CN106536825A - Bridge construction method and bridge structure - Google Patents

Abstract

(Problem) The purpose of the present invention is to provide a bridge structure and a construction method of a bridge which can be constructed on-site in diverse terrains and which results in strong bridges constructed with ease. (Solution) This bridge construction method involves utilizing a superstructure in which main girders and crossbeams are integrally bonded to tubular pile head fixing members provided at intersections between the main girders and crossbeams, and is characterized in that, by joining one end of the main girders of the aforementioned superstructure to the main girders of the superstructure of an existing bridge section, the aforementioned superstructure is linked to the existing bridge section in a state projecting in a cantilevered manner; the pile members are inserted into the pile head fixing members of the linked superstructure, the bottom ends of the pile members are struck into prescribed pile fixing positions, the top ends of the pile members are fixed to the pile head fixing members of the aforementioned superstructure, and deck slabs are arranged along the top of the aforementioned superstructure.

Description

Method for bridge construction and bridge structure

Technical field

The present invention relates to the construction method and structure of a kind of bridge.

Background technology

Used as existing method for bridge construction, such as method disclosed in patent documentation 1 is widely known by the people.With Figure 27 come to this Construction method is illustrated.

In the construction method, the girder 1 of the trestle unfinished portion for being previously provided with pile crown tube for fixing 4 is made from trestle Unfinished portion is stretched out with cantilever-shaped, and carries out tension adjustment to wire rod 2 in the way of parallel with the girder 1, so as to this is led The direction of beam 1 or angle or askew status adjust and keep to state is nearly completed, wherein the wire rod 2 is along the stack The girder 1 of bridge unfinished portion across the girder 1 stretch out leading section and trestle is completed between part.Thus, make installation Completion statuses are closely located in the pile crown tube for fixing 4 of the girder 1, and tubulose stake 5 is carried out via the pile crown tube for fixing 4 Piling.In addition, the crossbeam 3 and girder 1 of pile crown tube for fixing 4 will be provided with the rotatable double-sleeve structure in circumferentially direction Connection.

But, in the construction method of aforesaid existing bridge, it should which the problem points of improvement are as follows.In existing bridge Construction method in, shown in such as Figure 27 (b), above pile crown tube for fixing 4, between P4 and iron floorings 6, there is interval.Cause This, it has to is only by the top cover (not shown) that is configured on pile crown tube for fixing 4 keeping the power pushed up upwards from tubulose stake 5 With the load-carrying of superstructure itself.The problem of the intensity for being difficult to further improve bridge is accordingly, there exist, this point needs to improve.

In addition, there is situation about cannot use because of the site contour difference for building a bridge in the method.For example, across river In the case of building a bridge between the mountain of stream, the method cannot be used in following situation：I.e., it is impossible to by the mountain of side and opposite side Mountain between with linear situation about linking；There is the situation of difference of height between the mountain of side and the mountain of opposite side.

【Prior art literature】

【Patent documentation】

Patent documentation：Japanese Unexamined Patent Publication 2000-096582 publications

The content of the invention

Invention problem to be solved

The problem to be solved in the present invention is, there is provided a kind of bridge of high intensity of can easily constructing, construct, and can be The construction method and bridge structure of the bridge constructed in various landform scenes.

The method for solving problem

The method for bridge construction of the present invention, its using by girder and crossbeam, tubulose pile crown fixing component with integral manner The superstructure of engagement, the pile crown fixing component are arranged at the point of intersection of the girder and the crossbeam, the bridge construction Method is characterised by, by by the girder of the one end of the girder of the superstructure and the superstructure in the portion that builds a bridge Engagement, the superstructure is connected with the portion of building a bridge with the cantilever-shaped state stretched out, pile element insertion is linked The superstructure the pile crown fixing component, the stake fixed position of regulation is squeezed into in the lower end of the pile element, by institute The pile crown fixing component of the superstructure is fixed in the upper end for stating pile element, along the top configuration bridge floor of the superstructure Plate, in the superstructure, above the pile crown fixing component directly or indirectly be configured at the superstructure it On floorings contact, and above the pile crown fixing component with the pile element of pile crown fixing component described in insertion Central shaft is perpendicular.

The bridge structure of the present invention, which is used and girder and crossbeam, the pile crown fixing component of tubulose is engaged with integral manner Superstructure, the pile crown fixing component is arranged at the point of intersection of the girder and the crossbeam, the method for bridge construction It is characterised by, multiple superstructures are linked by the one end of girder is engaged with each other, and make what pile element insertion had linked The stake fixed position of regulation is squeezed in the lower end of the pile element by the pile crown fixing component of the superstructure, will be described The pile crown fixing component of the superstructure is fixed in the upper end of pile element, along the top configuration bridge floor of the superstructure Plate, in the superstructure, above the pile crown fixing component directly or indirectly be configured at the superstructure it On floorings contact, and above the pile crown fixing component with the pile element of pile crown fixing component described in insertion Central shaft is perpendicular.

In addition, the method for bridge construction and bridge structure of the present invention, it is characterised in that in the superstructure, at which Between configure the pile crown fixing component center side girder and be engaged in the girder of opposite side and be configured in the horizontal plane On same straight line.

In addition, the method for bridge construction and bridge structure of the present invention, it is characterised in that in the superstructure, engagement It is inclined with horizontal direction in the girder of the pile crown fixing component.

In addition, the method for bridge construction and bridge structure of the present invention, it is characterised in that in the superstructure, at which Between configure the pile crown fixing component center side girder and be engaged in the girder of opposite side and be configured in vertical On same straight line.

In addition, the method for bridge construction and bridge structure of the present invention, it is characterised in that in the superstructure, be used for The crossbeam linked between the pile crown fixing component adjacent in the direction of the width has difference extension, and the difference is prolonged Extending portion is extended in the way of parallel with the girder for being engaged in the pile crown fixing component, not with the pile crown fixing component Second girder of engagement is engaged in the difference extension.

In addition, the method for bridge construction and bridge structure of the present invention, it is characterised in that the upper end of the pile element is fixed After the pile crown fixing component of the superstructure, secondary girder is engaged on the girder, and is engaged on the crossbeam Secondary crossbeam, via the secondary girder and the secondary crossbeam along the top configuration floorings of the superstructure.

Invention effect

Method for bridge construction of the invention and bridge structure, can be directly or indirectly above pile crown fixing component Closed by bed version.Load-carrying therefore, it is possible to make floorings resists up pushing up for the pile element of insertion pile crown fixing component Power.Therefore, it is possible to carry out the construction of the higher bridge of intensity.Further, since above the pile crown fixing component of tubulose relative to The central shaft of pile element is perpendicular, can easily make pile element insertion pile crown fixing component.Therefore, it is possible to easily carry out bridge The construction of beam.

In addition, method for bridge construction of the invention and bridge structure, due in the superstructure, across described The center of pile crown fixing component is engaged in the girder of side and the girder for being engaged in opposite side is configured in the horizontal plane with always On line, therefore, it is possible to the construction for easily carrying out the bridge with the structure for bending in the horizontal plane.Thus, for example, across river When building a bridge between the mountain of stream, though cannot with when linearly linking between the mountain of side and the mountain of opposite side, Also bridge can be bent and is set up.

In addition, method for bridge construction of the invention and bridge structure, in the superstructure, tie on the top In structure, the girder for being engaged in the pile crown fixing component is inclined relative to horizontal direction, it is thus possible to easily carry out with phase For the bridge of the inclined structure of horizontal direction.Thus, for example, when building a bridge between the mountain in river, even if one When there is difference of height between the mountain of side and the mountain of opposite side, it is also possible to incline bridge and set up.

In addition, method for bridge construction of the invention and bridge structure, in the superstructure, tie on the top In structure, the girder of side is engaged in across the center of the pile crown fixing component and is engaged in the girder of opposite side in vertical Configure on the same line, therefore, it is possible to easily carry out the construction with the bridge relative to the inclined structure of horizontal direction.

In addition, method for bridge construction of the invention and bridge structure, in the superstructure, tie on the top In structure, the crossbeam between the pile crown fixing component that will be adjoined on link width direction has difference extension, described Difference extension is parallel with the girder for being engaged in the pile crown fixing component and extend, without and the pile crown fixing component Second girder of engagement is engaged in the difference extension, therefore when the construction of bridge of wider width is carried out, can not increase The quantity of staking and increase the quantity of girder.Therefore, it is possible to construct with high intensity and easily the bridge of wider width.

In addition, method for bridge construction of the invention and bridge structure, as secondary girder is engaged on the girder, And secondary crossbeam is engaged on the crossbeam, it is possible to improving the intensity of superstructure.Therefore, even if a structure must increased The construction of bridge can be also carried out where the distance between part is such.

Description of the drawings

Fig. 1 is the three-view diagram of the superstructure adopted in the construction method of the bridge of the present invention.

Fig. 2 is the figure of the composition of the pile crown fixing component for illustrating superstructure.

Fig. 3 be illustrate into portion construct when the method for bridge construction for having used superstructure figure.

Fig. 4 be illustrate into portion construct when the method for bridge construction for having used superstructure figure.

Fig. 5 be illustrate into portion construct when the method for bridge construction for having used superstructure figure.

Fig. 6 be illustrate into portion construct when the method for bridge construction for having used superstructure figure.

Fig. 7 be illustrate into portion construct when the method for bridge construction for having used superstructure figure.

Fig. 8 be illustrate into portion construct when the method for bridge construction for having used superstructure figure.

Fig. 9 is a part of profile after floorings FS constructions have been carried out in superstructure 101.

Figure 10 is the three-view diagram of the superstructure used in the method for bridge construction of the present invention.

Figure 11 is the figure of the method for bridge construction for having used superstructure when illustrating that standard portion constructs.

Figure 12 is the figure of the method for bridge construction for having used superstructure when illustrating that standard portion constructs.

Figure 13 is the figure of the method for bridge construction for having used superstructure when illustrating that standard portion constructs.

Figure 14 is the figure of the method for bridge construction for having used superstructure when illustrating that standard portion constructs.

Figure 15 is the three-view diagram of the superstructure used in the method for bridge construction of the present invention.

Figure 16 is a part of profile after floorings FS constructions have been carried out in superstructure.

Figure 17 is the figure of the other embodiment for illustrating superstructure.

Figure 18 is the figure of the composition of the superstructure used in the method for bridge construction for illustrating the present invention.

Figure 19 is the schematic top of the bridge after being shown with Superstructure Construction.

Figure 20 is the schematic side view of the bridge after being shown with Superstructure Construction.

Figure 21 is the figure of the composition of the superstructure used in the method for bridge construction for illustrating the present invention.

Figure 22 be illustrate into portion construct when the method for bridge construction for having used superstructure figure.

Figure 23 is the top view of the superstructure for engaging secondary girder and secondary crossbeam.

Figure 24 illustrates the profile of the engagement state of girder and secondary girder.

Figure 25 is to be connected with the superstructure of secondary girder the side view of the superstructure for having carried out floorings FS constructions.

Figure 26 is to be connected with the superstructure of secondary girder the side view of the superstructure for having carried out floorings FS constructions.

Figure 27 is the figure of the construction method for illustrating bridge of the prior art.

Specific embodiment

Hereinafter, referring to the drawings embodiments of the invention are described in detail.

Embodiment 1

(first, the composition of superstructure)

With reference to Fig. 1, the superstructure 101 used in method for bridge construction to the present invention is illustrated.Generally, construction bridge Liang Qian, pre-assembled superstructure 101.Moreover it is preferred that during assembling, in factory etc. to the porters such as truck can be used The big part that tool is carried is assembled, and then, after handbarrow is transported to actual job site, group at the construction field (site) Dress up the form of the superstructure 1 shown in Fig. 1.

Herein, top views of the Fig. 1 (a) for superstructure 101, front views of the Fig. 1 (b) for superstructure 101, Fig. 1 (c) is The right view of superstructure 101.As shown in Fig. 1 (a), superstructure 101 is by the stake of multiple girders 111 and crossbeam 113, tubulose Head fixing component 115 is engaged in a unitary manner and is constituted, and the pile crown fixing component 115 is arranged at girder 111 and crossbeam 113 point of intersection.

Girder 111 and crossbeam 113 are configured to ladder shape.Additionally, girder 111 and crossbeam 113 are formed by H profile steel.

Girder 111 includes relatively short girder 111a and relatively long girder 111b.As shown in Fig. 1 (c), girder One end of 111a and girder 111b is respectively welded and is fixed on the side 115a (aftermentioned) of pile crown fixing component 115.In addition, as schemed Shown in 1 (a), (c), the other end for being not fixed to pile crown fixing component 115 of girder 111a and girder 111b, using what is specified Fixed plate and bolt, nut are docked mutually, are engaged in the horizontal plane and in vertical on straight line.

Crossbeam 113 includes the crossbeam 113a and crossbeam 113b of specific length.As shown in Fig. 1 (b), crossbeam 113a and crossbeam One end of 113b is respectively welded and is fixed on the side 115a of pile crown fixing component 115.In addition, as shown in Fig. 1 (a), (b), it is horizontal The other end for being not fixed to pile crown fixing component 115 of beam 113a and crossbeam 113b, using the fixed plate and bolt specified, Nut is docked mutually in the horizontal plane and is engaged on straight line in vertical.

As shown in Fig. 1 (a), the center C5 of pile crown fixing component 115 is configured on the central shaft J1 of girder 111.In addition, stake The center C5 of head fixing component 115 is configured on the central shaft J3 of crossbeam 113, i.e. pile crown fixing component 115 is so that its center C5 Be the central shaft J1 and crossbeam 113 of girder 111 central shaft J3 intersection point on mode configure.Thereby, it is possible to make it easy to The shape of adjustment superstructure 101.In addition, as shown in Fig. 1 (b), pile crown fixing component 115 is so that its P5 above and insertion pile crown The mode that the central shaft J5 of the steel-pipe pile of fixing component 115 is perpendicular is configured.And, such as shown in Fig. 1 (c), fix across pile crown Component 115 and configure girder 111 be configured on straight line in vertical.

Additionally, in each pile crown fixing component 115, being bonded to girder 111a, girder 111b and crossbeam 113a or crossbeam 113b.But, for the pile crown fixing component 115 of the upper end for being located in the superstructure 101 of Fig. 1 (a), in pile crown fixing component Girder 111a and crossbeam 113a or crossbeam 113b are bonded on 115 only.Additionally, in Fig. 1 (a)-(c), omitting expression and being configured at The flank 115c (aftermentioned) of each pile crown fixing component 115.

The structure of pile crown fixing component 115 is illustrated with reference to Fig. 2.Additionally, Fig. 2 (a) illustrates pile crown fixing component 115 Top view, Fig. 2 (b) illustrates the X-X profiles of the pile crown fixing component 115 shown in Fig. 2 (a).As shown in Fig. 2 (a), pile crown is solid Component 115 is determined with cylindrical portion 115a, edge of a wing portion 115b and flank 115c.Edge of a wing portion is configured with one end of cylindrical portion 115a 115b.In edge of a wing portion, 115b is formed with multiple hole 115d.Hole 115d is in order that with bolt, nut will be pile crown top cover (aftermentioned) solid Formed due to pile crown fixing component 115.The internal diameter of cylindrical portion 115a and edge of a wing portion 115b and the steel-pipe pile for constituting bridge pier External diameter is roughly equal.

Flank 115c is from the center C5 of pile crown fixing component 115 with radial configuration.As shown in Fig. 2 (b), flank 115c connects Side and edge of a wing portion 115b together in cylindrical portion 115a.Thus strengthen the intensity of pile crown fixing component 115.

(second, method for bridge construction)

Reference picture 3- Fig. 7 is to being illustrated using the method for bridge construction of superstructure 101.Additionally, with regard to bridge construction Method, respectively to relative to abutment using superstructure 101 as construct into portion when (when below, constructing into portion), And when constructing to new superstructure 101 relative to the superstructure 101 constructed (when below, standard portion constructs) Illustrate.When standard portion constructs, as will be described, by the one end of the girder of new superstructure with set up The girder of the superstructure of rim bridge is engaged, and thus, new superstructure is being linked to the cantilever-shaped state stretched out Build a bridge portion.

When the 1st, constructing into portion

As shown in Fig. 3 (a), using the crane locomotive CT being configured on the abutment BA for completing to construct and vibration pile driving hammer is used VH, arranges guiding stake G1- guiding stake G4 with rectangular shape in assigned position.Additionally, in Fig. 3 (a), being guiding stake G1, drawing The guiding stake G2 of the inboard of guide pile G3, guiding stake G4 write on parenthetic representing.

Next, as shown in Fig. 3 (b), the guiding arranged for the front end parallel to abutment BA using crane locomotive CT Stake G1 and guiding stake G2, the mode put up a bridge arrange joist R1.It is for guiding stake G3 and guiding stake G4, same to arrange Joist R2.As shown in Fig. 3 (c), superstructure 101 is configured on joist R1, joist R2 with crane locomotive CT.

As shown in Fig. 4 (a), using crane locomotive CT, the pile crown that desktop machine TM is configured at superstructure 101 is solid Determine on component 115.Next, as shown in Fig. 4 (b), making punching hammer DH into shape from top insertion desktop machine TM using crane locomotive CT And pile crown fixing component 115.Also, as shown in Fig. 4 (c), ground is dug by desktop machine TM and punching hammer DH, being formed is used for Steel-pipe pile is fixed on into the fixing hole of ground.

As shown in Fig. 5 (a), after forming fixing hole, punching hammer DH is extracted from upside.Further, dismantle desktop machine TM.With it is upper State similarly, such as shown in Fig. 5 (b), desktop machine TM is configured in another pile crown fixing component 115 of superstructure 101, and is matched somebody with somebody Punching hammer DH is put, ground is then dug, and then is dug a fixing hole again.Then, as shown in Fig. 5 (c), using crane locomotive CT While the mobile bucket BK equipped with mortar, the mortar for consolidating is poured in fixing hole using conduit TT.

As shown in Fig. 6 (a), after pouring mortar, using crane locomotive CT, the steel-pipe pile SP of composition bridge pier is made from top insertion Pile crown fixing component 115, and it is inserted in fixing hole.Thereafter, as shown in Fig. 6 (b), steel-pipe pile SP is inserted in after fixing hole, is led to Cross crane locomotive CT to operate pile hammer HB, so as to carry out the piling of steel-pipe pile SP.

As shown in Fig. 7 (a), upwardly projecting steel-pipe pile SP1 from above superstructure 101 is cut off and removes.Thereafter, As shown in Fig. 7 (b), mortar is poured in the pile crown of steel-pipe pile SP.

As shown in Fig. 7 (c), after pile crown pours mortar, the spud pile head top cap TC above the pile crown fixing component 115. The fixation of pile crown fixing component 115 and pile crown top cover TC is completed by following manner：Make bolt through hole 115d and the formation of regulation In the hole of pile crown top cover TC, and it is fixed with nut, the hole 115d (with reference to Fig. 2) is formed at pile crown fixing component 115 Edge of a wing portion 115b.

As shown in Fig. 8 (a), after pile crown top cover TC is fixed, guiding material is removed.Then, as shown in Fig. 8 (b), set Track-type construction frame is laid in the superstructure 101 put, so as to complete the construction in the entrance portion in bridge construction.Thereafter, carry out Bridge construction when standard portion constructs.

After superstructure 101 when like this to constructing into portion is constructed, through shown in embodiment 2 to standard portion Superstructure 201 during construction is constructed, and the construction of floorings FS and adjustment Concrete S is carried out in superstructure 101.Fig. 9 The side view of the superstructure 101 of the state after carrying out floorings FS and adjustment Concrete C constructions is shown.Additionally, in Fig. 9 In, by a part of pile crown fixing component 115 and a part of steel-pipe pile SP with section representing.

Insertion pile crown fixing component in the way of making steel-pipe pile SP P5 above relative to pile crown fixing component 115 vertical 115, after covered by P5 above pile crown fixing component 115, the construction of floorings FS is carried out on top cover TC.Cause This, above pile crown fixing component 115, P5 is contacted with PF below floorings FS indirectly via top cover TC.Thus, energy Enough make the power up pushed up of steel-pipe pile SP is resisted from the load-carrying F1 of floorings FS.Therefore, it is possible to complete the bridge with high intensity The construction of beam.

Embodiment 2

Superstructure 101 in aforesaid embodiment 1 is used when constructing into portion.On the other hand, this enforcement Superstructure 201 in example is made to completing (when below, standard portion constructs) when the superstructure 101 after constructing is constructed .Additionally, the superstructure 101 in embodiment 1 can also be used when standard is constructed.Now, in following construction methods In, replace superstructure 201 with superstructure 101 come use.

(first, the composition of superstructure)

Illustrate with reference to the superstructure 201 used in method for bridge construction of the Figure 10 for the present invention.Herein, scheme The top view of 10 (a) for superstructure 201, front views of the Figure 10 (b) for superstructure 201, Figure 10 (c) are superstructure 201 Right side view.Additionally, in Figure 10 (a)-Figure 10 (c), for Fig. 1 (a)-Fig. 1 (c) identical structures, give identical Reference.

Superstructure 201 is different from the superstructure 101 that girder 111 and crossbeam 113 are configured with ladder shape, its girder 111 and crossbeam 113 configured with "U" shape.

While constructing (second, standard portion)

As shown in Figure 11 (a), match somebody with somebody in superstructure SS of completed construction on the steel-pipe pile SP (1) and steel-pipe pile SP (2) Put crane locomotive CT.Using crane locomotive CT, superstructure 201 is configured at into assigned position, and by the girder of superstructure 201 111 and superstructure SS girder 111a connection.Thus, superstructure 201 is in cantilever position relative to superstructure SS.This Outward, can also be as follows：Superstructure 201 is made when assigned position is in cantilever position, in the girder of the superstructure 201 of connection Wire rod (for example, piano wire) is set up between the girder 111a of 111b and superstructure SS, with the girder 111a with superstructure SS Parallel mode adjusts the tension force of wire rod, thus, makes the state in the direction of the girder 111b of superstructure 201, angle, crooked etc. State when being nearly completed (with reference to documents 1).Additionally, as set forth above, it is possible to replacing top to tie using superstructure 101 Structure 201.

Next, as shown in Figure 11 (b), desktop machine TM to be configured at the one of superstructure 201 using crane locomotive CT In individual pile crown fixing component 115.Then, as shown in Figure 11 (c), make punching hammer DH desk-top from top insertion using crane locomotive CT Machine TM and pile crown fixing component 115.Now, punching hammer DH is perpendicularly inserted into the P5 (ginsengs above pile crown fixing component 115 According to Figure 10).

As shown in Figure 12 (a), ground is dug using desktop machine TM and punching hammer DH, formed for steel-pipe pile is fixed on The fixing hole of ground.After forming fixing hole, such as shown in Figure 12 (b), punching hammer DH is extracted from upside.Further, dismantle desktop computer Device TM.Then, as shown in Figure 12 (c), while with crane locomotive CT bucket BKs of the movement equipped with mortar, will be consolidated using conduit TT Mortar is poured in fixing hole.

As shown in Figure 13 (a), after pouring mortar, the steel-pipe pile SP (3) for constituting bridge pier is inserted from top with crane locomotive CT Enter pile crown fixing component 115, and insert fixing hole.Now, steel-pipe pile SP (3) is perpendicularly inserted in pile crown fixing component 115 Above P5 (with reference to Figure 10).Thereafter, as shown in Figure 13 (b), steel-pipe pile SP (3) is inserted after fixing hole, by crane locomotive CT carries out the piling of steel-pipe pile SP (3) operating pile hammer HB.

As shown in Figure 13 (c), upwardly projecting steel-pipe pile SP1 (3) from above superstructure 201 is cut off and removes.

Thereafter, as shown in Figure 14 (a), mortar is poured in the pile crown of steel-pipe pile SP.It is after pile crown pours mortar, solid in pile crown Determine spud pile head top cap TC above component 115.The fixation of pile crown fixing component 115 and pile crown top cover TC is complete as follows Into：Edge of a wing portion 115f (with reference to Fig. 2) for being formed at pile crown fixing component 115 hole 115g and be formed at the hole of pile crown top cover TC The bolt of middle insertion regulation, and fixed with nut.

Then, as shown in Figure 14 (b), track-type construction frame is laid being provided with superstructure 201.Then, as schemed Shown in 14 (c), the construction of steel-pipe pile SP (4) in the same manner as the construction with steel-pipe pile SP (3), is carried out, and lays track-type construction frame. Thereby, it is possible to guarantee the region for carrying out laying based on the floorings of crane locomotive CT.Then, remove the crawler belt for having laid After formula scaffold, floorings are laid on the region for removing.Thus, complete the construction in bridge construction Plays portion.

Embodiment 3

In the construction method of the bridge in aforesaid embodiment 1 and embodiment 2, floorings are horizontal layings.In this reality Apply in the construction of the bridge in example, floorings have been laid relative to angle of the horizontal direction in regulation.

(first, the composition of superstructure)

Illustrate with reference to the superstructure 301 used in method for bridge construction of the Figure 15 to the present invention.Superstructure 301 are used when being to constructing relative to the gradient bridge of horizontal direction.Herein, Figure 15 (a) is superstructure 301 Top view, front views of the Figure 15 (b) for superstructure 301, right side views of the Figure 15 (c) for superstructure 301.Additionally, In Figure 15 (a)-Figure 15 (c), for Fig. 1 (a)-Fig. 1 (c) identical structures, give identical reference, omit which detailed Narration.

Superstructure 301 has girder 311, crossbeam 113 and pile crown fixing component 115.Girder 311 and crossbeam 113 are configured Into ladder shape.In addition, girder 311 and crossbeam 113 are formed by H profile steel.Crossbeam 113 includes crossbeam 113a, 113b.

Girder 311 includes relatively short girder 311a, 311c and relatively long girder 311b.As shown in Figure 15 (c), girder One end of 311a and girder 311c is respectively welded and is fixed on the side 115a (with reference to Fig. 2) of pile crown fixing component 115.In addition, Such as Figure 15 (a), shown in (c), the two ends of girder 311b are not fixed to pile crown fixing component with girder 311a's and girder 311b 115 one end, is docked mutually and is engaged using the fixed plate and bolt, nut specified.

Crossbeam 113 similarly to Example 1, is constituted by crossbeam 113a and crossbeam 113b the two crossbeams are engaged, But crossbeam can also be constituted by a component (H profile steel).It is also same in other embodiments.

As shown in Figure 15 (a), the center C5 of pile crown fixing component 115 is configured on the central shaft J1 of girder 311.In addition, The center C5 of pile crown fixing component 115 is configured on the central shaft J3 of crossbeam 113, i.e. the center C5 of pile crown fixing component 115 with It is present in the mode of the intersection point of the central shaft J3 of the central shaft J1 and crossbeam 113 of girder 311 and configures.In addition, such as Figure 15 (b) institutes Show, above pile crown fixing component 115, P5 is with the side perpendicular with the central shaft J5 of the steel-pipe pile of insertion pile crown fixing component 115 Formula and configure.Further, as shown in Figure 15 (c), across the configuration of pile crown fixing component 115 girder 311a, 311c in vertical Interior relatively horizontal orientation is configured on straight line.On the other hand, the girder 311b being connected between girder 311a and girder 311c exists Incline relative to horizontal direction in vertical and configure.That is, as shown in Figure 15 (c), superstructure 301 is in make pile crown fixing component The stairstepping that the part of 115 perimeter flats and the sloping portion along girder 311b are alternately arranged.

(second, employ the construction of the second superstructure 301)

Bridge construction when employing the entrance portion construction of superstructure 301 is same as Example 1.In addition, in standard portion In construction during construction, similarly to Example 2, employing is in "U" shape and is arranged obliquely the girder 311b of girder 311 Superstructure is being constructed.The construction of bridge when standard portion constructs is same as Example 2.Additionally, the top knot of embodiment 3 When structure 301 can be used in standard construction.Now, in the construction method of embodiment 2, top can be replaced with superstructure 301 Structure 201 is using.

Herein, Figure 16 illustrates the superstructure in the state of the construction for carrying out floorings FS and adjustment Concrete S 301 side view.Additionally, in figure 16, the steel-pipe pile SP of the pile crown fixing component 115 and a part of a part is with section come table Show.

In the same manner as construction with the superstructure 101 using embodiment 1, in the construction using superstructure 301, also make Insertion pile crown fixing component 115 in the way of steel-pipe pile SP P5 above relative to pile crown fixing component 115 are vertical, uses top cover TC Covering carries out the construction of floorings FS on top cover TC above pile crown fixing component 115 after P5.Therefore, pile crown fixing component Above 115, P5 is indirectly attached to PF below floorings FS via top cover TC.Thereby, it is possible to make the load from floorings FS Weight F1 resists the power up pushed up of steel-pipe pile SP.Therefore, it is possible to complete the bridge construction of high intensity.Additionally, in order to superstructure 301 inclined planes for forming regulation, are adjusted the construction with Concrete C1.

Embodiment 4

In the construction method of previous embodiment to the bridge of embodiment 3, the girder of superstructure is in the horizontal plane with straight Wire extends and configures.In the construction of the bridge of the present embodiment, the girder of superstructure is in the horizontal plane and/or in vertical Configure so that non-linear shape extends.Additionally, in the example in the drawings, the girder of superstructure is shown in the horizontal plane and vertically The embodiment extended with non-linear shape in the two faces in face.

(first, the composition of superstructure)

Illustrate with reference to the superstructure 401 used in method for bridge construction of the Figure 18 to the present invention.Superstructure 401 carry out using during bridge construction, and the bridge has gradient and in horizontal plane relative to horizontal direction in vertical Interior bending.Herein, top views of the Figure 18 (a) for superstructure 401, right side views of the Figure 18 (b) for superstructure 401.Additionally, In figure 18, for Fig. 1 identical structures, give identical reference, omit its detailed narration.

Superstructure 401 has girder 411, crossbeam 116 and pile crown fixing component 115.Girder 511 and crossbeam 117 are configured For the clathrate of bending.In addition, girder 411 and crossbeam 116 are formed by H profile steel.It is simultaneously unlimited for the number of girder and crossbeam It is fixed.This is also identical in other examples.

Girder 411 includes relatively short girder 411a, 411c and relatively long girder 411b.As shown in Figure 18 (b), girder One end of 411a and girder 411c is respectively welded and is fixed on the side 115a (with reference to Fig. 2) of pile crown fixing component 115.In addition, Such as Figure 18 (a), shown in (b), the two ends of girder 411b are not fixed to pile crown fixing component with girder 411a's and girder 411c 115 one end, is docked mutually and is engaged using the fixed plate and bolt, nut specified.

Crossbeam 116 includes the crossbeam 116a and crossbeam 116b of specific length.As shown in Figure 18 (a), crossbeam 116a and crossbeam One end of 116b is respectively welded and is fixed on the side surface part of pile crown fixing component 115.In addition, as shown in Figure 18 (a), (b), crossbeam The other end for being not fixed to pile crown fixing component 115 of 116a and crossbeam 116b by using specified fixed plate and bolt, Nut is docked mutually, is engaged in the horizontal plane and in vertical on straight line.

In aforesaid embodiment 3, such as shown in Figure 15 (c), relatively short girder 311a, 311c fixes structure along with pile crown The direction (i.e. horizontal direction) that the central shaft J5 of part 115 is perpendicular extends, but in example 4, such as shown in Figure 18 (b), phase To short girder 411a, 411c along the direction non-perpendicular with the central shaft of pile crown fixing component 115 (i.e. relative to horizontal direction Inclined direction) extend.

Thus, in superstructure 401, be engaged in across the side at the center of pile crown fixing component 115 girder 411a and The girder 411c of opposite side is engaged in, is not configured on the same line in vertical.That is, the line A and line B of Figure 18 (b) Not on the same line, the angle α formed by line A and line B is less than 180 degree.

As shown in Figure 18 (b), girder 411a and girder 411c is inclined relative to horizontal direction.Therefore, link girder 411a It is also inclined with horizontal direction with the girder 411b of girder 411c.

Additionally, at least one party being engaged in girder 411a, 411c of pile crown fixing component 115 and horizontal direction are inclined Can be with, but in order to difference of height is guaranteed under short distance, both sides is all inclined.

In aforesaid embodiment 3, such as shown in Figure 15 (a), one is configured at across the central shaft of pile crown fixing component 115 The girder 311a of side is configured on the same line in the horizontal plane with the girder 311c for being configured at opposite side, but in example 4, As shown in Figure 18 (a), the girder 411a of side is configured at across the central shaft of pile crown fixing component 115 and is configured at opposite side Girder 411c configuration is not on the same line in the horizontal plane.That is, the line C and line D of Figure 18 (a) be not in same straight line On, the angle beta deficiency 180 degree formed by line C and line D.

Additionally, the superstructure 401 of embodiment 4 can possess at least one of side of following compositions (i) (ii).Figure 18 shows Go out and two are constituted the superstructure for all possessing.

I () is configured at the girder 411a of side across the center of pile crown fixing component 115 and is configured at the master of opposite side Beam 411c is configured without (with reference to Figure 18 (a)) on the same line in the horizontal plane.

(ii) the girder 411a of side is configured at across the center of pile crown fixing component 115 and be configured at the master of opposite side At least one of side in beam 411c inclines (with reference to Figure 18 (b)) relative to horizontal direction.

(second, employ the construction of superstructure 401)

The construction of bridge when being constructed using the entrance portion of superstructure 401 is same as Example 1.In addition, standard portion applies The construction of the bridge in man-hour is same as Example 2, when the superstructure 401 of embodiment 4 can be used in standard construction.Now, exist In the construction method of embodiment 2, can also to use with the replacement superstructure 201 of superstructure 401.

In construction using superstructure 401, due to being engaged in side and another across the center of pile crown fixing component 115 Girder 411a, 411c of side is configured without on the same line in the horizontal plane, it is thus possible to easily carried out in the horizontal plane The construction of the bridge with warp architecture.Thus, for example, as shown in figure 19, when between the mountain of river (R) (M1, M2) When building a bridge, though cannot with the case of linearly connecting between the mountain (M1) of side and the mountain (M2) of opposite side etc., Also bridge can be bent and is set up.Circle depicted in figure 19 represents the stake for squeezing into ground.Additionally, after Figure 19 has been shown with The situation of the superstructure 501 of the embodiment 5 stated, the superstructure of embodiment 4 can also carry out same construction.

In addition, in superstructure 401, being engaged in the master of side and opposite side across the center of pile crown fixing component 115 Beam 311a, girder 311c relative to horizontal direction incline and configure, it is thus possible to easily carry out with relative to horizontal direction be in The construction of the bridge of inclined structure.Thus, for example, when building a bridge between the mountain of river (R) (M1, M2), even if When there is difference of height between the mountain (M1) of side and the mountain (M2) of opposite side etc., also bridge can be set up in an inclined manner. Additionally, the single dotted broken line (L) of Figure 19 represents horizontal line.

Embodiment 5

(first, the composition of superstructure)

Illustrate with reference to the superstructure 501 used in method for bridge construction of the Figure 21 to the present invention.Superstructure 501 Used during the construction for being the bridge being curved in the horizontal plane.Herein, Figure 21 (a) is the top view of superstructure 501, Figure 21 (b) is the front view of superstructure 501.Additionally, in figure 21, for Fig. 1 identical structures, give same accompanying drawing mark Note, omits its detailed narration.

Superstructure 501 has girder 511, crossbeam 117 and pile crown fixing component 115.Girder 511 and crossbeam 117 are configured For the clathrate of bending.In addition, girder 511 and crossbeam 117 are formed by H profile steel.

Girder 511 includes relatively short girder 511a, 511c and relatively long girder 511b.As shown in Figure 21 (b), girder One end of 511a and girder 511c is respectively welded and is fixed on the side 115a (with reference to Fig. 2) of pile crown fixing component 115.In addition, Such as Figure 21 (a), shown in (b), the two ends of girder 511b are not fixed to pile crown fixing component with girder 511a's and girder 511c 115 one end, is docked mutually and is engaged using the fixed plate and bolt, nut specified.

In embodiment 5, similarly to Example 4, as shown in Figure 21 (a), across the central shaft of pile crown fixing component 115 And the girder 511a and the girder 511c for being configured at opposite side for being configured at side is configured on same straight line in the horizontal plane.

But, the superstructure 501 of embodiment 5 is characterised by possessing 512 this point of the second girder described later, girder The configuration of 511a and girder 511c is not limited to the configuration shown in figure.Therefore, in embodiment 5, girder 511a and master Beam 511c is can be only fitted on same straight line in the horizontal plane.In addition, girder 511a and girder 511c can be only fitted to level side Upwards, it is also possible to incline relative to horizontal direction and configure.

In superstructure 501, the crossbeam 117 for connecting adjacent pile crown fixing component 115,115 in the direction of the width has Difference extension 117d, the difference extension 117d are with the girder 511a-511c for being engaged in pile crown fixing component 115 abreast Extend.In addition, so-called " parallel ", not merely means completely parallel situation, also comprising almost parallel situation.

Crossbeam 117 includes crossbeam 117a, 117b, 117c.As shown in Figure 21 (b), one end of crossbeam 117a and crossbeam 117c It is respectively welded and is fixed on side surface part 115a (with reference to Fig. 2) of pile crown fixing component 115.In addition, such as Figure 21 (a), Figure 21 (b) institutes Show, the two ends of crossbeam 117b are with one end for being not fixed to pile crown fixing component 115 of crossbeam 117a and crossbeam 117c by weldering Connect or dock mutually, and engage using the fixed plate and bolt, nut specified.

Crossbeam 117b forms substantially crosswise with and difference extension 117d that extend parallel with girder 511 during vertical view. It is not engaged the second girder 512 in pile crown fixing component 115 and is engaged in difference extension 117d.Second girder 512 with master Beam 511a, 511b, 511c parallel mode extends.

(second, employ the construction of superstructure 501)

The construction of bridge when being constructed using the entrance portion of superstructure 501 is same as Example 1.In addition, standard portion applies The construction of the bridge in man-hour is same as Example 2, when the superstructure 501 of embodiment 5 can be used for standard construction.Now, In the construction method of embodiment 2, superstructure 201 can be replaced to use with superstructure 501.

In construction using superstructure 501, for superstructure 501, connection pile crown adjacent in the direction of the width The crossbeam 117 of fixing component 115,115 has a difference extension 117d, the difference extension 117d be engaged in pile crown and fix The mode that the girder 511a-511c of component 115 is parallel extends, due to without the second master engaged with pile crown fixing component 115 Beam 512 is engaged in difference extension 117d, therefore, when the bridge construction of wider width is carried out, stake can need not increased Increase the quantity of girder in the case of quantity.Therefore, it is possible to construct with high intensity and easily the bridge of wider width.

Embodiment 6

In embodiment 6, secondary girder is engaged on girder, and secondary crossbeam is engaged on crossbeam.Thus, improve top The intensity of structure.With reference to Figure 22, the method for bridge construction under the case for this embodiment is illustrated.

This construction method from start partway till, employ and 7 identical construction method of embodiment 1- embodiment, therefore The description thereof will be omitted.In the present embodiment, girder 111 and crossbeam are H profile steel, make the edge of a wing at width two ends respectively towards up and down Direction, and make the web between the edge of a wing be in vertical.

After as Fig. 7 (c) fix pile crown top cover TC, as shown in Figure 22 (a), guiding material is removed.Additionally, Figure 22 A the operation content of () is identical with the operation content of Fig. 8 (a).

Next, as shown in Figure 22 (b), secondary girder 611 is engaged on girder 111, and secondary crossbeam is engaged on crossbeam.This Outward, as crossbeam and secondary crossbeam are located at the opposite side of girder 111 and secondary girder 611, therefore can't see in Figure 22.In fig 23, The top view for engaging the superstructure 601 after secondary girder 611, secondary crossbeam 613 is shown.It is solid that secondary girder 611 runs through pile crown Determine on component 115, and be engaged on girder.The end of secondary crossbeam 613 is engaged in the side of secondary girder 611.Additionally, secondary horizontal Beam 613 is run through on pile crown fixing component 115, and the end of secondary girder 611 is engaged in the side of secondary crossbeam 613 can also.Separately Outward, the end of secondary girder 611 and the end of secondary crossbeam 613 can also be engaged on pile crown fixing component 115.

Secondary girder 611 and secondary crossbeam 613 in the same manner as girder 111 and crossbeam are H profile steel, make width two ends respectively The edge of a wing towards above-below direction, and make web between the edge of a wing be in vertical.That is, girder 111 and secondary girder 611 are by each From the edge of a wing contact, crossbeam and secondary crossbeam 613 contact also by the respective edge of a wing.Additionally, secondary girder 611 and secondary crossbeam can To be respectively a H profile steel, it is also possible to multiple H profile steels are connected in the longitudinal direction and use.For method of attachment has no It is particularly limited to, for example can be using the connection identical method with girder and crossbeam.Also, the company of secondary girder 611 and secondary crossbeam Connect position preferably not overlap in the vertical direction with the link position of girder and crossbeam.So as to prevent link position upper and lower Overlap on direction caused intensity decreases.

For the engagement of girder 111 and secondary girder 611 and the joint method of crossbeam and secondary crossbeam are not particularly limited.Figure In 24, the section of secondary girder 611 and girder 111 after engagement is shown.Figure 24 (a) is the state after being engaged by welding, Figure 24 (b) is providing holes the state after engaging with screw bolt and nut at the respective edge of a wing, and Figure 24 (c) is by Bullman The respective edge of a wing is clamped and state after engaging by clamping metal die as (trade (brand) name) BU.Such as Figure 24 (c), if using Bullman BU, then bonding operation is easy, in addition, the recycling of secondary girder 611, secondary crossbeam etc. also becomes easy.

Next, as shown in Figure 22 (c), track-type construction frame is laid on the secondary girder 611 for having arranged and secondary crossbeam, it is complete Into the construction in the entrance portion in bridge construction.Then, the construction in standard portion is carried out, now, also in the same manner as the construction into portion, Secondary girder is engaged on girder, secondary crossbeam is engaged on crossbeam.Then, in the secondary girder into portion and standard portion, secondary horizontal stroke Liang Shang, carries out the construction of floorings FS and adjustment Concrete C.Figure 25 shows has carried out floorings FS and adjustment coagulation The side view of the superstructure 601 of the state after the construction of native AC.Further, since crossbeam and secondary crossbeam are located at girder and secondary girder Opposite side, so invisible in Figure 25.

For make secondary girder 611 and secondary crossbeam it is very close to each other be connected to girder 111 and secondary crossbeam, above pile crown top cover TC With above girder 111 and crossbeam have identical height, therefore, in than girder 111 and horizontal stroke above pile crown fixing component 115 Construction that will be low above beam.

So, the secondary crossbeam of engagement due to the secondary girder of engagement on the girder and on the crossbeam, thus superstructure Intensity uprise.Therefore, even if the construction of bridge can be also carried out where it must lengthen the distance between pile element.

In addition, secondary girder or secondary crossbeam are arranged on pile crown fixing component, therefore, even if steel-pipe pile is pushed up upwards, also not Can be damaged with worry floorings.

The secondary girder of the present embodiment and secondary crossbeam can also be applied to the above embodiments 3-5.Show in Figure 26 applicable In the section of the superstructure 301 of the situation of embodiment 3.Secondary master is engaged in the way of the shape with superstructure 301 is consistent Beam 631 and secondary crossbeam.Thereby, it is possible to improve the intensity of bridge.

(other embodiment)

(1) shape of superstructure：In aforesaid embodiment 1, superstructure 101 is ladder shape but it is also possible to be square Shape shape.The superstructure 301 of embodiment 3 is same.In addition, in aforesaid embodiment 2, superstructure 201 is in "U" word Shape of the shape but it is also possible to be the superstructure 201 for linking multiple "U" shape.When linking, by girder 111a and girder 111b is with linear link.

In addition, in aforesaid embodiment 1, as superstructure 101, being formed two girder 111a, girder 111b With reference to and the girder 111 (with reference to Fig. 1) that is configured between pile crown fixing component 115, but fix structure for formation is configured at pile crown The girder quantity of the girder between part 115 is simultaneously not limited.For example, the superstructure 102 as shown in Figure 17 (a), (b), will Three girder 112a, girder 112b, girder 112c are combined and are formed girder 112.Further, multiple girders are not engaged, and only with one Individual girder forms the girder being configured between pile crown fixing component 115 can also.Now, pile crown fixing component 115 is incorporated into master The two ends of beam.

Crossbeam is also with girder similarly, for the crossbeam quantity for forming the crossbeam being configured between pile crown fixing component 115 And be not limited.For example, as the superstructure 102 that Figure 17 (a), (b) are illustrated, can be formed with a crossbeam 114 and be configured at Crossbeam between pile crown fixing component 115.

(2) combination of crossbeam：In aforesaid embodiment 1- embodiment 3, crossbeam 113 is incorporated into pile crown fixing component 115, But can be incorporated into the girder of each superstructure, and make superstructure rectangular shaped, ladder-shaped, "U" shape can also.

Industrial application

Present invention is suitably applied to situations below：For example, build a bridge between the mountain in river when, by side With linear situation about linking, or can not exist between the mountain of side and the mountain of opposite side between mountain and the mountain of opposite side The situation of difference of height.

Description of reference numerals

101 superstructures

111 girders

111a girders

111b girders

113 crossbeams

113a crossbeams

113b crossbeams

115 pile crown fixing components

Above P5

FS floorings

201 superstructures

301 superstructures

311 girders

311a girders

311b girders

311c girders

102 superstructures

112 girders

112a girders

112b girders

112c girders

114 crossbeams

401 superstructures

411 girders

411a girders

411b girders

411c girders

116 crossbeams

116a crossbeams

116b crossbeams

501 superstructures

511 girders

511a girders

511b girders

511c girders

117 crossbeams

117a crossbeams

117b crossbeams

117c crossbeams

117d difference extensions

512 second girders

601 superstructures

611 secondary girders

613 secondary crossbeams

631 secondary girders

Claims (12)

1. a kind of method for bridge construction, which is using girder and crossbeam, the pile crown fixing component of tubulose are engaged with integral manner Superstructure, the pile crown fixing component are arranged at the point of intersection of the girder and the crossbeam, the method for bridge construction It is characterised by,

By the one end of the girder of the superstructure is engaged with the girder of the superstructure in the portion that builds a bridge, will be described Superstructure is connected with the portion of building a bridge with the cantilever-shaped state stretched out,

The pile crown fixing component of the superstructure that pile element insertion linked is made,

The stake fixed position of regulation is squeezed into in the lower end of the pile element,

The pile crown fixing component of the superstructure is fixed on in the upper end of the pile element,

Along the top configuration floorings of the superstructure,

In the superstructure, above the pile crown fixing component directly or indirectly be configured at the superstructure it On floorings contact, and above the pile crown fixing component with the pile element of pile crown fixing component described in insertion Central shaft is perpendicular.

2. the construction method of bridge according to claim 1, it is characterised in that in the superstructure, across described The center of pile crown fixing component and the girder that is engaged in side and opposite side are configured on the same line in the horizontal plane.

3. the construction method of bridge according to claim 1 and 2, it is characterised in that in the superstructure, be engaged in The girder of the pile crown fixing component is inclined relative to horizontal direction.

4. the construction method of bridge according to claim 2, it is characterised in that in the superstructure, across described The center of pile crown fixing component and the girder that is engaged in side and opposite side are configured on the same line in vertical.

5. the construction method of the bridge according to any one of claim 1-4, it is characterised in that

In the superstructure, for linking the crossbeam between the pile crown fixing component adjacent in the direction of the width With difference extension, the difference extension is prolonged in the way of parallel with the girder for being engaged in the pile crown fixing component Stretch,

The difference extension is engaged in without the second girder engaged with the pile crown fixing component.

6. the construction method of the bridge according to any one of claim 1-5, it is characterised in that

The upper end of the pile element is fixed on after the pile crown fixing component of the superstructure, is engaged on the girder secondary Girder, and secondary crossbeam is engaged on the crossbeam,

Via the secondary girder and the secondary crossbeam along the top configuration floorings of the superstructure.

7. a kind of bridge structure, which is using the top that girder and crossbeam, the pile crown fixing component of tubulose are engaged with integral manner Structure, the pile crown fixing component are arranged at the point of intersection of the girder and the crossbeam, the feature of the method for bridge construction It is,

Multiple superstructures are linked by the one end of girder is engaged with each other,

The pile crown fixing component of the superstructure that pile element insertion linked is made,

The stake fixed position of regulation is squeezed into in the lower end of the pile element,

The pile crown fixing component of the superstructure is fixed on in the upper end of the pile element,

Along the top configuration floorings of the superstructure,

In the superstructure, above the pile crown fixing component directly or indirectly be configured at the superstructure it On floorings contact, and above the pile crown fixing component with the pile element of pile crown fixing component described in insertion Central shaft is perpendicular.

8. bridge structure according to claim 7, it is characterised in that in the superstructure, it is solid across the pile crown The center of determining component and the girder that is engaged in side and opposite side are configured on the same line in the horizontal plane.

9. the bridge structure according to claim 7 or 8, it is characterised in that in the superstructure, be engaged in the stake The girder of head fixing component is inclined relative to horizontal direction.

10. bridge structure according to claim 9, it is characterised in that in the superstructure, it is solid across the pile crown The center of determining component and the girder that is engaged in side and opposite side are configured on the same line in vertical.

11. bridge structures according to any one of claim 7-10, it is characterised in that

In the superstructure, for linking the crossbeam between the pile crown fixing component adjacent in the direction of the width With difference extension, the difference extension is prolonged in the way of parallel with the girder for being engaged in the pile crown fixing component Stretch,

The difference extension is engaged in without the second girder engaged with the pile crown fixing component.

12. bridge structures according to any one of claim 7-11, it is characterised in that

Secondary girder is engaged on the girder, and secondary crossbeam is engaged on the crossbeam,

Via the secondary girder and the secondary crossbeam along the top configuration floorings of the superstructure.