KR20180037756A - Constructing method for arch bridge using spliced precast segment - Google Patents

Abstract

The present invention relates to a construction method for an arch bridge using a precast segment. According to the present invention, the construction method for an arch bridge using the precast segment includes: a first step of separating a pair of main segment blocks including first and second segments at intervals in a bridge direction; a second step of connecting the main segment blocks by a connection segment; a third step of completing a first row arch bridge by separating the first and second segments of the outside, which is not connected to the connection segment, from the main segment block; a fourth step and a fifth step of locating a foundation and a first auxiliary segment block and a second auxiliary segment block, including the first segment and the second segment, in a second row parallel with a first row; a sixth step of individually binding the first segment and the second segment of the first row and the second row by a binding unit; a seventh step of completing a second row arch bridge by connecting the first segment and the second segment positioned in the second row by using the connection segment; and an eighth step of completing the arch bridge of the multiple rows by repeating the fourth step to the seventh step. According to the present invention, the construction method for an arch bridge using the precast segment can fundamentally prevent danger of falling by using the main segment block which does not have danger of the falling by having the first segment and the second segment of a semi-arch shape, which are symmetric to each other. Specifically, the construction method for an arch bridge using the precast segment prevents falling by using the segment to be used as a temporary structure, and, therefore, the temporary structure such as a temporary bent and a bearing pile for supporting the segment does not need to be installed.

Description

TECHNICAL FIELD The present invention relates to a method of constructing an arch bridge using segmented precast segments,

[0001] The present invention relates to a method of constructing an arch bridge, and more particularly, to a method of constructing a bridge precast segment, which is constructed by assembling, in series and in parallel, pre-cast structures divided into short- And a method of constructing an arch bridge using the same.

In general, arch bridge is a bridge composed of arches or reinforced arches as a main structure. Compressive force, shear force and bending moment are concentrated on arch ribs structurally, but a considerable part of moments can be converted into compressive force, which is mechanically advantageous.

As for the method of constructing the above-mentioned arch bridge, there is a method of placing concrete directly on site and a method of assembling a precast member in advance and assembling in the field.

In this method, concrete is poured in the field, and after a certain time has elapsed after a part of concrete is poured, it is possible to manufacture the next part, so that the construction time is long. In addition, in order to manufacture an arc-shaped arch, it is necessary to install a temporary support structure such as a mold and a shore corresponding to the curve of the arch, so that it takes time and cost to install the temporary support structure.

As an alternative to this, an arch bridge construction method in which on-site assembly is performed by using a precast member has been proposed. Korean Patent Registration No. 10-0941066 is disclosed as a related art.

Here, the main body is formed to have a mounting portion at both ends and a vertical cross-section having a rectangular shape and having an overall arch shape; A sheath embedded in the body to allow PC steel to be inserted therein; A PC steel member inserted into the shoe so as to allow introduction of a prestress into the main body itself; There has been proposed an open-ended concrete arch bridge having a prestress precast type arch rib which is composed of a tension fixture for fixing the both ends of the PC steel to which the prestress is applied to the bottom of the mount portion of the main body.

However, since the above-mentioned concrete arch bridge is constructed by laying the arch ribs on the ground, assembling the arch ribs by hoisting them up with equipment such as a crane, and so on, it takes time and cost for hoisting.

Conventionally, a temporary structure such as a support pile or a temporary vent is installed and the temporary structure is used to prevent the transition of the arch segment. However, due to installation of the temporary structure and subsequent removal of the temporary structure, (Construction period) is prolonged.

It is an object of the present invention to provide a method of constructing an arch bridge using a segment precast segment which can omit a temporary support structure and simplify construction.

A method of constructing an arch bridge using segmented precast segments in accordance with one aspect of the present invention includes the steps of providing a foundation with a foundation and a first and a second segment having a half arch shape with one end fixed to the foundation and symmetrical to each other A first step of disposing the main segment blocks of the pair apart from each other along the bridge direction; A second step of interconnecting the main segment blocks by connecting segments to form an arch shape; A third step of separating the first and second segments located outwardly from the main segment block, respectively, without being coupled with the connection segment, thereby completing a first thermal arch bridge; A fourth step of preparing a first auxiliary segment block having the base and the first segment and a second auxiliary segment block having the base and the second segment; Placing the first and second sub-segment blocks in a second row juxtaposed with the first column, the first and second segments of the first and second sub-segment blocks being located outside the first column arch bridge, respectively A fifth step of positioning the first and second segments corresponding to the first and second segments, respectively; A sixth step of binding the first and second segments located outside the arch bridge of the first column and the first and second segments of the second column, respectively, using binding means; A seventh step of connecting the first and second segments located in the second column to each other using the connection segment to complete a second thermal arch bridge; And repeating the fourth to seventh steps to complete a plurality of columns of arch bridges.

Further, according to another aspect of the present invention, there is provided a semiconductor device comprising: a base; a plurality of main segment blocks each having a base and a first and a second segment of semi-arch shape having one end fixed to the base and being symmetrical to each other, A first step of placing; A second step of interconnecting the main segment blocks by a plurality of connection segments to form an arch shape; A third step of separating the first and second segments located outwardly from the main segment block, respectively, without being coupled with the connection segment, thereby completing a first thermal arch bridge; A fourth step of preparing a first auxiliary segment block having the base and the first segment and a second auxiliary segment block having the base and the second segment; Placing the first and second sub-segment blocks in a second row juxtaposed with the first column, the first and second segments of the first and second sub-segment blocks being located outside the first column arch bridge, respectively A fifth step of positioning the first and second segments corresponding to the first and second segments, respectively; A sixth step of binding the first and second segments located outside the arch bridge of the first column and the first and second segments of the second column, respectively, using binding means; A seventh step of disposing at least one main segment block between the first and second segments of the second column apart from each other along a bridge direction; An eighth step of connecting the main segment blocks and the first and second segments located in the second column by the plurality of connection segments and between the main segment blocks to complete a second column arch bridge; And a ninth step of completing a plurality of columns of arch bridges by repeating the fourth to eighth steps. The present invention also provides a method of constructing an arch bridge using segment precast segments.

In the case of the present invention, the first and second segments and the base may be detachably fixed to each other. In the fourth step, the first and second segments of the first and second sub segment blocks may use the first and second segments separated from the main segment block in the third step.

It is also preferable that the first and second segments and the connection segment complementarily couple with each other.

The binding means may further comprise a coupling means having one end threadedly engaged with the sides of the first and second segments of the first row or the last column and the other end projecting toward the side of the first and second segments located in adjacent rows, A plurality of first binding bolts formed on the side of the first and second segments and screwed into the side portions of the first and second segments and projecting toward the side faces of the first and second segments, 2 coupling bolts and a plurality of couplings in which a female screw is formed to couple with the male screw between the adjacent first binding bolts and the second binding bolts or between the adjacent second binding bolts.

According to another aspect of the present invention, there is provided a method of manufacturing a semiconductor device, comprising: a step of forming a plurality of main segment blocks each having a base and a first and a second segment of semi-arch shape, A first step of disposing them apart from each other; A second step of preparing a first auxiliary segment block having the base and the first segment and a second auxiliary segment block having the base and the second segment; A third step of disposing the first and second auxiliary segment blocks apart from each other on both sides of the main segment block spaced apart from each other; A fourth step of interconnecting the main segment blocks and the first and second sub segment blocks and the main segment block by a plurality of connection segments to complete an arch bridge of a first column; Placing the first and second sub-segment blocks in a second row side by side with the first column, the first and second segments of the first and second sub-segment blocks being located outside the first columnar bridge, 1 and the second segment, respectively; A sixth step of binding the first and second segments located outside the first thermal arch bridges to the first and second segments of the second column, respectively, using binding means; A seventh step of disposing a plurality of main segment blocks spaced apart from each other along a bridge direction between the first and second segments of the second row; An eighth step of connecting the main segment blocks and the first and second segments located in the second column and the main segment blocks by a plurality of connection segments to complete an arch bridge of the second column; And a ninth step of repeating the fifth to eighth steps to complete a plurality of columns of arch bridges. The present invention also provides a method of constructing an arch bridge using segment precast segments.

According to the method of constructing an arch bridge using the segmented precast segment according to the present invention, since the main segment blocks have the first and second segments having half arches symmetrical to each other, the risk of the conduction can be fundamentally prevented.

In particular, since the segment to be used is used as a temporary structure to prevent conduction, it is not necessary to provide a temporary structure such as a temporary vent or a supporting pile for supporting the segment.

In addition, a plurality of main segment blocks may be spaced apart and then mounted by a method in which the connecting segments are seated, so that the structure may be assembled in an upright state, thereby omitting a separate lifting operation.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a flowchart showing a method of constructing a short-span arch bridge according to a first embodiment of the present invention;
FIGS. 2A to 2F are views showing a sequential construction method of a short span arch bridge according to the first embodiment shown in FIG. 1,
Fig. 3 is an exploded perspective view showing the binding means shown in Fig. 2d,
FIG. 4 is a flowchart showing a construction method of a long span arch bridge according to a second embodiment of the present invention,
FIGS. 5A to 5F are views showing a sequential construction method of a long span arch bridge according to a second embodiment shown in FIG. 4,
6 is a flowchart illustrating a method of constructing a long span arch bridge according to a third embodiment of the present invention.
FIGS. 7A to 7F are views showing the construction method of the long span arch bridge according to the third embodiment shown in FIG. 6 in order.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately The present invention should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, at the time of the present application, It should be understood that variations can be made.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a flowchart showing a method of constructing a short span arch bridge according to a first embodiment of the present invention. FIGS. 2A to 2F show a method of constructing a short span arch bridge according to the first embodiment shown in FIG. Fig. 3 is an exploded perspective view showing the binding means shown in Fig. 2d. Fig.

As shown, the short span arch bridge 10 according to the first embodiment of the present invention is completed in the form of an arch by connecting a plurality of segmented pre-cast segments in series and in parallel. Hereinafter, the construction method will be described in detail.

First, a pair of main segment blocks 100 are prepared as shown in FIG. The main segment block 100 includes a base 110 and first and second segments 121 and 121a and 121b 122 (122, 121a and 121b) having one ends fixed to the base 110 and symmetrical to each other. 122a, 122b. Since the main segment block 100 is bilaterally symmetrical, it is possible to stably maintain the posture without any risk of conduction even if there is no support of another temporary structure. Then, the prepared main segment blocks 100 are arranged apart from each other along the bridge direction (S110).

Next, as shown in FIG. 2B, the connecting segment 200 connects the main segment blocks 100 to form an arch shape (S120). Here, it is preferable that the first and second segments 121 and 122 of the main segment block 100 and the connecting segment 200 complementarily couple with each other. That is, as shown in the drawing, a groove 123 is formed at an end of the first and second segments 121 and 122, and protrusions 201 are formed at both ends of the connection segment 200 corresponding to the groove 123, So that they can be male and female. Also, the male and female coupling states of the first and second segments 121 and 122 and the connecting segment 200 can be fixed by using the separately provided bolts 300. However, it is to be understood that various methods of male and female coupling of the first and second segments 121 and 122 and the connecting segment 200 are possible and that the male and female coupling methods shown are within the scope of the present invention Should not be construed as limiting. Meanwhile, the bolts 300 may be made of a thin steel plate, and the inside thereof may be filled with concrete, but the present invention is not limited thereto.

Next, as shown in FIG. 2C, the first and second segments 121a and 122b, which are not coupled with the connection segment 200 and are respectively located outside, are separated from the main segment block 100, The arch bridge is completed (S130). For this purpose, the first and second segments 121 and 122 and the base 110 are preferably detachably fixed to each other. The separated first and second segments 121a and 122b may be used in the subsequent second column L2. Accordingly, since the first and second segments 121a and 122b to be used in the future are used as a temporary structure to prevent the main segment block 100 from being conducted, a temporary structure such as a temporary vent or a support pile for supporting the segment, .

Then, a first auxiliary segment block 101 and a second auxiliary segment block 102 as shown in FIG. 2D are prepared (S140). The first auxiliary segment block 101 includes the base 110 and the first segment 121. The second auxiliary segment block 102 includes the base 110 and the second segment 122. The first and second segments 121 and 122 of the first and second auxiliary segment blocks 101 and 102 may be separately prepared. However, as described above, It is more preferable to use the first and second segments 121a and 122b separated from each other.

When the first and second auxiliary segment blocks 101 and 102 are prepared as described above, the prepared first and second auxiliary segment blocks 101 and 102 are arranged in parallel with the first column L1, And placed in the column L2. At this time, the first and second segments 121 and 121a (122 and 122b) of the first and second sub segment blocks 101 and 102 are positioned on the outside of the first column (L1) 1 and the second segments 121b and 122a, respectively (S150).

The first and second segments 121b and 122a located outside the arch bridge of the first column L1 and the first and second segments 121b and 122b of the second column And binds the second segment 121 (121a) 122 (122b) (S160). As shown in FIG. 3, the binding unit 400 may include a plurality of first binding bolts 411, a second binding bolt 412, and a coupling 420, respectively.

The first binding bolt 411 is for binding the first row L1 or the last row Ln and the first and second segments 121 and 122 of the adjacent rows L2 and Ln- . To this end, the first binding bolt 411 is screwed on one side of the first and second segments 121 and 122 of the first row L11 or the last row Ln, And protrudes toward the side surfaces of the first and second segments 121 and 122 located in the rows (L2 and Ln-1) to which the male thread 411a is formed.

The second binding bolts 412 are for binding between the adjacent first and second segments 121 and 122 except for the first row L1 and the last row Ln. For this, the second binding bolt 412 is threaded through the sides of the first and second segments 121, 122. And both ends thereof protrude toward the side of the first and second segments 121 and 122 located in adjacent columns. Here, a male screw 412a is also formed at a protruding portion.

The coupling 420 is interposed between the adjacent first binding bolts 411 and the second binding bolts 412 or between adjacent second binding bolts 412. The coupling 420 is screwed with the male screws 411a and 412a of the first binding bolt 411 and the second binding bolt 412 to bind them.

Next, the first and second segments 121 and 121a (122 and 122b) located in the second row L2 are connected to each other using the connection segment 200 as shown in FIG. 2E Thereby completing the second column (L2) arch bridge (S170).

Finally, as shown in FIG. 2F, the steps S140, S150, S160, and S170 are repeated to complete the short span arch bridge 10 of the desired plural columns Ln (S180).

Hereinafter, a method of constructing an elongated arch bridge according to a second embodiment of the present invention will be described in detail.

FIG. 4 is a flowchart illustrating a method of constructing a long span arch bridge according to a second embodiment of the present invention. FIGS. 5A through 5F are views illustrating a method of constructing a long span arch bridge according to a second embodiment shown in FIG. These are the drawings shown below. Here, the same reference numerals as those shown in Figs. 1 to 3 denote the same components having the same constitution and effects, and repetitive description will be omitted.

As shown, the long span arch bridge 20 according to the second embodiment of the present invention is completed in the form of an arch by combining a plurality of segmented pre-cast segments in series and in parallel. Hereinafter, the construction method will be described in detail.

First, as shown in FIG. 5A, a plurality of main segment blocks 100 are prepared and spaced from each other along a bridge direction (S210).

Next, as shown in FIG. 5B, the main segment blocks 100 are connected by a plurality of connecting segments 200 to form an arch shape (S220). Here, the first and second segments 121 and 122 of the main segment block 100 and the connecting segment 200 are preferably complementarily male and female.

Next, as shown in FIG. 5C, the first and second segments 121a and 122b, which are not coupled with the connection segment 200 and are respectively located outside, are separated from the main segment block 100, An arch bridge is completed (S230). Here, similarly to the first embodiment, the separated first and second segments 121a and 122b can be used in the subsequent second column L22. Accordingly, since the first and second segments 121a and 122b to be used in the future are used as a temporary structure to prevent the main segment block 100 from being conducted, a temporary structure such as a temporary vent or a support pile for supporting the segment, .

Then, a first sub-segment block 101 and a second sub-segment block 102 as shown in FIG. 5D are prepared (S240). Here, the first and second segments 121 and 122 of the first and second sub segment blocks 101 and 102 may be separately prepared, but the main segment block 100, as described above, It is more preferable to use the first and second segments 121a and 122b separated from each other.

When the first and second auxiliary segment blocks 101 and 102 are prepared as described above, the prepared first and second auxiliary segment blocks 101 and 102 are arranged in parallel with the first column L11, And placed in the column L22. At this time, the first and second segments 121 and 121a (122 and 122b) of the first and second sub segment blocks 101 and 102 are positioned on the outside of the first column (L11) 1 and the second segments 121b and 122a, respectively (S250).

The first and second segments 121b and 122a located outside the arch bridge of the first column L11 and the first and second segments 121b and 122b of the second column L22 are then coupled using the binding means 400, The second segment 121 (121a) 122 (122b) is bound (S260). Since the binding method by the binding means 400 has been described in the first embodiment, it will be omitted here.

At least one main segment block 200 is disposed between the first and second segments 121 and 121a 122 and 122b of the second column L22 so as to be spaced apart from each other along the bridge direction ).

Next, as shown in FIG. 5E, the first and second auxiliary segment blocks 101 and 102 and the main segment block 102 located in the second row L22 100 and the main segment blocks 100 are connected to complete the second column L22 arch bridge (S280).

Finally, as shown in FIG. 5F, the above-described steps S240, S250, S260, S270 and S280 are repeated to complete the desired long-span arch bridge 20 of a plurality of columns Lnn (S280).

Hereinafter, a method of constructing the long hiragana arch bridge according to the third embodiment of the present invention will be described in detail.

FIG. 6 is a flowchart illustrating a method of constructing a long span arch bridge according to a third embodiment of the present invention. FIGS. 7A to 7F show a method of constructing a long span arch bridge according to a third embodiment shown in FIG. These are the drawings shown below. Here, the same reference numerals as those shown in Figs. 1 to 5F are the same members having the same constitution and effect, and repetitive description will be omitted.

As shown, the long span arch bridge 30 according to the third embodiment of the present invention is completed in the form of an arch by combining a plurality of segmented pre-cast segments in series and in parallel. Hereinafter, the construction method will be described in detail.

First, as shown in FIG. 7A, a plurality of main segment blocks 100 are prepared and spaced from each other along a bridge direction (S310).

Then, the first auxiliary segment block 101, the second auxiliary base 110, and the first segments 121 and 121c are prepared as a segment block 102 (S320).

Next, the first and second set of the first and second set of segment blocks 101 and 102 are disposed on both outer sides of the main segment block 100 at step S330.

Next, as shown in FIG. 7B, the first and second auxiliary segment blocks 101 and 102 and the main segment block 100 and the main segment blocks 100 To complete the arch bridge L111 of the first row as shown in FIG. 7C (S340). Here, it is preferable that the first and second segments 121 and 122 and the connecting segment 200 complementarily couple with each other.

Next, as shown in FIG. 7D, the first and second auxiliary segment blocks 101 and 102 are positioned in a second row L222 parallel to the first row L111 (S350). The first and second segments 121c and 122c of the first and second auxiliary segment blocks 101 and 102 are connected to the first and second segments L111 and L111, (121c) and (122c), respectively.

Next, the first and second segments 121 and 121c (122 and 122c) located outside the first column (L111) arch bridge and the second column (L222) The first and second segments 121 and 121c (122 and 122c) are bound to each other (S360). Since the binding method by the binding means 400 has been described in the first embodiment, it will be omitted here.

7E, a plurality of main segment blocks 200 are disposed between the first and second segments 121 and 121c (122 and 122c) of the second column L222, (S370).

Next, a plurality of connection segments 200 are used to connect the first and second sub segment blocks 101 and 102 located in the second column L222 and the main segment block 100, The main segment blocks 100 are connected to each other to complete the second column L222 arch bridge (S380).

Finally, as shown in FIG. 7F, the above-described steps S350, S360, S270 and S280 are repeated to complete the desired long-span arch bridge 20 of a plurality of columns Lnn (S280).

As described above, according to the construction method of the arch bridges 10, 20, and 30 using the segmented precast segments according to the first, second, and third embodiments of the present invention, the main segment blocks 100 are symmetrical Arcuate first and second segments 121 and 122, it is possible to fundamentally prevent the risk of conduction.

Particularly, since the segments 121a and 122b to be used in the first and second embodiments are used as a temporary structure to prevent conduction, a temporary structure such as a temporary vent or a supporting pile for supporting the segments 121b and 122a There is no need to install.

Also, by arranging the plurality of main segment blocks 100 apart from each other and then mounting the connecting segments 200, the structure can be assembled in an upright state, and a separate lifting operation can be omitted.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: Single span arch bridge 20,30: Long span arch bridge
100: main segment block 101, 102: auxiliary segment block
110: bases 121 (121a to 121c): first segment
122 (122a to 122c): second segment 123: groove
200: connection segment 201: protrusion
300: bolt 400: binding means
411: first binding bolt 412: second binding bolt

Claims (9)

A first step of disposing a pair of main segment blocks spaced apart from each other along a bridge direction, the pair of main segment blocks including first and second segments of semi-arch shape having one end fixed to the base and being symmetrical to each other;
A second step of interconnecting the main segment blocks by connecting segments to form an arch shape;
A third step of separating the first and second segments located outwardly from the main segment block, respectively, without being coupled with the connection segment, thereby completing a first thermal arch bridge;
A fourth step of preparing a first auxiliary segment block having the base and the first segment and a second auxiliary segment block having the base and the second segment;
Placing the first and second sub-segment blocks in a second row juxtaposed with the first column, the first and second segments of the first and second sub-segment blocks being located outside the first column arch bridge, respectively A fifth step of positioning the first and second segments corresponding to the first and second segments, respectively;
A sixth step of binding the first and second segments located outside the arch bridge of the first column and the first and second segments of the second column, respectively, using binding means;
A seventh step of connecting the first and second segments located in the second column to each other using the connection segment to complete a second thermal arch bridge; And
And repeating the fourth through seventh steps to complete a plurality of columns of arch bridges. A first step of disposing a plurality of main segment blocks spaced apart from each other along a bridge direction, the plurality of main segment blocks each having first and second segments each of which is fixed on the base and symmetrical to each other;
A second step of interconnecting the main segment blocks by a plurality of connection segments to form an arch shape;
A third step of separating the first and second segments located outwardly from the main segment block, respectively, without being coupled with the connection segment, thereby completing a first thermal arch bridge;
A fourth step of preparing a first auxiliary segment block having the base and the first segment and a second auxiliary segment block having the base and the second segment;
Placing the first and second sub-segment blocks in a second row juxtaposed with the first column, the first and second segments of the first and second sub-segment blocks being located outside the first column arch bridge, respectively A fifth step of positioning the first and second segments corresponding to the first and second segments, respectively;
A sixth step of binding the first and second segments located outside the arch bridge of the first column and the first and second segments of the second column, respectively, using binding means;
A seventh step of disposing at least one main segment block between the first and second segments of the second column apart from each other along a bridge direction;
An eighth step of interconnecting the first and second sub segment blocks and the main segment blocks and the main segment blocks located in the second column by a plurality of connection segments to complete a second thermal arch bridge; And
And repeating the fourth through eighth steps to complete a plurality of columns of arch bridges. The method according to claim 1 or 2,
Wherein the first and second segments and the foundation are detachably fixedly coupled to the first and second segments, respectively. The method of claim 3,
In the fourth step, the first and second segments of the first and second sub-
Wherein in the third step, the first and second segments separated from the main segment block are used. The method according to claim 1 or 2,
Wherein the first and second segments and the connecting segments complementarily couple with each other. ≪ Desc / Clms Page number 17 > The method according to claim 1 or 2,
The binding means
And a plurality of first bindings, one end of which is screwed to the side of the first and second segments of the first row or the last column and the other end of which protrudes toward the side of the first and second segments located in the adjacent row, The bolts,
A plurality of second binding bolts threaded through the side portions of the first and second segments and having both ends protruding toward the side of the first and second segments located in adjacent rows and having a male thread,
A method of constructing an arch bridge using a segmented precast segment comprising a plurality of couplings formed between adjacent first binding bolts and second binding bolts or between adjacent second binding bolts for engagement with male threads . A first step of disposing a plurality of main segment blocks spaced apart from each other along a bridge direction, the plurality of main segment blocks each having first and second segments each of which is fixed on the base and symmetrical to each other;
A second step of preparing a first auxiliary segment block having the base and the first segment and a second auxiliary segment block having the base and the second segment;
A third step of disposing the first and second auxiliary segment blocks apart from each other on both sides of the main segment block spaced apart from each other;
A fourth step of interconnecting the first and second sub segment blocks and the main segment blocks and the main segment blocks by a plurality of connection segments to complete an arch bridge of a first row;
Placing the first and second sub-segment blocks in a second row side by side with the first column, the first and second segments of the first and second sub-segment blocks being located outside the first columnar bridge, 1 and the second segment, respectively;
A sixth step of binding the first and second segments located outside the first thermal arch bridges to the first and second segments of the second column, respectively, using binding means;
A seventh step of disposing a plurality of main segment blocks spaced apart from each other along a bridge direction between the first and second segments of the second row;
An eighth step of interconnecting the first and second sub segment blocks and the main segment blocks and the main segment blocks located in the second column by a plurality of connection segments to complete an arch bridge of a second column; And
And repeating the fifth to eighth steps to complete a plurality of columns of arch bridges. The method of claim 7,
Wherein the first and second segments and the connecting segments complementarily couple with each other. ≪ Desc / Clms Page number 17 > The method of claim 7,
The binding means
And a plurality of first bindings, one end of which is screwed to the side of the first and second segments of the first row or the last column and the other end of which protrudes toward the side of the first and second segments located in the adjacent row, The bolts,
A plurality of second binding bolts threaded through the side portions of the first and second segments and having both ends protruding toward the side of the first and second segments located in adjacent rows and having a male thread,
A method of constructing an arch bridge using a segmented precast segment comprising a plurality of couplings formed between adjacent first binding bolts and second binding bolts or between adjacent second binding bolts for engagement with male threads .

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