CN203546622U

CN203546622U - Folding-turning retractable type cantilever beam system of lower guide beam walking type bridge girder erection machine

Info

Publication number: CN203546622U
Application number: CN201320686346.2U
Authority: CN
Inventors: 陈子顺; 孙琪; 于菲; 张建辉; 丁大龙; 温琳; 韩波; 杨洪超
Original assignee: Hebei University of Technology
Current assignee: Hebei University of Technology
Priority date: 2013-10-31
Filing date: 2013-10-31
Publication date: 2014-04-16
Anticipated expiration: 2023-10-31

Abstract

The utility model discloses a folding-turning retractable type cantilever beam system of a lower guide beam walking type bridge girder erection machine. The system comprises a main beam, a cantilever beam, a cantilever beam cross beam, a positioning pin, a bridge girder erection machine auxiliary supporting leg, a connecting rod, a connecting plate, a connecting sleeve and a walking motor. The main beam and the cantilever beam cross beam are connected together through the connecting rod, the connecting plate and the connecting sleeve. The positioning pin is located on the lower side of the main beam, and the cantilever beam cross beam is located on the cantilever beam. The bridge girder erection machine auxiliary supporting leg is located below the main beam and connected with the walking motor in a driving mode. According to the bridge girder erection machine applying the system, in the retraction process of the cantilever beam, it is unnecessary to fold and turn the cantilever beam upwards or toward the outer side in a long-distance mode, and the cantilever beam only needs to be retracted backwards integrally. In the retraction process of the cantilever beam, the cantilever beam is supported at any time by the auxiliary supporting leg to move toward the main beam, it is avoided that in the state of a big cantilever, the cantilever beam performs back-off action, and the safety coefficient is high.

Description

A kind of lower nose girder walking bridging machine telescopic cantilever girder system system of turning back

Technical field

The utility model relates to a kind of bridge support equipment, and specifically a kind of lower nose girder walking bridging machine telescopic cantilever girder system system of turning back, is applicable to set up high-speed railway bridge etc.

Background technology

In recent ten years along with the develop rapidly of China railways Line for Passenger Transportation and high speed railway construction, there is the Bridge Erector of Multiple Type to come into operation, and the pattern of these Bridge Erectors overwhelming majority adopts lower nose girder walking structures, and there are some problems in lower nose girder walking bridging machine with semi girder when setting up before tunnel last hole.

The railway network planning of formulating for 2008 according to China, area, Southwest Mountainous Areas is wanted Developing High-speed or speed rail net equally.According to statistics, these circuit bridge tunnel proportions account for 75%-80% completely, are that bridge tunnel is connected substantially.When setting up last then front hole, because the semi girder of Bridge Erector complete machine is too high, cannot extend in tunnel, often need with crane gear, the semi girder being fixedly installed to be removed, but due to the job site restriction at place, tunnel face, crane gear even cannot use sometimes, allows to take crane gear to dismantle, and its construction period is also longer.

The shortcomings such as in order to overcome the problems referred to above, someone has worked out upper folding semi girder and the semi girder Bridge Erector of turning back, but these semi girders exist intensity too low, operation inconvenience.

Utility model content

For the deficiencies in the prior art, the technical problem that the utility model quasi-solution is determined is: a kind of lower nose girder walking bridging machine telescopic cantilever girder system system of turning back is provided.This system is of value to railway and sets up setting up of last bridge before tunnel, makes the Bridge Erector semi girder that this system is housed can realize the contraction of turning back, and has reduced Bridge Erector size, reduces the requirement of Bridge Erector to construction environment of knowing clearly.

The technical scheme that the utility model solve the technical problem is: the reflexibie telescopic cantilever girder system system of a kind of lower nose girder walking bridging machine of design, comprise girder, semi girder, semi girder crossbeam, alignment pin, the auxiliary supporting leg of Bridge Erector, connecting rod, junction plate, branch sleeve and movable motor, described girder and semi girder link together by connecting rod, junction plate or branch sleeve; Described alignment pin is positioned at the downside of girder, and semi girder crossbeam is positioned on semi girder; The auxiliary supporting leg of described Bridge Erector is positioned at girder below, and drives and be connected with movable motor; It is characterized in that:, by one section of pulley belt being comprised of roller, there is a turning cylinder in described girder outside at girder and semi girder connecting portion inner side, and described turning cylinder is welded on girder; There is slideway described semi girder inner side; Described semi girder inner track is a long i iron, i iron one end and the welding of Bridge Erector semi girder side; Described girder and semi girder link are inclined-plane;

Described semi girder crossbeam is three-stage structure, comprises left reflexibie section, right reflexibie section and interlude, and interlude is not reflexibie; Described semi girder crossbeam is provided with luffing hydraulic cylinder, inner side steel pin, outside steel pin, inner side otic placode, the prefabricated bolt hole of outside otic placode and semi girder crossbeam bottom, and all parts are symmetrical; On its left and right reflexibie section, all there are an outside steel pin and outside otic placode, for the two ends of connecting cantilever beam crossbeam and semi girder; All there are inner side steel pin and an inner side otic placode in the both sides of semi girder crossbeam interlude, for the interlude of connecting cantilever beam crossbeam and left and right reflexibie section;

Described branch sleeve is the rectangular shape that lacks upper and lower surface of hollow, and inner side is provided with is convenient to the chute of semi girder in branch sleeve inner slide, comprises turning cylinder and sleeve; Described turning cylinder is vertically welded on girder and semi girder link position; Described sleeve is welded on semi girder turning cylinder;

Described semi girder lower end is connected with girder by semi girder connecting rod,, under normal erected state, described semi girder and girder are fastenedly connected by junction plate; And when setting up before tunnel that semi girder need to be shunk in last hole, dismantle girder and semi girder junction plate, at this moment only depend on connecting rod to be connected with girder, connecting rod is driven in semi girder leading portion device for opening; Meanwhile, when semi girder is opened, the rotation anchor point of connecting rod is provided with alignment pin; Described alignment pin is welded in the bottom surface of girder, is positioned at the right side of connecting rod; Described connecting rod is connecting cantilever beam and girder in semi girder crossbeam is turned back opening procedure; Described connecting rod two ends are equipped with axis hole, are connected respectively with the turning cylinder on the turning cylinder of girder medial surface and the branch sleeve of semi girder side, at semi girder opening procedure middle girder downside alignment pin, limit position, guarantee that connecting rod arrives accurate location;

The auxiliary supporting leg of described Bridge Erector is when general erected state, and its upper end is connected by bolt flange and girder crossbeam; When before Bridge Erector is satisfied, set up in last hole, before lower nose girder, be advanced into behind tunnel, pull down the auxiliary supporting leg of Bridge Erector upper end bolt flange, under movable motor drives, auxiliary supporting leg proceeds to below reflexibie semi girder crossbeam, with bolt and semi girder crossbeam below prepared screw-bolt hole bolt, the auxiliary supporting leg of realization is connected with semi girder crossbeam.

Compared with prior art, the beneficial effects of the utility model are:

1. easy to operate, improved efficiency of construction; Cantilever beam section on semi girder crossbeam, under luffing Hydraulic Cylinder, open become across, auxiliary supporting leg promotes semi girder and runs to girder direction under movable motor drives, this process does not need semi girder to remove and can satisfy front last hole erection, after setting up, can recover voluntarily by inverse process, easy to operate, greatly improved efficiency of construction;

2. reduced construction cost; Whole process need to not carried out auxiliary operation by large-scale extraneous auxiliary equipment such as cranes, has reduced construction cost.

3. safety factor is high; This process does not need length of cantilever distance upwards or turn back in outside, only need entirety to after-contraction, semi girder is in contraction process, and time is carved with auxiliary supporting leg and supports it and move to girder, avoided the semi girder under large cantilever position to carry out fallback action, safety factor is higher.

4. shortened the work period.Whole process does not need semi girder to remove, and need to not carry out auxiliary operation by extraneous main equipment, reduces people's participation, saves manpower and shortens the work period.

Accompanying drawing explanation

The nose girder walking bridging machine overall structure schematic diagram of unified kind of embodiment of telescopic cantilever girder system of turning back under Fig. 1 the utility model;

Fig. 2 be the semi girder of a kind of embodiment of the utility model cantilever beam system open become stride across journey structure principle chart, wherein, Fig. 2 (A) for semi girder open change stride across journey schematic diagram, Fig. 2 (B) is connecting rod branch sleeve position A-A broken section structural representation;

Fig. 3 is that the cantilever beam system of a kind of embodiment of the utility model cantilever beam system shrinks the figure that is near completion;

Fig. 4 is the semi girder crossbeam full open position structural representation of a kind of embodiment of the utility model cantilever beam system;

Fig. 5 is the semi girder crossbeam top view of a kind of embodiment of the utility model cantilever beam system;

Fig. 6 is the semi girder contraction process figure of a kind of embodiment of the utility model cantilever beam system, and Fig. 6 (A) is front preparation schematic diagram, and Fig. 6 (B) is schematic diagram in shrinking, and Fig. 6 (C) is final position schematic diagram;

Fig. 7 is that the Bridge Erector of a kind of embodiment of the utility model cantilever beam system shrinks semi girder and sets up the view in last hole, wherein, the view that Fig. 7 (A) sets up front Bridge Erector, Fig. 7 (B) is the view of Bridge Erector while setting up.

The specific embodiment

Below in conjunction with specific embodiment and accompanying drawing thereof, further narrate the utility model, specific embodiment only, for further describing the utility model, does not limit the protection domain of the utility model claim.

The reflexibie telescopic cantilever girder system system of lower nose girder walking bridging machine (abbreviation system, referring to Fig. 1-7) of the utility model design comprises girder 1, semi girder 2, semi girder crossbeam 3, alignment pin 4, the auxiliary supporting leg 5 of Bridge Erector, connecting rod 6, junction plate 7, branch sleeve 8 and movable motor 9; Described girder 1 links together by connecting rod 6, junction plate 7 or branch sleeve 8 with semi girder 2; Described alignment pin 4 is positioned at the downside of girder, and semi girder crossbeam 3 is positioned on semi girder 2; The auxiliary supporting leg 5 of described Bridge Erector is positioned at girder 1 below, and drives and be connected with movable motor 9; It is characterized in that: there is roller 1.1 in described girder 1 outside having a turning cylinder 1.2 in girder 1 and semi girder connecting portion inner side, turning cylinder 1.2 is welded on girder 1; There is slideway 2.1 described semi girder 2 inner sides; Approximately 20 meters of a segment lengths' pulley belt is set up in described girder 1 beam body two outsides, and described pulley belt is comprised of roller 1.1, to realize semi girder inner track 2.1 in semi girder 2 shrinks or recovers opening procedure, along two side rollers, slides; Described semi girder inner track 2.1 is long (embodiment is 1 meter) i iron, the side welding of i iron one end and Bridge Erector semi girder 2; Described girder 1 and semi girder 2 link bevelings, so that semi girder 2 can be directly to master, 1 direction is turned back, and does not need first to turn back forward.

Described semi girder crossbeam 3 is three-stage structure, comprises reflexibie section 3.01, a left side, right reflexibie end 3.02 and interlude 3.03, and interlude 3.03 is not reflexibie; Described semi girder crossbeam 3 is provided with luffing hydraulic cylinder 3.04, inner side steel pin 3.05, outside steel pin 3.06, inner side otic placode 3.07, the prefabricated bolt hole 3.09 of outside otic placode 3.08 and semi girder crossbeam bottom, and all parts are symmetrical; On its left and right reflexibie section, all there are an outside steel pin 3.06 and outside otic placode 3.08, the two ends for connecting cantilever beam crossbeam 3 with semi girder 2; All there are inner side steel pin 3.05 and an inner side otic placode 3.07 in the both sides of semi girder crossbeam interlude 3.03, for the interlude of connecting cantilever beam crossbeam 3 and left and right reflexibie section.On left and right reflexibie section 3.01 of semi girder crossbeam, 3.02, be equipped with a luffing hydraulic cylinder 3.04 being connected with semi girder crossbeam interlude 3.03, realize the horizontal span that semi girder 2 opens and regain and change.

Described branch sleeve 8 is rectangular shapes that lack upper and lower surface of hollow, and inner side is provided with chute so that semi girder in sleeve inner slide, comprises turning cylinder 8.1 and sleeve 8.2; Described turning cylinder 8.1 is vertically welded on girder 1 and semi girder 2 link positions; Described sleeve 8.2 is welded on semi girder turning cylinder 8.1, to guarantee that semi girder 2 can girder slip relatively in sleeve.When Bridge Erector normal operation, semi girder is connected by junction plate 7 with the side of girder connecting portion, and branch sleeve 8 is not worked; In the flexible opening procedure of semi girder, need to unload lower connecting plate 7, now branch sleeve 8 is worked.

Described semi girder 2 lower ends are connected with girder 1 by semi girder connecting rod 6,, under normal erected state, described semi girder 2 is fastenedly connected by junction plate 7 with girder 1, avoids the connecting rod 6 that connects girder 1 and semi girder 2 to move in normal operation; And when setting up before tunnel that semi girder need to be shunk in last hole, dismantle girder and semi girder junction plate 7, at this moment only depend on connecting rod 6 to be connected with girder, connecting rod 6 is driven in semi girder leading portion device for opening, and the entirety of being convenient to semi girder is opened.Meanwhile, when semi girder 2 is opened, the rotation anchor point of connecting rod 6 is provided with alignment pin 4; Described alignment pin 4 is welded in the bottom surface of girder 1, is positioned at the right side of connecting rod 6; Described connecting rod 6 is connecting cantilever beam 2 and girder 1 in semi girder crossbeam 3 is turned back opening procedure; Described connection girder 1 is single bar linkage structures with the connecting rod 6 of semi girder 2, at connecting rod two ends, being equipped with axis hole is connected with the turning cylinder 8.1 on the turning cylinder 1.2 of girder 1 medial surface and the branch sleeve 8 of semi girder 2 sides respectively, at semi girder 2 opening procedure middle girder downside alignment pins 4, limit position, guarantee that connecting rod 6 arrives accurate location.

The auxiliary supporting leg 5 of described Bridge Erector is when general erected state, and its upper end is connected by bolt flange and girder crossbeam; When before Bridge Erector is satisfied, set up in last hole, before lower nose girder, be advanced into behind tunnel, pull down the auxiliary supporting leg 5 upper end bolt flanges of Bridge Erector, under movable motor 9 drives, auxiliary supporting leg 5 proceeds to below reflexibie semi girder crossbeam 3, with bolt and semi girder crossbeam 3 below prepared screw-bolt hole 3.10 bolts, the auxiliary supporting leg 5 of realization is connected with semi girder crossbeam 3.

It is as follows to the concrete grammar of girder 1 direction contraction that the utility model is realized semi girder 2:

The first step: the disassembling bolts first auxiliary supporting leg of Bridge Erector 5 tops being connected with girder front beam, start auxiliary supporting leg movable motor 9, under movable motor 9 drives, auxiliary supporting leg runs to semi girder crossbeam 3 belows, the upper flanges of auxiliary supporting leg 5 is connected with semi girder crossbeam 3 bottom bolts holes 3.09 with bolt, realizes and assisting being connected of supporting leg 5 and semi girder crossbeam 3.

Second step: screw off the bolt on girder 1 and semi girder 2 junction plates, the junction plate 7 between dismounting girder 1 and semi girder 2 and the inner side otic placode 3.08 on semi girder crossbeam 3; Luffing hydraulic cylinder 3.04 promotes the semi girder left and right section of turning back and launches laterally, realizing turning back of semi girder crossbeam 3 opens, in opening procedure, semi girder 2 is upper left with semi girder, the camber line of the right folding section of turning moves expansion to girder 1 direction, is connected to connecting rod 6 on girder 1 along with the movement of semi girder 2 and semi girder crossbeam is upper left, right folding turns segment sync and opens.Now branch sleeve 8 keeps relative position constant with semi girder 2.When connecting rod 6 contact girder 1 downside alignment pin 4 and when just vertical with semi girder 2 opening procedure finish.Open afterwards with between the left and right section of turning back 3.01,3.02 of steel pin cantilever mounted beam crossbeam and interlude 3.03 two inner side otic placodes 3.07, realize semi girder 2 medial surface spacing and be greater than girder 1 outside spacing.

The 3rd step: the auxiliary supporting leg 5 of Bridge Erector drags semi girder 2 and slowly walks to girder 1 direction under the drive of movable motor 9, and sleeve 8.2 holding positions are constant in the process of walking, and the relative sleeve 8.2 of semi girder 2 slowly arrives the position meeting the demands.Outside semi girder walking process middle sleeve 8.2 and connecting rod 6 and girder, side wheel 1.1 plays the effect of support cantilever beam 2 front ends, and semi girder 2 other ends are by assisting supporting leg 5 to support.Cantilever mounted beam 2 behind in-position, completes the contraction process of semi girder 2.

Semi girder 2 of the present utility model recovers the inverse process that cantilever position process is above-mentioned contraction process, and method of operating is consistent with contraction process, does not repeat.

" left side ", " right side " of during the utility model contractile folding cantilever beam system description scheme, using, " inner side ", " outside " etc. are that orientation take given accompanying drawing is as foundation, it is convenient that they are only used to statement, be used for distinguishing the relative position of each parts or direction, do not represent orientation when the utility model contractile folding cantilever beam system is used.

The utility model is not addressed part and is applicable to prior art.

Claims

1. the lower nose girder walking bridging machine telescopic cantilever girder system system of turning back, comprise girder, semi girder, semi girder crossbeam, alignment pin, the auxiliary supporting leg of Bridge Erector, connecting rod, junction plate, branch sleeve and movable motor, described girder and semi girder link together by connecting rod, junction plate or branch sleeve; Described alignment pin is positioned at the downside of girder, and semi girder crossbeam is positioned on semi girder; The auxiliary supporting leg of described Bridge Erector is positioned at girder below, and drives and be connected with movable motor; It is characterized in that:, by one section of pulley belt being comprised of roller, there is a turning cylinder in described girder outside at girder and semi girder connecting portion inner side, and described turning cylinder is welded on girder; There is slideway described semi girder inner side; Described semi girder inner track is a long i iron, i iron one end and the welding of Bridge Erector semi girder side; Described girder and semi girder link are inclined-plane;

Described semi girder lower end is connected with girder by semi girder connecting rod, and under normal erected state, described semi girder and girder are fastenedly connected by junction plate; And when setting up before tunnel that semi girder need to be shunk in last hole, dismantle girder and semi girder junction plate, at this moment only depend on connecting rod to be connected with girder, connecting rod is driven in semi girder leading portion device for opening; Meanwhile, when semi girder is opened, the rotation anchor point of connecting rod is provided with alignment pin; Described alignment pin is welded in the bottom surface of girder, is positioned at the right side of connecting rod; Described connecting rod is connecting cantilever beam and girder in semi girder crossbeam is turned back opening procedure; Described connecting rod two ends are equipped with axis hole, are connected respectively with the turning cylinder on the turning cylinder of girder medial surface and the branch sleeve of semi girder side, at semi girder opening procedure middle girder downside alignment pin, limit position, guarantee that connecting rod arrives accurate location;

2. turn back telescopic cantilever girder system system of nose girder walking bridging machine under one according to claim 1, is characterized in that: the connecting rod of described connection girder and semi girder is single bar linkage structure.