KR101885634B1 - Corrugated Steel Plate Web-PSC beam And Bridge Construction Method Thereof - Google Patents

Abstract

The present invention relates to an abdominal corrugated steel sheet having a regular corrugated and regularly shaped waveform in the longitudinal direction and a corrugated corrugated steel sheet consisting of an upper longitudinal restraint member and a lower longitudinal restraint member respectively formed at upper and lower ends of the corrugated corrugated steel sheet, Wherein the girders are provided in two or more rows spaced apart from each other by a predetermined distance in the transverse direction of the bridges so that two or more spans alternate in two or more spans in the longitudinal direction of the bridges, The upper portions of the left and right side corrugated corrugated steel plate primary girders are mutually coupled while being interconnected in the lateral direction between the inner sides between the primary girders of the corrugated corrugated steel sheet having two or more rows spaced apart from each other in the lateral direction On the upper side, a steel material having a predetermined shape in which a plurality of through holes are formed in the longitudinal direction of the bridge, or a branch portion reinforcement member formed of concrete is constituted Between the inner side of the first girders of the bare-form corrugated steel plate having two or more rows spaced at a predetermined interval in the transverse direction at each predetermined position including the central portion and the vicinity of the central portion of each span at each span over two spans in the longitudinal direction of the bridge, A steel material having a predetermined shape in which a plurality of through holes are formed in the longitudinal direction of the bridge, or an intermediate portion reinforced with concrete Body.

Description

Technical Field [0001] The present invention relates to a structure of a box-girder bridges and a construction method thereof,

[0001] The present invention relates to a structure and a method of constructing an abdominal corrugated steel sheet PS box girder bridge by means of a stand-alone support means, more particularly, to a steel girder bridge having an abutment corrugated steel plate girder, , The tensile fixation of the PC stranded cable at each point is made so that the primary girder of the abdominal corrugated steel plate itself has considerable rigidity and durability so that the majority of the load of the lower flange concrete and the upper flange concrete depends on the girder of the abdominal corrugated steel plate The present invention relates to a structure of a box-girder bridges of abdominal corrugated steel sheet and to a construction method thereof.

Conventional FSM (Full Staging Method) is to install concrete on the bottom of the whole span where concrete should be struck and to temporarily support the weight of concrete, formwork, work platform, etc. until concrete pushed up reaches a predetermined strength There is a problem in that the capacity of the vehicle increases because the vehicle must be installed in the entire area.

In addition, the FCM (Free Cantilever Method) is a method of constructing a bridge by using a form traveler and a moving truss on a pier and deck slab that have been constructed without moving. The segment structure of the bridge includes a fusing part The whole construction is carried out by spot installation method, and concrete curing period is inevitably secured for 3 days or more in connection with construction of each segment. On the other hand, precast FCM bridges are constructed by pre-casting the whole segment of the spot installation method. However, there is a problem in that the method of precastizing the whole segment is difficult to secure economical efficiency because the mold production cost and the work site construction cost are high and the construction period is long.

As a background of the present invention, there is a patent registration No. 0497803 entitled " Method of constructing a PSE box girder bridge using a precast type fixing part segment "(Patent Document 1). (A) constructing a pier table portion for constructing a bridge overhead structure at an upper end of a pier after the pier construction; (b) constructing a first spotting segment of a predetermined width for constructing a bridge overhead structure on both side portions of the pier table portion; (e) after the introduction of the prestress, applying a second spotting segment of a predetermined width to each outer surface of the first precast-type fuser segment; (h) completing the construction of the bridge by repeatedly performing the above-mentioned construction of the spotted seg- ment → joining the pre-cast type fixing part to the segment → prestress repeatedly, the method comprising the steps of: (a) (C) a first precast type fuser segment pre-fabricated by pre-casting method on each outer side of the applied first spotting segment between steps (e), (e) and Respectively; (d) introducing a prestress first after passing through a curing period for a predetermined period of time after bonding the first pre-cast type fuser segment; And (f) joining a second pre-cast fuser segment previously fabricated by the pre-cast method to each of the outer side surfaces of the second spotting segment constructed as described above; (g) a step of secondarily introducing a prestress after a curing period for a predetermined period of time after joining the segments of the second precast type fixing section is added to the PSC box girder We propose a construction method of bridges. However, the background art also has a problem in that it is difficult to treat the cross section of the box cross section in the throttle direction and the construction period is long, making it difficult to secure economical efficiency.

Patent Registration No. 0497803 "Construction method of PSE box girder bridges using precast type fuselage segments"

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a bridge structure in which a bridge is constructed to be supported by a PC stranded cable assembled together with a primary girder of a bare corrugated steel plate, It is also possible to add additional PC stranded cables according to the structural analysis and design values, or by tensioning the pre-placed PC stranded cables to an even greater value so that not only all of the casting systems have their own weights, Shaped box steel girder bridges and a method of constructing the bridge girder bridges.

The present invention relates to an abdominal corrugated steel sheet having a regular corrugated and regularly shaped waveform in the longitudinal direction and a corrugated corrugated steel sheet consisting of an upper longitudinal restraint member and a lower longitudinal restraint member respectively formed at upper and lower ends of the corrugated corrugated steel sheet, Wherein the girders are provided in two or more rows spaced at regular intervals in the transverse direction of the bridges so that two or more spans are alternately arranged in the alternation or two or more spans in the longitudinal direction of the bridges, The upper portions of the left and right corrugated corrugated steel primary girders are mutually connected and interconnected in the transverse direction between the inner sides between the primary girders of the corrugated corrugated steel plates having two or more rows spaced apart from each other in the transverse direction A steel material having a predetermined shape in which a plurality of through holes are formed in the longitudinal direction of the bridge, or a branch portion reinforcement member formed of concrete, And between the inner side between the first girders of the bare-form corrugated steel sheet having two or more rows spaced at a predetermined interval in the transverse direction at each predetermined position including the central portion and the vicinity of the central portion of each span at each span longer than two spans in the longitudinal direction of the bridge A steel material having a predetermined shape in which a plurality of through holes are formed in the longitudinal direction of the bridge, or a middle portion formed of concrete, which is joined together while interconnecting the middle portion or the lower portion of the primary side girders of both side- And a reinforcing member is constituted by a self-supporting type reinforcing member.

Wherein at least one PC stranded cable in the longitudinal direction of the bridge is disposed so as to continuously penetrate the through holes of each of the focal point reinforcements and the through holes of each of the intermediate reinforcements collectively, The present invention provides a structure of a PS steel box steel box girder bridge by a supporting means.

In addition, the weight of the lower flange concrete, which is connected to the lower part of the primary girder of the abdominal corrugated steel plate, depends on the tensile tension of the PC stranded cable which is first assembled together with the first girder of the corrugated steel plate. A plurality of PC stranded cables are first tension-fixed, and the lower flange bottom plate form is supported by the first girder of the abdominal corrugated steel plate integrally assembled with the PC stranded cables. The present invention is to provide a structure of a PS-box box girder bridge of a bare corrugated steel sheet by a self-standing support means.

(A) an abdomen corrugated steel sheet having two or more rows of corrugated corrugated steel sheets spaced apart from each other at regular intervals and having a regular corrugated shape regularly irregular in the longitudinal direction; Assembling the first girder of the bare corrugated steel plate comprising the longitudinal restraint member and the lower longitudinal restraint member; (b) laying the abutment corrugated steel plate primary girder alternately or over the bridge piers so that two or more columns of the primary girders are arranged in the lateral direction of the bridge and all the two spans or more are not disconnected in the longitudinal direction of the bridge; (c) transversely interconnecting the upper parts of both sides of the primary girder of the abdominal corrugated steel plate having two or more rows between the inner sides between the primary girders of the abdominal corrugated steel plates in the transverse direction, Providing a focal point reinforcement member having a plurality of through holes formed in a longitudinal direction in a predetermined shape made of a steel material or concrete to be coupled together; (d) Bent part corrugated steel plates each having two or more rows in the transverse direction at predetermined positions for each span of two spans or more in the longitudinal direction of the bridge Between the inner sides between the primary girders, And a plurality of intermediate reinforcing members each having a plurality of through holes formed in a longitudinal direction of a predetermined shape made of a steel material or concrete to be coupled together while interconnecting the lower portions in the lateral direction. The present invention provides a method of constructing a steel box sandwich box girder bridges by a supporting means.

Further, after the step (d), (e) at least one PC stranded cable in the longitudinal direction of the bridge is disposed so as to continuously penetrate the through-hole of each of the focal-point reinforcing members and the through- The method of the present invention provides a method of constructing a steel-box PS steel box girder bridge by self-standing support means.

And (e) after step (f): (f) with the PC stranded cable in a state of being supported by the tensile tension of one or more PC stranded cables disposed successively through each of the focal- and intermediate- And a step of applying lower flange concrete and upper flange concrete to the lower and upper portions of the primary girder of the abdominal corrugated steel plate depending on the assembled abdominal corrugated steel primary girder. We intend to provide a method of constructing PSE box girder bridges.

In addition, in step (a), the bare corrugated steel plates composed of two or more rows are formed by being joined by bracing made of a steel material. .

In addition, in the step (f), the lower flange concrete may include an upper lateral form support member configured such that a roller is formed at a lower portion so that the roller is seated and driven on the upper longitudinal restraining member, A lower transverse die support member spaced apart from the lower portion by a predetermined distance and configured at a lower portion of the lower longitudinal restraining member and a lower transverse die support member vertically connecting the upper transverse die support member and the lower transverse die support member, And a lower flange bottom plate form comprising a lower flange bottom plate form having a U-shaped cross-sectional shape and having a predetermined length and located on the upper side of the lower lateral form support member, And the lower flange concrete of the entire section is formed stepwise by one span. Balls, or to provide a stomach corrugated steel box girder bridges PS's method of construction of the free-standing support means characterized in that the construction to the 1-span portion and the move only up and successively lower flange section of the concrete.

Further, in the step (f), the lower flange concrete may include a lower mold formed between the lower longitudinal restraint member and the lower longitudinal restraint member between the first two-row stiffeners and the lower mold, A lower flange bottom plate formed of a lower plate supporting transverse member formed at a lower portion of the girder and fixed to the lower longitudinal restraining member by a fixing means, and a lower longitudinal restraint member between the first two girder corrugated steel plate primary girders And a lower flange concrete is installed by placing concrete on an upper portion of a lower formwork formed between the lower longitudinal restraint members, to provide a method of constructing a bush corrugated steel sheet PS seam girder bridge by self- .

The structure and the construction method of the PS steel box box girder bridge by the independent standing support means of the present invention relies entirely on the PC stranded cable assembled together with the abdominal corrugated steel primary girder together with the weight of the lower flange concrete and the upper flange concrete So that the entire structure of the bridge can be completed. Thus, the pore can be easily and shortened by the air, and each PC stranded cable can be further added according to the structural analysis and design value, There is a very useful effect of tensioning the cables to an even greater extent so that every casting system can effectively resist both the weight as well as the traffic loads across the vehicle as a whole.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description, serve to explain the principles of the invention, Shall not be construed as limiting.
1 is a cross-sectional view of a girder of an abdominal corrugated steel plate used for a method of constructing a steel-box PS-box girder bridge of an abdominal corrugated steel sheet by the independent standing support means of the present invention.
FIG. 2 is a perspective view and a cross-sectional view showing an embodiment of a girder of an abdominal corrugated steel plate used in a method of constructing an abdominal corrugated steel sheet PS box girder bridge by the independent standing support means of the present invention.
Figs. 3 to 8 are views showing a construction method of the abdominal corrugated steel sheet PS box girder bridge by the independent standing support means of the present invention in the order of construction. Fig.
9 is a view showing an embodiment of a bottom flange bottom plate form used in the present invention.
10 is a view showing another embodiment of a bottom flange bottom plate form used in the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

Hereinafter, the technical structure of the present invention will be described in detail with reference to the preferred embodiments.

The structure and the method of constructing the abdominal corrugated steel sheet PS box girder bridge by the independent standing support means of the present invention are characterized in that the first girder of the abdominal corrugated steel plate is connected continuously over each span over each bridge, The PC stranded cable is installed at each of the focal points by each of the branch reinforcing members and each intermediate stiffener provided beforehand or further provided after hypothesising such as ILM (extrusion) So that the lower curved shape is continuous at the center of the girder and the tensile fixing is performed at a predetermined value so that the girder of the corrugated corrugated steel plate itself has considerable rigidity and durability so that the installation of the lower flange concrete and the upper flange concrete Most of the self weight is due to the PC stranded cable, which has considerable durability in the abdominal corrugated steel primary girder In support to zone to be completed the whole structure of the bridge.

2 is a perspective view and a cross-sectional view showing one embodiment of a girder of a bare corrugated steel plate according to the present invention, and Figs. 3 to 8 are cross- Fig. 5 is a view showing a construction method of a portholes corrugated steel sheet PS seam box girder bridge by independent standing support means of Fig.

As shown in FIG. 8, the structure of the abdominal corrugated steel sheet PS box girder bridge according to the independent standing support means of the present invention is composed of an abdomen corrugated steel plate 11 having a regular corrugated regular wave shape in the longitudinal direction, 11 and the upper longitudinal restraint member 12a and the lower longitudinal restraint member 12b are respectively disposed in two columns spaced at regular intervals in the lateral direction of the bridge And is formed so that two or more spans are continuous on the upper portion of the bridge 2 or the bridge 3 in two or more spans in the longitudinal direction of the bridge. As shown in Figs. 4 and 8, The upper portions of both sides of the first girder 1 of the abdominal corrugated steel plate having two or more rows are interposed between the inner side between the first girders 1 of the abdominal corrugated steel sheet having two or more rows in each of the above- Steel or concrete 5 and 8, a plurality of through-holes 51 are formed in the longitudinal direction of the bridges in a predetermined shape having a predetermined width, (2) of two or more rows in the transverse direction between the inner side between the inner side between the primary girders (1) of the abdominal corrugated steel sheet and the lower side of the primary girder (1) And an intermediate reinforcing member 6 in which a plurality of through holes 61 are formed in a longitudinal direction in a predetermined shape made of a steel material or concrete to be joined together.

One or more PC stranded cable 7 in the longitudinal direction of the bridge is connected to the through hole 51 of each focal point reinforcing member 5 and the through hole 61 of each intermediate reinforcing member 6 continuously And the lower flange concrete 1a may be formed at the lower part of the primary girder 1 of the bare-core corrugated steel plate, and the lower flange concrete 1a may be formed at the lower portion of each of the fulcrums reinforcing members 5 and the intermediate reinforcing members 6 ) Depending on the abdominal corrugated steel primary girder (1) assembled with the PC stranded cable (7) in a state of being supported by the tensile tension of at least one PC stranded cable (7) .

That is, when the concrete of the lower flange concrete (1a) is poured, the weight of the primary girder (1) of the abdominal corrugated steel plate is integrally assembled together with the PC stranded cable (7) and is dependent on the tensile tension of the PC stranded cable One or more PC strand wire cables 7 are first subjected to tension fixation so as to be supported so as to be supported depending on the abdomen corrugated steel primary girder 1 integrally assembled together with the PC strand wire cables 7 So that the lower flange concrete 1a can be placed on the lower flange bottom plate form.

The bottom flange bottom plate form may be formed in various forms, and the shape of the bottom flange bottom plate form may be an embodiment in the form of a bottom flange bottom plate form 80, 90 described later.

The upper flange concrete 1b may be formed on the upper portion of the girder 1 of the corrugated steel plate primary girder.

Detailed explanations of the structure, operation and effect, etc. of the abdominal corrugated steel plate PS seam box girder bridge by the independent standing support means of the present invention are described in addition to the explanation of the method of constructing the abdominal corrugated steel sheet PS seam girder bridge by the independent standing support means .

The method of constructing the abdominal corrugated steel sheet PS seam box girder bridge by the independent standing support means of the present invention will be described in detail in the order of construction.

First, as shown in Fig. 1, the girder 1 of the abdominal corrugated steel plate is assembled (a).

The corrugated corrugated steel plate primary girder 1 is constituted by two or more rows of corrugated corrugated steel plates 11 having regular corrugated corrugated corrugations and having a predetermined waveform shape, And the lower ends thereof are configured by coupling the upper longitudinal restraint member 12a and the lower longitudinal restraint member 12b, respectively.

2A, the bare corrugated steel plates 11 composed of two or more rows may be integrally joined by the bracing 13 made of a steel material, Or more.

That is, as shown in FIG. 2B (a), it may be composed of two rows or three rows as shown in FIG. 2B (b).

1, the upper longitudinal restraint member 12a and the lower longitudinal restraint member 12b may be formed of a plate having a simple iron plate shape and a section steel having various shapes such as H, L, I, The upper and lower ends of the corrugated steel plate 11 may be joined to each other by various known joining methods such as welding, bracket or the like.

At this time, the upper longitudinal restraint member 12a and the lower longitudinal restraint member 12b may be provided with a shear connection member such as a stud for attachment to the concrete.

The bracing 13 may be formed of a plate and a steel plate having various shapes such as H, L, I, and C to interconnect the transversely adjacent bending corrugated steel plates 11, And may be formed at regular intervals.

As shown in the figure, the bracing 13 is formed by joining the corrugated corrugated steel plates 11 with each other in various forms such as an X-shape or a horizontal shape, and the coupling with the corrugated corrugated steel sheet 11 is combined by various known methods such as welding can do.

Thereafter, as shown in Fig. 3, the girder 1 of the abdominal corrugated steel plate is installed (b).

(2) or bridge piers (3) so as to be continuous without more than two spans in the longitudinal direction of the bridges so that the bridge girders (1) do.

As a method of setting the primary girder 1 of the abdominal corrugated steel plate, various methods such as ILM (extrusion method) or hoisting by a crane can be used. And the abdominal corrugated steel primary girder 1 is installed on the upper part of the coordinate system 4. [

Thereafter, as shown in FIG. 4, a focal point reinforcing member 5 made of steel or concrete is provided (c).

The upper portions of both sides of the primary girder 1 of the bare-form corrugated steel primary plate having two or more rows between the inner sides between the primary girders 1 of the corrugated corrugated steel sheet primary side having two or more rows in each transverse direction on each of the alternate portions A post portion reinforcing member 5 having a plurality of through holes 51 formed in a longitudinal direction of a predetermined shape made of a steel material or concrete to be coupled together while interconnected with each other is provided.

The fulcrum portion reinforcement member 5 is formed on the inner side between the first girder 1 and the first girder 1 so as to be located at the upper portion of each of the fulcrums, As shown in Fig.

Since the PC stiffening cable 5 to be described later has a shape in which the central portion of the stiffener is curved downward and an end portion corresponding to the stiffening portion is formed so as to have an upwardly upward shape, 51 are formed so as to be located on the upper portion of the corrugated corrugated steel plate 11.

For example, as shown in FIG. 4 (b), when the bottom portion reinforcement type main portion 52 is formed of a steel material, a fulcrum portion reinforcing main portion 52 having a plurality of through holes 51 formed thereon, And the fulcrum portion reinforcing lower support member 54 and the fulcrum portion reinforcing lower support member 54 formed to be spaced apart from each other by a predetermined distance from each other, (53).

As shown in FIG. 4B, in the case of being formed of concrete, a plurality of through holes 51 may be formed in the upper part in the shape of an empty frame.

Thereafter, as shown in Fig. 5, the intermediate reinforcing member 6 is provided at the center of each span at regular intervals (d).

The girder corrugated steel plate having two or more rows between the inner side between the primary girders (1) of the belly corrugated steel plate in two or more rows in the transverse direction at every predetermined position for each span at least two spans in the longitudinal direction of the bridge A plurality of intermediate reinforcing members 6 each having a plurality of through holes 61 formed in a longitudinal direction in a predetermined shape made of a steel material or concrete to be coupled together while interconnecting the intermediate portions or lower portions of both sides in the transverse direction are provided.

The intermediate reinforcing member 6 has a structure in which a plurality of through holes 61 are formed in the upper portion so that the PC stranded cable can pass therethrough and is made of a steel material And may be formed of concrete.

The intermediate reinforcing member 6 has a shape in which a PC stranded wire cable to be described later is passed through the through hole 51 at a predetermined height and the PC stranded wire cable is curved downward at the center of the strut, The middle portion reinforcement member 6 is fixed so as to be positioned below the abdominal corrugated steel plate 11 and at a position spaced a certain distance from the central portion to the end portion of the support member as shown in FIG. The intermediate reinforcing member 6 can be fixedly installed so as to be positioned at the center.

6, after the step (d), the PC stranded cable 7 can be inserted through the focal point reinforcing member 5 and the intermediate reinforcing member 6, and tension-fixed thereon e).

The PC strand wire cable 7 is inserted and assembled into the span reinforcing member 5 and the middle portion reinforcing member 6 all at once or separately for each span, Lt; RTI ID = 0.0 > tensile < / RTI >

In addition, after step (e), concrete can be installed at the lower part of the primary girder 1 of the bare corrugated steel plate to construct the lower flange concrete 1a as shown in FIG. 7 (f).

With the PC stranded cable 7 in a state of being supported by the tensile tension of one or more PC stranded cable 7 continuously disposed through each of the focal point reinforcing members 5 and the intermediate reinforcing members 6 The lower flange concrete 1a and the upper flange concrete 1b are applied to the lower portion and the upper portion of the primary girder 1 of the abdominal corrugated steel plate depending on the assembled abdominal corrugated steel primary girder 1. As a result, Most of the self weight (dead load) at each construction step of the concrete 1a and the upper flange concrete 1b is supported by the tensile tension of the PC stranded cable 7 assembled together with the bare corrugated steel plate primary girder 1. [ .

Since the abdominal corrugated steel plate primary girder 1 secures a certain degree of rigidity and proof strength by tensile fixing of the abdominal corrugated steel primary girder 1 and the PC stranded wire cable 7, So that the lower flange concrete 1a is first installed by placing concrete on the lower part of the first girder 1 of the corrugated wave steel plate.

9 is a view showing an embodiment of a bottom flange bottom plate form used in the present invention.

The lower flange concrete 1a may be constructed by a variety of known methods. Alternatively, as shown in FIGS. 9 and 10, the lower flange bottom plates 80 and 90 may be used.

9, the lower flange bottom plate form 80 has a roller 811 formed at a lower portion thereof so that the roller 811 is seated on the upper portion of the upper longitudinal restraining member 12a and driven A lower transverse die support member 82 spaced a predetermined distance below the upper transverse die support member 81 and configured at the lower portion of the lower longitudinal restraining member 12b, A vertical transverse member 83 vertically connecting the upper transverse die support member 81 and the lower transverse die support member 82 and a vertical transverse member 83 positioned above the lower transverse die support member 82, And a lower flange bottom plate form 84 having a U-shaped cross-sectional shape.

The upper lateral form support member 81 can be formed of a variety of members such as a steel bar and the roller 811 can be formed on the lower face of the upper horizontal form support member 81, And the roller 811 can be moved when the roller 811 rotates.

The lower lateral form support member 82 is spaced a predetermined distance below the upper lateral form support member 81 and is formed at the lower portion of the lower longitudinal restraint member 12b, The form support member 81 and the lower lateral form support member 82 are connected vertically to form a frame-like frame as a whole.

At this time, various known height adjusting devices 831 such as cylinders are formed at a predetermined height so that the height of the vertical connecting member 83 can be adjusted, so that the upper and lower horizontal formwork supporting members 81, The height of the support member 82 can be adjusted and the height can be adjusted corresponding to the change of the height of the primary girder 1 of the bare corrugated steel plate.

The lower flange bottom plate form 84 is located at the upper portion of the lower lateral form support member 82 and has a U-shaped cross-sectional shape having a predetermined length to serve as a mold for the lower flange concrete 1a.

When the lower flange concrete plate (1a) is constructed by using the lower flange bottom plate form (80), the entire span of each span is formed collectively for each span, and the lower flange concrete (1a) Or may be installed only in a part of one span of the span, and sequentially move the lower flange concrete 1a.

10 is a view showing another embodiment of a bottom flange bottom plate form used in the present invention.

10, the lower flange bottom plate form 90 is formed between the lower longitudinal restraint member 12b and the lower longitudinal restraint member 12b between the adjacent two row girder primary corrugated girders 1 A lower formwork 92 and a lower formwork supporting transverse member 92 which is formed below the first girder 1 and which is fixed to the lower longitudinal restraining member 12b by a fixing means 94, (92) formed between the lower longitudinal restraint member (12b) and the lower longitudinal restraint member (12b) between the adjacent two row girder corrugated primary girders (1) The lower flange concrete 1a may be installed between the lower longitudinal restraint member 12b and the lower longitudinal restraint member 12b of the primary girder 1 of the abdominal corrugated steel plate.

As shown in FIG. 8, the upper flange concrete 1b is installed by placing concrete on the upper portion of the girder 1 of the corrugated steel plate primary girder.

After completion of the construction of the lower flange concrete 1a, it is possible to further tension each of the PC strand wire cables 7 by a predetermined value and to apply the upper flange concrete 1b, After the completion of the construction of the flange concrete 1a and the upper flange concrete 1b, the PC stranded cable 7 may be further tensioned in a lump.

The structure and the construction method of the abdominal corrugated steel sheet PS box girder bridge by the independent standing support means of the present invention are designed so that the weight of the concrete is entirely dependent on the PC stranded cable 7 assembled together with the girder 1 It is characterized in that it is supported and constructed, and each PC stranded cable 7 is further added according to the structural analysis and design value, or the previously placed PC stranded cable 7 is further tensile-settled to a larger value, It is possible to effectively resist not only the weight but also the traffic load passing through the vehicle as a whole.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

1: girder corrugated steel primary girder
1a: Lower flange concrete
1b: Upper flange concrete
2: Shift
3: Pier
11: abdominal corrugated steel plate
12a: upper longitudinal restraint member
12b: Lower longitudinal restraint member
13: Bracing
5:
51: Through hole
6: Middle reinforcement member
61: Through hole
7: PC Stranded Cable
80: Lower flange bottom plate formwork
90: Lower flange bottom plate formwork

Claims (9)

The upper longitudinal restraint member 12a and the lower longitudinal restraint member 12a are formed at the upper and lower ends of the corrugated corrugated steel sheet 11, (2) or bridge piers (3) having two or more spans in the longitudinal direction of the bridges, wherein the primary girders (1) are made of two or more columns spaced apart in the lateral direction of the bridges, And two or more spans are continuously formed on the upper portion of the base plate,
The upper portions of the left and right side corrugated corrugated steel primary girders 1 are provided between the inner side portions between the primary girders 1 of the corrugated corrugated steel sheet having two or more rows spaced at regular intervals in the transverse direction at each of the alternate portions A reinforcing member 5 made of steel or concrete having a predetermined shape and having a plurality of through holes 51 formed in the longitudinal direction of the bridge is formed on the upper side thereof And,
The girder corrugated steel plate having two or more rows spaced apart from each other by a predetermined distance in the transverse direction at every predetermined position including the central portion and the vicinity of the central portion of each span at each span of two or more spans in the longitudinal direction of the bridge, The middle portion or the lower portion of the left and right side corrugated corrugated steel primary girders 1 are coupled together in the transverse direction,
A reinforcing member 6 made of steel or concrete having a predetermined shape in which a plurality of through holes 61 are formed in the longitudinal direction of the bridge,
One or more PC stranded wire cables 7 in the longitudinal direction of the bridge are formed in the through holes 51 of each of the branch portion reinforcements 5 and the through holes 61 of the respective intermediate portion reinforcements 6 And are disposed so as to pass continuously in a batch,
A PC stranded cable (7) in which the weight of the lower flange concrete (1a) to be coupled to the lower portion of the primary girder (1) of the abdominal corrugated steel plate is assembled together with the primary girder (1) One or more PC stranded cables 7 are first tension-fixed to be supported in dependence on the tension tension, and the PC stranded cable primary sheaves 1 are assembled together with the PC stranded cable 7 Characterized in that the lower flange bottom plate formers (84, 92) are poured into the lower flange bottom plate form (84, 92) in a state in which the upper flange bottom plate form is supported by the lower flange bottom form form. delete delete (a) a corrugated corrugated steel plate 11 having two or more rows of corrugated corrugated steel plates 11 spaced apart from each other by a predetermined distance and having a regular corrugated regular wave shape in the longitudinal direction, (1) comprising an upper longitudinal restraint member (12a) and a lower longitudinal restraint member (12b) each of which is formed at a lower end of the girder (1);
(b) Two or more rows of girder corrugated steel plate primary girders 1 are arranged in the transverse direction of the bridge, and alternate (2) or upper ;
(c) Above-bottom corrugated corrugated steel plate with two or more rows between the inner sides between the primary girders (1) in the transverse direction at each of the alternate and pierced corners and at least two rows in the transverse direction. Installing a focal point reinforcement member (5) having a plurality of through holes (51) in a longitudinal direction in a predetermined shape made of a steel material or concrete to be coupled together in a transverse direction;
(d) Abdominal-section corrugated steel plates having two or more rows in each transverse direction at intervals of two spans or more in each longitudinal direction of the bridge. Between the inner side between the primary girders 1, A plurality of intermediate reinforcing members 6 each having a plurality of through holes 61 formed in a longitudinal direction in a predetermined shape made of a steel material or concrete to be coupled together while interconnecting the middle portion or the lower portion of both sides ;
(e) One or more PC stranded cable 7 in the longitudinal direction of the bridge has a through-hole 51 of each of the focal-point reinforcing members 5 and a through-hole 61 of each of the intermediate reinforcing members 6 Being arranged to penetrate continuously; And
(f) the PC stranded cable (7) in a state of being supported by the tensile tension of one or more PC stranded cables (7) arranged successively through each of the trestle side reinforcements (5) (1a) and an upper flange concrete (1b) on the lower and upper portions of the first girder (1) of the abdominal corrugated steel plate, depending on the abdominal corrugated steel primary girder (1) Wherein the brace is formed by a plurality of bridges. delete delete The method of claim 4,
In step (a)
Wherein the bare corrugated steel plates (11) composed of two or more rows are joined to each other by a bracing (13) made of a steel material. The method of claim 4,
In step (f)
The lower flange concrete (1a)
An upper lateral die support member 81 configured to receive a roller 811 at a lower portion thereof and to receive and drive the roller 811 at an upper portion of the upper longitudinal restraining member 12a and an upper lateral die support member 81 A lower transverse die support member 82 spaced a distance below the lower transverse die support member 81 and configured at the lower portion of the lower longitudinal restraint member 12b and an upper transverse die support member 81 and a lower transverse die support member 82 A vertical connecting member 83 constituting a height adjusting device 831 so as to be able to adjust the height thereof vertically and a U-shaped cross section having a predetermined length, which is located at an upper portion of the lower lateral form supporting member 82, A bottom flange bottom plate form 80 comprising a bottom flange bottom plate form 84,
A total of one span of each span is collectively constructed so that the entire lower span of the flange concrete 1a is constructed in a stepwise manner,
Wherein the lower flange concrete (1a) is installed only in a part of one span and is sequentially moved, so that the lower flange concrete (1a) is installed. The method of claim 4,
In step (f)
The lower flange concrete (1a)
A lower mold 92 formed between the lower longitudinal restraint member 12b and the lower longitudinal restraint member 12b between the adjacent two row girder primary corrugated primary girders 1, A lower flange bottom plate form 90 formed of a lower formwork supporting transverse member 93 formed at the lower portion of the steel plate girder 1 and fixed to the lower longitudinal restraining member 12b by fixing means 94 ,
Concrete is placed on the upper part of the lower mold 92 formed between the lower longitudinal restraint member 12b and the lower longitudinal restraint member 12b between the adjacent two rows of the abdominal corrugated steel primary girders 1 to form the lower flange concrete (1b) is constructed so as to allow the self-standing support means (1a) to be installed.

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