CN202466427U - Continuous beam-dropping system - Google Patents

Abstract

The utility model relates to a continuous beam-dropping system and a continuous beam-dropping method and belongs to the technical field of construction equipment and method. The continuous beam-dropping system comprises a door-shaped bracket and a continuous beam-dropping mechanism which is arranged at the top of the door-shaped bracket. The continuous beam-dropping mechanism comprises a lower arm brace which is connected with the top of the door-shaped bracket. The top end of the lower arm brace is fixedly connected with a lower tool anchor and an upper arm brace; the top end of the upper arm brace is fixedly connected with a continuous jack; the top end of the continuous jack is fixedly connected with an upper tool anchor; clamping pieces are arranged in the penetrated holes of the upper tool anchor and the lower tool anchor; and steel strands are threaded and arranged in the clamping pieces. The system has the advantages of safety and reliability and time saving and labor saving.

Description

The girder system that falls continuously system

Technical field

The utility model relates to a kind of girder system system that falls continuously, belongs to the construction equipment technical field.

Background technology

In the construction of sky way; Run into across the situation of operating line through regular meeting; Such as across high ferro, the high ferro top contact net when construction, must leave safe distance with the support of crossbeam bottom, so need crossbeam be assembled being higher than on the position of bridge pier with support; Assembling removes support after accomplishing, and the equipment that re-uses drops to crossbeam on the bridge pier.

Through retrieval; Chinese invention patent CN200710302498.7 discloses a kind of large-scale girder bottom hoisting device and method thereof; Use this method beam that falls to make joist; Cooperate special Lift-on/Lift-off System to adopt many suspension centres by crane lifting, support system was fallen the top to guarantee precision at the bottom of the stroke that in the beam process that falls, need whenever fall also needed mounting rail, utilized this circulation beam that falls to put in place.A kind of in addition method commonly used is a back timber system at the bottom of the beam; Fall the mode on the top beam that falls through jack; But it can only be in the 50cm that the depth of beam that falls of this method is subject to the stroke of jack; The position of bridge pier and area constraints the riding position and the strong point of jack, and adopt and should the method for falling the top very easily produce destructive the distortion flexible steel box girder construction.All there is long shortcoming consuming time in above-mentioned two kinds of girder system systems that fall; Easily to fall beam across operating line impact; And when height is big because between a plurality of suspension centre/fulcrums because stressed asynchronous easy generation is stressed inharmonious; Cause rocking and be out of shape, in the beam construction that falls of large span, have bigger potential safety hazard.

The utility model content

First technical problem that the utility model will solve is, the above-mentioned existing girder system system construction length consuming time that falls, easy deformation, security risk is big, can't satisfy like the requirement of large span steel box beam across operating line.

Second technical problem that the utility model will solve is that the ground tackle that adopts in the girder system that falls the continuously system need be chosen the intermediate plate completion by hand and move back anchor from the top.Following moveable anchor is between following spike and last spike, and the operating space of moving back anchor is little, and it is longer to choose the intermediate plate required time in the porous ground tackle one by one; When falling, will drive intermediate plate for fear of steel strand brings into and bores a hole and lock; Following moveable anchor also will take out intermediate plate after moving back anchor fully from ground tackle; Be placed in intermediate plate in the ground tackle one by one again when needing anchoring; Wholely move back anchor and the anchoring process is consuming time long, the girder system that falls continuously system all will waited for for a long time behind stroke of the every completion of jack continuously.

The 3rd technical problem that the utility model will solve is; Existing hanger and steel strand adopt and are rigidly connected; Before lifting, install with the dismounting of lifting back and all need expend the too much time; And the moment of torsion that when suspension centre is asynchronous, produces is directly delivered on hanger and the steel strand, situation, operating difficulties and the danger height of discontinuity such as be easy to generate inclinations, rock.

In order to solve above-mentioned first technical problem, the utility model proposes a kind of girder system system that falls continuously, comprises portal trestle and the beam mechanism that falls continuously that is arranged at the portal trestle top; The beam mechanism that falls continuously comprises the following spike that is connected with the portal trestle top; The top of following spike is connected with down moveable anchor and last spike, and the top of last spike is connected with continuous jack, and the top of jack is connected with moveable anchor continuously; Be provided with intermediate plate in the perforation of last moveable anchor and following moveable anchor, be coated with steel strand in the intermediate plate.

In order to solve above-mentioned second technical problem; The utility model has proposed a kind of anchor restorer on the basis of the above-mentioned girder system system that falls continuously; This anchor restorer is located at down the bottom of moveable anchor, comprises fixed muffle that is fixed in down the moveable anchor below and the quill that is bolted in the fixed muffle, and quill is provided with the push pedal of passing the fixed muffle top; Be shaped on the ejector sleeve that wears steel strand in the push pedal, the external diameter of ejector sleeve is greater than the aperture of intermediate plate and the aperture of boring a hole less than moveable anchor.

In order to solve above-mentioned the 3rd technical problem; The utility model has proposed a kind of lifting conversion equipment on the basis of the above-mentioned girder system system that falls continuously; This device comprises adapter sleeve, lifting head that is bolted in adapter sleeve one end and the hanger that is connected that is bolted in the adapter sleeve other end that is shaped on internal thread; The lifting head is anchored in the bottom of steel strand, connects the end that hanger is articulated in a pair of junction plate, and the other end of junction plate is articulated in by on the otic placode of lifting crossbeam.

Improvement to technique scheme is, last moveable anchor, the top of moveable anchor is equipped with restoring board down, has the perforation of passing steel strand on the restoring board, and the bottom surface of restoring board is against the top end of intermediate plate.

Further improvement to technique scheme is that portal trestle is inboard to be connected with connector with bridge pier and bent cap.

Fall continuously girder system system and the beam method that falls continuously of the utility model be owing to adopted continuous jack engagement tool anchor and custom-designed anchor restorer and lifting conversion equipment, compares existing fall beam construction equipment and method, and the beneficial effect that has is:

1, adopt the beam method simple and fast that falls of this girder system system that falls continuously, time saving and energy saving, than existing fall the beam mode to equipment take still less, lift that precision is higher, safety and reliability be also higher.

2, anchor restorer can once move back anchor fast; And can be spacing after moving back anchor to intermediate plate; Avoided in the beam intermediate plate to be brought into ground tackle anchoring again, need intermediate plate not taken out fully after moving back anchor, and restoring board can be once with the anchoring simultaneously of one group of intermediate plate by steel strand; Comparing existing craft chooses and the mode that intermediate plate is installed one by one; The utility model has improved efficient, has shortened the required time of the beam operation of falling, can be in across the construction of business railway line with original branch a plurality of blockade points beam that falls change one into and block the beam that falls in the point and finish.

3, the lifting conversion equipment adopts screw shell to connect the lifting head and is connected hanger; It is all time saving and energy saving to install with dismounting; On the junction plate two mobilizable hinges to the top fall girder apparatus fully the stressed inharmonious meeting of synchronized generation carry out the secondary distribution of weight; Phenomenon, the security control that helps lifting such as avoided inclination effectively, rock.

Description of drawings

Be described further below in conjunction with the girder system system that falls continuously of accompanying drawing the utility model.

Fig. 1 is the structural representation of the utility model embodiment one.

Fig. 2 is the partial schematic diagram of Fig. 1.

Fig. 3 is the structural representation of the utility model embodiment two.

The partial schematic diagram of Fig. 4 Fig. 3.

Fig. 5 is the structural representation of the utility model embodiment three.

Fig. 6 is the partial schematic diagram of Fig. 5.

The specific embodiment

Embodiment one

The girder system system that falls continuously of present embodiment is as depicted in figs. 1 and 2; Comprise that by i iron 2 and the portal trestle of processing near the steel pipe post 3 of bent cap dual-side perpendicular to quilt lifting crossbeam 1, i iron 2 all is connected with connector 4, the affixed continuous fall girder apparatus 5 in the top of i iron 2 with steel pipe post 3 and bridge pier and bent cap; Fall girder apparatus 5 comprises spike 6 down continuously; The top of following spike 6 is connected with down moveable anchor 7 and last spike 8, and the top of last spike 8 is connected with continuous jack 9, and the top of jack 9 is connected with moveable anchor 10 continuously; Last moveable anchor 10 is built-in with intermediate plate 11 with the perforation of following moveable anchor 7, is coated with steel strand 12 in the intermediate plate 11; Steel hinge line 12 is connected in by on the hanger 14 of lifting crossbeam 1.

During use, use the girder system system that falls continuously of present embodiment to accomplish the beam operation through following steps:

The first step knocks in down between moveable anchor perforation and the steel strand first group of intermediate plate to clamp steel strand one by one;

In second step, rise through the continuous jack of HYDRAULIC CONTROL SYSTEM;

In the 3rd step, second group of intermediate plate knocked between moveable anchor perforation and the steel strand to clamp steel strand one by one;

In the 4th step, use clamp will descend the intermediate plate of moveable anchor to choose one by one;

The 5th step, fall through the continuous jack of HYDRAULIC CONTROL SYSTEM, the last moveable anchor drive steel strand and the quilt lifting crossbeam that fall along with jack descend;

Repeat above-mentioned steps, drop to required place until crossbeam with lifting.

Embodiment two

Present embodiment is the improvement on embodiment one basis; Like Fig. 3 and shown in Figure 4, its improvements are: the bottom of following moveable anchor is provided with anchor restorer, and anchor restorer comprises the fixed muffle 21 that is shaped on internal thread, the quill 22 that is bolted in said internal thread; Quill 22 is provided with the push pedal 23 of passing fixed muffle 21 tops; Be shaped on the perforation of holding steel strand 12 in the push pedal 23, perforation extends upward out ejector sleeve 24, and the external diameter of ejector sleeve 24 is greater than the aperture of intermediate plate and less than the aperture of moveable anchor; When quill 22 was upwards screwed, ejector sleeve 24 was pushed in the perforation of moveable anchor and with intermediate plate 11 and ejects.The top of last moveable anchor, following moveable anchor is equipped with restoring board 25; Have the perforation that to pass steel strand 12 on the restoring board 25; The bottom surface of restoring board 25 is against the top end of intermediate plate 11, knock downwards during use restoring board 25 can by its against intermediate plate 11 all push moveable anchor.

Embodiment three

Present embodiment is the improvement on embodiment two bases; Like Fig. 5 and shown in Figure 6; Its improvements are; The bottom of steel strand 12 be connected through lifting conversion equipment 13 by the lifting crossbeam, the lifting that this device comprises the adapter sleeve 31 that is shaped on internal thread, be bolted in adapter sleeve 31 1 ends 32 be bolted in the adapter sleeve other end be connected hanger 33, lifting 32 is anchored in the bottom of steel strand 12; Connect the end that hanger 33 is articulated in a pair of junction plate 34, the other end of junction plate 34 is articulated in by on the otic placode 14 of lifting crossbeam.

During use, use the girder system system that falls continuously of present embodiment to accomplish the beam operation through following steps:

The first step is twisted the quill of anchor restorer downwards, makes first group of intermediate plate clamp steel strand through beaing the restoring board that is positioned at following moveable anchor top;

In second step, rise through the continuous jack of HYDRAULIC CONTROL SYSTEM;

In the 3rd step, make second group of intermediate plate clamp steel strand through beaing the restoring board that is positioned at the moveable anchor top;

The 4th step, the quill of anchor restorer is upwards twisted, drive push pedal and move, the ejector sleeve in the push pedal is released first group of intermediate plate, and accomplishing down, moveable anchor moves back anchor;

The 5th step, fall through the continuous jack of HYDRAULIC CONTROL SYSTEM, make moveable anchor drive steel strand and descended by the lifting crossbeam;

Repeat above-mentioned steps, drop to required place until crossbeam with lifting.

The beam assembling system that continues to fall of the utility model is not limited to the foregoing description, and all employings are equal to the technical scheme that replacement forms, and all drop on the protection domain of the utility model requirement.

Claims (5)

1. the girder system that falls is continuously united; It is characterized in that: comprise portal trestle and the beam mechanism that falls continuously that is arranged at the portal trestle top; The said beam mechanism that falls continuously comprises the following spike that is connected with the portal trestle top, following moveable anchor and the last spike that is fixed in the top of said following spike; And the continuous jack on affixed and last spike top; The top of said continuous jack also is connected with moveable anchor, is provided with intermediate plate in the perforation of said upward moveable anchor and following moveable anchor, is coated with steel strand in the said intermediate plate.

2. according to the said girder system system that falls continuously of claim 1; It is characterized in that: the said bottom of moveable anchor down is provided with anchor restorer; Said anchor restorer comprises fixed muffle that is fixed in down the moveable anchor below and the quill that is bolted in the said fixed muffle; Said quill is provided with the push pedal of passing the fixed muffle top, is shaped on the ejector sleeve that wears steel strand in the said push pedal, and the external diameter of said ejector sleeve is greater than the aperture of intermediate plate and the aperture of boring a hole less than down said moveable anchor.

3. according to claim 1 or the 2 said girder system systems that fall continuously; It is characterized in that: the bottom of said steel strand is connected with the lifting conversion equipment; Said lifting conversion equipment system comprises adapter sleeve, lifting head that is bolted in said adapter sleeve one end and the hanger that is connected that is bolted in the said adapter sleeve other end that is shaped on internal thread; Said lifting head is anchored in the bottom of steel strand, and said connection hanger is articulated in an end of a pair of junction plate, and the other end of said junction plate is articulated in by on the otic placode of lifting crossbeam.

4. according to the said girder system system that falls continuously of claim 2, it is characterized in that: said top of going up moveable anchor, following moveable anchor is equipped with restoring board, has the perforation of passing steel strand on the said restoring board, and the bottom surface of said restoring board is against the top end of intermediate plate.

5. according to claim 1 or the 2 said girder system systems that fall continuously, it is characterized in that: said portal trestle is inboard to be connected with connector with bridge pier and bent cap.

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