KR102181805B1 - Precast concrete abutment/pier block unit for jointless bridge and Construction method of jointless bridge using thereof - Google Patents

Abstract

The present invention relates to a vertical wall-type block assembly unit of a jointless bridge and an assembly construction method of a jointless bridge using the same and, more specifically, to a vertical wall-type block assembly unit of a jointless bridge and an assembly construction method of a jointless bridge using the same which construct a vertical wall structure of an abutment and a bridge post with unit block assembly units in a jointless bridge such as an integral abutment bridge or a semi-integral abutment bridge to facilitate construction and on-site assembly and easily integrate upper and lower portions of a plurality of adjacent block assembly units by concrete deposited at a site. According to a proper embodiment of the present invention, the vertical wall-type block assembly unit of a jointless bridge comprises: a main body unit having a cuboid shape of a prescribed size and having a plurality of vertical penetration holes formed by vertically penetrating the same; upper sidewall units wherein portions thereof from both width-direction ends of the upper surface of the main body unit to a prescribed distance to the inside in the widthwise direction protrude upwards to be integrally formed; lower sidewall units wherein portions thereof from both widthwise-direction ends of the lower surface of the main body unit to a prescribed distance to the inside in the widthwise direction protrude downwards to be integrally formed; an upper connection space unit formed between the upper sidewall units; and a lower connection space unit formed between the lower sidewall units.

Description

Vertical wall block assembly unit of jointless bridge and construction method of jointless bridge assembly using the same {Precast concrete abutment/pier block unit for jointless bridge and Construction method of jointless bridge using thereof}

The present invention relates to a vertical wall-type block assembly unit of a jointless bridge and a method of assembling a jointless bridge using the same, and more particularly, to a vertical wall of a bridge and a bridge in a jointless bridge such as an integrated abutment or a semi-integral bridge A vertical wall block assembly unit of a jointless bridge designed to facilitate construction and on-site assembly by configuring the structure as a unit block assembly unit, and to easily integrate the top and bottom of adjacent block assembly units with on-site concrete. It relates to a method of assembling a jointless bridge using this.

In joint bridges, in order to completely separate the expansion and contraction movement of the superstructure caused by seasonal temperature changes from the structural behavior of the substructure of the bridge, a mechanical expansion joint and a superstructure between the abutment chest wall and the upper deck of the bridge Bridge bearings are being installed in the building. Such a bridge without an expansion joint and a bridge support is collectively referred to as a jointless bridge, and in particular, from the viewpoint of having an integrated structure of the wall and foundation abutment and the upper structure constituting the lower abutment, the expansion joint and the bridge support It is classified as an integral abutment bridge excluding the ``Integral Abutment Bridge'' and a semi-integral abutment bridge from the viewpoint of having a separate structure by placing a bridge support between the wall and the foundation abutment.

Among the construction methods of such a jointless bridge, there is a method of making the vertical wall of a bridge or pier in advance in the form of a concrete block to facilitate construction at the site and to shorten the construction period, but a separate strand for connection between blocks Not only is the construction rather difficult due to the necessity of the lamp, but the weight of the block itself is increased, so it is still difficult to transport and use heavy equipment.

As the background technology of the present invention, there is Patent Registration No. 1216511 "Alternating construction method of integrated bridge bridge" (Patent Document 1). In the background technology, the step of performing an embankment operation at an alternate construction location; Driving the pile after pre-drilling at a certain depth at the upper end of the embankment, and filling the space between the pre-excavated part and the pile at a certain depth at the upper end of the embankment; Inserting a casing tube so that the upper end of the pile is exposed to a predetermined length in the pile protruding above the ground; Constructing a casing shift up to the height of the casing pipe; And it proposes the'alternating construction method of the integrated bridge bridge including the step of installing the rubber pad on the upper surface of the casing shift and then constructing the main shift.

However, the above background technology is difficult to construct because the vertical wall is not blocked, and even if it is constructed in the form of a block concept, it is difficult to install a separate strand and additional devices for integral connection between blocks. There is a problem.

Patent Registration No. 1216511 "Alternating construction method of integrated bridge bridge"

The present invention is to solve the above problems, and in a non-joint bridge such as an integrated or semi-integrated alternating bridge, the vertical wall structure of the abutment and pier is configured as a unit block assembly unit to facilitate construction and on-site assembly. At the same time, concrete is placed in the upper connection space and the lower connection space of adjacent block assembly units to form the upper and lower connection lateral rigid beams, making it easier to use the upper and lower parts of the plurality of block assembly units. The upper connection lateral stiffness beam and the lower connection lateral stiffness beam are continuously integrated in a lattice structure through the provided vertical through hole, so that no structural members or fastening means for connection between separate unit blocks are required. An object thereof is to provide an easy vertical wall block assembly unit of a jointless bridge and a jointless bridge assembly construction method using the same.

The present invention includes a body portion having a hexahedral shape having a predetermined size and passing through in a vertical direction to form a plurality of vertical through holes; An upper sidewall portion formed integrally by protruding upwardly from both ends of the upper surface of the body portion in the width direction to an inner side in the width direction, respectively; A lower sidewall portion formed integrally by protruding downwardly from both ends of the lower surface of the main body in the width direction inward at a predetermined distance, respectively; An upper connection space portion formed between the upper sidewall portions; It is intended to provide a vertical wall block assembly unit of a jointless bridge, characterized in that it comprises a lower connection space formed between the lower side wall portion.

In addition, it is intended to provide a vertical wall block assembly unit of a jointless bridge, characterized in that a plurality of vertical reinforcing bars are formed vertically through which both ends protrude to the upper and lower portions of the main body for a predetermined length, respectively.

In addition, it is intended to provide a vertical wall block assembly unit of a jointless bridge, characterized in that the vertical through-hole is configured by embedding a pipe or a corrugated pipe having a circular or square cross section.

In addition, the main body is to provide a vertical wall block assembly unit of a jointless bridge, characterized in that the central portion in the width direction is cut from both ends in the longitudinal direction to a predetermined distance in the longitudinal direction to form upper and lower connection spaces.

In addition, it is intended to provide a vertical wall block assembly unit of a jointless bridge, characterized in that the upper side wall portion of the rear portion of the pair of upper side wall portions is formed to protrude a certain length upward.

In addition, a coupling protrusion is formed on the rear surface of the body part, the upper side wall part, and the lower side wall part which are integrally formed so that one end or both ends in the longitudinal direction protrude to the rear for a certain length or the central part protrudes toward the rear for a certain length. We intend to provide a vertical wall block assembly unit for a jointless bridge.

In addition, it is intended to provide a vertical wall block assembly unit of a jointless bridge, characterized in that the longitudinal central portion of the rear surface of the main body protrudes toward the rear surface to form the rear projection.

In addition, it is intended to provide a vertical wall block assembly unit of a joint-free bridge, characterized in that two rows of vertical through holes are formed through vertically through the rear protrusion.

In addition, (a) performing the embankment and cutting work at the position where the shift is to be installed, and installing the pile by driving or embedding it; (b) installing a plurality of vertical wall block assembly units of the non-joint bridge adjacent to the top of the pile so that the upper end of the pile is located at a predetermined position in the height direction of the vertical wall block assembly unit of the non-joint bridge; (c) Horizontal roots are placed in the upper and lower connection spaces of the vertical wall block assembly unit of the jointless bridge, and concrete is placed on-site, so that the vertical wall block assembly units of a plurality of adjacent non-joint bridges are installed. The number of non-joint bridges, comprising: forming a foundation shift by forming an upper connecting transverse rigid beam in the upper connecting space portion and forming a lower connecting transverse rigid beam in the lower connecting space portion. It is intended to provide a method for assembling a jointless bridge using a block assembly unit of a straight wall.

In addition, after step (c), (d) after constructing a level seat for girder support on the upper surface of the vertical wall block unit 10 of a plurality of non-joint bridges, girder fabrication and installation and floor plates are placed. Constructing a superstructure and constructing a connection slab; It is intended to provide a method of assembling a jointless bridge using a vertical wall block assembly unit of a jointless bridge, characterized in that it is added.

In addition, (A) performing an embankment and cutting operation at a location where the shift is to be installed and installing an enlarged foundation; (B) installing a plurality of vertical wall block assembly units of the non-joint bridge adjacent to each other on the upper part of the expanded foundation; (C) Horizontal roots are placed in the upper and lower connection spaces of the vertical wall block assembly unit of the non-joint bridge, and concrete is placed on-site, so that the vertical wall block assembly units of a plurality of adjacent non-joint bridges are installed. The number of non-joint bridges, comprising: forming a foundation shift by forming an upper connecting transverse rigid beam in the upper connecting space portion and forming a lower connecting transverse rigid beam in the lower connecting space portion. It is intended to provide a method for assembling a jointless bridge using a block assembly unit of a straight wall.

In addition, in step (A), using a vertical wall block assembly unit of a jointless bridge, characterized in that the embankment and cutting work is performed at the position where the abutment is to be installed, and after installing the piles, an enlarged foundation is installed on the top of the piles. To provide a jointless bridge assembly construction method.

In addition, after step (C), (D) after constructing a level seat for girder support on the upper surface of the vertical wall block unit 10 of a plurality of non-joint bridges, girder fabrication and installation and floor plates are poured. Constructing a superstructure and constructing a connection slab; It is intended to provide a method of assembling a jointless bridge using a vertical wall block assembly unit of a jointless bridge, characterized in that it is added.

The vertical wall block assembly unit of the non-joint bridge of the present invention and the method of assembling the non-joint bridge using the same include the vertical wall structure of the abutment and the pier as a unit block assembly unit in a non-joint bridge such as an integrated or semi-integrated abutment bridge. Constructed to facilitate construction and on-site assembly, and at the same time, concrete is placed in the upper connection space and the lower connection space of adjacent block assembly units to form an upper connection lateral stiffness beam and a lower connection lateral stiffness beam. A structure for connection between separate unit blocks by allowing the upper and lower parts of the block assembly unit to be easily integrated and continuously integrated, while the upper and lower transverse rigid beams are continuously integrated in a grid structure through the provided vertical through holes. There is no need for a member or fastening means, so there is a very useful effect of easy construction.

The following drawings attached to the present specification illustrate preferred embodiments of the present invention, and serve to further understand the technical idea of the present invention together with the detailed description of the present invention, so the present invention is limited to the matters described in the accompanying drawings. It is limited and should not be interpreted.
1 is a perspective view of a vertical wall block assembly unit of a jointless bridge of the present invention.
2 is a cross-sectional view of FIG. 1.
3 to 6 are diagrams showing various embodiments of the vertical wall block assembly unit of the jointless bridge of the present invention.
7 is a view showing a perspective view and a cross-sectional view of an embodiment in which concrete is poured into the vertical wall block assembly unit of the jointless bridge of the present invention.
8 is a diagram showing a first embodiment of a method of assembling a jointless bridge using a vertical wall block assembly unit of a jointless bridge of the present invention in order of construction.
9 is a view showing a second embodiment of a jointless bridge assembly construction method using the vertical wall block assembly unit of the jointless bridge of the present invention in order of construction.

In the following, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the disclosed embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

Hereinafter, the technical configuration of the present invention will be described in detail according to a preferred embodiment.

1 is a perspective view of a vertical wall block assembly unit of a jointless bridge of the present invention, and FIG. 2 is a cross-sectional view of FIG. 1.

As shown in Fig. 1, the vertical wall block assembly unit 10 of the non-joint bridge of the present invention has a rectangular parallelepiped shape, with a central portion in the width direction passing through the upper and lower portions in the longitudinal direction, respectively, and the upper connection space portion 18 and The lower connection space portion 19 is formed so that the cross section has an H-shaped cross section.

That is, the body part 11 of a rectangular parallelepiped shape of a certain size, and a part of the upper surface of the body part 11 in the width direction from both ends of the body part 11 in the width direction to a certain distance protrudes upward to be integrated with the body part 11 A pair of upper side wall portions 12 formed of and from both ends in the width direction of the lower surface of the main body 11 protrude downward from both ends in the width direction to the inner side in the width direction to be integrated with the main body 11 It consists of a pair of lower sidewall portions 13, and an upper connection space portion 18 is formed in the space between the pair of upper sidewall portions 12, and the pair of lower sidewall portions 13 The lower connection space portion 19 is formed in the space between them.

A plurality of vertical through-holes 111 are formed vertically through the main body 11, the upper end of the vertical through-hole 111 communicates with the upper connection space 18, and the lower connection space part ( It is configured to communicate with 19), so that the upper and lower portions are continuous during concrete pouring, and at the same time, it can be used as a passage through which piles used in the foundation are inserted.

In addition, the vertical through hole 111 can be embedded into a buried pipe 116 made of various pipes, etc., which are produced from a common material having a separate circular or square cross-sectional shape. In particular, as in FIG. In the through-hole 111, a buried pipe 116 made of a corrugated pipe of a predetermined length is embedded and configured, so that the adhesion between the poured concrete and the body can be increased.

In this case, a plurality of vertical reinforcing bars 112 may be formed so that the main body 11 penetrates vertically so that both ends protrude to the upper connection space 18 and the lower connection space 19 for a predetermined length.

3 to 6 are diagrams showing various embodiments of the vertical wall block assembly unit of the jointless bridge of the present invention.

As shown in FIGS. 3A and 3B, one end or both ends of the body 11, the upper side wall part 12, and the lower side wall part 13 formed integrally protrude to the rear surface for a certain length or As in 3c, the coupling protrusion 14 is formed so that the central portion protrudes to the rear surface for a certain length, so that the vertical wall block assembly unit 10 of a plurality of jointless bridges is adjacent to each other and the coupling protrusion 14 ), the vertical wall block assembly units 10 of the adjacent non-joint bridge can be connected, but after filling the backfill material on the back, the coupling protrusion 14 itself acts as a frictional resistance key. Reinforcing elements such as vertical reinforcing ribs can maximize friction and prevent rotation.

In addition, as shown in Fig. 4, the central portion in the longitudinal direction of the rear surface of the main body 11 protrudes toward the rear surface to form the rear projection 113 so that the central portion is formed in a protruding shape, and after filling the back fill material, the friction resistance key By playing a role, it can prevent rotation with reinforcing elements such as vertical reinforcing ribs of bridge structures.

In this case, the upper side wall portion 12 and the lower side wall portion 13 may be formed outside the rear protrusion 113 in the portion where the rear protrusion 113 is formed, and in particular, the rear protrusion 113 penetrates vertically. Thus, two rows of vertical through-holes 111' are formed so that the upper connection space 18 and the lower connection space 19 communicate with each other, and arranged in addition to the arrangement of piles installed in the vertical through-hole 111 It facilitates the insertion of two-row piles, etc., and can improve the safety of bridge structures.

As shown in FIG. 5, the main body 11 is cut from both ends in the longitudinal direction to a certain distance inside the longitudinal direction to reduce the weight of the main body and at the same time form the upper and lower connection spaces 17 so that the upper and lower parts are connected. While allowing concrete to be poured into the space 17, it may be used as a passage into which a separate foundation pile is inserted.

In particular, as shown in FIG. 6, the upper side wall portion 12 of the rear portion of the pair of upper side wall portions 12 is formed to protrude more than the front protrusion 12 by a certain length to the top, so that the vertical wall is extended upward. You can do it.

7 is a view showing a perspective view and a cross-sectional view of an embodiment in which concrete is poured into the vertical wall block assembly unit of the jointless bridge of the present invention.

As shown in FIG. 7, the vertical wall block assembly unit 10 of the jointless bridge of the present invention is installed in a plurality of adjacent and concrete is placed in the upper connection space 18 and the lower connection space 19 on-site. At the bottom, an upper connection lateral rigid beam 20 is formed in the upper connection space 18 of the vertical wall block assembly units 10 of a plurality of adjacent non-joint bridges, and a lower connection is made to the lower connection space 19. The transverse rigid beam 30 is formed, so that the vertical wall block assembly units 10 of the plurality of jointless bridges are connected in a continuous and integrated way from the top and the bottom, and in particular, the upper connection is made by the vertical through hole 111. The rigid beam 20 and the lower connecting transverse rigid beam 30 are connected to each other in a grid structure.

8 is a diagram showing a first embodiment of a method of assembling a jointless bridge using a vertical wall block assembly unit of a jointless bridge of the present invention in order of construction.

As shown in Figure 8, it is possible to construct a vertical wall of an integral bridge by using the vertical wall block assembly unit 10 of the jointless bridge of the present invention.

To this end, first, as shown in FIG. 8A, the embankment and cutting work is performed at the position where the shift is to be installed, and the pile 40 is installed (a).

After pre-drilling to a certain depth at the top of the embankment cut, the pile 40 is driven or embedded and installed, and the pile head is reinforced. Malduk 40 may be installed in a row or, if necessary, in some multiple rows.

As the pile 40, it is preferable to use H-pile, but depending on the total length of the bridge, steel pipe piles, PHC piles, and ready-made concrete piles may be used. The construction method of the pile 40 may be arbitrarily selected and constructed from driving or known construction methods in this field in consideration of ground conditions, surrounding environment and economy.

Thereafter, as shown in FIG. 8B, a plurality of vertical wall-type block assembly units 10 of a non-joint bridge are disposed adjacent to the top of the pile 40 to be installed (b).

At this time, the upper end of the pile 40 is installed to be located at a predetermined position in the height direction of the vertical wall block assembly unit 10 of the non-joint bridge, and the upper end of the pile 40 is within the lower connection space 19 It may be located, it may be located inside the vertical through hole 111, it may be positioned in the interior of the upper connection space 18 through the vertical through hole 111.

Thereafter, as shown in FIGS. 7 and 8C, horizontally horizontally in the upper connection space 18 and the lower connection space 19 of the vertical wall block assembly unit 10 of a plurality of adjacent non-joint bridges. Each of the roots (16) is arranged, and concrete is placed in the upper connection space (18), the vertical through hole (111) and the lower connection space (19) to assemble a vertical wall block of a plurality of adjacent non-joint bridges. The upper connection lateral stiffness beam 20 is formed in the upper connection space 18 of the units 10, and the lower connection lateral stiffness beam 30 is formed in the lower connection space 19 so that the basic shift 60 ) To form (c).

After the installation of the foundation shift 60, which is a vertical wall, as shown in Fig. 8d, after the level seat surface for girder support is constructed on the upper surface of the vertical wall block unit 10 of a plurality of non-joint bridges, usually The PSC girders, I-type steel girders, box girders, U girders and other girders are manufactured and installed, and the upper structure 70 and the connection slab 80 such as floor plate placement are sequentially performed.

9 is a view showing a second embodiment of a jointless bridge assembly construction method using the vertical wall block assembly unit of the jointless bridge of the present invention in order of construction.

As shown in FIG. 9, it is possible to construct a vertical wall of a semi-integrated bridge by using the vertical wall block assembly unit 10 of the jointless bridge of the present invention.

To this end, first, as shown in FIG. 9A, the embankment and cutting work is performed at the position where the shift is to be installed, and the enlargement base 50 is installed (A).

If the expanded base 50 is not a direct base but a pile base, the expanded base 50 may be installed on the top of the pile 40 after the pile 40 is installed.

Thereafter, as shown in FIG. 9B, a plurality of vertical wall block assembly units 10 of the non-joint bridge are placed adjacent to each other on the upper part of the enlarged foundation 50 to be installed, and the enlarged base 50 and the vertical wall block assembly unit For the connection of (10), reinforcing bars can be used normally and embedded steel can be used if necessary (B).

At this time, the pile 40 may be embedded in the vertical through hole 111 if necessary.

Thereafter, as shown in Fig. 9c, horizontal roots (in the horizontal direction) in the upper connection space 18 and the lower connection space 19 of the vertical wall block assembly unit 10 of a plurality of adjacent non-joint bridges 16), and by placing concrete in the upper connection space 18, the vertical through hole 111 and the lower connection space 19 on-site, a vertical wall block assembly unit of a plurality of adjacent non-joint bridges ( 10) The upper connection lateral rigid beam 20 is formed in the upper connection space 18, and the lower connection lateral stiffness beam 30 is formed in the lower connection space 19 so that the foundation shift 60 is formed. To form (c).

After the installation of the foundation shift 60, which is a vertical wall, as shown in FIG. 9D, after the level seat surface for the girder support is constructed on the upper surface of the vertical wall block unit 10 of a plurality of non-joint bridges, usually The PSC girders, I-type steel girders, box girders, U girders, and other girders are manufactured and installed, and the upper structure 70 and the connection slab 80 are sequentially constructed.

In the above-described embodiment, the method of constructing the foundation shift, which is a vertical wall in the abutment, has been described in detail, but the vertical wall construction method of the pier can also be used to construct the vertical wall in the same manner as the above-described vertical wall construction method of the abutment. have.

The vertical wall block assembly unit of the non-joint bridge of the present invention and the method of assembling the non-joint bridge using the same include the vertical wall structure of an abutment and a bridge in a non-joint bridge such as an integral abutment or a semi-integral bridge. Constructed as an assembly unit to facilitate construction and on-site assembly, and at the same time, concrete is placed in the upper connection space and the lower connection space of adjacent block assembly units to form an upper connecting lateral rigid beam and a lower connecting transverse rigid beam. The upper and lower parts of the plurality of block assembly units are easily integrated and continuously integrated, while the upper and lower transverse rigid beams are continuously integrated in a lattice structure through the provided vertical through-holes to connect separate unit blocks. There is no need for a structural member or fastening means for the easy construction and has a very useful effect.

Until now, the present invention has been described in detail with reference to the presented embodiments, but those of ordinary skill in the art can make various modifications and modifications without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The present invention is not limited by such modifications and modifications, but is limited by the claims appended below.

10: Vertical wall block assembly unit of non-joint bridge
11: main body
111: vertical through hole
111': 2nd row vertical through hole
112: vertical reinforcement
113: rear protrusion
116: purchase building
12: upper side wall portion
13: lower side wall part
14: coupling protrusion
17: upper and lower connection space
18: upper connection space
19: lower connection space
20: Transverse rigid beam connected to the top
30: Lateral rigid beam connected to the bottom
40: pile
50: Expansion base
60: basic shift

Claims (13)

A body portion 11 having a hexahedral shape having a predetermined size and having a plurality of vertical through holes 111 formed therein;
Upper side wall portions 12 integrally formed by protruding portions from both ends in the width direction of the upper surface of the main body 11 to a predetermined distance inward in the width direction, respectively;
A lower side wall portion 13 integrally formed by protruding portions from both ends of the lower surface of the body 11 in the width direction inwardly in the width direction to a predetermined distance downward;
An upper connection space portion 18 formed between the upper sidewall portions 12;
A vertical wall block assembly unit of a jointless bridge, comprising: a lower connection space portion 19 formed between the lower side wall portions 13. The method according to claim 1,
A vertical wall-type block assembly unit of a jointless bridge, characterized in that a plurality of vertical reinforcing bars 112 vertically penetrated so that both ends protrude to the upper and lower portions of the main body 11 for a predetermined length, respectively. The method according to claim 1,
The vertical through-hole 111 is a vertical wall block assembly unit of a jointless bridge, characterized in that the embedded pipe 116 made of a pipe or a corrugated pipe having a circular or square cross section is embedded. The method according to claim 1,
The main body 11 is a vertical wall block assembly unit of a jointless bridge, characterized in that the central part in the width direction is cut from both ends in the longitudinal direction to a certain distance inside the longitudinal direction to form the upper and lower connection spaces 17. The method according to claim 1,
A vertical wall block assembly unit of a jointless bridge, characterized in that the upper side wall portion 12 of the rear portion of the pair of upper side wall portions 12 is formed to protrude a certain length upward. The method according to claim 1,
The body part 11, the upper side wall part 12, and the lower side wall part 13, which are integrally formed, have one or both ends in the longitudinal direction protruding to the rear for a certain length or the central part to protrude to the rear for a certain length. Vertical wall block assembly unit of a jointless bridge, characterized in that the protrusion (14) is formed. The method according to claim 1,
A vertical wall block assembly unit of a joint-free bridge, characterized in that the longitudinal central portion of the rear surface of the main body 11 protrudes toward the rear surface to form a rear projection 113. The method of claim 7,
A vertical wall block assembly unit of a jointless bridge, characterized in that a two-row vertical through hole 111 ′ is formed vertically through the rear protrusion 113. In the jointless bridge assembly construction method using the vertical wall block assembly unit of any one of claims 1 to 8,
(a) performing the embankment and cutting work at the position where the shift is to be installed, and driving or embedding and installing the piles 40;
(b) The vertical wall block assembly unit of the non-joint bridge on the top of the pile 40 so that the upper end of the pile 40 is located at a predetermined position in the height direction of the vertical wall block assembly unit 10 of the non-joint bridge. 10) adjoining and installing a plurality of;
(c) A horizontal root (16) is placed in the upper connection space (18) and the lower connection space (19) of the vertical wall block assembly unit (10) of a jointless bridge, and concrete is placed on-site. The upper connection lateral rigid beam 20 is formed in the upper connection space 18 of the vertical wall block assembly units 10 of the adjacent non-joint bridge, and the lower connection lateral stiffness beam 20 is formed in the lower connection space 19. 30) The step of forming a foundation shift 60 to form a jointless bridge assembly construction method using a vertical wall block assembly unit of a jointless bridge, characterized in that it comprises. The method of claim 9,
After step (c),
(d) After installing the level seat for the girder support on the upper surface of the vertical wall block unit 10 of a plurality of non-joint bridges, constructing and installing the girder and placing the floor plate to construct and connect the upper structure 70 Constructing the slab 80; A jointless bridge assembly construction method using a vertical wall block assembly unit of a jointless bridge, characterized in that it is added. In the jointless bridge assembly construction method using the vertical wall block assembly unit of any one of claims 1 to 8,
(A) performing an embankment and cutting operation at a location where the shift is to be installed, and installing an enlarged base 50;
(B) adjoining the vertical wall block assembly unit 10 of the non-joint bridge on the upper part of the enlarged foundation 50 to install a plurality of;
(C) A horizontal root (16) is placed in the upper connection space (18) and the lower connection space (19) of the vertical wall block assembly unit (10) of the non-joint bridge, and concrete is placed on-site. The upper connection lateral rigid beam 20 is formed in the upper connection space 18 of the vertical wall block assembly units 10 of the adjacent non-joint bridge, and the lower connection lateral stiffness beam 20 is formed in the lower connection space 19. 30) The step of forming a foundation shift 60 to form a jointless bridge assembly construction method using a vertical wall block assembly unit of a jointless bridge, characterized in that it comprises. The method of claim 11,
In step (A),
A vertical wall block assembly unit of a jointless bridge, characterized in that, after the embankment and cutting work is performed at the position where the abutment is to be installed, and the expansion foundation 50 is installed on the upper part of the pile 40, Jointless bridge assembly construction method used. The method of claim 11,
After step (C),
(D) After installing a level seat for girder support on the upper surface of the vertical wall block unit 10 of a plurality of non-joint bridges, constructing and installing the upper structure 70 by placing the girder fabrication and installation and the floor plate. Constructing the slab 80; A jointless bridge assembly construction method using a vertical wall block assembly unit of a jointless bridge, characterized in that it is added.

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