CN216403632U - Split type cable carries loop wheel machine - Google Patents

Abstract

The utility model discloses a split type cable carrying crane, which comprises: a lifting bracket which is arranged below the main cable and supports the beam section to be erected; the lifting devices are arranged on the main cables, the top of any group of lifting devices is fixedly connected with the main cable on the same side, the bottom of the lifting device is connected with the lifting support on the same side, and the lifting devices are used for adjusting the vertical distance between the lifting support and the main cables; the swinging device is arranged above the main cable, any group of swinging devices comprises two crown blocks which are arranged at intervals and walk along the traction cable, and any crown block is detachably connected with the lifting device on the same side through the swinging rope. The lifting device is arranged on the main cable in a module mode by adopting a split structure, the lifting support supports a beam section to be erected from the lower part, the beam section at the cable beam intersection section is installed, the lifting device is matched with the swinging device, the lifting device is moved quickly by the alternate swinging of the crown blocks, and the construction efficiency is ensured, and the construction of the main beam of the suspension bridge under different conditions is met.

Description

Split type cable carries loop wheel machine

Technical Field

The utility model relates to the technical field of hoisting equipment. More particularly, the present invention relates to a split cable crane.

Background

In the construction of a suspension bridge, an integrated cable crane or a cable crane is generally adopted to span the section of the main bridge and support the two sides of the main bridge on a main cable. The traditional cable crane is mostly of an integrated structure, when span change exists between main cables, the application capability of the integrated cable crane is weak, the full-length erection of a main beam of a suspension bridge can be smoothly realized only by correspondingly changing the length and strength rigidity of the main beam of the cable crane, and the construction progress is seriously influenced; and limited by the construction structure, when the height of the main cable is lower than that of the beam section to be erected, the integrated cable crane cannot erect the cable beam intersection section.

In order to solve the above problems, it is necessary to provide a split type cable crane to adapt to the erection construction of the main girder of the suspension bridge under various different conditions and to ensure the construction efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a split type cable crane which adopts a split type structure, lifting mechanisms are relatively and independently arranged on a main cable in a module mode, swing devices are correspondingly arranged above the main cable, the quick movement of the lifting mechanisms on the main cable is realized through the alternate swing of crown blocks, so that the cable crane can better adapt to the trend change of the main cable, meanwhile, a beam section to be erected is supported from the lower part through a lifting support, and the lifting and the installation of the beam section positioned at the crossed section of a cable beam are realized by matching with the lifting devices, thereby satisfying the erection construction of a main beam of a suspension bridge under various different conditions under the condition of ensuring the construction efficiency.

To achieve these objects and other advantages in accordance with the purpose of the utility model, there is provided a split type cable crane, comprising:

the two lifting brackets are respectively arranged right below the main cables on the two sides, and any lifting bracket is arranged along the length direction of the bridge and supports a beam section to be erected;

the lifting device comprises two groups of lifting devices, a lifting mechanism and a lifting mechanism, wherein the two groups of lifting devices are respectively arranged on the main cables at two sides, any group of lifting device comprises a plurality of lifting mechanisms which are arranged at intervals along the length direction of the main cables, the top of any lifting mechanism is fixedly connected with the main cable at the same side, the bottom of the lifting mechanism is connected with the lifting support at the same side, and the lifting mechanisms are arranged for adjusting the vertical distance between the lifting support and the main cables;

the two groups of swing devices are respectively arranged right above the main cables on the two sides, and any one group of swing device comprises a traction cable which is arranged along the length direction of the main cables and is anchored on the two banks of the bridge; the two crown blocks are arranged on the traction cable at intervals, and any crown block walks along the traction cable; two swing ropes, it respectively with two overhead traveling cranes correspond, and the top of arbitrary swing rope is connected with the overhead traveling crane that corresponds through hoisting device, and the bottom can be dismantled with the hoist mechanism of homonymy and be connected.

Preferably, the split cable crane, the lifting frame comprises a bailey frame; the connecting seats are arranged on the bottom cross beam of the bailey truss at intervals along the length direction of the bridge and correspond to the lifting mechanisms one by one, and any connecting seat is connected with the bottom of the corresponding lifting mechanism; and the supporting seats are arranged on the top cross beam of the Bailey truss at intervals, and any supporting seat is supported at the bottom of the beam section to be erected and is detachably connected with the beam section to be erected.

Preferably, the split cable crane comprises a first cable clamp, the top end of which is fixed on the main cable; the lifting jack is vertically arranged, and the top end of the lifting jack is fixedly connected with the bottom end of the first cable clamp; the rope retracting device is fixed on one side of the lifting jack; one end of the steel strand is fixed on the rope collector, and the other end of the steel strand vertically penetrates through the lifting jack downwards; the lifting seat is located under the lifting jack, the top end of the lifting seat is fixedly connected with the bottom end of the steel strand, and the bottom end of the lifting seat is detachably connected with the corresponding connecting seat.

Preferably, the split cable crane further comprises a second cable clamp fixed to the main cable, the second cable clamp being located at an end of the first cable clamp where the first cable clamp tends to slide down and abutting against the second cable clamp.

Preferably, the split cable crane further comprises two brackets symmetrically arranged at two sides of the lifting jack and not interfering with the rope winder;

the rope that sways includes that two sway the rope, and it is located respectively the both sides of overhead traveling crane and with two corbels correspond, and the one end of arbitrary sway the rope is passed through hoisting apparatus with the overhead traveling crane is connected, and the other end can be dismantled with the corbel that corresponds and be connected.

Preferably, the split cable crane, the hoisting device is a chain block, and the hoisting device is configured to adjust the lowering length of the sway rope.

The utility model at least comprises the following beneficial effects:

1. the utility model adopts a split structure and modular arrangement, each lifting mechanism is taken as an independent module to be connected on the main cable, and the lifting mechanism is quickly moved to the next beam section mounting position on the main cable by means of the alternate swing of the two crown blocks, thereby solving the problem of quick movement of the split type cable crane between different lifting points, meanwhile, the lifting support supports the beam section to be erected from the lower part, and the lifting device is matched to hoist not only the main beam below the conventional main cable but also the main beam at the cable beam intersecting section, so that the difficult problem of hoisting the beam section under the special condition of the cable beam intersecting section is solved, thereby, the split type cable crane can better adapt to the beam section construction with large span change and height change of the main cable, in addition, extra modification or temporary support erection is not needed to be carried out on the cable crane in the construction process, so that the construction efficiency and the construction quality are effectively ensured;

2. the lifting mechanism is arranged on the main cable, so that a constructor can conveniently assist and monitor the lifting and the installation of a beam section from the catwalk and overhaul the lifting mechanism, the construction stability is ensured, and the construction safety is improved;

3. according to the lifting support, a bailey frame layering mode is adopted, the connecting seat connected with the lifting device is arranged on the bottom cross beam, and the supporting seat connected with the beam section to be erected is arranged on the top cross beam, so that the lifting space of the steel strand on the lifting mechanism is increased while the material of the lifting support is not increased, and the condition that the space between the main cable and the bottom of the main beam at the cable-beam intersection section is limited can be better adapted;

4. according to the utility model, the lifting mechanism is alternately moved forwards along the construction direction by matching the crown block and the swinging rope, so that the lifting mechanism is prevented from being firstly disassembled and assembled to the ground (or water surface) and then conveyed to the installation position of the next beam section when moving, the use of large-scale hoisting equipment is reduced, and the construction efficiency is further improved.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

FIG. 1 is a schematic elevational view of a split cable crane according to one embodiment of the present invention;

fig. 2 is a schematic side elevation structure view of the split type cable crane in the above embodiment;

FIG. 3 is a schematic elevation view of the lifting frame of the above embodiment;

FIG. 4 is a schematic side elevational view of the lifting bracket of the above embodiment;

FIG. 5 is a schematic side elevational view of the lifting mechanism in the above embodiment;

fig. 6 is a schematic construction structure diagram of S42 in the construction method of the split type cable crane in the above embodiment;

fig. 7 is a schematic construction structure diagram of S43 in the above embodiment.

Description of reference numerals:

1. lifting the support; 11. a bottom cross member; 12. a top cross beam; 13. a connecting seat; 14. a supporting seat; 2. a lifting mechanism; 21. a first cable clamp; 22. lifting the jack; 23. a rope retracting device; 24. steel strand wires; 25. a second cable clamp; 26. a bracket; 27. a hydraulic pump station; 31. a traction cable; 32. a first crown block; 33. swinging the rope; 34. a hoisting device; 35. a second crown block; 41. a beam section to be erected; 42. a beam segment has been installed; 5. a main cable; 6. a boom; 7. a catwalk.

Detailed Description

The present invention is further described in detail below with reference to the attached drawings so that those skilled in the art can implement the utility model by referring to the description text.

It is to be noted that the experimental methods described in the following embodiments are all conventional methods unless otherwise specified, and the reagents and materials, if not otherwise specified, are commercially available; in the description of the present invention, the terms "lateral", "longitudinal", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

As shown in fig. 1-7, the present invention provides a split type cable crane, comprising:

two lifting brackets 1 are respectively arranged right below the main cables 5 on the two sides, and any one lifting bracket 1 is arranged along the length direction of the bridge and supports a beam section 41 to be erected;

the lifting device comprises two groups of lifting devices, wherein the two groups of lifting devices are respectively arranged on main cables 5 on two sides, each group of lifting device comprises a plurality of lifting mechanisms 2 which are arranged at intervals along the length direction of the main cables 5, the top of each lifting mechanism 2 is fixedly connected with the main cable 5 on the same side, the bottom of each lifting mechanism 2 is connected with a lifting support 1 on the same side, and each lifting mechanism 2 is used for adjusting the vertical distance between each lifting support 1 and the corresponding main cable 5;

the two groups of swing devices are respectively arranged right above the main cables 5 on the two sides, and any one group of swing device comprises a traction cable 31 which is arranged along the length direction of the main cables 5 and is anchored on the two banks of the bridge; two crown blocks which are arranged on the traction cable 31 at intervals, and any crown block walks along the traction cable 31; two swing ropes 33, it respectively with two overhead traveling cranes correspond, and arbitrary swing rope 33's top is connected with the overhead traveling crane that corresponds through hoisting device 34, and the bottom can be dismantled with the hoist mechanism 2 of homonymy and be connected.

Among the above-mentioned technical scheme, two promote support 1 symmetries and set up in the bridge both sides, and arbitrary promotion support 1 is located under the main push-towing rope 5 of homonymy and sets up along the length direction of bridge, and two promote support 1 and support respectively and wait to erect the both sides of beam section 41, cooperate two sets of hoisting device synchro adjustment to realize waiting to erect the stable promotion of beam section 41. Owing to adopt split type structure, a plurality of hoist mechanism 2 relatively independent distribution among the hoisting device are on main rope 5, and two promote support 1 also relatively independent and be connected with two hoisting device respectively, when the height of main rope, span between the main rope have the change, hoist mechanism's construction position, promote the support position of support and all directly adapt to the trend change of main rope, need not reequip or adjust original support, have effectively saved construction cost and have guaranteed the efficiency of construction. Meanwhile, the lifting support 1 supports the beam section 41 to be erected from the lower part, and the top of the beam section 41 to be erected can exceed the height position of the main cable 5 during lifting, so that the split type cable crane can hoist the main beam below the conventional main cable and hoist the main beam at the cable beam intersection section, and the difficult problem of hoisting the beam section under special conditions such as the cable beam intersection section is solved. In addition, two sets of swing devices are correspondingly arranged above the two sets of lifting devices, and two crown blocks of any set of swing devices can alternately swing after being respectively connected with the same lifting mechanism 2 through swing ropes 33 so as to realize the movement of the lifting mechanism 2 on the main cable 5. After the lifting device is matched with the lifting support 1 to complete the lifting of the beam section 41 to be erected and is hoisted on the main cable 5, the lifting support 1 is firstly disassembled from the lifting device, so that the lifting mechanism 2 is restored to an independent state, and then the lifting device can be connected with the lifting mechanism 2. Specifically, the traction cable 31 is correspondingly arranged right above the main cable 5 and is parallel to the main cable, the crown blocks can freely walk on the traction cable 31 under the drive of a conventional power device (such as a motor), the two crown blocks positioned on the same traction cable 31 are respectively a first crown block 32 and a second crown block 35 from the rear end to the front end of the construction direction, and the two crown blocks are both connected with the lifting mechanism 2 through an oscillation rope 33. Under the initial condition, second crown block 35 is located hoist mechanism 2's oblique place ahead, transfer first crown block 32's the rope 33 that moves this moment, make hoist mechanism 2 be close to and move down to second crown block 35's direction, hoist mechanism 2's the weight shifts gradually to second crown block 35 on, then drive first crown block 32 and draw close to second crown block 35, upwards tighten up first crown block 32 move rope 33 that moves, make hoist mechanism 2 vertically move up and hang the weight and get back to again on first crown block 32, accomplish single certain distance's hoist mechanism's position removal promptly. Through controlling the length that the rope 33 that moves about transfers and tighten up respectively, can guarantee that hoist mechanism 2 moves down and move up twice after, hoist mechanism 2 does not change with main cable 5's relative height, even under main cable 5 itself has the condition of altitude variation, also can realize hoist mechanism 2's quick travel and move back in the horizontal (along main cable 5's length direction) and again with main cable 5 high-speed joint. When the main cable 5 is erected and constructed, a catwalk 7 for assisting construction is arranged below the main cable in a matched mode, the lifting mechanism 2 is installed on the main cable 5, constructors can conveniently assist and monitor lifting and installation of a beam section from the catwalk 7, the lifting mechanism is overhauled, and construction safety is improved while construction stability is guaranteed; the construction of the swing device can also use the original structures of a traction cable, a crown block and the like in catwalk construction, fully utilize the original auxiliary structure in main cable construction, and further save the construction time.

In the present embodiment, the plurality of lifting mechanisms in the same lifting device are two lifting mechanisms, which are respectively disposed at two ends of the corresponding lifting bracket 1. When the beam section 41 to be erected is lifted, the connection between the swing rope 33 and the lifting mechanism 2 is in an unlocking state, the lifting support 1 and the beam section 41 to be erected are synchronously adjusted in height by adopting the four modularized lifting mechanisms 2, after the beam section 41 to be erected is lifted to the right and is hoisted on the main cable 5, the connection between the installed beam section 42 and the lifting support 1 is unlocked, the lifting support 1 is placed on the ground or a ship through the lifting mechanism 2, then the connection between the lifting mechanism 2 and the lifting support 1 is unlocked, the swing rope 33 and the lifting mechanism 2 are connected, the swing device is used for swinging construction of the lifting mechanism 2, and the swing device is moved to the construction position of the next beam section 41 to be erected. Above-mentioned structure makes split type cable carry loop wheel machine adaptation main push-towing winch that can be better have the girder segment construction of great span change and altitude variation, and need not carry out extra repacking or temporary support's the setting up to cable carry loop wheel machine in the construction, has effectively guaranteed efficiency of construction and construction quality.

In another technical solution, in the split cable crane, the lifting frame 1 includes a bailey frame; the connecting seats 13 are arranged on the bottom cross beam 11 of the bailey truss at intervals along the length direction of the bridge and correspond to the lifting mechanisms 2 one by one, and any connecting seat 13 is connected with the bottom of the corresponding lifting mechanism 2; a plurality of support bases 14 are arranged at intervals on the top cross beam 12 of the bailey truss, and any support base 14 is supported at the bottom of the beam section 41 to be erected and is detachably connected with the beam section. Wherein, bailey frame is the three-dimensional frame that sets up along the length direction of bridge, take four hoist mechanism 2 (two sets of hoisting device) in this embodiment as the example, correspond with two coupling mechanism of homonymy, bailey frame's both ends are provided with connecting seat 13 respectively, arbitrary connecting seat 13 is lug structure, can dismantle with hoist mechanism 2's lower extreme and be connected, conveniently hang up whole bailey frame through hoist mechanism 2, bailey frame middle part is equipped with two supporting seats 14, supporting seat 14 is used for supporting and waits to erect beam segment 41, and be connected through the corresponding mount pad on bolt and the beam segment 41 that waits to erect. Promote support 1 and adopt both ends connecting seat 13 to sink (setting on bottom crossbeam 11), the scheme that middle part supporting seat 14 was raised (setting on top crossbeam 12), when not increasing the promotion support material, the hoist and mount space when using hoist mechanism 2 to connect promotion support 1 has been increased, the main push-towing winch of adaptation cable roof beam crossing section that makes whole split type cable carry can be better and the limited condition in bottom space of beam section, it is convenient, the construction is promoted and erects to the quick beam section that carries on, there is the beam section hoist and mount difficult problem under the special conditions such as the crossing section of cable roof beam.

In another embodiment of the split cable crane, the lifting mechanism 2 includes a first cable clamp 21, and the top end of the first cable clamp is fixed to the main cable 5; the lifting jack 22 is vertically arranged, and the top end of the lifting jack is fixedly connected with the bottom end of the first cable clamp 21; a rope retractor 23 fixed to one side of the lifting jack 22; one end of the steel strand 24 is fixed on the rope collector 23, and the other end vertically penetrates through the lifting jack 22 downwards; the lifting seat is located right below the lifting jack 22, the top end of the lifting seat is fixedly connected with the bottom end of the steel strand 24, and the bottom end of the lifting seat is detachably connected with the corresponding connecting seat 13. Specifically, the first cable clamp 21 is a temporary cable clamp, which has a two-piece structure and can be folded from both sides to clamp the main cable 5, the two clamping pieces can be locked by bolts, and the lower part of the first cable clamp 21 is connected with an external fixing structure (lifting jack bracket) of the lifting jack 22; the lifting jack 22 is a steel strand jack, and a rope collector 23 is arranged on the side surface of the lifting jack and is used for being matched with the steel strand jack to collect and release a steel strand 24; one end of the steel strand 24 is fixed on the rope collecting device 23, the other end of the steel strand is coiled along the rope collecting device 23 and then vertically penetrates through the lifting jack 22 from the upper side, the lifting jack 22 is connected with the connecting seat 13 on the lifting support 1 below, the lifting jack 22 can drive the steel strand 24 to stably move along the vertical direction, and therefore the displacement of the lifting support 1 along the vertical direction is controlled. In addition, hoist mechanism 2 still includes hydraulic power unit 27, and it can set up on catwalk 7 of main push-towing rope 5 below or on the construction platform of main push-towing rope 5 top, hydraulic power unit 27 is used for providing power for hoisting device, and when hoisting device took place lateral shifting, need move hydraulic power unit 27 towards same direction correspondence, make its stable drive hoist mechanism 2 work. The steel strand jack can stably lift heavy objects with large weight, so that the beam section 41 to be erected is kept stable in the lifting process, and the beam section is conveniently and quickly lifted after being lifted in place. A plurality of hoisting mechanisms of the hoisting device have the same structure, adopt a modularized mode, select a proper number of hoisting mechanisms according to the size and specification of the girder section, and can adapt to the hoisting construction of the girder sections of different bridges under various different environments.

In another embodiment of the split cable crane, the lifting mechanism 2 further includes a second cable clamp 25 fixed to the main cable 5, and the second cable clamp 25 is located at an end of the first cable clamp 21 where the first cable clamp has a downward sliding tendency and abuts against the end of the first cable clamp. In the above technical solution, the second cable clamp 25 is a locking cable clamp, and because the main cable 5 is arranged at a certain inclination angle, and the lifting mechanism 2 is influenced by the pulling force of the weight to be lifted below after being installed, the first cable clamp 21 has a tendency of sliding down to a certain side (the construction direction or the reverse direction of the construction direction) on the main cable 5. Therefore, the end of the first cable clamp 21 with the downward sliding tendency is set as the downward sliding end, the second cable clamp 25 is arranged at the position close to the downward sliding end of the first cable clamp 21, the second cable clamp is fixed on the main cable 5 and can adjust the clamping force between the second cable clamp 25 and the main cable 5 by adjusting the prestress of the bolt on the second cable clamp 25, thereby controlling the clamping condition of the second cable clamp 25 according to the construction progress, effectively preventing the sliding of the hoisting mechanism in the hoisting construction process and further ensuring the stability of the whole split cable crane in construction.

In another embodiment, in the split cable crane, the lifting mechanism 2 further includes two brackets 26 symmetrically disposed on two sides of the lifting jack 22 and not interfering with the rope retractor 23;

swing rope 33 includes that two swing ropes are located respectively the both sides of overhead traveling crane and with two corbels 26 correspond, and the one end of arbitrary swing rope is passed through hoisting device 34 with the overhead traveling crane is connected, and the other end can be dismantled with the corbel 26 that corresponds and be connected.

Wherein, two corbels 26 symmetry on same hoist mechanism 2 are located the both sides of the main push-towing rope 5 of homonymy, and in order to avoid interfering, receive rope ware 23 should set up the outside fixed knot structure (the lifting jack support) of lifting jack 22 with two corbels 26 all adjacent one side, receive rope ware 23 promptly and be located the front end or the rear end (along the construction direction) of lifting jack 22. The two brackets 26 correspond to the two swing cables, respectively, in this embodiment, one end of the swing cable is fixed to the hoisting device 34, and the other end of the swing cable extends vertically downward and is connected to the corresponding bracket 26 of the lifting jack 22, and the hoisting device 34 can synchronously lower or tighten the two swing cables to adjust the height of the lifting mechanism 2 below by the crown block. The above-mentioned connecting structure of the brackets 26 and the swinging cables symmetrically arranged at both sides of the main cable 5 can further improve the stability of the construction of swinging the lifting mechanism by using the swinging device.

In another technical solution, in the split cable crane, the hoisting device 34 is a chain block, and is configured to adjust the lowering length of the sway rope 33. In this embodiment, hoisting apparatus 34 is preferably a chain block, and since swing and move the device and be located the same side main rope 5 directly over, constructor can be on catwalk 7 convenient operation chain block, directly adjusts swinging rope 33's the length of transferring to quick, the completion hoist mechanism 2 of preparing swing and move the construction, need not additionally install other large-scale hoisting equipment.

In this embodiment, the construction method of the split cable crane includes:

s1, installing two groups of lifting devices on the main cables 5 at two sides, correspondingly arranging two lifting brackets 1 on the ground below, fixing the beam section 41 to be erected on the tops of the two lifting brackets 1, and then connecting a plurality of lifting mechanisms 2 at the same side with the lifting devices;

wherein, the beam section 41 to be erected is fixed on the top cross beam 12 of the bailey truss through a plurality of supporting seats 14. When any lifting mechanism 2 is installed, the lifting mechanism 2 is integrally fixed at a set position (an installation position of a beam section 41 to be erected) below a main cable 5 through a first cable clamp 21, a second cable clamp 25 is installed at the lower sliding end of the first cable clamp 21, then a steel strand 24 is lowered by using a lifting jack 22 to enable a lifting seat to be close to a connecting seat 13 on the lifting support 1 on the ground, and the lifting seat is fixedly connected with the corresponding connecting seat 13 through bolts; before formally starting lifting construction, the prestress of the bolt on the second cable clamp 25 is increased according to requirements, so that the first cable clamp 21 is ensured not to slide down along the main cable 5 after being subjected to load tension of a lower beam section to be erected;

s2, synchronously driving the two lifting brackets 1 to move upwards by using the two groups of lifting devices until the beam section 41 to be erected is lifted to a set installation position, installing the beam section 41 to be erected by using a suspender 6 fixed on a main cable 5, and then removing the connection between the installed beam section 42 and the two lifting brackets 1;

the lifting jack 22 drives the steel strand 24 to move upwards, the lower end of the steel strand 24 drives the lifting support 1 to move upwards, and meanwhile, the rope winder 23 synchronously winds the upper end of the steel strand 24, so that the steel strand is wound neatly, and subsequent normal construction (hoisting of a beam section to be erected and the like) near the main cable 5 above the lifting jack 22 cannot be influenced; a plurality of suspension rods 6 are arranged on the main cable 5 according to a design drawing and are used for hoisting a main beam (namely a beam section to be erected) in sections, the top end of any suspension rod 6 is fixed on the main cable 5, the bottom end of the suspension rod 6 extends downwards, and the beam section is fixed with the main cable 5 through the suspension rod 6 after the beam section 41 to be erected is lifted in place, so that the beam section is installed; after the beam section is hoisted, the beam section 41 to be erected becomes an installed beam section 42, and the connection between the connecting seat 13 and the lifting seat can be released;

s3, placing the two lifting brackets 1 on the ground by using the two groups of lifting devices, and releasing the connection between the lifting bracket 1 and the plurality of lifting mechanisms 2 on the same side;

after the connection between the lifting support 1 and the lifting mechanism 2 is released (i.e. the connection between the connecting seat 13 and the lifting seat is released), the steel strand 24 is lifted by using the lifting jack 22, so that the lifting seat is moved to the upper limit position, and the lifting mechanism 2 is conveniently moved to the next mounting position by a swinging method;

s4, arranging swing devices above the main cables 5 on the two sides respectively, and using the swing devices to swing and move the lifting mechanisms 2 on the same side to the next beam section arrangement position on the main cables 5 in sequence;

and S5, repeating the steps S1-S4, and installing the next beam section 41 to be erected until all the beam sections of the bridge are erected.

Among the above-mentioned technical scheme, the quantity that lies in hoist mechanism 2 with one side is the same with the quantity of connecting seat 13 on the promotion support 1 and the one-to-one is connected, and in this embodiment, a set of hoisting device includes two hoist mechanism 2, and is corresponding, is equipped with two connecting seats 13 on the promotion support 1 with this set of hoisting device homonymy, and it sets up the both ends at bailey frame's bottom beam 11 respectively. When the lifting mechanism 2 is moved by using the swing device in S4, one lifting mechanism 2 located at the front end in the construction direction is moved first, and the other lifting mechanism 2 is moved after the lifting mechanism 2 is moved to the right position; when the number of the lifting mechanisms 2 in the same group of lifting devices is large, the lifting mechanisms 2 can be synchronously moved by increasing the number of the crown blocks and the swinging ropes, so that the swinging construction efficiency is improved.

Specifically, in S4, the method for performing the swing construction on any one of the lifting mechanisms 2 on the same side by using the swing device includes:

s41, connecting two crown blocks on the same side with the lifting mechanism 2 by using two swing ropes 33, respectively, setting the crown block at the rear end in the construction direction as a first crown block 32, the swing rope 33 connected therewith as a first swing rope, the crown block at the front end in the construction direction as a second crown block 35, and the swing rope 33 connected therewith as a second swing rope;

s42, moving the first crown block 32 to a position right above the lifting mechanism 2, moving the second crown block 35 to a position obliquely above the lifting mechanism 2, controlling the first swing rope to be in a vertically tightened state and the second swing rope to be in an obliquely tightened state by the lifting device 34, and then releasing the connection between the lifting mechanism 2 and the main cable 5;

the first swinging rope and the second swinging rope are connected with brackets 26 on two sides of a lifting jack 22, when the connection between the lifting mechanism 2 and the main cable 5 is released, the connection between the first cable clamp 21 and the main cable 5 and the connection between the second cable clamp 25 and the main cable 5 are released, the first cable clamp 21 and the lifting jack 22 are swung as a whole, the second cable clamp 25 is detached from the main cable 5 for standby, and the lifting mechanism 2 is installed after being moved to the next construction position;

s43, lowering the swinging rope I through the hoisting device 34, so that the lifting mechanism 2 gradually inclines and moves downwards to one side of the second crown block 35 until the lifting mechanism 2 moves to the position right below the second crown block 35 and the swinging rope II is converted into a vertical tightening state; at this time, the swing rope is converted into a tilt loosening state, and the hoisting weight of the lifting mechanism 2 is converted from the first crown block 32 to the second crown block 35;

s44, the second crown block 35 remains still, the first crown block 32 is moved to be close to the second crown block 35, then the first sway rope is tightened by the hoisting device 34, the sway rope is returned to a vertically tightened state, the lifting mechanism 2 moves up to an original installation height, at this time, the second sway rope is in a vertically loosened state, and the lifting weight of the lifting mechanism 2 is changed from the second crown block 35 to the first crown block 32; moving the second crown block 35 in the construction direction to return the second swing rope to the inclined and tightened state, and at this time, the lifting mechanism 2, the first swing rope and the second swing rope are all returned to the initial state (S42 state);

s45, repeating steps S43-S44 until the lifting mechanism 2 moves to the next beam segment erecting position.

In addition, in S4, when any crown block reaches the length area of the boom 6 during the moving process, the connection between the corresponding sway rope 33 and the lifting mechanism 2 is released, the crown block is driven to cross the length area of the boom 6, the sway rope 33 and the lifting mechanism 2 are connected again, and the subsequent sway construction is performed according to the content of the corresponding step. In the above technical solution, since the swing rope 33 is connected to the lifting mechanism 2 below the main cable 5 from the position of the overhead crane above the main cable 5, when the swing device and the lifting mechanism 2 move transversely as a whole, the boom 6 on the main cable 5 interferes with the integral moving mechanism, in order to prevent the hoisting structure such as the boom 6 from blocking the smooth transverse movement of the swing device, or the boom 6 is twisted with the swing rope 33, when the overhead crane moves to pass through the length area of the boom 6, the hoisting mechanism 2 is connected to the swing rope 33 on the overhead crane, at this time, the lifting mechanism 2 is only supported by another overhead crane, after the current overhead crane passes through the area of the boom 6, the corresponding swing rope 33 is reconnected to the bracket 26 of the lifting mechanism 2, and returns to the normal swing construction state, thereby ensuring the smooth progress of the swing construction, and the construction path 7 is arranged below the main cable 5, the repeated dismouting is carried out in being connected of rope 33 and bracket 26 that moves swinging to can be convenient, can not influence the efficiency of construction.

While embodiments of the utility model have been described above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the utility model pertains, and further modifications may readily be made by those skilled in the art, it being understood that the utility model is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims (6)

1. A split cable crane, comprising:

the two lifting brackets are respectively arranged right below the main cables on the two sides, and any lifting bracket is arranged along the length direction of the bridge and supports a beam section to be erected;

the lifting device comprises two groups of lifting devices, a lifting mechanism and a lifting mechanism, wherein the two groups of lifting devices are respectively arranged on the main cables at two sides, any group of lifting device comprises a plurality of lifting mechanisms which are arranged at intervals along the length direction of the main cables, the top of any lifting mechanism is fixedly connected with the main cable at the same side, the bottom of the lifting mechanism is connected with the lifting support at the same side, and the lifting mechanisms are arranged for adjusting the vertical distance between the lifting support and the main cables;

the two groups of swing devices are respectively arranged right above the main cables on the two sides, and any one group of swing device comprises a traction cable which is arranged along the length direction of the main cables and is anchored on the two banks of the bridge; the two crown blocks are arranged on the traction cable at intervals, and any crown block walks along the traction cable; two swing ropes, it respectively with two overhead traveling cranes correspond, and the top of arbitrary swing rope is connected with the overhead traveling crane that corresponds through hoisting device, and the bottom can be dismantled with the hoist mechanism of homonymy and be connected.

2. The split cable crane of claim 1 wherein the lifting frame comprises a bailey frame; the connecting seats are arranged on the bottom cross beam of the bailey truss at intervals along the length direction of the bridge and correspond to the lifting mechanisms one by one, and any connecting seat is connected with the bottom of the corresponding lifting mechanism; and the supporting seats are arranged on the top cross beam of the Bailey truss at intervals, and any supporting seat is supported at the bottom of the beam section to be erected and is detachably connected with the beam section to be erected.

3. The split cable crane of claim 2, wherein the lifting mechanism comprises a first cable clamp having a top end fixed to the main cable; the lifting jack is vertically arranged, and the top end of the lifting jack is fixedly connected with the bottom end of the first cable clamp; the rope retracting device is fixed on one side of the lifting jack; one end of the steel strand is fixed on the rope collector, and the other end of the steel strand vertically penetrates through the lifting jack downwards; the lifting seat is located under the lifting jack, the top end of the lifting seat is fixedly connected with the bottom end of the steel strand, and the bottom end of the lifting seat is detachably connected with the corresponding connecting seat.

4. The split cable crane of claim 3 wherein the lifting mechanism further comprises a second cable clamp secured to the main cable, the second cable clamp being located at and abutting the end of the first cable clamp that is prone to sliding down.

5. The split cable crane of claim 3, wherein the lifting mechanism further comprises two brackets symmetrically disposed on both sides of the lifting jack and not interfering with the rope take-up;

the rope that sways includes that two sway the rope, and it is located respectively the both sides of overhead traveling crane and with two corbels correspond, and the one end of arbitrary sway the rope is passed through hoisting apparatus with the overhead traveling crane is connected, and the other end can be dismantled with the corbel that corresponds and be connected.

6. The split cable carrier as defined in claim 1, wherein the lifting means is a chain block configured to adjust a lowering length of the sway rope.

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