KR101957932B1 - Girder and method bridge construction using the same - Google Patents

Abstract

The present invention relates to a girder and a bridge construction method using the same. According to the present invention, a girder having a concrete structure to previously bury a jig wire net, a connection sleeve for connecting a front connection member, and a leveling sleeve for connecting a leveling bolt therein is applied to the inner upper side of a girder body. Accordingly, unlike an existing girder, a predetermined number of front connection members are able to be connected and installed while preventing a mismatching problem between a position to install the front connection member thereto and a position of a front pocket of a precast concrete (PC) panel. Moreover, the leveling bolt is connected and fixed at a predetermined height with respect to relative measurement to a previously installed adjacent PC panel before mounting and installation of the PC panel to conveniently adjust a height difference in accordance with blistering of the girder, and thus the upper surface of the PC panel mounted on the upper part of the adjacent girder is able to be flatly installed. Moreover, a previous level of the PC panel is adjusted and the PC panel is mounted and installed after leveling to minimize friction to the leveling bolt during leveling, and thus close attachment through introduction of compressive force between the PC panels are stably performed. Thereby, a crane use time is able to be reduced and constructability is able to be remarkably improved.

Description

[0001] The present invention relates to a bridge construction method using a girder and a girder,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of constructing a bridge using a girder and a girder, and more particularly, And the height of the leveling bolts is adjusted by the leveling bolts. The height of the leveling bolts can be adjusted by adjusting the leveling bolts to the height of the connecting sleeves and the jig- And a leveling sleeve having an upper surface exposed to an upper portion of the girder main body so as to be connected to the girder body so that the shear connection member is installed in the connection sleeve located in the inner space of the front pocket of the precast concrete panel after the precast concrete panel is mounted on the upper portion of the girder Unlike the conventional method, the shear connection It is possible to connect a certain number of shear connection members while preventing the inconsistency of the positions of the shear pockets of the precast concrete panels and to perform relative measurement with adjacent precast concrete panels installed before the installation of the precast concrete panels The leveling bolts are fixedly connected to the leveling sleeves at a predetermined height so that the height difference due to the rising phenomenon of the girders can be easily adjusted so that the top surface of the precast concrete panel seated on the upper part of the neighboring girder can be flatly installed, The pre-cast concrete panel was installed before the installation of the precast concrete panel, and the friction force with the leveling bolt was minimized, so that the tightening work through the introduction of the compressive force between the precast concrete panels was stabilized, Constructability It relates to a method using a bridge construction girder and the girder to be able to improve Heb.

Generally, a bridge construction method for constructing a full depth precast concrete panel with the entire thickness of a bridge slab is as follows. The girders are arranged in parallel at the top of alternating and pier angles, and the length corresponds to the entire width of the bridge, It is a very air-fast and innovative bridge method that completes the bridge slab by constructing a large panel with a length of about 2m and a total thickness of the bridge slab, installing it sequentially in the longitudinal direction of the bridge, .

The construction method of such bridges has conventionally been applied mainly to bridge type bridges.

Since there is no manufacturing error due to the material characteristics of the steel bridge, the large precast panel is manufactured to fit the shape of the steel bridge as shown in the design drawing, and no error is generated even when the large precast panel is installed on the steel bridge girder.

Recently, concrete girders have been constructed to apply the construction method of these bridges to concrete girder bridges. However, in recent years, many concrete girders have been constructed with bridge girders having a length of 50 to 60 m or more. A large precast panel having a length of the entire bridge formed on the upper surface of a plurality of girders arranged in parallel on the alternation or bridge pier due to the transverse curvature as shown in FIGS. 7 and 8, In order to apply the full deck flooring method as a bridge construction method to concrete girder bridges, it is urgently needed to improve and improve the construction workability due to poor construction and poor construction.

In other words, in the conventional bridge construction method, when the girder is manufactured, the shear connection material protruded on the upper surface of the girder coincides with the shear pocket position of the pre-fabricated panel according to the position of the shear connection material on the upper surface of the girder due to the transverse curvature of the girder, There is a problem in that the precast concrete panel made of the entire width of the bridge is not installed flat due to the difference in height of the respective girders due to the difference in height between the girders arranged transversely.

In order to overcome the above-mentioned problems, a conventional method of installing a bridge using a concrete girder is a method of collecting the shear connectors protruding from the upper surface of the girder into a community as much as possible during girder construction and increasing the shear pockets of the precast concrete panel to avoid interference Leveling due to the difference in height of each girder has been performed by leveling the panel while installing the leveling bolt in the precast concrete panel.

However, there is a concern that the conventional method of constructing a bridge to which a conventional concrete girder is applied may not be completely safe due to a disadvantage of complete synthesis of the girder and the upper slab due to a drastic correction of the girder drawing and a reduction in the number of shear connection members. The leveling work carried out while installing the panel is problematic in that the leveling bolts closely attached to the upper surface of the girder when the compressive force of the entire panel is introduced due to the operation delay of the large crane maximizes the frictional force and adversely affects the tightening work by introducing the compressive force between the panels .

Therefore, it is possible to prevent the inconsistency between the position where the shear connector is to be installed and the position of the front pocket of the precast concrete panel, and at the same time, the height difference due to the rising phenomenon of the girder can be easily adjusted, It is possible to install the precast concrete panel in a leveling operation to adjust the level before the precast concrete panel is installed and minimize the friction force with the leveling bolt by installing the precast concrete panel to introduce the compressive force between the precast concrete panels. It is required to research and develop a bridge construction method using a girder and a girder which can reduce the period of use of the crane and improve the workability remarkably.

Registered Korean Patent No. 0535157 Dec. 1, 2005. Registered. Korean Registered Patent No. 1206353 Nov. 23, 2012 Registered. Korean Registered Patent No. 1219788 issued Feb. 1, 2013.

In order to solve the above-mentioned problems, the present invention provides a jig wire netting and jig wire netting which is preliminarily buried in the longitudinal direction of the inside of a girder main body and is arranged and fixed in a grid- The leveling bolts are arranged and fixed to the center of both longitudinal sides of the girder body of the jig netting and the connection sleeves in which the upper surface is exposed to the upper part of the girder main body so that the shear connecting members are connected to each other, And a leveling sleeve having an upper surface exposed to an upper portion of the pre-cast concrete panel. The pre-cast concrete panel is mounted on the upper portion of the girder, and then the shear connection member is connected to the connection sleeve located in the inner space of the front pocket of the precast concrete panel. Where the shear connectors are to be installed and the location of the precast concrete panels It is an object of the present invention to provide a method of constructing a bridge using a girder and a girder which are capable of connecting a certain number of shear connectors to each other while preventing inconsistency of shear pocket positions.

Another object of the present invention is to provide a jig wire netting and jig wire netting which is preliminarily buried in the longitudinal direction of the girder main body, The leveling bolts are fixedly connected to the girder body so that the leveling bolts can be height-adjustably connected to the girder body. A leveling bolt is fixedly connected to a leveling sleeve at a predetermined height on the basis of a relative measurement of an adjacent precast concrete panel installed before the installation of the precast concrete panel, The height difference according to the rising phenomenon can be easily adjusted, The upper surface of the precast concrete panel, which is secured to the upper girder is as to ensure flatness of the installation.

Another object of the present invention is to provide a jig wire netting and jig wire netting which are previously embedded in the longitudinal direction of the girder main body at predetermined intervals in a longitudinal direction, The leveling bolts are arranged and fixed to the center of both sides of the longitudinal direction of the girder body of the jig wire net so that the leveling bolts are connected to the girder body so as to be adjustable in height, And a leveling sleeve having an upper surface exposed by the leveling sleeve, thereby adjusting the level of the precast concrete panel before the precast concrete panel is installed in the leveling operation, thereby minimizing the frictional force with the leveling bolt, Stabilization of adhesion work through introduction of compressive force It is composed as to be able to significantly enhance the constructability and reduce cranes period.

The present invention for achieving the above-mentioned objects is as follows. In other words, the girder according to the present invention has a structure in which the girder having a plurality of openings at a predetermined interval between a pier and a pier, or between a pier and an alternate pier, and then placing the precast concrete panel on the upper part in the longitudinal direction, The girder used for the construction of the bridge is made by concrete casting that completes the bridge slab through construction. It is made through concrete pouring and curing in the formwork. Inside the girder, ; A jig wire net provided in a grid type corresponding to an area larger than the front end pocket area of the precast concrete panel to be seated on the upper part at the time of constructing the bridge, And a lower end portion of the shear connection member is connected to a lower end portion of the shear connection member after the installation of the precast concrete panel for selectively installing a bridge, A connection sleeve which is previously embedded in the upper portion of the girder main body and whose upper surface is exposed to the upper portion of the girder main body; And an upper end outer surface fixed to the jig wire net and selectively disposed between the adjoining precast concrete panels installed before the installation of the precast concrete panel at the time of the bridge construction. A leveling sleeve having a lower end portion of the leveling bolt connected to the leveling operation so as to be adjustable in height for leveling operation and having an upper surface that is previously embedded in the upper portion of the girder main body and exposed to an upper portion of the girder main body Lt; / RTI >

In order to prevent the inconsistency between the position where the shear connector is to be installed and the position of the front end pocket of the precast concrete panel, the connection sleeve has a larger area than the front end pocket area of the precast concrete panel Are arranged in a plurality of lattice-like shapes at regular intervals over the corresponding regions.

In addition, a screw hole type connection hole is formed at the center so that the shear connection member may be selectively connected from the upper portion of the connection sleeve, while the leveling sleeve may have a height adjustment portion for lowering the leveling bolt A height adjustment hole having a screw hole type is formed to extend through a predetermined length upward from a lower end of the center so as to be connected to the height adjustment bolt, .

In addition, when the girder is manufactured, the connecting sleeve is fixed to the jig wire net so that the jig wire mesh, the connecting sleeve, and the leveling sleeve can be pre-embedded in the upper side of the girder main body, It is preferable that the reinforcing bars are fixedly installed on the reinforcing bars arranged at the uppermost part of the reinforcing bars.

Meanwhile, in the method of constructing a bridge using a girder according to the present invention, a precast concrete panel is seated on the upper part in the longitudinal direction after a plurality of sections are seated with a predetermined interval between the bridge piers and bridge piers, The present invention relates to a method of constructing a bridge structure by using a girder constructed by a concrete structure to complete a bridge slab through a pavement on a top surface of a concrete panel. The bridge construction method comprises a connecting sleeve for connecting a jig wire netting and a shear connection member, A step of fabricating a girder of a concrete structure so that a leveling sleeve for connection is pre-embedded; A girder installing step of placing the girders manufactured through the girder manufacturing step so as to be arranged in parallel and in parallel with each other at regular intervals between the bridge piers and the bridge piers or between the bridge piers and the alternations; The pre-cast concrete panel is placed in the longitudinal direction of the girder so that the upper surfaces of the pre-cast concrete panels adjacent to each other and the pre-cast concrete panels to be installed later are placed in a flat, The leveling bolt is connected to the leveling sleeve in such a manner that the height of the leveling bolt can be adjusted for leveling operation, and then the level is adjusted. Thereafter, the precast concrete panel, A panel mounting step for mounting the panel thereon; A plurality of precast concrete panels installed in succession on the upper surface of the girder through the panel installation step are primarily compressed by introducing compressive force using a hydraulic jack, so that mutually butt joints of the precast concrete panels are firstly adhered to each other A primary adhesion step; A panel integrating step of integrating all of the precast concrete panels installed in succession in the longitudinal direction of the girder by pouring and curing the concrete in the mutual butt joints of the precast concrete panel formed in the V-shaped groove shape and the precast concrete panel ; A secondary adhesion step of securing the mutually opposed joints of the precast concrete panels to each other while secondarily compressing the entire precast concrete panel through the panel integrating step using a hydraulic jack; A step of installing a shear connection material in a front end pocket of the precast concrete panel and connecting a bolt type shear connection member to a connection sleeve exposed on an upper surface of the girder; And a step of integrating the girder and the panel that integrates the girder and the precast concrete panel by filling the filler into the front pocket of the precast concrete panel.

At this time, in the panel mounting step, the level adjustment process is performed based on the relative measurement of the adjacent precast concrete panels, and the lower end portion of the leveling bolt is adjusted in height from the top of the leveling sleeve So as to adjust the level.

The jig wire net previously embedded in the upper side of the girder main body in the girder manufacturing step is provided in a lattice type corresponding to an area larger than the front end pocket area of the precast concrete panel to be seated on the upper part at the time of bridge construction, The connection sleeves previously embedded in the upper side of the girder main body in the girder manufacturing step are arranged in a plurality of lattice-like shapes at regular intervals in the central region of the jig netting And a lower end portion of the shear connection member is connected to the lower end portion of the shear connection member after the installation of the precast concrete panel for selectively installing a bridge. The upper end of the shear connection member is embedded in the upper portion of the girder main body, The leveling slip is pre-buried in the upper part of the inside of the girder main body in the girder manufacturing step. Is disposed at the center of both sides of the jig wire netting corresponding to the longitudinal direction of the girder main body and the upper end outer surface thereof is fixed to the jigged wire net and selectively connected to the adjacent precast concrete panel before the installation of the precast concrete panel It is preferable that the lower end portion of the leveling bolt is connected to be adjustable in height for the leveling operation based on the relative measurement, and the upper surface is exposed to the upper portion of the girder main body before being embedded in the upper side of the girder main body.

The effect of the bridge construction method using the girder and the girder according to the present invention will be described as follows.

First, a jig wire net, which is previously embedded in the upper side of the girder body at a predetermined interval in the longitudinal direction, is arranged and fixed in a grid shape at a predetermined interval in the central area of the jig net, And a leveling sleeve having a top surface exposed to the top of the girder main body so as to be selectively connected to the leveling bolt so as to be adjustable in height, The shear connection member is connected to the connection sleeve located in the inner space of the front pocket of the precast concrete panel after the precast concrete panel is seated on the upper portion of the girder so that the position where the shear connection member is installed and the precast concrete Prevent inconsistency of front panel pocket position of panel While you can install the shear connector connecting a predetermined number.

Second, a jig wire net, which is pre-embedded in the upper side of the girder body at a predetermined interval in the longitudinal direction, is arranged and fixed in a grid-like manner at a predetermined interval in the central region of the jig net, And a leveling sleeve having a top surface exposed to the top of the girder main body so as to be selectively connected to the leveling bolt so as to be adjustable in height, The leveling bolt is fixed to the leveling sleeve at a predetermined height based on the relative measurement with the adjacent pre-cast concrete panel installed before the installation of the precast concrete panel by installing the girder including the height difference due to the rising phenomenon of the girder Which is seated on top of the neighboring girder. Li may be such that the flat top surface of the installed cast concrete panels.

Third, a jig wire net, which is preliminarily buried in the upper side of the girder body at a predetermined interval in the longitudinal direction, is arranged and fixed in a grid-like manner at a predetermined interval in the central area of the jig net, And a leveling sleeve having a top surface exposed to the top of the girder main body so as to be selectively connected to the leveling bolt so as to be adjustable in height, It is possible to minimize the frictional force with the leveling bolt by installing the precast concrete panel after adjusting the level before the precast concrete panel is installed in the leveling work so that the tightening work through the introduction of the compressive force between the precast concrete panels Reduced lifetime of crane by stable construction And the workability can be remarkably improved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a plan view illustrating a structure of a precast concrete panel mounted on an upper part of a girder when a bridge is constructed using a girder according to the present invention. FIG.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a girder, and more particularly, to a girder having a girder, a connecting sleeve and a leveling sleeve.
FIG. 3 is a main constituent view showing a structure in which a shear connection member or a leveling bolt is connected to a jig net, a connection sleeve, and a leveling sleeve previously embedded in an upper portion of a girder according to the present invention.
Fig. 4 is a cross-sectional view taken along the line AA in Fig. 1, showing a cross-sectional view showing a structure in which a shear connection member is connected and installed at the time of construction of a bridge using a girder according to the present invention.
Fig. 5 is a cross-sectional view taken along line BB of Fig. 1, showing a state of a used state of a pre-cast concrete panel in a state in which a precast concrete panel is seated after a leveling bolt is connected and leveling operation is completed at the time of construction of a bridge using a girder according to the present invention Degree.
6 is a block diagram showing a method of constructing a bridge using a girder according to the present invention, according to a construction sequence.
Fig. 7 is a view showing a phenomenon in which a lateral curvature occurs to a girder when a bridge is constructed using a girder according to the related art. Fig.
FIG. 8 is a view showing a phenomenon in which a difference in height of a girder occurs when a bridge is constructed using a girder according to the related art. FIG.

Hereinafter, preferred embodiments of a bridge construction method using a girder and a girder according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a plan view showing a structure in which a precast concrete panel is mounted on an upper part of a girder when a bridge is constructed using the girder according to the present invention. FIG. 2 is a cross- FIG. 8 is a cross-sectional view showing a structure in which a sleeve and a leveling sleeve are pre-embedded.

FIG. 3 is a main part of a girder according to the present invention, in which a shear connection member or a leveling bolt is connected to a jig wire net, a connection sleeve, and a leveling sleeve which are previously embedded in an upper portion of a girder.

Fig. 4 is a cross-sectional view taken along the line AA of Fig. 1, showing a cross-sectional view of a principal part showing a structure in which a shear connection member is connected and installed at the time of construction of a bridge using the girder according to the present invention, FIG. 10 is a cross-sectional view of a used state of a pre-cast concrete panel after a leveling bolt is connected and a pre-leveling operation is completed at the time of construction of a bridge using a girder according to the invention.

1 to 5, the girder 100 according to the preferred embodiment of the present invention is constructed such that the girders 100 are installed at a predetermined interval between the bridge piers and the bridge piers or between the bridge piers and the alternations, A concrete structure is installed on the precast concrete panel 200 by placing the cast concrete panel 200 on the upper surface of the precast concrete panel 200 to complete the bridge slab through paving and is used for construction of the bridge.

Here, the precast concrete panel 200 is manufactured as a large-sized panel that is applied to a bridge for constructing a full-thickness precast concrete panel as a whole thickness of a normal bridge slab, and is applied to a bridge construction .

The precast concrete panel 200 is formed to penetrate the upper surface of the girder 100 in a state where the precast concrete panel 200 is seated on the upper part of the girder 100 so as to be integrated with the girder 100, A plurality of shear pockets 210 are formed in the longitudinal direction.

In addition, the precast concrete panel 200 can be applied as a panel having inclined surfaces inclined downward on both widthwise upper surfaces thereof.

The girders 100 according to the present invention are roughly divided into a girder main body 110, a jig net 120, a connecting sleeve 130, and a leveling sleeve (not shown) 140).

Here, the girder main body 110 is manufactured by pouring concrete into a mold (not shown) for manufacturing the girder 100. The girder main body 110 has reinforcing bars 111 in the longitudinal and transverse directions, This is what is being laid.

The jigged wire net 120 may have a lattice type corresponding to an area larger than an area of the front end pocket 210 of the precast concrete panel 200 to be placed on the upper part of the girder 100 when the girder 100 is applied. / RTI >

The jigged wire net 120 is previously embedded in the upper portion of the girder main body 110 at a predetermined interval.

In other words, the jigged wire net 120 is provided as a grid-type wire net, and the number of front-end pockets 210 corresponding to the number of the front-end pockets 210 of the precast concrete panel 200, It is preferable to pre-fill at a predetermined interval.

Meanwhile, the connection sleeves 130 are arranged in a plurality of lattice-like shapes at a predetermined interval in the central region of the jigged wire net 120, and the upper outer surface thereof is fixed to the jigged wire net 120, 100 is installed on the upper portion of the precast concrete panel 200, the lower end portion of the shear connection member 310 is connected.

The connecting sleeve 130 is previously embedded in the upper portion of the girder main body 110, and the upper surface is exposed to the upper portion of the girder main body 110.

That is, the connection sleeves 130 are arranged in a plurality of lattice-like shapes at regular intervals in the central region of the jigged wire net 120, and are exposed through the front pocket 210 after the precast concrete panel 200 is seated and installed. It is preferable that the lower end portion of the front end connection member 310 is connected to the connection sleeve 130 for a certain number of the connection sleeves 130 which are connected to each other.

The connection sleeve 130 is formed with a screw hole type connection hole 131 at the center so as to selectively connect the front end connection member 310 from the upper side and is provided with a bolt type through the connection hole 131 The lower end portion of the shear connector 310 may be connected to the lower end portion of the sheath connector 310 through a screw connection.

The connection sleeve 130 may be provided at the upper part of the bridge structure to prevent the inconsistency between the position where the shear connection member 310 is to be installed and the position of the front end pocket 210 of the precast concrete panel 200, It is more preferable that the pre-cast concrete panels 200 are arranged in a plurality of lattice-like shapes at regular intervals over an area corresponding to an area larger than the area of the front-end pockets 210 of the precast concrete panel 200 to be seated.

The leveling sleeve 140 is disposed at the center of both sides of the jig net 120 corresponding to the longitudinal direction of the girder main body 110 and has an upper outer surface fixed to the jigged wire net 120, 100, the lower end portion of the leveling bolt 320 is positioned at a height (height) for leveling operation based on the relative measurement of the adjacent precast concrete panel 200 installed before installation of the precast concrete panel 200, A controllable connection is established.

Preferably, the leveling sleeve 140 is previously embedded in the upper portion of the girder main body 110, and the upper surface is exposed to the upper portion of the girder main body 110.

The leveling sleeve 140 is disposed at a center of both sides of the jig net 120 corresponding to the longitudinal direction of the girder main body 110 and is fixed to the jig wire net 120 through welding or the like, And can be fixedly fixed to the ends of the wire net 120 protruding outwardly from the centers of both sides corresponding to the longitudinal direction of the girder body 110 through welding or the like.

The leveling sleeve 140 may include a height adjusting bolt (not shown) extending from a lower portion of the center to a predetermined length upward to connect the lower end portion of the leveling bolt 320 to the leveling bolt 320, (141) is formed.

At this time, the leveling sleeve 140 is extended above the height adjusting hole 141 to be wider than the height adjusting hole 141 in which the head portion of the leveling bolt 320 is inserted, .

Here, it is preferable that the extension groove 142 is formed through a structure in which the upper end of the leveling sleeve 140 is bent in an outward "? 'Shape by a predetermined length of the upper end of the cylindrical nut tube type.

The leveling bolt 320 may be a cylindrical or polygonal prismatic groove having a diameter greater than the head width of the leveling bolt 320. The height of the leveling bolt 320 may be equal to the height of the head of the leveling bolt 320 The leveling bolt 320 may be connected to the leveling bolt 320 by rotating the leveling bolt 320 to a position where the upper end of the leveling bolt 320 coincides with the upper end of the extending groove 142 It will be.

The girder 100 according to the present invention may be previously embedded in the upper portion of the girder main body 110 when the girder 100 according to the present invention is previously embedded in the jig wire net 120, the connecting sleeve 130 and the leveling sleeve 140 .

The connecting sleeve 130 has a reinforcing bar 111 disposed at the uppermost portion of the reinforcing bar 111 having a lower end fixed to the jigged wire net 120 and having a lower end fixed to the inside of the girder main body 110, As shown in Fig.

Of course, when the girder 100 is manufactured, the jig wire net 120, the coupling sleeve 130, and the leveling sleeve 140 are pre-embedded in the upper portion of the girder main body 110, The lower end of the leveling sleeve 140 is positioned at the uppermost one of the reinforcing bars 111 laid inside the girder main body 110 in a state where the leveling sleeve 140 is fixed to the jigged wire net 120, And may be fixedly mounted on the reinforcing bar 111 disposed on the reinforcing bar 111. [

6 is a block diagram showing a construction method of a bridge using a girder according to the present invention, according to the order of construction.

The method of constructing a bridge using the girder as shown in FIG. 6 is a method of constructing a bridge using the girder described with reference to FIGS. 1 to 5, and will be described with reference to FIG. 6 and FIGS. 1 to 5.

The method for constructing a bridge using a girder according to the present invention is characterized in that a precast concrete panel 200 is installed in an upper part in a longitudinal direction and is installed at a predetermined distance between a pier and a pier, A method of constructing a bridge using a girder manufactured by using a concrete structure that completes a bridge slab through packaging construction on an upper surface of a cast concrete panel 200. [

The method for constructing a bridge using a girder according to the present invention is characterized in that a bridge construction method including a girder forming step S110, a girder installing step S120, a panel installing step S130, a primary adhesion step S140, a panel integrating step S150, (S160), a shear connector installation step (S170), and an integration step (180) of the girder and the panel.

More specifically, in the step of fabricating the girder S110, a jig wire net 120, a connection sleeve 130 for connecting the front end connection 310, and a leveling bolt 320 are connected to the inside of the girder main body 110 And the girder 100 of the concrete structure is manufactured so that the leveling sleeve 140 is pre-embedded.

In the step of installing the girders (S120), the girders (100) manufactured through the step of making the girders (S110) are seated and installed so as to be arranged in parallel with a predetermined distance between the bridge piers .

In addition, the panel installation step S130 includes a step of mounting the precast concrete panel 200 in the longitudinal direction of the girder 100 in a sequential manner.

It is particularly important that the panel installation step S130 is such that the upper surfaces of the precast concrete panel 200 installed adjacent to the pre-cast concrete panel 200 and the precast concrete panel 200 to be installed thereon are placed successively and flatly one after another.

The leveling bolt 320 is connected to the leveling sleeve 140 before the leveling sleeve 140 is embedded in the girder 100 so that the height of the leveling bolt 320 can be adjusted for leveling. The precast concrete panel 200 to be installed thereon so as to be in close contact with the side portions of the precast concrete panel 200 after the adjustment.

In the primary adhesion step S140, a plurality of precast concrete panels 200 installed successively on the upper surface of the girder 100 through the panel installation step S130 are first And the joints of the precast concrete panels 200 are brought into close contact with each other while primarily applying compressive force.

In the panel integrating step S150, the concrete is inserted and cured in the mutual butt joint of the precast concrete panel 200 and the precast concrete panel 200, And the entire precast concrete panels 200 installed in succession in a plurality of directions are integrated.

In the secondary adhesion step S160, the entire precast concrete panel 200 integrated through the panel integration step S150 is introduced into the precast concrete panel 200 while compressively introducing the secondary pressure using a hydraulic jack. So that the mutually facing joints of the first and second members are mutually adhered to each other.

The step of installing the shear connection member S170 may include placing a bolt-type shear connection member 310 (see FIG. 3) in the connection sleeve 130 exposed in the upper surface of the girder 100 while being positioned inside the shear pockets 210 of the precast concrete panel 200, And connecting and connecting them.

The step of integrating the girder and the panel 180 comprises filling the front pocket 210 of the precast concrete panel 200 with a filler to integrate the girder 100 and the precast concrete panel 200 together.

In this case, it is preferable that the filler applied in the step 180 of integrating the girder and the panel is filled with a non-shrinkable mortar.

Among the bridge construction methods using the girders according to the present invention, the jig wire net 120 previously embedded in the upper part of the girder main body 110 in the girder manufacturing step (S110) It is preferable to provide a grid type corresponding to an area larger than the area of the front end pocket 210 of the precast concrete panel 200 to be mounted on the upper part and be pre-buried in the upper portion of the girder main body 110 at a predetermined interval .

The connection sleeves 130 previously embedded in the upper portion of the inside of the girder main body 110 in the girder manufacturing step S110 are arranged in a plurality of grid-like shapes at regular intervals in the central region of the jigged wire net 120 And the upper outer surface is fixed to the jigged wire net 120 and the lower end portion of the shear connection member 310 is connected to the girder main body 110 after the installation of the precast concrete panel 200 is selectively installed for the bridge construction. It is preferable that the upper surface is exposed to the upper portion of the girder main body 110 before being embedded in the upper side.

The leveling sleeve 140 previously embedded in the upper portion of the inside of the girder main body 110 in the girder manufacturing step S110 is disposed at the center of both sides of the jigged wire net 120, And the upper outer surface thereof is fixed to the jigged wire net 120 to selectively measure relative to the adjacent pre-cast concrete panel 200 installed before the installation of the precast concrete panel 200 at the time of the bridge construction It is preferable that the lower end of the leveling bolt 320 is connected to be adjustable in height for the leveling operation and the upper surface of the leveling bolt 320 is buried in the upper part of the inside of the girder body 110 and exposed to the upper part of the girder body 110 .

In the bridge construction method using the girder according to the present invention, the level adjustment in the panel installation step (S130) may include a plurality of pre-cast concrete The lower end portion of the leveling bolt 320 is fixed to the leveling sleeve (not shown) on the basis of the relative measurement with respect to the adjacent precast concrete panel 200 provided on the base so that each upper surface of the panel 200 can be seated and installed flat. 140) so as to be adjustable in height for the leveling operation so as to adjust the level.

Further, among the bridge construction methods using the girders according to the present invention having the above-described steps, between the girder installation step (S120) and the panel installation step (S130), rubber It is preferable that a process of placing the packing in place is further performed.

At this time, the rubber packing has a function to prevent the filling material charged when the filling material is filled on the front end pocket 210 by locating the precast concrete panel 200 on the upper surface of the girder 100, to the outside .

According to the bridge construction method using the girder and the girder according to the present invention as described above, it is possible to provide a bridge construction method in which a jig wire net, which is previously embedded in the girder main body at predetermined intervals in the longitudinal direction, And the height of the leveling bolts is adjusted by the leveling bolts. The height of the leveling bolts can be adjusted by adjusting the leveling bolts to the height of the connecting sleeves and the jig- And a leveling sleeve having an upper surface exposed to an upper portion of the girder main body so as to be connected to the girder body so that the shear connection member is installed in the connection sleeve located in the inner space of the front pocket of the precast concrete panel after the precast concrete panel is mounted on the upper portion of the girder Unlike the conventional case where the connection is established, the position where the shear connector is to be installed While preventing a phenomenon where the shear pockets of precast concrete panels that do not match can be installed connecting the shear connector of a certain number.

In addition, a jig wire net, which is previously embedded in the longitudinal direction of the girder main body, is juxtaposed and fixed in a central area of the jig net, And a leveling sleeve having a top surface exposed to the top of the girder main body so as to be selectively connected to the leveling bolt so as to be adjustable in height, The leveling bolt is fixed to the leveling sleeve at a predetermined height based on the relative measurement with the adjacent pre-cast concrete panel installed before the installation of the precast concrete panel by installing the girder including the height difference due to the rising phenomenon of the girder Which is seated on top of the neighboring girder. Li may be such that the flat top surface of the installed cast concrete panels.

Furthermore, a jig wire net, which is preliminarily buried in the upper portion of the girder body at a predetermined interval in the longitudinal direction, is arranged and fixed in a grid-like manner at a predetermined interval in the central region of the jig net, And a leveling sleeve having a top surface exposed to the top of the girder main body so as to be selectively connected to the leveling bolt so as to be adjustable in height, It is possible to minimize the frictional force with the leveling bolt by installing the precast concrete panel after adjusting the level before the precast concrete panel is installed in the leveling work so that the tightening work through the introduction of the compressive force between the precast concrete panels It is stable, And the feeling and the workability can be remarkably improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, the invention is not limited thereto. Various modifications may be made by those skilled in the art. Are included in the scope of the present invention.

110: girder body
111: Rebar
120: Jig wire mesh
130: connecting sleeve
131: connecting ball
140: Leveling sleeve
141: Height adjustable ball
142: Extended home
200: precast concrete panel
210: Shear pocket
310: Shear connector
320: Leveling bolts

Claims (7)

The precast concrete panel 200 is installed on the upper part in the longitudinal direction and installed on the upper surface of the precast concrete panel 200 by placing the opposite ends with a predetermined distance between the bridge piers and the piers or between the bridge piers and the alternating piers. The girder (100) is made of a concrete structure to complete a bridge slab and is used for construction of a bridge,
A girder main body 110 which is manufactured through concrete pouring and curing in a formwork and in which reinforcing steel bars 111 are arranged in the longitudinal and transverse directions at the time of manufacture;
Is provided in a lattice type corresponding to an area larger than the area of the front end pocket 210 of the precast concrete panel 200 to be seated on the upper part at the time of constructing the bridge and is previously embedded in the upper portion of the girder main body 110 at a predetermined interval A jig wire net 120;
A plurality of lattice-shaped spacers are disposed in a central region of the jigged wire net 120 and an upper outer surface thereof is fixed to the jigged wire net 120 to selectively mount the precast concrete panel 200 for installation of bridges A connection sleeve 130 to which a lower end portion of the shear connector 310 is connected and which is previously embedded in the upper portion of the girder main body 110 and whose upper surface is exposed to the upper portion of the girder main body 110; And
The upper end of the jigged wire net 120 is fixed to the jigged wire net 120 and is selectively positioned at the center of both sides of the jigged wire net 120 corresponding to the longitudinal direction of the girder main body 110, The lower end portion of the leveling bolt 320 is connected to be adjustable in height for the leveling operation based on the relative measurement of the adjacent precast concrete panel 200 installed in the girder main body 110, And a leveling sleeve (140) which is previously embedded on the upper side of the girder main body (110) and whose upper surface is exposed to the upper side of the girder main body (110).
The method according to claim 1,
In order to prevent the inconsistency between the position where the shear connector 310 is to be installed and the position of the front end pocket 210 of the precast concrete panel 200,
The connection sleeve 130 is arranged in a plurality of lattice-like shapes at regular intervals over an area corresponding to an area larger than the area of the front end pocket 210 of the precast concrete panel 200 to be seated on the upper part during the bridge construction Girder with.
The method according to claim 1,
The connection sleeve 130 is formed with a screw hole type connection hole 131 at the center so as to selectively connect the front end connection member 310 from the top,
The leveling sleeve 140 has a screw hole type height adjusting hole 141 extending upward from the lower end of the center so that the lower end portion of the leveling bolt 320 is connected to the leveling sleeve 140 so as to be adjustable in height, And an enlarged groove 142 is formed at an upper side of the height adjusting hole 141 so as to be wider than the height adjusting hole 141 in which the head portion of the leveling bolt 320 is inserted. .
The method according to claim 1,
The jig wire net 120, the connection sleeve 130 and the leveling sleeve 140 may be previously embedded in the upper portion of the girder main body 110 when the girder 100 is manufactured,
The connecting sleeve 130 is fixed on the reinforcing steel bar 111 disposed at the uppermost one of the reinforcing bars 111 disposed at the bottom of the girder main body 110 in a state where the upper end is fixed to the jigging wire net 120, And is fixedly installed.
The precast concrete panel 200 is installed on the upper part in the longitudinal direction and installed on the upper surface of the precast concrete panel 200 by placing the opposite ends with a predetermined distance between the bridge piers and the piers or between the bridge piers and the alternating piers. A method for constructing a bridge using a girder manufactured by using a concrete structure to complete a bridge slab,
A connection sleeve 130 for connecting the jig wire net 120 and the shear connection member 310 and a leveling sleeve 140 for connecting the leveling bolts 320 are previously embedded in the upper portion of the girder main body 110, A girder manufacturing step S110 for manufacturing a girder 100 of the present invention;
A girder installing step (S120) of placing the girders (100) manufactured through the girder manufacturing step (S110) so as to be placed in parallel in a plurality of places with a predetermined distance between the bridge piers and the bridge piers;
The upper surface of the precast concrete panel 200 to which the adjacent precast concrete panel 200 is installed and the upper surface of the precast concrete panel 200 to be installed after the lower surface of the girder 100 are installed in the longitudinal direction of the girder 100, The leveling bolt 320 is connected to the lower end of the leveling sleeve 140 previously buried in the girder 100 in such a manner that the leveling bolt 320 can be height-adjusted for leveling work, A panel installing step (S130) of placing a precast concrete panel (200) to be seated and installed so as to be closely contacted with the precast concrete panel (200) installed on the foundation;
A plurality of precast concrete panels 200 installed successively on the upper surface of the girder 100 through the panel installation step S130 are introduced into the precast concrete panel 200 while primarily introducing compressive force using a hydraulic jack. A primary adhesion step (S140) in which the mutually facing joints are primarily in close contact with each other;
The precast concrete panel 200 formed in a V-shaped groove shape and the precast concrete panel 200 are poured and cured in a joint portion where the concrete is inserted and cured, A panel integrating step (S150) of integrating the entire concrete panel (200);
After the panel integrating step S150, the joints of the precast concrete panels 200 are pressed against the entire pre-cast concrete panel 200 by using a hydraulic jack, (S160);
A shear connection member 310 of a bolt type is connected to the connection sleeve 130 exposed on the upper surface of the girder 100 while being positioned inside the front end pocket 210 of the precast concrete panel 200 S170); And
A bridge using a girder including a girder and a panel integration step 180 in which a filler is filled in a front pocket 210 of a precast concrete panel 200 to integrate the girder 100 and the precast concrete panel 200, Construction method.
6. The method of claim 5,
In the panel installation step S130, the level adjustment process is performed in such a manner that the lower end portion of the leveling bolt 320 is positioned on the leveling sleeve 140 (refer to FIG. 1) on the basis of the relative measurement with respect to the adjacent precast concrete panel 200, And the level is adjusted from the upper portion of the bridge so as to be adjustable in height for leveling operation.
6. The method of claim 5,
The jig wire net 120 previously embedded in the upper side of the inside of the girder main body 110 in the girder manufacturing step S110 is formed to have a size smaller than the area of the front end pocket 210 of the precast concrete panel 200, And is provided in a grid type corresponding to a large area, is pre-embedded at a predetermined interval in the upper portion of the girder main body 110,
The connection sleeves 130 previously embedded in the upper side of the girder main body 110 in the girder manufacturing step S110 are arranged in a plurality of lattice-like shapes at regular intervals in the central region of the jigged wire net 120, The outer surface of which is fixed to the jigged wire net 120 and the lower end portion of the shear connection member 310 is connected after the installation of the precast concrete panel 200 for selectively installing the bridge, The upper surface of the girder main body 110 is exposed,
The leveling sleeve 140 previously embedded in the upper side of the inside of the girder main body 110 in the girder manufacturing step S110 is disposed at the center of both sides of the jigged wire net 120 corresponding to the longitudinal direction of the girder main body 110 And the upper outer surface thereof is fixed to the jigged wire net 120. The upper surface of the leveling bolt 120 is selectively fixed relative to the adjacent precast concrete panel 200 installed before the installation of the precast concrete panel 200, And a lower portion of the girder body 320 is connected to the girder body 110 so as to be adjustable in height for leveling. The upper surface of the girder body 110 is exposed to the upper portion of the girder body 110, A bridge construction method using.

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