KR20160119623A - PC Concrete Structure of Variable section Reinforce for Increse Stiffness with Projecting Cable and Truss Structure - Google Patents

Abstract

The present invention relates to a PC concrete beam installed in a bridge axis direction of a bridge and, more specifically, relate to a low height PC concrete beam structure with improved rigidity by reinforcing a tapered structure with a projecting structure, wherein an arch curve is adopted on a lower surface of a PC concrete beam to be manufactured, and elements improving rigidity are installed in the inside and the outside of the PC concrete beam. Therefore, the beauty can be improved.

Description

       BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a PC concrete beam structure having a reinforced cross-sectional structure with a protruding cable and a truss structure,

The present invention relates to a PC concrete beam installed in the direction of an axis of a bridge, and it is manufactured by adopting an arch curved line as a PC concrete beam beam at the lower end of a girder shape using an I-shape having a constant height, The elements are installed inside and outside the PC concrete beam, the PC steel rods are arranged in a top-down arch curved shape, and the cables are arranged so that they are opposed to the arch curved line of the PC concrete beam on the outside. A plurality of cables It is constructed so that the support is installed between the cable and the PC concrete beam or the steel pipe truss structure is arranged in place of a plurality of cable supports and the rigidity is maximized because the cable is fixed by tension. To improve the beauty,

In order to achieve this object, the present invention provides an arch curved line at the center of the I-shaped girder of a constant height and projects the cable or arch truss cable structure downward from the PC concrete beam at a position opposite to the arch curved line, The present invention relates to a low-profile PC concrete beam structure in which the stiffness is increased by reinforcing a cross-sectional structure with a protruding cable and a truss structure formed by a structure capable of increasing the stiffness of the concrete beam and widening the span.

As a general PSC beam structure, an I-girder shape having a constant height is mostly used and used. In addition to the PC beam having many I-girder shapes, a structure adopting a shape of a cross-

The above-mentioned Korean Patent No. 10-0463310 " Structural Reinforced Concrete Main Beam for Bridge with Varied Beam Height "

As is well known, it is a method of constructing a bridge by constructing a beam from the ground and then transporting it to a site of construction, placing both ends of the beam on an alternating or pier, and forming a beam to bundle the beams together.

A main beam main beam is formed so that the main beam central portion has a small key height and the key height of both side portions is large and the bottom portion is linearly changed so as to increase the structural rigidity of the bridge and improve the beauty. In order to achieve this object, in the main beam which is basically formed in an I-shaped cross-sectional shape, the height of the middle beam of the main beam is small along the diagonal direction of the bridge, and the height of one or more of the points on both sides is increased And the lower end surface of the main beam is formed into a bent or refracted shape. However,

In order to reinforce the weakness of the center of the beam, a steel reinforcing steel is embedded in a part of the upper part of the center of the beam to elevate the neutral axis so as to improve the structural performance of the main beam And it is possible to expect to solve the problem of a decrease in aesthetic appearance, an increase in construction cost, an increase in material cost, and an increase in weight caused in the uniform shape of the conventional I-girder.

However, in the case of the above-mentioned patent, only the shape of the two-point portion is raised, and the cross-sectional shape is structurally advantageous. In addition, the height of the central section is larger than the height of the I- This is due to the fact that the external shape is formed by the sides that heighten the two focal points while the focal point is not reduced and the focal point of the focal point is rough and it is a non-economic cause that the materials of the concrete and the reinforcing steel are further input. There is a problem in that it can not be improved,

Particularly, compared with the conventional I-girder shape, there is a problem in that it is not possible to expect an effect of greatly reducing the construction cost because it has a simple structure without a feature to increase the girder while reducing the girder height.

Korean Patent No. 10-0463310

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a PC concrete beam in which a PC steel bar is disposed in a beam- In order to improve the structural performance of the PC concrete beam, a plurality of cable supports composed of small-diameter steel pipes are installed at symmetrical positions with the arch shape formed on the lower surface of the PC concrete beam, Since the truss structure and the cable are arranged in the PC concrete beam full length and are fixed to both the middle part (A) and the fulcrum part (B) by tension, the structure is configured to maximize the structural performance.

It is possible to increase the appearance and to further lower the center-shaped elevation compared to the I-girder, so that the arch-shaped image becomes prominent, which can further enhance the aesthetic appearance, thereby reducing the weight and reducing the appearance of the pier Therefore, it is possible to obtain an economical effect, and it is possible to increase the stiffness of the PC concrete beam by arranging a cable or steel pipe truss structure on the outer side of the beam, And the like.

It is another object of the present invention to realize a shape having a form seating point which is a step of left and right ridge portions at the upper end of a PC concrete beam so that a form can be easily installed when installing an upper slab between PC concrete beams.

In order to accomplish the above object, the present invention provides a low-rigidity PC concrete beam structure in which rigidity is enhanced by reinforcing a cross-sectional structure with a protruding cable and a truss structure,

The shape of the I-girder is maintained, and the arch concrete curve is given to the lower surface of the PC concrete beam.

A plurality of PC steel rods are arranged in a bottom-up arch shape, and a plurality of sheath pipes are arranged in a downward-arcuate arch-shaped structure opposite to the PC steel rods in the PC concrete beam, Is disposed and fixed to the end portion (B)

After assembling the formwork and pouring the high strength concrete,

The PC concrete beam is placed inside the tensioner, and the PC concrete beam is subjected to primary tension fixation at the middle part A and the end part B respectively,

A plurality of quadrangular pyramidal cable supports using a small diameter steel pipe are arranged and arranged on the lower surface of the PC concrete beam,

And a plurality of cable supports of the quadrangular pyramid shape are connected to each other by using a cable, and the PC concrete beam is subjected to secondary tension fixation at both the middle part A and the end part B of the PC concrete beam.

In addition, in the present invention, in a low-elongation PC concrete beam structure in which the stiffness is increased by reinforcing the cross-sectional structure by a protruding cable and a truss structure,

The shape of the I-girder is maintained, and the arch concrete curve is given to the lower surface of the PC concrete beam.

A plurality of PC steel rods are arranged in a bottom-up arch shape, and a plurality of sheath pipes are arranged in a downward-arcuate arch-shaped structure opposite to the PC steel rods in the PC concrete beam, Is disposed and fixed to the end portion (B)

After assembling the formwork and pouring the high strength concrete,

The PC concrete beam is tensioned in the inside of the PC concrete beam, and the PC concrete beam is first tension-fixed at the middle part (A) and the end part (B)

An arch truss structure using a steel pipe on the lower surface of the PC concrete beam is manufactured in a square shape and attached in a direction opposite to the lower end of the PC concrete beam,

And the cable is inserted into the main beam of the arch truss pipe and subjected to secondary tension fixation at both the middle part (A) and the end part (B) of the PC concrete beam.

In addition, in the present invention, in a low-elongation PC concrete beam structure in which the stiffness is increased by reinforcing the cross-sectional structure by a protruding cable and a truss structure,

The shape of the I-girder is maintained, and the arch concrete curve is given to the lower surface of the PC concrete beam.

A plurality of PC steel rods are arranged in a bottom-up arch shape, and a plurality of sheath pipes are arranged in a downward-arcuate arch-shaped structure opposite to the PC steel rods in the PC concrete beam, Is disposed and fixed to the end portion (B)

After assembling the formwork and pouring the high strength concrete,

The PC concrete beam is placed inside the tensioner, and the PC concrete beam is subjected to first-order tension fixation at both the middle part A and the end part B,

The PC concrete beam is installed in the width direction of the PC concrete beam so that the PC concrete beam can be raised at the central portion of the lower surface of the PC concrete beam, and a plurality of connection grooves are formed so that the cable can be installed. And a plurality of cables are provided in the connection grooves so as to be secondarily tensed at the outer intermediate portions (A) and (B).

The present invention relates to a PC concrete beam structure in which a PC concrete beam bottom surface is formed in an arcuate structure in a uniform shape of an I-girder,

Since a plurality of PC steel bars are arranged in a bottom-up arch shape inside the PC concrete beam, the second effect of increasing the rigidity of the beam,

A plurality of cable supports or truss structures of a quadrangular pyramidal shape constituted by small diameter steel pipes are provided on the PC concrete beam, and cables are installed inside the plurality of cable supports or steel pipe arch truss structure main steel pipes, A third effect is obtained in which an upward force is exerted to increase the total length of the PC concrete beam due to tension fixation at the ends A and B,

Therefore, it is possible to provide a fourth effect that the aesthetic appearance of the shape of the beam arrangement on the high bridge pier with high dimensional space is excellent, such as the shapes of extra doses bridge and truss bridge,

Since the stiffness of the PC concrete beam can be drastically increased, the length of the span is lengthened, thereby reducing the number of installation points of the pier and thus reducing the construction cost, thereby solving the problem that the total length of the PC concrete beam can not be increased The effects of five points, such as air, construction cost, and aesthetic appearance, can be expected by providing advantages such as simplicity, aesthetics, and economy in the construction of a bridge as in the fifth effect.

1 to 4 are views showing a first embodiment according to the present invention,
FIG. 1 is a view showing a structure in which a tensile material is bundled inside a beam over the entire length of a concrete beam of the present invention and a plurality of cable supports are installed at a position opposite to a PC concrete beam bottom arch curved portion, Drawings showing the details of each configuration in outline
2 is a view schematically showing a state in which a tensile member and a steel bar are bonded and fixed to the PC concrete beam end and the outer center section
FIG. 3 is a view schematically showing a state in which a plurality of cable supports constituted by a small-diameter steel pipe with an arch curved portion as a bottom surface of a PC concrete beam and an inner tension member and a steel rod are arranged on a central section of the PC concrete beam,
4 is a view schematically showing a state of a structure for joining a connecting steel plate and a reinforcing steel rod for continuous beaming at a pier portion which is a point of a PC concrete beam
5 to 8 are views showing a second embodiment according to the present invention,
FIG. 5 is a view showing a state in which a truss structure constituted by a steel pipe is provided at a position opposite to the PC concrete beam undercut curve in the shape of FIG. 1, and a cable is inserted into the main steel pipe to be fixed in tension, drawing
6 is a view schematically showing a state in which a tensile member and a steel bar are bonded and fixed to a PC concrete beam end portion and an outer center portion end surface
7 is a view schematically showing a state in which an inner tension member and a steel bar are disposed in the center section of the PC concrete beam and a steel pipe truss structure is provided on the PC concrete beam lower arc curved portion side and a cable is inserted into the truss structure main steel pipe
8 is a view schematically showing a state of a structure for joining a connecting steel plate and a reinforcing steel rod for continuous beaming at a pit portion of a PC concrete beam focal point;
9 to 12 are views showing a third embodiment according to the present invention,
FIG. 9 is a view showing a structure in which a tensile material is bundled in a beam over the entire length of a PC concrete beam of the present invention and a concrete structure in which a steel concrete pipe is installed in a width direction of a PC concrete beam, Outline drawing
10 is a view schematically showing a state in which a tensile member and a steel bar are bonded and fixed to a PC concrete beam end portion and an outer meandering section surface
FIG. 11 is a view schematically showing a state in which a cable support composed of a steel concrete pipe as a bottom surface of a PC concrete beam and an inner tension member and a steel bar are disposed on the central section of the PC concrete beam,
12 is a view schematically showing a state of a structure for joining a connecting steel plate and a reinforcing steel rod for sequential beaming at a bridge portion which is a PC concrete beam point portion

In the present invention, the stiffness of the beam structure is increased in a PC concrete beam in which an arc shape is formed in the longitudinal direction of the beam at the center of a PC concrete beam having an I-girder shape, A method of arranging a plurality of PC steel rods as a bottom-up arch structure and a method of increasing the length of a PC concrete beam include a plurality of quadrangular-shaped cable supports composed of small-diameter steel pipes at the arch curved portion of the lower surface of the PC concrete beam And a truss structure composed of a steel pipe facing the arch curved portion of the lower surface of the PC concrete beam is installed and a cable is inserted into the main steel pipe to fix the steel pipe by tensioning. A plurality of cables are installed in the width direction of the cable Installation is easy and is more secure than the method of mobilization and the like, and implements a PC concrete beam between the middle finger, so to provide a method that can increase the beauty and so cost is reduced.

The present invention can be variously implemented in various ways, and each preferred embodiment thereof will be described with reference to the accompanying drawings.

First Embodiment

As shown in FIG. 1,

The reinforcing bars are assembled in the beam and the plurality of PC steel rods 101 (101a to 101c) are arranged in a bottom-up arch shape And a plurality of sheath pipes are arranged in a downwardly arcuate structure opposite to the PC steel rods 101 at the center portion c as the upper end portion of the beam 1, A plurality of horizontal sheath pipes of a predetermined length are arranged at the ends of the outer sheath portion A and the end portion B to bind to the beam upper end reinforcing bars,

102a to 102d are disposed in the beam to form a tensile stress in both the middle part A and the end part B of the PC concrete beam 1 in the inside of the beam after the mold is assembled and the high strength concrete is placed and cured, Settlement,

A plurality of cable supports 104a and 104b constituted by small-diameter steel tubes are mutually connected by using cables 1 (103: 103a and 103b), and the tension is fixed to the outer side intermediate portion A and the end portion B of the beam It can be applied to bridges that are difficult to apply in places where there is a restriction on the mold space in the applicability, bridges that do not utilize the open space of the open spaces, bridges of mountain piers and bridges, and bridges designed to give aesthetic importance.

The buried steel sheet 110 disposed eccentrically from the center of the beam end portion B and the reinforcing bars protruding from the end surface B are coupled to each other and the tension member 2 (109), and fixing it to resist the momentum. In this way, the main elements of each process and the respective constitutions thereof will be described.

PC Concrete Beam  Shape structure and Tension  Layout and Settlement Configuration

This configuration forms a cross-sectional structure while forming an arch curved portion D on the outward side in the area for forming the PC concrete beam 1 and the arch curved portion D toward the lower side of the center portion C and forms the outer intermediate portion A and the end portion B ),

A sheath tube having a top-down arch shape so that a plurality of tensile members 1 (102) can be inserted along with the reinforcing bars on the beam inner structure is bound to the lower reinforcing bars at the central portion (C) The PC steel bar 101 which is capable of increasing the rigidity is bound to the upper reinforcing bar at the central portion C to form a bottom-up arch shape, And the tension member 1 102 is inserted into the sheath tube having a top-down arch shape to tightly fix the outer intermediate portion A and the end portion B by tension.

3 is fixedly fastened to three rows at the upper end of the outer intermediate section A of Fig. 2, and 102b of Fig. 3 is fixed at two rows of the upper middle section A of Fig. 3, 102c is arranged in five rows at the upper end of the outer intermediate section A in Fig. 2 and fixedly fixed in three rows at the upper end of the end portion (B), and 102d in Fig. 3 corresponds to the outer intermediate section A) arranged in four rows from the top and fixedly fixed in two rows at the top of the end (B).

In the steel bar for increasing the rigidity, 101a disposed on the center side of the central portion C in Fig. 3 passes between the third and fourth rows at the upper end of the outer intermediate portion A in Fig. 2, (B) disposed on the right side of the central portion (C) of Fig. 3 and passing through the third row and the fourth row on the upper end of the outer intermediate portion (A) And disposed at the leftmost side of the center portion C of FIG. 3, is disposed at the leftmost end, which is the end of the fourth row, between the third row and the fourth row at the upper end of the outer intermediate portion A of FIG. It is a matter of course that the number of the tensile members 102 and the PC steel rods 101 is not limited.

In addition, the height of the cross-section of the center portion C and the height of the cross-section of the end portion B of the beam differ according to the beam span, so that the rigidity is not insufficient and resistance against external force is provided.

Cable support and  Tension and Settlement Configuration

The construction of the above-described " PC concrete beam shape structure and tension member placement and fusing structure ", in which the cables 1 and 2 (103) are projected outwardly from the bottom surface of the beam 1 and fixed thereto by tension, A plurality of cable support rods 104a and 104b should be provided on the lower surface of the central portion C of the beam and a plurality of cable support rods 104a and 104b ) Shall be installed in two parts.

First, a short-side steel pipe 104a attached to a beam at the time of manufacturing the PC concrete beam 1 and a long-side steel pipe 104b connected after the beam 1 are manufactured. The cable support 104a, 104b Two rows of the small steel pipes 105 are installed through the small diameter steel pipes of the cable supports 104a and 104b at the lower ends of the quadrangular pyramids and the small diameter steel pipes 104a and 104b There is provided a stiffener 107 for preventing buckling deformation of the steel pipe 105 and a plurality of open steel pipes 106 crossing the two small steel pipes 105 are provided.

A plurality of cables 1 and 2 103 are arranged in the open steel pipe 106 divided by the plurality of cables and the cable 1 103a is tightly fixed to the outer middle portion A and the cables 2 103b ). This shape is reminiscent of a shape in which a bow has an arrow and a protrusion is pulled to the utmost. Here, the arrow serves as a cable support but does not protrude to the upper surface. Therefore, As an image of the arrow, while taking on the role of.

On the other hand, since the tension of the bow can be increased or decreased according to the height of the cable support, when the height of the cable is increased, the length of the beam is made long and the length of the beam is shortened when the height is small. It is to be understood that the number of 1,2 is not limited.

Meanwhile, in the cables 1 and 2 (103) used in the present invention, the cables 1 and 2 (103) disposed inside the PC concrete beam 1 are protected by sheathing and grouting, In the case of exposed cables 1 and 2 (103), sheathed cables can be used, and the grouted cables can be used.

Thus, the rigidity of the PC concrete beam 1 is greatly increased, so that the structural capacity of the PC concrete beam 1 can be increased. This capability makes it possible to form a bridge between the long and the long- Which can be reduced dramatically.

Branch office  Sequencing Configuration

As shown in FIG. 4, two PC concrete beams 1 on the right and left sides of the bridge pier 2 are placed on the support base 111. At this time, the intervals between the PC concrete beams 1 are spaced apart from each other by a predetermined distance It is necessary to dispose the support bases 112 by connecting and remove the support bases 111 to arrange them.

It is preferable to dispose the embedded steel plate 110 eccentrically at both ends B of the PC concrete beam 1 for such serialization. The eccentric arrangement of the embedded steel plate 110 is for the purpose of overlapping the two embedded steel plates 110 when the PC concrete beam 1 is placed thereon. And to simplify the construction.

On the other hand, it is necessary to arrange the reinforcing bars in the manufacturing process at both side ends B of the PC concrete beam 1 in order to form a solid continuous by welding with mutual overlapping.

In addition, when bolting and welding processes of the embedded steel plate 110 and the end reinforcing bar are completed, the high strength concrete is laid and cured to realize a completely integrated type. In the 'PC concrete beam shape structure, The tension member 2 109 is inserted into the sheath tube at the upper end of the end portion B of the PC concrete beam 1 which has been previously embedded and installed and the tension member 2 109 is tensioned after the continuous process is completed. So that the member force of the parent is reduced.

For this purpose, the cross section near the both end sides is elevated at the upper side of the PC concrete beam (1) so as to facilitate the installation of the tension member 2 and to generate a large resistance force to the member force.

Slab formwork Seating point  Configuration

As shown in FIG. 3, a slab dock 108 mounting point for installing slabs is formed at the left and right corner portions of the upper portion of the PC concrete beam 1, and the mounting points are formed at the left and right upper ends of the PC concrete beam 1 And the slab formers 108 are made to be PC products so as to be disposed between the PC concrete beams 1. The slab formers 108 are formed to have a convex shape so that when the upper slab is placed, It is preferable to form a structure capable of supporting the substrate.

Meanwhile, when the upper slab is laid, a force is transmitted to the both side slopes in the horizontal direction. At this time, the slab is secured so that the slab form 108 can not move, so that the slab can be safely installed.

Second Embodiment

As shown in FIG. 5,

The reinforcing bars are assembled in the beam and the plurality of PC steel rods 101 (101a to 101c) are arranged in a bottom-up arch shape And a plurality of sheath pipes are arranged in a downwardly arcuate structure opposed to the PC steel rods 101 at the central portion C as the upper end portion of the beam 1 to form a shear wave A plurality of horizontal sheath pipes of a predetermined length are arranged at the ends of the outer sheath portion A and the end portion B to bind to the beam upper end reinforcing bars,

102a to 102d are disposed in the beam to form a tensile stress in both the middle part A and the end part B of the PC concrete beam 1 in the inside of the beam after the mold is assembled and the high strength concrete is placed and cured, Settlement,

After a truss structure using a steel pipe is disposed at the lower end of the beam, tension is fixed to the middle portion (A) and the end portion (B) at both outer sides of the beam by using cables 1 and 2 (103) inserted into the main steel pipe of the truss structure Therefore, it is difficult to apply it in places where there is a restriction on the mold space in the applicability, and bridges that do not utilize the open space of the open space, mountain bridges, bridges of the bridges, bridges designed to give importance to the aesthetics, Bridges and so on.

In order to achieve the continuity of the focal point, a steel sheet 110 disposed eccentrically from the center of the end surface (B) of the beam 1 and reinforcing bars protruding from the end surface (B) And the tension member 2 (109) is fixed to the tension member to resist the momentum. The main elements of each process and the respective constitutions thereof will be described.

PC Concrete Beam  Shape structure and Tension  Layout and Settlement Configuration

This configuration forms a cross-sectional structure while forming an arch curved portion D on the outward side in the area for forming the PC concrete beam 1 and the arch curved portion D toward the lower side of the center portion C and forms the outer intermediate portion A and the end portion B ),

A sheath tube having a top-down arch shape so that a plurality of tensile members 1 (102: 102a to 102d) can be inserted along with the reinforcing bars on the inner structure of the beam 1 is bound to the lower reinforcing bars at the center portion C, The PC steel rods 101 capable of increasing the rigidity are bound to the upper reinforcing bars at the center portion C and the PC reinforcing rods 101 are joined to the lower reinforcing rods And the tension member 1 102 is inserted into the sheath tube having the above-mentioned upper-side arch shape to be tension-fixed to the outer intermediate member A and the end B Respectively.

In the arrangement of the tension member 1 (102), 102a in Fig. 7 is fixedly fixed in three rows at the upper end of the outer intermediate member A in Fig. 6, and 102b in Fig. 7 is fixed in two rows in the upper middle row 7, 102c of FIG. 7 is arranged in five rows at the upper end of the outer intermediate section A of FIG. 6 and fixedly fixed in three rows at the upper end of the end portion (B), and 102d of FIG. 7 corresponds to the outer middle section A) arranged in four rows from the top and fixedly fixed in two rows at the top of the end (B).

In the steel bar for increasing the rigidity, 101a arranged on the central side (C) in Fig. 7 passes between the third row and the fourth row at the upper end of the outer intermediate portion A in Fig. 6, (B) disposed at the right side of the central portion (C) of FIG. 7 and passing through between the third row and the fourth row at the upper end of the outer intermediate portion (A) (C) disposed on the left side of the central portion (C) of Fig. 7 passes through between the third row and fourth row on the left side at the upper end of the outer intermediate portion (A) And it is natural that the number of the tensile members 1 102 and the PC steel rods 101 is not adversely affected by the number.

In addition, the height of the cross-section of the center portion C and the height of the cross-section of the end portion B of the beam differ according to the beam span, so that the rigidity is not insufficient and resistance against external force is provided.

Steel pipe Truss structure and cable tension and settlement configuration

The construction of the cable 1 or 2 103 projecting outwardly from the bottom surface of the beam 1 and following tension fixing will be described in detail below with the above-mentioned " PC concrete beam shape structure and tension member 1 (102) The truss structure 200 having truss structures 202a and 203a formed by combining a plurality of long-side steel pipes 202b and 203b and a truss structure 200a 201 and 204 composed of a steel pipe, And the steel truss structure and the PC concrete beam (1) are combined to form a structure.

In the above-described welding, the small-diameter connecting steel pipe 204 is first welded to the inside of the short-side steel pipes 202a and 203a, the long-side steel pipes 202b and 203b are welded together, .

On the other hand, the cable 1 (103a) inserted into the truss structure main steel pipe 201 is tightly fixed to the outer intermediate section A and the cable 2 (103b) is tightly fixed to the end portion (B) The shape of the triangular truss loop structure of the building can be reminiscent of looking backwards.

On the other hand, as the height of the section of the middle section of the triangular truss loop structure becomes longer, the truss structure can be controlled so that the trestle becomes shorter as the trestle becomes longer and the height becomes smaller. The cables 1 and 2 (103) disposed inside the main steel pipe 201 constituting the triangular truss loop structure may be formed of a sheathed cable or a sheath pipe A cable protected by grouting may be used.

Thus, the rigidity of the PC concrete beam 1 is greatly increased, thereby giving the structural capability to the beam 1 so that the PC concrete beam 1 can have a longer length. This will open a way to dramatically reduce construction costs.

Branch office  Sequencing Configuration

As shown in FIG. 8, two PC concrete beams 1 on the right and left sides of the bridge pier 2 are placed on the support base 111. At this time, the intervals between the PC concrete beams 1 are spaced apart from each other by a predetermined distance It is necessary to dispose the support bases 112 by connecting and remove the support bases 111 to arrange them.

It is preferable to dispose the embedded steel plate 110 on both sides of the PC concrete beam 1 for the purpose of such serialization. The unilateral arrangement is for the purpose of overlapping the two embedded steel plates 110 when the PC concrete beam 1 is mounted. In order to secure the rigidity of the continuous steel plate 110, .

On the other hand, it is necessary to arrange the reinforcing bars in the manufacturing process at both side ends B of the PC concrete beam 1 in order to form a solid continuous by welding with mutual overlapping.

In addition, when bolting and welding processes of the embedded steel plate 110 and the end reinforcing bar are completed, the high strength concrete is laid and cured to realize a completely integrated type. In the 'PC concrete beam shape structure, The tension member 2 109 is inserted into the sheath tube at the upper end of the end portion B of the PC concrete beam 1 which has been previously embedded and installed and the tension member 2 109 is tensioned after the continuous process is completed. So that the member force of the parent is reduced.

For this purpose, the cross section near the both end sides is elevated at the upper side of the PC concrete beam (1) so as to facilitate the installation of the tension member 2 and to generate a large resistance force to the member force.

Slab formwork Seating point  Configuration

As shown in FIG. 3, a slab dock 108 mounting point for installing slabs is formed at the left and right corner portions of the upper portion of the PC concrete beam 1, and the mounting points are formed at the left and right upper ends of the PC concrete beam 1 And the slab formers 108 are made to be PC products so as to be disposed between the PC concrete beams 1. The slab formers 108 are formed to have a convex shape so that when the upper slab is placed, It is preferable to form a structure capable of supporting the substrate.

Meanwhile, when the upper slab is laid, a force is transmitted to the both side slopes in the horizontal direction. At this time, the slab is secured so that the slab form 108 can not move, so that the slab can be safely installed.

Third Embodiment

As shown in FIG. 9,

The reinforcing bars are assembled in the beam and the plurality of PC steel rods 101 (101a to 101c) are arranged in a bottom-up arch shape And a plurality of sheath pipes are arranged in a top-down arch-like structure opposed to the PC steel bar 101 at the center portion C as the upper end portion of the beam, A plurality of horizontal sheath pipes having a predetermined length are bound to the end portions of the beam members A and B and are bound to the beam upper end reinforcing bars. After the molds are assembled and the high strength concrete is cured for curing, 102a to 102d are disposed in the interior of the PC concrete beam 1 so as to be tension-fixed to both the outer and intermediate portions A and B of the PC concrete beam 1,

Since the steel pipe is installed in the width direction of the PC concrete beam on the lower surface of the beam and is tension-fixed to both the middle portion A and the end portion B of the beam using the cables 1 and 2 103, It can be applied to bridges using urban space, bridges crossing small rivers, urban bridges designed to emphasize aesthetics, and so on.

The buried steel sheet 110 disposed eccentrically from the center of the beam end portion B and the reinforcing bars protruding from the end portion B surface are joined to each other at the center of the beam portion 1 for the fulcrum continuity, (109), and fixing the same to resist the momentum. Hereinafter, the main elements of each process and the respective constitutions thereof will be described.

PC Concrete Beam shape structure Tension  Layout and Settlement Configuration

This configuration forms a cross-sectional structure while forming an arch curved portion D on the outward side in the area for forming the PC concrete beam 1 and the arch curved portion D toward the lower side of the center portion C and forms the outer intermediate portion A and the end portion B ),

 A sheath tube having a top-down arch shape so that a plurality of tensile members 1 (102) can be inserted along with the reinforcing bars on the beam inner structure is bound to the lower reinforcing bars at the central portion (C) The PC steel bar 101 which is capable of increasing the rigidity is bound to the upper reinforcing bar at the central portion C to form a bottom-up arch shape, And the tension member 1 102 is inserted into the sheath tube having a top-down arch shape to tightly fix the outer intermediate portion A and the end portion B by tension.

In the arrangement of the tension member 1 (102), 102a of Fig. 11 is fixedly fixed to three rows at the upper end of the outer intermediate member (A) of Fig. 10, and 102b of Fig. 11 is fixed to two rows of the upper middle member 11, and 102c of FIG. 11 is arranged in five rows at the upper end of the outer intermediate section A of FIG. 10 and fixedly fixed in three rows at the upper end of the end portion (B), and 102d of FIG. 11 is an outer intermediate section A) arranged in four rows from the top and fixedly fixed in two rows at the top of the end (B).

In the steel bar for increasing the rigidity, 101a arranged on the central side (C) in Fig. 11 passes between the third row and fourth row at the upper end of the outer intermediate portion A in Fig. 10, And the upper end portion 101b disposed on the right side of the central portion C of FIG. 11 passes through between the third and fourth rows at the upper end of the outer intermediate portion A of FIG. 10 to the right, And arranged on the left side of the central portion C of Fig. 11, is disposed at the bottom left side of the four rows of the end portion (B) passing between the third row and the fourth row to the left at the upper end of the outer intermediate portion A of Fig. It is a matter of course that the number of the tensile members 1 102 and the PC steel rods 101 is not adversely affected.

In addition, the height of the cross-section of the center portion C and the height of the cross-section of the end portion B of the beam differ according to the beam span, so that the rigidity is not insufficient and resistance against external force is provided.

Cable support and  Tension and Settlement Configuration

The construction of the above-described " PC concrete beam shape structure and tension member placement and fixing structure ", in which the cables 1 and 2 (103) are beams, A plurality of cables 1 and 2 are disposed on the lower surface of the center portion C of the beam and a cable 1 103a is attached to the outer portion of the cable. And the rigidity of the PC concrete beam 1 is significantly increased because the cable 2 (103b) is tension-fixed to the end portion (B).

Meanwhile, since the cable support 304 receives a great compressive force when the cables 1 and 2 (103) are tensed by placing concrete therein, the cable support 304 is prevented from being deformed. 103a and 103b are preferably arranged so as to prevent the occurrence of clearance and the cable grooves 305 integrally tied to the cable supports 304 disposed on the lower surface of the central portion C of each PC concrete beam 1 (C) upward in the PC concrete beam (1), which is the upper structure of the bridge.

On the other hand, the diameter of the cable support 304 is a main factor for determining the span of the PC concrete beam 1, and as the span increases, the diameter increases. As the span decreases, the diameter decreases. 103 are not limited in number.

In the cable used in the present invention, the cables 1 and 2 (103) disposed inside the PC concrete beam (1) are protected by sheathing and grouting, but the cables 1 and 2 (103), a sheathed cable can be used and a cable grouted in the sheath tube can be used.

By using the cables 1, 2 (103a, 103b) and the cable support 304, it is possible to stabilize the upper structure of the bridge by giving the structural strength of the PC concrete beam (1) And construction costs are dramatically reduced.

Configure branch sequence

12, the two PC concrete beams 1 on the right and left sides of the bridge pier 2 are placed on the support base 111. At this time, the intervals between the PC concrete beams 1 are spaced apart from each other by a predetermined distance, It is necessary to dispose the support bases 112 by connecting and remove the support bases 111 to arrange them.

It is preferable to dispose the embedded steel plate 110 on both sides of the PC concrete beam 1 for the purpose of such serialization. One side of the embedded steel sheet 110 is arranged so that the two embedded steel sheets 110 overlap each other when the PC concrete beam 1 is placed thereon. And to simplify the construction.

On the other hand, it is necessary to arrange the reinforcing bars in the manufacturing process at both side ends B of the PC concrete beam 1 in order to form a solid continuous by welding with mutual overlapping.

In addition, when bolting and welding processes of the embedded steel plate 110 and the end reinforcing bar are completed, the high strength concrete is laid and cured to realize a completely integrated type. In the 'PC concrete beam shape structure, The tension member 2 109 is inserted into the sheath tube at the upper end of the end portion B of the PC concrete beam 1 which has been previously embedded and installed and the tension member 2 109 is tensioned after the continuous process is completed. So that the member force of the parent is reduced.

For this purpose, the cross section near both end portions is elevated with a step to the upper side of the PC concrete beam 1 so as to facilitate the installation of the tensile material 2 and to generate a large resistance force to the member force.

Slab formwork Seating point  Configuration

As shown in FIG. 3, a slab dock 108 mounting point for installing slabs is formed at the left and right corner portions of the upper portion of the PC concrete beam 1, and the mounting points are formed at the left and right upper ends of the PC concrete beam 1 And the slab formers 108 are made to be PC products so as to be disposed between the PC concrete beams 1. The slab formers 108 are formed to have a convex shape so that when the upper slab is placed, It is preferable to form a structure capable of supporting the substrate.

Meanwhile, when the upper slab is laid, a force is transmitted to the both side slopes in the horizontal direction. At this time, the slab is secured so that the slab form 108 can not move, so that the slab can be safely installed.

- reference numerals in the first embodiment -
One; PC concrete beam 2; pier
3; Crossbow 4; Slab
A; An outer intermediate fixing unit B; However,
101a, 101b, 101c; PC steel bars 102a, 102b, 102c, 102d; Tension 1
103a; Cable 1 103b; Cable 2
104a; Short-side steel pipe 104b; Long-side steel pipe
105: microcrystalline tube 106; Open steel pipe
107; Stiffener 108; Slab formwork
109; Tension material 2 110; Embedded steel plate 111; A pedestal 112; Jean
- reference numerals in the second embodiment -
One; PC concrete beam 2; pier
3; Crossbow 4; Slab
A; An outer intermediate fixing unit B; However,
101a, 101b, 101c; PC steel bars 102a, 102b, 102c, 102d; Tension 1
103a; Cable 1 103b; Cable 2
201; Main steel pipes 202a and 203a; Short-side steel pipes 202b and 203b; Long-side steel pipe 204; Connecting steel pipe 205: micro steel pipe 206; Open steel pipe 207; Stiffener 108; Slab form 109; Tension material 2 110; Embedded steel plate 111; A pedestal 112; Jean
- reference numerals in the third embodiment -
One; PC concrete beam 2; pier
3; Crossbow 4; Slab
A; An outer intermediate fixing unit B; However,
101a, 101b, 101c; PC steel bars 102a, 102b, 102c, 102d; Tension 1
103a; Cable 1 103b; Cable 2
304; Cable support 305; Connection home
306: connecting steel pipe 108; Slab form 109; Tension material 2 110; Embedded steel plate 111; A pedestal 112; Jean

Claims (7)

A method for constructing a bridge by constructing a PC concrete beam on the ground and then transporting the PC concrete beam to a building site and placing both ends of a PC concrete beam on an alternating or pier bridge, forming a beam, and installing a slab,
The PC concrete beam is constructed so as to have an arch curved line on the lower part of the central part of the PC concrete beam to improve the aesthetics. The PC steel beam is arranged in a downward arch curved shape inside the PC concrete beam, ,
Many of the sheath pipes are arranged in a downward arch-like structure opposite to the PC steel bar on the lower part of the central part of the longitudinal section and fixed to the middle and outer sections of the PC concrete beam,
PC Concrete Beam A large number of cable supports consisting of small diameter steel pipes are installed on the arch surface which is formed on the lower surface of the PC concrete beam and the cable is projected and arranged in the direction opposite to the arch shape formed on the PC concrete beam Since the steel pipe truss structure and cable are placed in the PC concrete beam at the same position and are connected to both the middle and the outer side of the PC concrete beam, it is possible to increase the stiffness of PC concrete beam by increasing the stiffness.
The PC concrete beam is placed on both sides of the foundation, and the reinforced concrete is connected to the reinforced concrete with the end eccentricity that connects the PC concrete beams to each other in the direction of the axis of thrust. Horizontal tension material 2 After placing a large number of beams and fixing them to the upper beam of reinforcing bars to resist the momentum,
The concrete structure of the projected structure is reinforced by providing a protruding structure having a stepped portion at the left and right corner of the top of the PC concrete beam so as to easily install the form when installing the upper slab between the PC concrete beams Low Stiffness PC Concrete Beam Structure with Increased Stiffness
The method according to claim 1,
In a low-elongation PC concrete beam structure with a reinforced cross-sectional structure with a protruding structure and increased rigidity,
The shape of the I-girder is maintained, and the arch concrete curve is given to the lower surface of the PC concrete beam.
A plurality of PC steel rods are arranged in a bottom-up arch shape, and a plurality of sheath pipes are arranged in the middle and outer ends of the PC concrete beam in a downward-arch-like structure opposite to the PC steel rods Then,
After assembling the formwork and pouring the high strength concrete,
A PC concrete beam structure with a low rigidity that increases the stiffness by reinforcing the cross-sectional structure by a prestressed structure in which the PC concrete beam is placed in the inside of the beam,
3. The method of claim 2,
A cable support consisting of a small diameter steel pipe should be installed at the opposite position to the curved surface adopted by the PC concrete beam under the arch curved line. A plurality of beams are installed at the lower part of the central part of the beam total length, But the cable support is divided into two parts, short-side steel pipe and long-side steel pipe,
A plurality of short-side steel pipes which are embedded in a beam and installed in the PC concrete beam and a plurality of long-side steel pipes to be connected after the beam is manufactured are arranged, a plurality of cables are arranged to introduce compressive force into the steel pipe, The tension of the cable is fixed and the cable 2 is tensioned. However, if the height of the cable is large according to the height of the cable support, the length of the beam is long and the length of the cable is shortened when the height is low.
The cable is improved to increase the stiffness of the PC concrete beam so that the sheathed cable or sheathed pipe and the cable protected by grouting can be used. The PC concrete beam has a protruding structure that gives structural capability to the beam so that the total length of the PC concrete beam is increased. Low-profile PC concrete beam structure reinforced with cross-sectional structure to increase rigidity
3. The method of claim 2,
A triangular truss loop structure composed of a combination of several steel pipes is installed on a triangular truss loop arranged on the lower surface of the beam, while a truss structure of a form composed of a steel pipe is provided at a position opposed to a curved surface formed by adopting an arch curved line on a PC concrete beam. It is composed of steel pipe triangular truss loop structure and PC concrete beam combined structure welded to the short side steel pipe.
In the above-mentioned welding, a small-diameter connecting steel pipe is first welded into a short-side steel pipe first, then a steel pipe of a long-side steel pipe is welded and a secondary welding is performed. 1 truss loop structure and the cable 2 at the end of the truss loop truss structure. However, truss truss loop structure can be controlled so that the truss truss structure becomes longer as the center section height increases, (103) disposed inside the main steel pipe (201) constituting the triangular truss loop structure may be formed as a grooved cable or a sheath pipe The rigidity of the PC concrete beam is greatly increased while the protected cable can be used, so that the PC concrete beam has a longer total length To be projected to the structure that was increasing the rigidity by reinforcing a side cross-sectional hyeonggo PC concrete beam structure to impart structural capacity to the beam
3. The method of claim 2,
It is necessary to install a steel pipe which can elevate the PC concrete beam at the central position which is adjacent to the curved surface which is made by adopting the arch curved line on the lower surface of PC concrete beam. The steel pipe is installed in the width direction on the lower part of the center part of the PC concrete beam, A plurality of cables are installed in the grooves so that the cable 1 is fixedly fixed to the outer middle portion and the cable 2 is fixedly fixed to the outer portion of the groove. The diameter of the steel pipe is increased as the diameter of the steel pipe increases, while the diameter is decreased as the diameter of the steel pipe is shorter.
In the cable, the cables 1 and 2 (103) disposed in the PC concrete beam 1 are protected by a sheath tube and grouting, and in the case of the cables 1 and 2 (103) exposed to the outside of the beam 1, To use the grooved cable in the sheath tube,
PC concrete beam is greatly enhanced, so that the eccentric distance at the center of the PC concrete beam arch is not smaller than that of the conventional I-girder while the protruding structure which can improve the structural ability and the beauty due to the arch shape Low-rigidity PC concrete beam structure with reinforced structure to increase rigidity
The method according to claim 1,
Two PC concrete beams on the left and right sides of the bridge pier are placed on the piers. The PC concrete beams are spaced apart from each other by a certain distance. The pincers are installed by connecting the PC concrete beams. The steel sheet is embedded and disposed eccentrically on both ends of the PC concrete beam so that the two steel sheets are overlapped with each other,
PC reinforced concrete beams are placed at both ends of the concrete beam,
A protruding structure for reducing the strength of the parent member by inserting the tensile material 2 in a predetermined length on the upper side of the end portion of the sheath tube previously embedded in the spot portion raised to the upper side of the PC concrete beam, Low-elongation PC concrete beam structure reinforced with cross-sectional structure to increase rigidity
The method according to claim 1,
The slab dies 108 for placing the slabs on the left and right corners of the PC concrete beam 1 are formed over the entire length of the beam by forming a step at the left and right upper ends and the slab dies 108 are made into PC products, And to form a structure that can support the weight when the upper slab is laid,
A low-profile PC concrete beam structure with a stiffening structure reinforced by a cross-sectional structure with a stepped structure fixed by a step so that the slab form 108 can not move due to the horizontal force due to the weight when the upper slab is laid

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