CN201756700U - Multifunctional steel sheet pile concrete arch ring cofferdam - Google Patents

Abstract

The utility model relates to a multifunctional steel sheet pile concrete arch ring cofferdam. Steel sheet piles arranged on the periphery of a bearing platform encircle to form an annular cofferdam, concrete arch rings are attached on inner sides of the steel sheet piles in a cost-in-place form, the steel sheet piles and the concrete arch rings are connected through diagonal draw bars welded on inner side walls of the steel sheet piles, and vertical rods are uniformly distributed between each two adjacent concrete arch rings. The cofferdam is circular, the multilayer arch rings are poured on the inner side of the cofferdam while digging soil, water construction steel platforms and counter braces and internal stays in construction space are not required to be built at first so that the cofferdam has more excellent construction space compared with the conventional cofferdams or steel hanging boxes, thereby being favorable for lowering construction cost and being capable of shortening construction period. In addition, the multifunctional steel sheet pile concrete arch ring cofferdam can be widely applied to foundation construction of large-sized bridges and the like in water and at intertidal zones, soft foundations and the like.

Description

Multifunctional cofferdam of steel sheet piles and concrete arch rings

Technical field

The utility model relates to a kind of steel sheet-pile cofferdam.

Background technology

Cross over the Longspan Bridge in great river or bay, its main pier (tower) generally is located in the close water of embankment (prolonging bank) or shoal area, its foundation structure overwhelming majority adds cushion cap for a clump of piles, and for attractive in appearance, generally can place the cushion cap end face under the water surface (during low water stage) even the riverbed Here it is our cushion cap basis, the frequent said end.

By conventional construction method this type of bridge foundation of constructing, generally be to set up subaqueous work steel platform earlier, after set pile foundation steel casing and carry out pile foundation construction in the water, remove the steel platform after finishing the whole pile foundations of this pier, adopt cofferdam or steel box to carry out bearing platform construction again.This traditional construction has that operation is many, the cycle is long, and supporting main equipment is many, construction process requirement height, shortcomings such as expense height.

Existing steel sheet-pile cofferdam comprises the intensive one group of steel sheet pile that is enclosed in the cushion cap periphery, the interlock of steel sheet pile border is tight, the supporting of the inboard employing in cofferdam upper, middle and lower-ranking horizontal shore (shoring) bar is the flexural strength of enhanced level shore supporting, makes diagonal brace at two ends at needs and strengthens.The cushion cap bottom surface is positioned at more than the riverbed, adopts layering to draw water during construction, the method for layering supporting, and border 50cm also will establish charge for remittance canal, plash with interior.The supporting of horizontal shore (shoring) bar has occupied inner most of space, cofferdam, and working space is narrow and small, and the construction period is longer.

The utility model content

The purpose of this utility model provides a kind of multifunctional cofferdam of steel sheet piles and concrete arch rings, solve have than the better bearing capacity of steel platform and working area become the water king-pile into " land " thus need not the technical problem of steel casing; And solve the function that possesses required cofferdam of bearing platform construction or steel box, and has the problem in more superior construction operation space than traditional in the past cofferdam or steel box.

For achieving the above object, the utility model adopts following technical scheme:

A kind of multifunctional cofferdam of steel sheet piles and concrete arch rings, this cofferdam comprises the intensive one group of steel sheet pile that is enclosed in the cushion cap periphery, the root of described steel sheet pile extends below the substrate of cofferdam, the top of steel sheet pile is higher than cushion cap, the mutual interlock of the adjacent side of adjacent steel sheet pile, the inside wall of being close to this group steel sheet pile, along the cofferdam circumferential interval be cast with level to concrete arch rings, steel sheet pile and concrete arch rings are by being welded on the diagonal member drawknot of steel sheet pile, described concrete arch rings is joined the reinforced concrete structure of steel hoop cage in being, is connected with montant between adjacent two concrete arch rings.

Described steel sheet pile is Larsen steel sheet pile, U shaped steel sheet pile or Z-shape steel sheet pile.

Reinforcing cage in the described concrete arch rings has four main muscle of annular at least and is centered around the stirrup in the main muscle outside at interval.

The lateral wall hoop of described steel sheet pile has wire rope.

Compared with prior art the utlity model has following characteristics and beneficial effect:

1, the utility model carries out combination with pile foundation in the water and bearing platform construction are organic, can save the steel pipe pile operation platform.

2, the utility model is owing to adopt annular weir and inboard, cofferdam that the multiple tracks concrete arch rings is set, make no any strut in the cofferdam, for excavating with works construction of sandy soil in the cofferdam provides the working space that is unsurpassed in excellence, and make space enclosing structure become succinct, thereby help lowering construction cost, and can the reduction of erection time.

3, the utility model specially adopts the steel bar concrete arch ring, compare with the shaped steel concrete arch rings, adopt concrete arch rings to form integral body with steel sheet pile better, and " deviation from circular from " that produce can eliminate steel sheet pile construction the time, guarantee that concrete arch rings is adjacent to each root steel sheet pile, can make full use of the compressive property of steel concrete.

4, the utility model adopts steel sheet-pile cofferdam and fill out sandy soil in the cofferdam, makes in the water or the weak soil pile foundation construction, is equivalent to construct on land, can save pile foundation steel casing.

The utility model has overcome traditional space enclosing structure and job practices thereof and has had that operation is many, the cycle is long, supporting main equipment is many, the construction process requirement height, the shortcoming that expense is high, solved have than the better bearing capacity of steel platform and working area become the water king-pile into " land " thus need not the technical problem of steel casing; And solved the function that possesses required cofferdam of bearing platform construction or steel box, and has the problem in more superior construction operation space than traditional in the past cofferdam or steel box.

In the foundation construction of the large bridge of positions such as the utility model can be widely used in the water, beach, soft base etc.

Description of drawings

The utility model is described in more detail below in conjunction with accompanying drawing.

Fig. 1 is a structural representation of the present utility model.

Fig. 2 is the utility model vertical view.

Fig. 3 is the structural representation of posting and steel pipe pile.

Fig. 4 is the posting detail drawing.

Fig. 5 is the A-A sectional drawing of Fig. 4.

Fig. 6 is the profile of concrete arch rings.

Fig. 7 is a cushion cap position profile before constructing.

Fig. 8 plays the steel sheet pile construction schematic diagram.

Fig. 9 fills out the sandy soil schematic diagram.

Figure 10 is the stake and excavate the sandy soil schematic diagram of laying foundation.

Figure 11 waters the first road concrete arch rings schematic diagram.

Figure 12 excavates soil body schematic diagram between the first road concrete arch rings and the second road concrete arch rings.

Figure 13 waters the second road concrete arch rings schematic diagram.

Figure 14 waters the 3rd road concrete arch rings schematic diagram.

Figure 15 carries out bed course, cushion cap and bridge pier seat construction schematic diagram.

Reference numeral: 1-cushion cap, 2-steel sheet pile, 3-concrete arch rings, the 3.1-first road concrete arch rings, the 3.2-second road concrete arch rings, 3.3-the 3rd road concrete arch rings, 4-montant, 5-steel pipe pile, 6-guide housing, 6.1-web member, 6.2-lower chord, 6.3-upper chord, 7-foundation pile, 8-concrete cushion, 9-reinforcing cage, 9.1-master's muscle, 9.2-stirrup, 10-bridge pier seat, 11-sandy soil.

The specific embodiment

Embodiment is referring to Fig. 1～shown in Figure 6, the husky bridge of Lee family is a grand bridge on the speedway of South 2nd Ring Road, Guangzhou, be positioned at the Lee family husky water channel place that Guangzhou Fanyu District and Shunde District, Foshan have a common boundary, spanning is arranged as (110+220+110) m three and strides double tower four rope face prestressed concrete cable-stayed bridges, total length 440m, adopt parallel up-downgoing two width of cloth bridges, two girders laterally separate fully, and suspension cable is arranged in the girder both sides and becomes space four rope faces.The single width bridge is wide 23 meters, clear distance 4m between two width of cloth bridges, bridge floor beam overall 50m.Main pier Z3, Z4 are in close embankment inboard.Wherein Z3 all is in water, and the Z4 cushion cap is positioned on the shoal.Z3#, Z4# master's pier be totally 4 cushion caps, and each cushion cap is provided with 9 φ 2.5m pile foundations, and stake is about 45～50m.Z3#, Z4# master's pier double width is totally 4 cushion caps, each suspended deck structure is of a size of 14.2m (length) * 15.7m (wide) * 5.5m (height), the back cover concrete is thick to be 1m, the cushion cap end face is imbedded the riverbed face, cushion cap top mark height-0.5m, about the general water level 2.2m in bridge location place, Z3# Dun Chu riverbed absolute altitude is 0, about the absolute altitude 2.5m of Z4# pier shoal.This bridge cushion cap is all imbedded the riverbed, the nearly 10m of the excavation of foundation pit degree of depth, according to this engineering characteristic, the cushion cap planar dimension is 14.2m * 15.7m, comparatively upright, adopt multifunctional cofferdam of steel sheet piles and concrete arch rings, this cofferdam comprises the intensive one group of steel sheet pile 2 that is enclosed in cushion cap 1 periphery, the root of described steel sheet pile 2 extends below the substrate of cofferdam, the top of steel sheet pile 2 is higher than cushion cap, the mutual interlock of the adjacent side of adjacent steel sheet pile, be close to this group steel sheet pile 2 inside wall, along the cofferdam circumferential interval be cast with level to concrete arch rings 3, steel sheet pile 2 and concrete arch rings 3 diagonal member 12 drawknots by being welded on steel sheet pile, described concrete arch rings 3 is joined the reinforced concrete structure of steel hoop cage 9 in being, is connected with montant 4 between adjacent two concrete arch rings.Described steel sheet pile 2 is Larsen steel sheet pile, U shaped steel sheet pile or Z-shape steel sheet pile.Reinforcing cage 9 in the described concrete arch rings has four main muscle 9.1 of annular at least and is centered around the stirrup 9.2 in the main muscle outside at interval.The lateral wall hoop of described steel sheet pile has wire rope.

According to the cushion cap planar dimension, making the concrete arch rings reasonable diameter is 21.20m, selects 15m Larsen IV shaped steel sheet pile for use, foundation depth 10m.Adopt traditional hand computation and three-dimensional modeling zooming to combine on Force Calculation, two kinds of results check mutually, guarantee the safety of structure.

Hand computation: adopt Lang Jin-coulomb soil pressure formula to calculate active earth pressure outside the cofferdam, soil pressure is passed on the steel concrete concrete arch rings by steel sheet pile, and concrete arch rings as cycloidal arch, and is considered suitable unbalance loading, calculates the stressed of concrete arch rings.

Zooming: adopt American AB AQUS finite element analysis software that three-dimensional modeling is carried out in whole cofferdam and surrounding soil, structure is carried out the global analysis checking computations.

On two kinds of result of calculations, adopt the stressed result of traditional hand computation bigger than normal, relatively safety.In the structure design of concrete arch rings, adopt the hand computation result to check, guarantee the safety of structure.

Concrete arch rings is arranged 4 layers altogether by Force Calculation in the cofferdam, upper two layers stressed less relatively, and its cross section is 40 * 50cm, and third and fourth layer is stressed relatively large, and the cross section is 40 * 60cm.Join 10 φ 22 reinforcing bars in the concrete arch rings.Concrete arch rings adopts the C40 concrete.

The job practices of described multifunctional cofferdam of steel sheet piles and concrete arch rings, referring to Fig. 7～15, step is as follows:

Step 1, the periphery in cushion cap 1 position sets positioning steel tube stake 5, welding guide housing 6 between two adjacent positioning steel tube stakes;

Step 2 is close to guide housing 6 outsides, inserts in the cushion cap circumferential perimeter and beats steel sheet pile 2, surrounds an annular weir, and the cofferdam forms the back and transfers to guide housing 6 and steel pipe pile 5;

Step 3 is extracted the water in the annular weir out, and insert sandy soil 11 in annular weir;

Step 4 is squeezed into foundation pile 7 by pier footing stake design attitude in annular weir;

Step 5, excavate the sandy soil 11 around the foundation pile 7 in the annular weir, sandy soil 11 dig to the first road concrete arch rings, 3.1 absolute altitude places in the annular weir, inside wall welding diagonal member 12 at steel sheet pile 2, diagonal member 12 stretches to concrete arch rings 3.1, is close to the reinforcing cage 9 that steel sheet pile 2 installs concrete arch rings, reinforcing cage 9 and diagonal member 12 drawknots, around reinforcing cage 9, concrete form is installed, is built the first road concrete arch rings 3.1;

Step 6, the concrete of one concrete arch rings of grade in an imperial examination 3.1 reach its design strength 80% after, continuation is cut the earth in annular weir to following one concrete arch rings absolute altitude place, inside wall welding diagonal member 12 at steel sheet pile 2, diagonal member 12 stretches to concrete arch rings 3.1, is close to the reinforcing cage 9 that steel sheet pile 2 installs concrete arch rings, reinforcing cage 9 and diagonal member 12 drawknots, around reinforcing cage 9, concrete form is installed, is built the second road concrete arch rings 3.2;

Step 7 evenly installs montant 4 between the first road concrete arch rings 3.1 and the second road concrete arch rings 3.2;

Step 8, repeating step six is built the 3rd road concrete arch rings 3.3 and is cut the earth to pier footing foundation ditch bottom surface projected depth;

Step 9 is built the concrete cushion 8 of pier footing foundation ditch bottom surface, waits concrete cushion intensity to reach design strength, builds cushion cap 1 on concrete cushion 8;

Step 10, cushion cap 1 construction finishes, and makes bridge pier seat 10 at cushion cap 1 end face, removes concrete arch rings 3 and steel sheet pile 2.

In the described step 2, guide housing 6 is no brace arch truss, web member 6.1 is two block plates butt joint welding, lower chord 6.2 is two boxes that i iron butt welding is connected into, joint is welded with steel plate, and the steel plate upper end is a circular arc, and upper chord 6.3 is the arch steel pipe, upper chord 6.3 is welded to connect with web member 6.1, and web member 6.1 is welded to connect with lower chord 6.2.

In the described step 2, the upper chord 6.3 outer arc linear diameters of guide housing 6 are identical with the cofferdam diameter.

In the described step 2, whenever set 15 steel sheet piles 2 after, measure the tangential deflection of steel sheet pile, and align by up big and down small profile iron sheet pile.

In described step 5～step 7, when Cast-in-place concrete arch ring 3, pre-buried 8 section stressometers in every layer of concrete arch rings.

In the described step 8, the thickness of concrete cushion 8 is 50～100mm, cushion cap 9 be one deck or two-layer and two-layer more than.

Also isolated material between described steel sheet pile and the per pass concrete arch rings.

Below only be an exemplary embodiments of the present utility model, enforcement concrete arch rings of the present utility model road is several to be determined according to foundation depth, is three roads incessantly.

Claims (4)

1. multifunctional cofferdam of steel sheet piles and concrete arch rings, this cofferdam comprises the intensive one group of steel sheet pile (2) that is enclosed in cushion cap (1) periphery, it is characterized in that: the root of described steel sheet pile (2) extends below the substrate of cofferdam, the top of steel sheet pile (2) is higher than cushion cap, the mutual interlock of the adjacent side of adjacent steel sheet pile, the inside wall of being close to this group steel sheet pile (2), along the cofferdam circumferential interval be cast with level to concrete arch rings (3), steel sheet pile (2) and concrete arch rings (3) diagonal member (12) drawknot by being welded on steel sheet pile, described concrete arch rings (3) is joined the reinforced concrete structure of steel hoop cage (9) in being, is connected with montant (4) between adjacent two concrete arch rings.

2. multifunctional cofferdam of steel sheet piles and concrete arch rings according to claim 1 is characterized in that: described steel sheet pile (2) is Larsen steel sheet pile, U shaped steel sheet pile or Z-shape steel sheet pile.

3. multifunctional cofferdam of steel sheet piles and concrete arch rings according to claim 2 is characterized in that: the reinforcing cage 9 in the described concrete arch rings has four main muscle of annular (9.1) at least and is centered around the stirrup (9.2) in the main muscle outside at interval.

4. multifunctional cofferdam of steel sheet piles and concrete arch rings according to claim 3 is characterized in that: the lateral wall hoop of described steel sheet pile has wire rope.

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