CN204551503U - A kind of dismountable single-wall steel suspended box cofferdam structure - Google Patents

Abstract

The utility model discloses a kind of dismountable single-wall steel suspended box cofferdam structure, be the dismountable structure be made up of shaped steel and steel plate, comprise wallboard, enclose purlin, inner support and hangar system; The external surface of wallboard is provided with perpendicular rib and stringer, the bottom of wallboard is connected with base plate, the inner side and outer side of wallboard is respectively equipped with encloses purlin, inner support be supported in inner side enclose on purlin, outside enclose purlin and perpendicular rib is with bolts, inner side enclose purlin and enclosing between purlin of outside is provided with self-balancing to pull bar, self-balancing the inner to pull bar is anchored on the flange of inner support, outer end be anchored in outside enclose on purlin; Hangar system comprises cross suspension bracket, hanger, and 4 ends of each cross suspension bracket are respectively equipped with screw-thread steel suspension rod, and the anchoring lower ends of screw-thread steel suspension rod is on base plate joist.Structure is simple, steel using amount is little, Site Welding amount is few, assembly and disassembly convenient, easily process, except base plate, other component can reuse.

Description

A kind of dismountable single-wall steel suspended box cofferdam structure

Technical field

The utility model relates to a kind of deep water construction cofferdam structure, particularly relates to a kind of dismountable single-wall steel suspended box cofferdam structure.

Background technology

Steel suspended box cofferdam structure is mainly used in being sand bed or loose tectal situation bottom high-rise pile cap construction and cushion cap, bottom cushion cap be sand bed or loose tectal geology time, can consider blow sand or take out the modes such as desilting, the position of box base plate is cleared, then transfer base plate and steel lifted trunk wallboard, after back cover, form cofferdam.Its effect is by the feud coagulation fortifield village water on suspension box-cofferdam side plate and base plate, for bearing platform construction provides anhydrous dry environment.Compare with steel boxed cofferdam, it is short that steel suspended box cofferdam has the construction period, and resistance to water-flow is little, be beneficial to navigation, do not need to sink to the features such as riverbed, difficulty of construction is little, concrete amount is little, thus large across deep-water bridge in be widely used.

In prior art, steel suspended box cofferdam has single-arm steel hanging box, double-wall steel suspension box etc.In prior art, single wall box and double-walled box all achieve and dismantled and assembledly respectively have advantage, and in prior art, recycling rate of waterused is lower, does not realize bolt completely, and Site Welding amount is comparatively large, and later stage trimming trouble, speed of application is slower.

As in the non-major P.E.subject high-rise pile cap construction of straits, Pingtan, good fortune black iron road, due to construction environment inclement condition, box is except the function with traditional box and advantage, also must meet rapid construction requirement, for box installation and back cover gain time, form of structure of the prior art, is difficult to meet this requirement.

Utility model content

The purpose of this utility model is to provide that a kind of structure is simple, steel using amount is little, easy to process, be easy to construction and the dismountable single-wall steel suspended box cofferdam structure that can reuse.

The purpose of this utility model is achieved through the following technical solutions:

Dismountable single-wall steel suspended box cofferdam structure of the present utility model, is the dismountable structure be made up of shaped steel and steel plate, comprises wallboard, encloses purlin, inner support and hangar system;

The external surface of described wallboard is provided with perpendicular rib and stringer, the bottom of described wallboard is connected with base plate, purlin is enclosed described in the inner side and outer side of described wallboard is respectively equipped with, described inner support be supported in inner side enclose on purlin, outside enclose purlin and described perpendicular rib is with bolts, inner side enclose purlin and enclosing between purlin of outside is provided with self-balancing to pull bar, described self-balancing the inner to pull bar is anchored on the flange of described inner support, outer end be anchored in outside enclose on purlin;

Described hangar system comprises multiple cross suspension bracket be located on bracing frame, the top of each cross suspension bracket is respectively equipped with hanger, 4 ends of each cross suspension bracket are respectively equipped with through hole, screw-thread steel suspension rod is installed with in described through hole, the upper end of described screw-thread steel suspension rod is provided with anchoring backing plate and nut, and anchoring lower ends is on base plate joist.

The technical scheme provided as can be seen from above-mentioned the utility model, the dismountable single-wall steel suspended box cofferdam structure that the utility model embodiment provides, due to the removable structure adopting shaped steel and steel plate to form, have outside common single wall box feature, this structure is more simple, steel using amount is little, Site Welding amount is few, assembly and disassembly are convenient, easily process, other component can reuse except base plate.

Accompanying drawing explanation

The plane structure schematic diagram of the dismountable single-wall steel suspended box cofferdam structure that Fig. 1 provides for the utility model embodiment;

The direction across bridge facade structures schematic diagram of the dismountable single-wall steel suspended box cofferdam structure construction that Fig. 2 provides for the utility model embodiment;

The vertical bridge of the dismountable single-wall steel suspended box cofferdam structure construction that Fig. 3 provides for the utility model embodiment is to facade structures schematic diagram;

The dismountable single-wall steel suspended box cofferdam structure base slab stiffening rib that Fig. 4 provides for the utility model embodiment arranges schematic diagram;

The structural representation of the dismountable single-wall steel suspended box cofferdam structure base slab stiffening rib that Fig. 5 provides for the utility model embodiment;

Fig. 6 a, Fig. 6 b are respectively facade and the plane structural representation of the anti-fall suspension rod of dismountable single-wall steel suspended box cofferdam structure that the utility model embodiment provides;

Fig. 7 a, Fig. 7 b are respectively transverse direction and the side schematic view of the dismountable single-wall steel suspended box cofferdam construction panels piecemeal that the utility model embodiment provides;

The dismountable single-wall steel suspended box cofferdam construction panels on the corner connection diagram that Fig. 8 provides for the utility model embodiment;

Connection diagram between the dismountable single-wall steel suspended box cofferdam construction panels piecemeal that Fig. 9 provides for the utility model embodiment;

The dismountable single-wall steel suspended box cofferdam construction panels that Figure 10 provides for the utility model embodiment, perpendicular connection diagram between rib and base plate;

Figure 11 a, Figure 11 b, Figure 11 c are respectively the facade of the dismountable single-wall steel suspended box cofferdam structure hanger that the utility model embodiment provides, A-A to, B-B to structural representation;

The plane of the dismountable single-wall steel suspended box cofferdam structure construction step that Figure 12 a, Figure 12 b originally do not provide for the utility model embodiment and facade structures schematic diagram one;

Figure 13 a, Figure 13 b are respectively plane and the facade structures schematic diagram two of the dismountable single-wall steel suspended box cofferdam structure construction step that the utility model embodiment provides;

The dismountable single-wall steel suspended box cofferdam structure construction step schematic diagram three that Figure 14 provides for the utility model embodiment;

Figure 15 a, Figure 15 b are respectively plane and the facade structures schematic diagram four of the dismountable single-wall steel suspended box cofferdam structure construction step that the utility model embodiment provides.

In figure:

1, wallboard steel plate, 2, perpendicular rib, 3, wallboard sash rib.4, to pull bar.5, ground tackle.6, minor face purlin to the periphery.7, minor face inwardly encloses purlin.8, long limit purlin to the periphery.9, purlin is inwardly enclosed in long limit.10-1, first floor inner support steel pipe.10-2, second layer inner support steel pipe.11, horizontal diagonal brace.12, angle brace.

13-1, tiltedly montant.13-2, diagonal brace one.13-3, diagonal brace two.13-4, perpendicular web member.13-5, diagonal web member.14-1, gusset plate one.14-2, gusset plate two.14-3, gusset plate three.14-4, gusset plate four.14-5, gusset plate five.14-6, gusset plate six.15-1, floor mainside.15-2, floor beam one.15-3, floor beam two.16-1, horizontal side bar.16-2, longitudinal side bar.16-3, end anchor beam.17, secondary beam.18, base plate steel plate.19-1, anti-fall suspension rod.19-2, otic placode one.19-3, otic placode two.19-4, shear connector.19-5, end plate.20-1, partition panel diagonal brace.20-2, partition panel erect rib.20-3, partition panel horizontal ribs.20-4, partition panel.21, cross suspension bracket.22-1, otic placode.22-2, end floor beam wing plate.22-3, end floor beam web.22-4, back cover plate.22-5, hanger top board.22-6, hanger stiffening rib one.22-7 hanger base plate.22-8 hanger stiffening rib two.22-9, hanger end plate one.22-10, hanger end plate two.22-11, lifting lug web plate.

23, Ф 50 fining twisted steel suspension rod.24, nut.25, bracing frame.26, perpendicular rib end plate.27, connecting angle.28, wallboard bottom edge sealing angle bar.29, the vertical edge sealing angle bar of wallboard.30, wallboard corner connecting angle.31, valve.32 steel pile casting.

Detailed description of the invention

To be described in further detail the utility model embodiment below.

Dismountable single-wall steel suspended box cofferdam structure of the present utility model, its preferably detailed description of the invention be:

For the dismountable structure be made up of shaped steel and steel plate, comprise wallboard, enclose purlin, inner support and hangar system;

The external surface of described wallboard is provided with perpendicular rib and stringer, the bottom of described wallboard is connected with base plate, purlin is enclosed described in the inner side and outer side of described wallboard is respectively equipped with, described inner support be supported in inner side enclose on purlin, outside enclose purlin and described perpendicular rib is with bolts, inner side enclose purlin and enclosing between purlin of outside is provided with self-balancing to pull bar, described self-balancing the inner to pull bar is anchored on the flange of described inner support, outer end be anchored in outside enclose on purlin;

Described hangar system comprises multiple cross suspension bracket be located on bracing frame, the top of each cross suspension bracket is respectively equipped with hanger, 4 ends of each cross suspension bracket are respectively equipped with through hole, screw-thread steel suspension rod is installed with in described through hole, the upper end of described screw-thread steel suspension rod is provided with anchoring backing plate and nut, and anchoring lower ends is on base plate joist.

Described wallboard comprises the plurality of plates be bolted, and arranges watertight rubber bar between plurality of plates, and described wallboard is on the corner connected with wall panels end component bolt by angle steel.

Be provided with edge sealing angle bar bottom described wallboard, the edge of described base plate is provided with connecting angle, and the bottom of described perpendicular rib is provided with end plate, and described end plate is connected with bed bolt, and described edge sealing angle bar is connected with connecting angle bolt.

Described inner support comprises upper strata inner support and lower floor's inner support, connects into truss sheet between described upper strata inner support and lower floor's inner support by web member, and the cross suspension bracket of described hangar system is hung in the inner support of described upper strata.

The integral hoisting method of above-mentioned dismountable single-wall steel suspended box cofferdam structure of the present utility model, comprises step:

First install at the scene described hangar system, then adopt crane barge integral hoisting one-time-reach-place.

The suspension rod upper end of described hangar system installs anchoring backing plate and nut in advance, time above suspension box-cofferdam structure to design attitude described in crane barge handling, contraposition, slowly to transfer, steel pile casting is through the preformed hole on the structure base slab of described suspension box-cofferdam, and continue to transfer to cross suspension bracket and drop on described steel pile casting top, cross suspension bracket is motionless, suspension rod continues to sink with described suspension box-cofferdam structure, until transfer to described anchoring backing plate and cross is close to, transfer and put in place, spacing, welding locking described suspension box-cofferdam structure, then builds bottom concrete immediately.

Described cross suspension bracket adopts and tiltedly puts, namely with cushion cap both sides oblique.

Dismountable single-wall steel suspended box cofferdam structure of the present utility model, structure is simple, steel using amount is little, easy to process, be easy to construction and can reuse.

Single-wall steel suspended box cofferdam structure of the present utility model, for dismantled and assembled structure, comprise by wallboard, perpendicular rib, enclose purlin, base plate, hangar system, described single-wall steel suspended box cofferdam construction panels comprises 6mm steel plate, level, vertical stiffening rib formation, wallboard is divided into several piece according to on-site hoisting condition, arranges watertight rubber bar between being connected between each wallboard by double bolt.Perpendicular rib is that HW type shaped steel welds with between wallboard.Bottom arranges end plate and adopts bolt to be connected with base plate.

The purlin that encloses of the present utility model encloses purlin for two, and in wallboard, outside all arranges and encloses purlin.Enclose in inner support is supported on purlin, outer corral purlin and perpendicular rib with bolts, in inner support position, inner peripheral purlin arranges self-balancing to pull bar, and tell is to being anchored on inner support flange inside pull bar, outside is anchored on peripheral purlin.

Lift-on/Lift-off System of the present utility model, comprise cross suspension bracket, essence pricks screw-thread steel suspension rod and ground tackle, Hanger Anchor is fixed on base plate joist.

Integral hoisting construction method of the present utility model is box (harbour) processing inside, assembled, then adopts crane barge integral hoisting on barge, is transported to job site, again integral hoisting in design attitude.

Due to the removable structure adopting shaped steel and steel plate to form, have outside common single wall box feature, this structure is more simple, steel using amount is little, Site Welding amount is few, assembly and disassembly are convenient, easily process, other component can reuse except base plate.

One of its feature: arrange and two enclose purlin, inner peripheral purlin in Support Position to pull bar.Arrange and realize self-balancing to inside and outside pull bar place wallboard, effectively can bear inner support and occur by situation during pulling force, avoid inner support and wallboard welding, reduce the difficulty of processing and dismantling.Effectively reduce wall panel thickness simultaneously.This structure effectively can resist the impact of horizontal out-of-balance force under the condition that special sea situation, rivers and lakes flowing water speed are larger.

Inner support is bearing on interior corral purlin, does not directly contact wallboard, encloses between purlin with wallboard and does not weld, and reduces Site Welding amount, thus is convenient to dismounting.

Feature two: adopting the mode that cross suspension bracket is tiltedly put, is the key point that this structure is achieved, adopt cross suspension bracket tiltedly to put and can effectively avoid interior corral purlin and suspension rod locus to intersect, the problem of difficulty is transferred in effective reduction.

Feature three: easy to assembly, be easy to processing.Between wallboard, between wallboard and base plate, the perpendicular bolt that all realizes between rib and base plate, between outer corral purlin, between outer corral purlin and perpendicular rib connects, and is convenient to processing and Assembling, dismounting.

Feature four: integral rigidity is large.Except two corral purlin is set, also be provided with the diagonal brace of opposing horizontal force, diagonal brace is directly welded on casing, can effectively resist uneven horizontal force, can directly uneven horizontal force be relayed on casing, effective reduction cofferdam wallboard and perpendicular rib stressed, also reduces diagonal brace to the stressed impact of bottom concrete simultaneously.

Feature four: the engineering time is short.All components are processed inside, overall package, can to construct parallel operations, treat the complete integral hoisting again of pile driving construction with pile foundation of bearing platform.

Feature five: integral hoisting is convenient, and the construction operation time is short.Adopt 1000t crane barge integral hoisting one-time-reach-place, integral hoisting adopts cross suspension bracket and fining twisted steel as suspension rod, and hangar system installs inside, and the hanging of cross suspension bracket is in first floor inner support, suspension rod, through cross lifting beam, is anchored on base plate joist.Suspension rod top installs anchor slab and nut in advance, and the position calculated in advance of nut is determined (high according to casing top mark, cofferdam at the bottom of mark and high cap design of pile absolute altitude etc.).Time above crane barge handling box to design attitude, contraposition, slowly to transfer, steel pile casting is through box base plate preformed hole, spacing after certain altitude, then continue to transfer to cross suspension bracket and drop on casing top, cross suspension bracket is motionless, suspension rod with cofferdam continue sink until, directly transfer to anchoring backing plate and cross is close to, transfer and put in place, spacing, welding locking cofferdam.Whole operation also the time short.

The utility model is test application in the construction of straits, Pingtan, good fortune black iron road non-major P.E.subject, adopts the form of structure of this utility model completely, for unit in charge of construction has saved great amount of cost, obtain good economic benefit in high-rise pile cap construction.

Specific embodiment:

As shown in Figure 1, plane is rectangular configuration.Specifically comprise by wallboard, base plate, Wei Purlin, inner support system, hangar system.

As shown in Fig. 7 a, Fig. 7 b: wallboard comprises multiple piecemeal composition, and each wallboard piecemeal as shown in Figure 2 steel plate 1 and sash rib 3 forms, and wallboard steel plate 1 is interrupted with wallboard sash rib 3 and welds.Connected as shown in Figure 9 by double bolt between each piecemeal, the vertical edge sealing angle bar of wallboard 29 is connected by double bolt, between watertight rubber bar is set.Wallboard corner connects as shown in Figure 8, and the vertical edge sealing angle bar of wallboard 29 is connected by double bolt with wallboard corner connecting angle 30, arranges watertight rubber bar between connection.Perpendicular rib 2 welds with wallboard sash rib 3.

Described wallboard be connected between base plate as shown in Figure 10, comprise perpendicular rib end plate 26 with bolts with base plate steel plate 18, wallboard bottom edge sealing angle bar 28 and connecting angle 27 are bolted, and after wallboard installation in position, the edge of a wing, connecting angle 27 lower end is welded with base plate steel plate 18.Base plate perforate as shown in Figure 5.

Described base plate comprises the composition of beam in length and breadth shown in base plate steel plate 18 and Fig. 4.

As shown in Figure 1, enclose purlin be inside and outside two enclose purlin comprise in enclose purlin and peripheral purlin is formed.

Described peripheral purlin by minor face to the periphery purlin 6 and long limit to the periphery purlin 8 form, end by arrange between peripheral purlin connector 33 bolt connect.And be bolted between perpendicular rib 2.

Enclose purlin in described inwardly to enclose purlin 7 and long limit by minor face and inwardly enclose purlin 9 and form.The inside and outside purlin that encloses passes through in inner support point position to be connected with ground tackle 5 to pull bar bar 4.Pull bar 4 is anchored on inner support steel pipe 10 and horizontal diagonal brace 11 end plate in interior cofferdam.

As shown in Figure 1, inner support system comprises inner support steel pipe 10, horizontal diagonal brace 11 and angle brace 12.As shown in Figure 3, web member is set between upper and lower layer inner support steel pipe 10 and forms truss sheet, oblique montant 13-1, diagonal brace one 13-2 and diagonal brace two 13-3 are set between inner support steel pipe 10 and casing, to resist uneven horizontal force.

Perpendicular web member 13-4 and diagonal web member 13-5 has been welded with inner support steel pipe 10 by gusset plate one 14-1, gusset plate two 14-2, gusset plate three 14-3, gusset plate four 14-4, gusset plate five 14-5, gusset plate six 14-6 in processing factory.

As shown in Figure 14, Figure 15 a, Figure 15 b, horizontal diagonal brace 11, angle brace 12, the oblique montant of 13-1,13-2 diagonal brace one and 13-3 diagonal brace two are installed after bottom concrete has been constructed.

Fig. 6 a, Fig. 6 b side of being dropping control device, comprise anti-fall suspension rod 19-1, otic placode one 19-2, otic placode two 19-3, shear connector 19-4, end plate 19-5.Wherein anti-fall suspension rod 19-1 bottom arranges end plate 19-5, is welded on base plate inside, welds shear connector 19-4 simultaneously.This device is after bottom concrete has been constructed, and anti-fall suspension rod 19-1 upper end is welded on steel pile casting 32 by otic placode one 19-2, otic placode two 19-3.

As shown in Figure 13 a, Figure 13 b, hangar system comprises hanger (detail drawing is shown in Figure 11 a, Figure 11 b, Figure 11 c), cross suspension bracket 21, Ф 50 fining twisted steel suspension rod 23 and bracing frame 25, and each cross suspension bracket arranges 4 Ф 50 fining twisted steel suspension rods 23.Suspension rod lower anchor is on end anchor beam 16-3.Hangar system can meet cofferdam integral hoisting, transfer and the operating mode such as to build with bottom concrete.Hangar system installs inside, and cross suspension bracket 21 is hung in first floor inner support, and as shown in Figure 13 a, Figure 13 b, Ф 50 fining twisted steel suspension rod 23, through cross lifting beam 21, is anchored on anchor beam 16-3 at the bottom of base plate.Suspension rod top installs anchor slab and nut 24 in advance, and the absolute altitude calculated in advance of nut 24 is determined (high according to casing top mark, cofferdam at the bottom of absolute altitude and cap design of pile absolute altitude etc.).

Concrete hoisting process is as shown in Figure 12 a, Figure 12 b ~ Figure 15 a, Figure 15 b, and box completes in the processing of wharf steel structure processing space and assembling, with the integral hoisting of 1000t crane barge on barge, is transported to job site subsequently.Figure 12 a, Figure 12 b be cut off in advance affect inner support install steel pile casting to design attitude.After barge and crane barge put in place, hanging cable on boatswain chair 22-1, lifting, traversing, transfer.As shown in Figure 13 a, Figure 13 b, time directly over crane barge handling box to design attitude, contraposition, slowly to transfer, steel pile casting is through box base plate preformed hole, spacing after certain altitude, then continue to transfer to cross suspension bracket and drop on steel pile casting top, cross suspension bracket is motionless, suspension rod continues to sink until transfer to anchorage nut and backing plate and cross and be close to cofferdam, transfers and puts in place.Spacing, welding locks cofferdam, installs plugging plate, builds bottom concrete immediately.Because the construction environments such as sea are severe, concrete supply rate can not meet the bottom concrete construction of whole box, for this reason as shown in Figure 5, base plate is arranged two partition panels and be divided into three storehouses, partition panel erects rib 20-2, partition panel horizontal ribs 20-3 by partition panel diagonal brace 20-1, partition panel, compartment steel plate 20-4 forms.According to concrete supply situation, build each bin concrete respectively.

As shown in Figure 15 a, Figure 15 b, reach after design strength until bottom concrete, draw water under utilizing low tide, good weather condition, remove suspension bracket, cut off remaining casing (exposing bottom concrete end face 25cm), horizontal diagonal brace 11 and angle brace 12 are installed.As shown in Figure 5, simultaneously the anti-fall suspension rod of welded and installed as shown in Fig. 6 a, Fig. 6 b and the oblique montant 13-1 of remainder, diagonal brace one 13-2 and 13-3 diagonal brace two.Next bearing platform construction is carried out.

The utility model adopts dismountable single-wall steel suspended box cofferdam structure.Achieve complete bolt between wallboard, between wallboard base plate to connect.Wallboard arranges inside and outside bilayer and encloses purlin, and inner peripheral purlin to pull bar, realizes self-balancing to inside and outside pull bar place wallboard in Support Position, effectively can resist inner support and occur by pulling force situation, avoids inner support and wallboard welding, reduces the difficulty of processing and dismantling.This structure effectively can resist the impact of horizontal out-of-balance force under the condition that special sea situation, river, lake water Flow Velocity are larger.Except base plate, other most of components can repeatedly reuse.Substantially reduce the waste of steel.Adopt the integral hoisting method that this utility model provides, integral hoisting one-time-reach-place simultaneously, after locking, bottom concrete can be built in time, effectively avoid the impact of violent typhoon, larger wave force and fluctuation tide.The construction operation time of on-site hoisting greatly reduces, and effective saving is constructed input and reduce risk.

Compared with prior art, the utility model is a kind of dismountable single-wall steel suspended box cofferdam wall construction, when utilizing the utility model structure as cofferdam, improves the integral rigidity of structure greatly, effectively can improve the effect of opposing out-of-balance force.

Cofferdam of the present utility model wallboard for machine completely in factory, completely with bolts between wallboard, between wallboard and base plate.Design processing is all more convenient, and recycling rate of waterused is high.

The utility model is applied widely, can use under the complicated hydrology, weather conditions.Larger uneven horizontal loading can be born.

Integral hoisting method of the present utility model, reduces the Site Welding time, effectively can save on-site consolidation and hang the time, using, except having saved the engineering time, can also effectively reduce construction risk under the complicated hydrology, weather conditions.

The above; be only the utility model preferably detailed description of the invention; but protection domain of the present utility model is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; the change that can expect easily or replacement, all should be encompassed within protection domain of the present utility model.Therefore, protection domain of the present utility model should be as the criterion with the protection domain of claims.

Claims (4)

1. a dismountable single-wall steel suspended box cofferdam structure, is characterized in that, is the dismountable structure be made up of shaped steel and steel plate, comprises wallboard, encloses purlin, inner support and hangar system;

The external surface of described wallboard is provided with perpendicular rib and stringer, the bottom of described wallboard is connected with base plate, purlin is enclosed described in the inner side and outer side of described wallboard is respectively equipped with, described inner support be supported in inner side enclose on purlin, outside enclose purlin and described perpendicular rib is with bolts, inner side enclose purlin and enclosing between purlin of outside is provided with self-balancing to pull bar, described self-balancing the inner to pull bar is anchored on the flange of described inner support, outer end be anchored in outside enclose on purlin;

Described hangar system comprises multiple cross suspension bracket be located on bracing frame, the top of each cross suspension bracket is respectively equipped with hanger, 4 ends of each cross suspension bracket are respectively equipped with through hole, screw-thread steel suspension rod is installed with in described through hole, the upper end of described screw-thread steel suspension rod is provided with anchoring backing plate and nut, and anchoring lower ends is on base plate joist.

2. dismountable single-wall steel suspended box cofferdam structure according to claim 1, it is characterized in that, described wallboard comprises the plurality of plates be bolted, and arranges watertight rubber bar between plurality of plates, and described wallboard is on the corner connected with wall panels end component bolt by angle steel.

3. dismountable single-wall steel suspended box cofferdam structure according to claim 2, it is characterized in that, edge sealing angle bar is provided with bottom described wallboard, the edge of described base plate is provided with connecting angle, the bottom of described perpendicular rib is provided with end plate, described end plate is connected with bed bolt, and described edge sealing angle bar is connected with connecting angle bolt.

4. dismountable single-wall steel suspended box cofferdam structure according to claim 3, it is characterized in that, described inner support comprises upper strata inner support and lower floor's inner support, connect into truss sheet by web member between described upper strata inner support and lower floor's inner support, the cross suspension bracket of described hangar system is hung in the inner support of described upper strata.