (14) 的连接横梁 (16) 之间通过腹杆 (15 ) 连接, 所述第一片式结构4. The tower crane climbing frame according to claim 3, wherein the sheet structure further comprises detachably disposed on the left main chord from the top of the climbing surface (10) a second sheet structure (12), a third sheet structure (13) and a fourth sheet structure (14) between the rods (40), the bottom portion of the fourth sheet structure (14) having a connecting beam (16) The first sheet structure (11) and the connecting beam (16) of the fourth sheet structure (14) are connected by a web (15), the first sheet structure
( 11 )、 所述第二片式结构 (12)、 所述第三片式结构 (13 )、 所述腹杆(15 )和 所述第四片式结构 (14) 形成所述爬升面 (10)。 (11), the second sheet structure (12), the third sheet structure (13), the web (15), and the fourth sheet structure (14) form the climbing surface ( 10).
5. 根据权利要求 2至 4中任一项所述的塔机爬升架,其特征在于,所述引进面 (20) 包括引进口 (21 ), 所述引进口 (21 )两侧的所述右主弦杆(50)上可拆卸地设 置有连接拉杆(22), 两个所述连接拉杆(22)对角设置在所述引进口 (21 )处。 The tower crane climbing frame according to any one of claims 2 to 4, characterized in that the introduction surface (20) comprises an inlet (21), the said inlet (21) on both sides of the A connecting rod (22) is detachably disposed on the right main chord (50), and the two connecting rods (22) are diagonally disposed at the inlet (21).
6. 根据权利要求 5所述的塔机爬升架, 其特征在于, 所述连接拉杆 (22) 的端部 通过调节螺栓长度可调地与所述右主弦杆 (50) 连接。 6. A tower crane according to claim 5, characterized in that the end of the connecting rod (22) is adjustably connected to the right main chord (50) by adjusting the length of the bolt.
7. 根据权利要求 5所述的塔机爬升架, 其特征在于, 所述引进面 (20) 还包括设 置在所述连接拉杆 (22) 的上方的第五片式结构 (23 ) 和设置在所述连接拉杆7. The tower crane climbing frame according to claim 5, wherein the introduction surface (20) further comprises a fifth sheet structure (23) disposed above the connecting rod (22) and disposed at The connecting rod
(22) 下方的第六片式结构 (24), 所述第五片式结构 (23 )、 所述第六片式结 构 (24) 和所述连接拉杆 (22) 形成所述引进面 (20)。 根据权利要求 1至 4中任一项所述的塔机爬升架, 其特征在于, 所述片式结构 包括至少一个横杆和焊接在所述横杆上的两个斜杆。 根据权利要求 1至 4中任一项所述的塔机爬升架,其特征在于,所述连接面 (30) 包括至少一组可拆卸地设置的所述片式结构。 一种塔式起重机, 包括标准节和套设在所述标准节外的塔机爬升架, 其特征在 于, 所述塔机爬升架为权利要求 1至 9中任一项所述的塔机爬升架。 (22) a sixth sheet structure (24) below, the fifth sheet structure (23), the sixth sheet structure (24) and the connecting rod (22) forming the introduction surface (20) ). A tower crane climbing frame according to any one of claims 1 to 4, wherein the sheet structure comprises at least one cross bar and two diagonal bars welded to the cross bar. The tower crane climbing frame according to any one of claims 1 to 4, characterized in that the connecting surface (30) comprises at least one set of the sheet structure detachably arranged. A tower crane comprising a standard section and a tower crane that is nested outside the standard section, wherein the tower crane is a tower crane climb according to any one of claims 1 to 9. frame.
PCT/CN2012/082074 2012-04-05 2012-09-26 Tower crane climbing frame and tower crane including same WO2013149457A1 (en)

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