KR20040081836A - Making method and making mold thereof of a bridge making place for ilm pc-box-girder - Google Patents

Abstract

PURPOSE: A manufacturing method of a job site for an ILM PC box girder bridge and a manufacture thereof are provided to cut down the construction cost required for a bridge and to recycle a body for a job site. CONSTITUTION: The manufacturing method of a job site for an ILM PC box girder bridge comprises the steps of: forming a connection block(100) provided with many lateral steel wire holes; forming a connection-cum-right retentive block(200) provided with a lateral steel wire hole and a horizontal steel wire hole to be supported by locating on the side of the connection block(100); forming a primary cross block(300) provided with a horizontal steel wire hole to be supported by locating on a retentive part of the connection-cum-right retentive block(200); forming a secondary cross block(400) provided with a horizontal steel wire hole to be supported by locating on the side of the primary cross block(300); forming a third cross block(500) provided with a horizontal steel wire hole to be supported by locating on the side of the secondary cross block(400): and forming a connection-cum-left retentive block(600) provided with a horizontal steel wire hole to be supported by locating the third cross bock(500) on a retentive part and a lateral steel wire hole to be supported by locating on the side of the connection block(100).

Description

Manufacture method and production method of ILM Fish Box Girder Bridge {MAKING METHOD AND MAKING MOLD THEREOF OF A BRIDGE MAKING PLACE FOR ILM PC-BOX-GIRDER}

The present invention relates to a manufacturing method of the production site and its products applied to the PC box girder bridge for ILM.

As is generally known, in order to construct a PC box girder bridge for an ILM (Incremental Launching Method) in a bridge construction, a construction site is installed, and the production site is necessary for manufacturing a box and the like and promoting it to an appropriate length. .

In the conventional production site, as shown in FIG. 1, the foundation 1 is formed and then the production body 3 is poured into concrete. The workshop body 3 is formed in an appropriate shape, and forms a box 5 through the bridge fabrication system (not shown) in the workshop body 3, and pushes the box 5 to the pier ( The box 5 is to be installed on 7).

The workshop body 3 is to be formed at the beginning of the bridge construction, the bridge construction is completed by crushing the workshop body 3 after the bridge construction is completed, the construction of the workshop body 3 formed by the shredding Shreds are transported to appropriate points for disposal.

However, in the conventional bridge construction method, the fabrication site is formed by forming the foundation body 3 after concrete construction at the initial stage of the bridge construction, and crushing the construction body 3 after the completion of the bridge construction. Due to the disposal, the overall construction cost increases and the bridge construction schedule becomes long.

The present invention is to provide a manufacturing method and the manufacture of the ILM fish box girder bridge for the manufacture of the bridge to reduce the construction cost of the bridge construction, and to be able to recycle the workshop body to correct the above problems.

In order to achieve the above object, the manufacturing method of the present invention is to be able to form the workshop body in the construction of the foundation body applied to the PC box girder bridge, etc. for the ILM, a plurality of sides Forming a connection block in which a directional liner hole is formed, and forming a connection and right support block in which a lateral liner hole is formed and a horizontal liner hole is formed so as to be positioned and supported on a side of the connection block; Forming a first cross block in which a horizontal liner hole is formed to be positioned and supported by the connection and the right support block; and a horizontal liner hole formed in the side of the first cross block and supported by the first cross block; Forming a second crossblock, and forming a third crossblock in which a horizontal steel wire hole is formed to be positioned and supported at a side of the second crossblock. And forming a connecting and left support block having a lateral liner hole formed so as to be positioned and supported by the third cross block, and forming a lateral liner hole so as to be positioned and supported by the side of the connection block. It is composed of.

And in order to achieve the above object, the article of manufacture of the present invention in the construction of the foundation body body applied to the PC box girder bridge for ILM, etc., is formed to form the workshop body and a plurality of sides A connecting block having a directional wire hole formed therein, a connecting and right supporting block having a lateral liner hole formed thereon so as to be positioned and supported on the side of the connecting block, and having a horizontal line hole formed therein, and a supporting part of the connecting and right supporting block. A first cross block having a horizontal liner hole formed to be supported at the second cross block, a second cross block having a horizontal liner hole formed at the side of the first cross block to be supported, and a side portion of the second cross block A third cross block in which a horizontal steel wire hole is formed so as to be supported on the third cross block; In addition to the formation of the steel wire hole is located in the side of the connection block is composed of a connection and the left support block is formed a lateral steel wire hole.

1 is a schematic view showing a part of a general production site,

2 is a plan view of an embodiment of the present invention;

3 is a side view of an embodiment of the present invention;

4 is a cross-sectional view taken along the line A-A of FIG.

5 is a cross-sectional view taken along the line B-B of FIG.

6 is a flow chart of an embodiment of the invention,

Figure 7 is an exploded view showing the preparation of the embodiment of the present invention.

<Description of the code used in the main part of the drawing>

1: foundation 3: workshop body

5: box 7: pier

50: steel wire 100: connecting block

200: connection and the right support block 300: the first cross block

400: second crossblock 500: third crossblock

600: connection and left support block 700: right body part

800: left body portion 900: cross body portion

In the present invention, as shown in Fig. 1 and as shown in Figs. 2 to 7, in the construction of the construction body 3 on the foundation 1 applied to the PC box girder bridge or the like for ILM, the construction body ( 3) forming a connection block 100 formed in an inverted T shape to form a plurality and having a plurality of lateral liner holes 110 formed at a side thereof to allow the steel wire 50 to be inserted (S1); In addition, a plurality of lateral liner holes 110 are formed to be in close contact with each other by being located at the side of the connection block 100, and the plurality of lateral liner holes 120 are formed to be crimped and fixed through the liner 50. Forming a connection and the right support block 200 to enable the insertion (50) (S2), and the horizontal liner hole to be positioned and supported above the support portion 210 of the connection and the right support block 200 ( 120 is formed up and down to the first cross block 300 to insert the steel wire 50 Forming a step (S3) and the second cross block to the horizontal line wire hole 120 is formed in the upper and lower sides so as to be positioned and supported on the side of the first cross block 300 to insert the steel wire (50) Forming a step (S4) and a horizontal liner hole 120 formed up and down so as to be positioned and supported at the side of the second crossblock 400 to insert the steel wire 50 therein. Step (S5) to form a three cross block 500, and a plurality of horizontal steel wire hole 120 is formed so that the third cross block 500 is positioned above the support portion 610 to support the steel wire (50) Forming a connection and left support block 600 which allows the steel wire 50 to be inserted by being squeezed and fixed through the lateral steel wire hole 110 to be positioned and supported on the side of the connection block 100. It consists of S6.

The connection block 100 and the connection and the right support block 200 are alternately positioned on the foundation 1 to be in a straight line, and then the steel wire 50 is inserted into and fixed to each of the lateral wire holes 110 to the right. The body part 700 is formed, and the connection block 100 and the connection and left support block 600 are alternately positioned on the base 1 which is the opposite point of the right body part 700 so as to be in a straight line. After the steel wire 50 is inserted into and fixed to each of the lateral steel wire hole 110 to form a left body portion 800, the support portion of the connection and the right support block 200 and the connection and left support block 600 ( The first, second, and third cross blocks 300, 400, and 500 are connected to the 210, 610, and then the steel wire 50 is inserted into and fixed to the horizontal steel wire holes 120 to form the cross body portion 900. The cross body 900 is reduced or enlarged according to the width of the box 5, and the width of the cross body 900 is reduced by increasing or decreasing the number of the first, second, and third cross blocks 300, 400, and 500. To decide.

The present invention as described above is to reduce the construction cost of the bridge construction and to be able to recycle the production body, the connection block 100 and the connection and the right support block 200, the first cross-block 300 in a separate site ), The second cross block 400, the third cross block 500, the connecting and left support block 600, etc. are produced through concrete and reinforcing bars and connected to the foundation (1) of the bridge construction site ( 100 and the connection and the right support block 200, the first cross block 300, the second cross block 400, the third cross block 500, the connection and left support block 600 and the steel wire 50 By simply setting it is to form the shop body (3) conveniently.

Each structure formed as described above is transported to the bridge construction site and disposed on the foundation (1), and the connecting block (100) and the connecting and right support block (200) alternately on the foundation (1). After a certain number of positions to be in a straight line of a predetermined length, the steel wire 50 is inserted into and fixed to each lateral steel wire hole 110 to form a right body portion 700, and the opposite point of the right body portion 700 After placing a predetermined number of connecting blocks 100 and connecting and left support blocks 600 alternately on the phosphorus base 1 so as to be in a straight line of a predetermined length, the steel wires 50 to the respective lateral liner holes 110 are formed. The left body portion 800 is formed by inserting and fixing the first and second cross blocks 300, 400, and 500 to the support portions 210 and 610 of the connecting and right support block 200 and the connecting and left support block 600. After the connection, the steel wire 50 is inserted into and fixed to each of the horizontal steel wire holes 120 to cross the body 900. To form. When the connection and the right support block 200 and the connection and the left support block 600 and the first, second and third cross blocks (300, 400, 500) are connected and supported using the steel wire (50) and the right body portion 700 and The left body portion 800 is present in a state of maintaining a predetermined shape, the upper body 700 formed through the right body portion 700, the left body portion 800 and the cross body portion 300, 400, 500 to the upper side The bridge forming formwork system is installed, and the box 5 is formed through the bridge forming formwork system, and the box 5 is pushed so that the box 5 is installed on the bridge 7.

When the construction of the bridge is completed by pushing the box 5, the workshop body 3 is dismantled, and the right body part 700, the left body part 800, and the cross body part of the shop body 3 are disassembled. 900 is to be dismantled by separating each steel wire (50). After separating the steel wire 50, the connection block 100 and the connection and the right support block 200, the first cross block 300, the second cross block 400, the third existing on the base 1 The cross block 500, the connection and the left support block 600, etc. are transported to a separate site, and after the transport simply to finish the upper part of the foundation (1), when the finishing is completed, the total bridge construction work It's done.

As described above, the present invention is to produce a connection block and a connection and the right and the right support block, the first cross block, the second cross block, the third cross block, the connection and the left support block through concrete and reinforcing bars, By transporting the structure to the required point and simply assembling work to complete the shop body will be able to reduce the bridge construction cost.

Then, the connection block and the connection and the right support block are alternately positioned, and the steel wire is inserted into and fixed to the lateral steel wire hole to form the right body part, and the connection block and the connection and left support block are formed on the base which is the opposite point of the right body part. After alternately positioned to form a left body part by inserting and fixing the steel wire in the lateral steel wire hole, the first, second and third cross blocks are connected to the supporting portions of the connecting and right support block and the connecting and left support block, and then the horizontal direction. By inserting and fixing the steel wire into the steel wire hole to form a cross body portion, the construction work of the shop is made quickly as the work of forming the shop body is completed.

In addition, the connection block assembled through the steel wire and the connection and the right support block, the first cross block, the second cross block, the third cross block, the connection and the left support block can be dismantled at the same time as the separation of the wire, so the final finishing work It is to be able to quickly dismantle and transport the shop body, and can be reused by transporting the separated structure to another work space to reduce the construction cost of the bridge.

Claims (4)

In constructing the work shop body 3 on the foundation 1 applied to an ILM PC box girder bridge or the like, the work shop body 3 is formed to be formed and has a plurality of lateral steel wire holes 110 on the side. Step (S1) to form a connection block 100 is formed, and the lateral liner hole 110 is formed to be located and supported on the side of the connection block 100 and the horizontal liner hole 120 A step of forming the connection and the right support block 200 is formed (S2), and the first horizontal lateral wire hole 120 is formed so as to be located and supported in the support portion 210 of the connection and the right support block 200 Forming a cross block 300 (S3), and forming a second cross block 400 in which a horizontal liner hole 120 is formed to be positioned and supported at a side of the first cross block 300. S4 and the horizontal steel wire hole 120 is formed to be positioned and supported at the side of the second cross block 400. Forming a third cross block 500 (S5), and the horizontal cross-wire line 120 is formed so that the third cross block 500 is positioned in the support portion 610 and the connection block 100 Method of manufacturing a factory for the ILM fish box girder bridge, characterized in that consisting of a step (S6) to form a connection and left support block 600 is formed in the lateral steel wire hole 110 to be located on the side of the support . The method of claim 1, After alternately positioning the connection block 100 and the connection and the right support block 100 on the base 1, the steel wire 50 is inserted into and fixed to the lateral steel wire hole 110 to fix the right body part 700. And alternately position the connection block 100 and the connection and left support block 600 on the base 1, which is the opposite point of the right body part 700, and then use the steel wire in the lateral liner hole 110. 50 is inserted into and fixed to form the left body part 800, and the first, second and third cross blocks 300, 400, and 500 to the support parts 210 and 610 of the connection and the right support block 200 and the connection and the left support block 600. ) After connecting the steel wire 50 into the horizontal steel wire hole 120 fixed to form a cross-body portion 900, characterized in that the manufacturing method of the ILM fish box girder bridge manufacturing site. In constructing the work shop body 3 on the foundation 1 applied to an ILM PC box girder bridge or the like, the work shop body 3 is formed to be formed and has a plurality of lateral steel wire holes 110 on the side. Connection block 100 is formed, and the lateral liner hole 110 is formed to be located and supported on the side of the connection block 100, and the connection and the right support block is formed in the horizontal liner hole 120 And a first cross block 300 having a horizontal steel wire hole 120 formed therein so as to be positioned and supported at the support portion 210 of the connection and right support block 200, and the first cross block 300. The second cross block 400 having a horizontal liner hole 120 is formed to be supported on the side of the side), and the horizontal liner hole 120 is positioned to be supported at the side of the second cross block 400. The third cross block 500 and the third cross block 500 are formed on the support part 610 to support the third cross block 500. IEL, characterized in that the horizontal liner hole 120 is formed and the connection and the left support block 600 is formed in the lateral liner hole 110 is formed to be located and supported on the side of the connection block 100 A manufactured product of M fishbox girder bridge. The method of claim 3, The right body part 700 and the right body part formed by alternately placing the connection block 100 and the connection and the right support block 200 by inserting and fixing the steel wire 50 into the lateral steel wire hole 110. Formed by inserting and fixing the steel wire 50 into the lateral steel wire hole 110 by alternately positioning the connecting block 100 and the connecting and left support block 600 on the base 1, which is the opposite point of the 700; After connecting the first, second and third cross blocks 300, 400 and 500 to the left body part 800 and the support parts 210 and 610 of the connection and the right support block 200 and the connection and the left support block 600, the horizontal steel wire The manufacture of the ILM fish box girder bridge, characterized in that consisting of a cross body portion 900 is formed by inserting and fixing the steel wire 50 into the hole 120.