KR101164573B1 - Dam pc inspection gallery structure for self-leveling and construction method thereof - Google Patents

Abstract

PURPOSE: A precast concrete gallery structure for self-leveling on a dam and a construction method thereof are provided to enable the individual control of the level of each PC gallery unit after the construction of a PC gallery. CONSTITUTION: A precast concrete gallery structure for self-leveling on a dam comprises leveling concrete(C3), multiple PC gallery units(100), self-leveling units(120), anti-floating anchors(AC), and anti-floating connectors(300). The leveling concrete is placed on the top of a pre-placed concrete(C1). The gallery units are installed on the top of the leveling concrete to be separated from each other and connected to each other in a series. The self-leveling units are installed between a floor and the leveling concrete and control the levels of the gallery units. The anti-floating anchors are buried in the leveling concrete. The anti-floating connectors connect the anti-floating anchors to the outer wall of a side wall unit.

Description

Dam PC inspection gallery structure for self-leveling and construction method

The present invention relates to a dam PC gallery structure and self-leveling method for self-leveling for easy quality control because the aerosol, process and air is reduced, and even unskilled workers can easily work with a predetermined quality without installing the mount.

Recently, in dam construction, it is essential to construct a PC gallery that checks for defects and leaks and drains the leaked water.

The conventional PC gallery is installed by manually cutting and welding the mount according to the level of the other sulcon concrete or leveling concrete manually as shown in the photo below,

As shown in the picture below, the PC gallery is mounted on the mount to continue work.

Conventional PC gallery installation structure and construction method for installing the mount as shown in the above picture has the difficulty to install exactly the level of the other concrete or leveling concrete during the pouring and curing of other sulf concrete, Alternatively, the mount should be temporarily installed on all paths where multiple PC gallery units are assembled and installed on the leveling concrete.

The mount is installed by cutting and welding manually at the site according to the level of the PC gallery installed on the upper part, where once the stand is installed incorrectly, the entire mount must be reassembled and only the stand below the one PC gallery unit is installed. There is a disadvantage that can not be adjusted. Therefore, the air for mounting and reassembly of the mount increases, and it is essential to secure skill of skilled workers to maintain a predetermined quality.

Therefore, there is an urgent need to develop a PC gallery structure and a construction method with a self-leveling function that allows unskilled workers to be quickly and economically installed with a predetermined quality by integrating the level adjusting means replacing the mount in the PC gallery unit.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the related art. The purpose is as follows.

First, it is intended to provide a dam PC gallery structure and its construction method for self-leveling integrating the level adjusting means in the PC gallery in place of the conventional mount.

Secondly, since there is no need to install the mount, it will save time for installing the mount and provide a dam PC gallery structure for self-leveling without material waste and its construction method.

Third, it is intended to provide a dam PC gallery structure and self-leveling method for self-leveling that can be installed in a predetermined quality quickly.

Fourth, after the construction of the entire PC gallery to adjust the level of each PC gallery unit independently to provide a dam PC gallery structure and self-leveling method for easy maintenance.

In order to solve the above technical problem, the present invention is carried out in the construction of the PC gallery to be accompanied by the dam construction,

Leveling concrete (C3) is placed on the other sulfite concrete (C1); The arch part 150, the two side wall parts 130 and the bottom part 110 are integrally manufactured by being prefabricated with a PC, and are installed to be spaced apart from the upper part of the leveling concrete C3, and are connected to each other in series. Gallery unit 100; Self-leveling means 120 is installed between the bottom 110 and the leveling concrete (C3) is possible to adjust the level; An anti-floating anchor (AC) spaced apart from the outer wall of the side wall portion 130 and embedded in the leveling concrete (C3); And, the anti-floating anchor (AC) and the anti-floating connection member 300 for connecting between the outer wall of the side wall portion 130; configured to include,

Characterized by adjusting the level of the bottom 110 with the self-leveling means 120 in the field without the mount, the anti-floating anchor (AC) and the anti-floating connection member 300 is a high-flow concrete (C5) or In the pouring of the embedded concrete (C6) also provides a dam PC gallery structure for self-leveling, characterized in that to prevent the rise by the buoyancy of the PC gallery unit 100.

In addition, in the method for constructing the dam PC gallery structure for the self-leveling,

(1) the injury prevention anchor installation step of placing the leveling concrete (C3) after the buried anti-occupation anchor (AC), or perforated installation of the anti-injury anchor (AC) on the poured leveling concrete (C3); (2) a high wood installation step of mounting the wood (10) on the top of the leveling concrete (C3); (3) a PC gallery unit mounting step of mounting the bottom 110 on the stump 10 by lifting the PC gallery unit 100; (4) a hydraulic jack mounting step of mounting the hydraulic jack (J) between the leveling concrete (C3) and the bottom portion 110; (5) a leveling step of raising the hydraulic jack J and adjusting the level of the bottom part 110 by the self-leveling means 120; (6) a leveling completion step of removing the stump 10 and lowering the hydraulic jack J to bring the lower end of the self-leveling means 120 into close contact with the leveling concrete C3; (7) repeated construction step of installing the water ring in the connection part to install the other PC gallery unit 100 connected in series to the PC gallery unit 100 and repeating the steps (2) to (6); (8) PC gallery unit coupling step of coupling the connection portion of the plurality of PC gallery unit 100 connected in series using a connection plate; (9) the injury prevention step of connecting between the injury prevention anchor (AC) and the outer wall of the side wall portion 130 with an injury prevention connecting member (300); (10) After placing the adjacent concrete (C4) to a certain height around the leveling concrete (C3) and then placing the high-flow concrete (C5) between the leveling concrete (C3) and the bottom portion 110 to prevent the injury High-flow concrete placing step of placing the connection member 300 to be embedded; (11) stirring step of integrating the high-flow concrete (C5) and the adjacent concrete (C4) by stirring; And, (12) the embedded concrete placing step of placing the embedded concrete (C6) so that the arch portion 150 is buried in the high-flow concrete (C5) and the adjacent concrete (C4) upper part; It provides a construction method of dam PC gallery structure for self-leveling.

According to the present invention, the following effects are expected.

First, it provides a dam PC gallery structure and its construction method for self-leveling integrating the level control means in the PC gallery in place of the conventional mount.

Secondly, there is no need to install the mount, so it saves time for installing the mount and provides a dam PC gallery structure for self-leveling without waste of materials and its construction method.

Third, it provides a dam PC gallery structure and self-leveling method for self-leveling that can be installed in a predetermined quality quickly.

Fourthly, after constructing the entire PC gallery, the level of each PC gallery unit is independently adjusted to provide a dam PC gallery structure and self-leveling method for easy maintenance.

1 is a front view and a side view of a dam PC gallery structure for self-leveling of the present invention.
Figure 2 is a front view and a side view showing the (1) floating prevention anchor installation step of the construction method of the dam PC gallery structure for the self-leveling of the present invention.
Figure 3 is a front view and a side view showing the (2) high wood installation step of the construction method of the dam PC gallery structure for the self-leveling of the present invention.
Figure 4 is a front view and a side view showing the (3) PC gallery unit mounting step of the construction method of the dam PC gallery structure for self-leveling of the present invention.
Figure 5 is a front view and a side view showing the hydraulic jack installation step (4) of the construction method of the dam PC gallery structure for the self-leveling of the present invention.
6 is a front view and a side view showing the (5) leveling step of the construction method of the dam PC gallery structure for the self-leveling of the present invention.
Figure 7 is a front view and a side view showing the (6) leveling completion step of the construction method of the dam PC gallery structure for the self-leveling of the present invention.
Figure 8 is a front view and a side view showing the (7) repeated construction step and (8) PC gallery unit coupling step of the construction method of the dam PC gallery structure for the self-leveling of the present invention.
9 is a front view and a side view showing the (9) floating prevention step of the construction method of the dam PC gallery structure for the self-leveling of the present invention.
10 is a front view and a side view showing (10) high flow concrete pouring step of the construction method of the dam PC gallery structure for the self-leveling of the present invention.
11 is a front view and a side view showing the stirring step (11) of the construction method of the dam PC gallery structure for the self-leveling of the present invention.
12 is a front view and a side view showing the (12) buried concrete pouring step of the construction method of the dam PC gallery structure for the self-leveling of the present invention.
13 is a front view and a side view of another embodiment of a dam PC gallery structure for self-leveling of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

One. Self-leveling  Dam for PC Gallery structure

1 is a front view and a side view of a dam PC gallery structure for self-leveling of the present invention.

Dam PC gallery structure for the self-leveling of the present invention in the construction of the PC gallery to be carried out accompanying the dam construction,

Leveling concrete (C3) is placed on the other sulfite concrete (C1); The arch part 150, the two side wall parts 130 and the bottom part 110 are integrally manufactured by being prefabricated with a PC, and are installed to be spaced apart from the upper part of the leveling concrete C3, and are connected to each other in series. Gallery unit 100; Self-leveling means 120 is installed between the bottom 110 and the leveling concrete (C3) is possible to adjust the level; An anti-floating anchor (AC) spaced apart from the outer wall of the side wall portion 130 and embedded in the leveling concrete (C3); And, the anti-floating anchor (AC) and the anti-floating connection member 300 for connecting between the outer wall of the side wall portion 130; configured to include,

Characterized by adjusting the level of the bottom 110 with the self-leveling means 120 in the field without the mount, the anti-floating anchor (AC) and the anti-floating connection member 300 is a high-flow concrete (C5) or Even when placing the embedded concrete (C6) is characterized by preventing the rise by buoyancy of the PC gallery unit (100).

The leveling concrete (C3) is to be poured and cured on top of the other sulcon concrete (C1) is constructed to meet a level level to some extent.

The PC gallery unit 100 is pre-fabricated with a PC, the arch portion 150, the two side wall portion 130 and the bottom portion 110 is integrally manufactured to be spaced apart from the top of the leveling concrete (C3) However, multiple units are installed to be connected to each other in series. The PC gallery unit 100 is commonly used, the drain hole 112 and the air hole 114 is formed in the bottom 110. At this time, the air hole 114 also serves to prevent injury when pouring the concrete.

The self-leveling means 120 is installed between the bottom portion 110 and the leveling concrete (C3) is possible to adjust the level, the buried pipe 121 buried in the bottom 110, the buried pipe A buried nut 122 installed at a lower portion thereof and a level adjusting bolt 123 fastened to the buried nut 122 are included, and the bottom portion 110 is rotated by rotating the level adjusting bolt 123. It may be characterized by adjusting the level of.

The anti-floating anchor AC is embedded in the leveling concrete C3 spaced apart from the outer wall of the side wall portion 130. After filling the anti-floating anchor AC, the leveling concrete C3 is poured. Alternatively, the anti-injury anchor (AC) may be perforated and installed on the poured leveling concrete (C3).

The anti-floating connector 300 may be a member for connecting between the anti-floating anchor (AC) and the outer wall of the side wall portion 130 may use a conventional rebar or wire.

13 is a front view and a side view of another embodiment of a dam PC gallery structure for self-leveling of the present invention.

Another embodiment (100`) of the dam PC gallery structure for the self-leveling of the present invention is to be applied to the inclined portion such as stairs, slopes, lamps, etc., the arch portion 150` on the side is configured to be inclined and the bottom portion ( 110 ') including a side wall portion 130' formed integrally by forming a staircase in the interior to connect the arch portion 150 'and the bottom portion 110'.

2. Self-leveling  Dam for PC How to construct gallery structure

The construction method of the dam PC gallery structure for the self-leveling of the present invention is a method for constructing the dam PC gallery structure for the self-leveling,

(1) the injury prevention anchor installation step of placing the leveling concrete (C3) after the buried anti-occupation anchor (AC), or perforated installation of the anti-injury anchor (AC) on the poured leveling concrete (C3); (2) a high wood installation step of mounting the wood (10) on the top of the leveling concrete (C3); (3) a PC gallery unit mounting step of mounting the bottom 110 on the stump 10 by lifting the PC gallery unit 100; (4) a hydraulic jack mounting step of mounting the hydraulic jack (J) between the leveling concrete (C3) and the bottom portion 110; (5) a leveling step of raising the hydraulic jack J and adjusting the level of the bottom part 110 by the self-leveling means 120; (6) a leveling completion step of removing the stump 10 and lowering the hydraulic jack J to bring the lower end of the self-leveling means 120 into close contact with the leveling concrete C3; (7) repeated construction step of installing the water ring in the connection part to install the other PC gallery unit 100 connected in series to the PC gallery unit 100 and repeating the steps (2) to (6); (8) PC gallery unit coupling step of coupling the connection portion of the plurality of PC gallery unit 100 connected in series using a connection plate; (9) the injury prevention step of connecting between the injury prevention anchor (AC) and the outer wall of the side wall portion 130 with an injury prevention connecting member (300); (10) After placing the adjacent concrete (C4) to a certain height around the leveling concrete (C3) and then placing the high-flow concrete (C5) between the leveling concrete (C3) and the bottom portion 110 to prevent the injury High-flow concrete placing step of placing the connection member 300 to be embedded; (11) stirring step of integrating the high-flow concrete (C5) and the adjacent concrete (C4) by stirring; And, (12) the embedded concrete placing step of placing the embedded concrete (C6) so that the arch portion 150 is buried in the high-flow concrete (C5) and the adjacent concrete (C4) upper part; do.

Figure 2 is a front view and a side view showing the (1) floating prevention anchor installation step of the construction method of the dam PC gallery structure for the self-leveling of the present invention. (1) the anti-floating anchor installation step is to install the leveling concrete (C3) after the buried the anti-floating anchor (AC), or to install the perforated anti-corrosion anchor (AC) on the poured leveling concrete (C3) Says a step.

Figure 3 is a front view and a side view showing the (2) high wood installation step of the construction method of the dam PC gallery structure for the self-leveling of the present invention. The (2) chopping wood installation step refers to the step of mounting the chopping wood 10 on the leveling concrete (C3).

Figure 4 is a front view and a side view showing the (3) PC gallery unit mounting step of the construction method of the dam PC gallery structure for self-leveling of the present invention. The (3) PC gallery unit mounting step refers to the step of mounting the bottom 110 on the stump wood 10 by lifting the PC gallery unit 100.

Figure 5 is a front view and a side view showing the hydraulic jack installation step (4) of the construction method of the dam PC gallery structure for the self-leveling of the present invention. The (4) hydraulic jack installation step refers to the step of mounting the hydraulic jack (J) between the leveling concrete (C3) and the bottom 110.

6 is a front view and a side view showing the (5) leveling step of the construction method of the dam PC gallery structure for the self-leveling of the present invention. The leveling step (5) refers to the step of raising the hydraulic jack (J) and adjusting the level of the bottom portion 110 by the self-leveling means 120.

Figure 7 is a front view and a side view showing the (6) leveling completion step of the construction method of the dam PC gallery structure for the self-leveling of the present invention. The leveling completion step (6) refers to the step of removing the dead wood 10 and lowering the hydraulic jack (J) to bring the lower end of the self-leveling means 120 in close contact with the leveling concrete (C3).

Figure 8 is a front view and a side view showing the (7) repeated construction step and (8) PC gallery unit coupling step of the construction method of the dam PC gallery structure for the self-leveling of the present invention. In the (7) repetitive construction step, in order to install another PC gallery unit 100 in series with the PC gallery unit 100, install an index ring at a connection part and repeat steps (2) to (6). The (8) PC gallery unit coupling step refers to the step of combining the connection portion of the plurality of PC gallery unit 100 connected in series using a connection plate.

9 is a front view and a side view showing the (9) floating prevention step of the construction method of the dam PC gallery structure for the self-leveling of the present invention. The (9) flotation prevention step refers to a step of connecting between the flotation prevention anchor (AC) and the outer wall of the side wall portion 130 with the flotation prevention connection member (300).

10 is a front view and a side view showing (10) high flow concrete pouring step of the construction method of the dam PC gallery structure for the self-leveling of the present invention. In the (10) high-flow concrete placing step, after placing the adjacent concrete (C4) at a predetermined height around the leveling concrete (C3), the high-flow concrete (C5) between the leveling concrete (C3) and the bottom portion 110 ) To pour, but refers to the step of pour so that the injury prevention connection member 300 is buried.

11 is a front view and a side view showing the stirring step (11) of the construction method of the dam PC gallery structure for the self-leveling of the present invention. The stirring step (11) refers to a step of integrating the high-flow concrete (C5) and the adjacent concrete (C4) by stirring.

12 is a front view and a side view showing the (12) buried concrete pouring step of the construction method of the dam PC gallery structure for the self-leveling of the present invention. The (12) buried concrete placing step refers to the step of placing the buried concrete (C6) so that the arch portion 150 is buried in the high-flow concrete (C5) and the adjacent concrete (C4).

Another embodiment of the construction method of the dam PC gallery structure for the self-leveling of the present invention comprises a self-leveling means 120 includes a buried pipe 121, a buried nut 122 and a level adjustment bolt 123 In detail,

(1) the injury prevention anchor installation step of placing the leveling concrete (C3) after the buried anti-occupation anchor (AC), or perforated installation of the anti-injury anchor (AC) on the poured leveling concrete (C3); (2) a high wood installation step of mounting the wood (10) on the top of the leveling concrete (C3); (3) PC gallery which mounts the bottom part 110 on the stump wood 10 by lifting the PC gallery unit 100 while the level adjusting bolt 123 fastened to the buried nut 122 is fastened. Unit placement step; (4) a hydraulic jack mounting step of mounting the hydraulic jack (J) between the leveling concrete (C3) and the bottom portion 110; (5) leveling step of raising the hydraulic jack (J) to adjust the level of the bottom portion 110 by rotating the level adjusting bolt (123); (6) the leveling completion step of removing the stump 10 and lowering the hydraulic jack (J) to bring the lower end of the level adjusting bolt 123 into close contact with the leveling concrete (C3); (7) repeated construction step of installing the water ring in the connection part to install the other PC gallery unit 100 connected in series to the PC gallery unit 100 and repeating the steps (2) to (6); (8) PC gallery unit coupling step of coupling the connection portion of the plurality of PC gallery unit 100 connected in series using a connection plate; (9) the injury prevention step of connecting between the injury prevention anchor (AC) and the outer wall of the side wall portion 130 with an injury prevention connecting member (300); (10) After placing the adjacent concrete (C4) to a certain height around the leveling concrete (C3) and then placing the high-flow concrete (C5) between the leveling concrete (C3) and the bottom portion 110 to prevent the injury High-flow concrete placing step of placing the connection member 300 to be embedded; (11) stirring step of integrating the high-flow concrete (C5) and the adjacent concrete (C4) by stirring; And, (12) the embedded concrete placing step of placing the embedded concrete (C6) so that the arch portion 150 is buried in the high-flow concrete (C5) and the adjacent concrete (C4) upper part; do.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

Therefore, the claims of the present invention include modifications and variations that fall within the true scope of the invention.

AC: injury prevention anchor
C1, C2: Other Sulfur Concrete
C3: leveling concrete
C4: Adjacent Concrete
C5: High Flow Concrete
C6: landfill concrete
10: dead wood
100, 100`: PC Gallery Unit
110, 110`: bottom
112: drain
114: air hole
130, 130`: side wall portion
150, 150`: arch
120: self-leveling means
121: landfill
122: landfill nut
123: level adjusting bolt
300: injury prevention connector

Claims (4)

In construction of PC gallery carried out with dam construction,
Leveling concrete (C3) is placed on the other sulfite concrete (C1);
The arch part 150, the two side wall parts 130 and the bottom part 110 are integrally manufactured by being prefabricated with a PC, and are installed to be spaced apart from the upper part of the leveling concrete C3, and are connected to each other in series. Gallery unit 100;
Self-leveling means 120 is installed between the bottom 110 and the leveling concrete (C3) is possible to adjust the level;
An anti-floating anchor (AC) spaced apart from the outer wall of the side wall portion 130 and embedded in the leveling concrete (C3); And,
An anti-floating connector 300 for connecting between the anti-floating anchor AC and the outer wall of the side wall 130;
Consists of including
Characterized in that the level of the bottom 110 with the self-leveling means 120 in the field without a trestle,
The anti-floating anchor (AC) and the anti-floating connection member 300 is characterized in that the self-preventing rise due to buoyancy of the PC gallery unit 100 even when placing high-flow concrete (C5) or buried concrete (C6) Dam PC gallery structure for leveling.
In claim 1,
The self-leveling means 120 is buried in the bottom of the bottom portion 110, the buried pipe 121, the buried nut 122 installed in the buried pipe 121 and the level fastened to the buried nut 122 It is configured to include an adjustment bolt 123,
Dam PC gallery structure for self-leveling, characterized in that for adjusting the level of the bottom portion 110 by rotating the level adjustment bolt (123).
In the method for constructing a dam PC gallery structure for self-leveling of claim 1,
(1) the injury prevention anchor installation step of placing the leveling concrete (C3) after the buried anti-occupation anchor (AC), or perforated installation of the anti-injury anchor (AC) on the poured leveling concrete (C3);
(2) a high wood installation step of mounting the wood (10) on the top of the leveling concrete (C3);
(3) a PC gallery unit mounting step of mounting the bottom 110 on the stump 10 by lifting the PC gallery unit 100;
(4) a hydraulic jack mounting step of mounting the hydraulic jack (J) between the leveling concrete (C3) and the bottom portion 110;
(5) a leveling step of raising the hydraulic jack J and adjusting the level of the bottom part 110 by the self-leveling means 120;
(6) a leveling completion step of removing the stump 10 and lowering the hydraulic jack J to bring the lower end of the self-leveling means 120 into close contact with the leveling concrete C3;
(7) repeated construction step of installing the water ring in the connection part to install the other PC gallery unit 100 connected in series to the PC gallery unit 100 and repeating the steps (2) to (6);
(8) PC gallery unit coupling step of coupling the connection portion of the plurality of PC gallery unit 100 connected in series using a connection plate;
(9) the injury prevention step of connecting between the injury prevention anchor (AC) and the outer wall of the side wall portion 130 with an injury prevention connecting member (300);
(10) After placing the adjacent concrete (C4) to a certain height around the leveling concrete (C3) and then placing the high-flow concrete (C5) between the leveling concrete (C3) and the bottom portion 110 to prevent the injury High-flow concrete placing step of placing the connection member 300 to be embedded;
(11) stirring step of integrating the high-flow concrete (C5) and the adjacent concrete (C4) by stirring; And,
(12) a buried concrete placing step of placing the buried concrete (C6) so that the arch portion 150 is buried in the high flow concrete (C5) and the adjacent concrete (C4);
Construction method of dam PC gallery structure for self-leveling, characterized in that configured to include.
In the method for constructing a dam PC gallery structure for self-leveling of claim 2,
(1) the injury prevention anchor installation step of placing the leveling concrete (C3) after the buried anti-occupation anchor (AC), or perforated installation of the anti-injury anchor (AC) on the poured leveling concrete (C3);
(2) a high wood installation step of mounting the wood (10) on the top of the leveling concrete (C3);
(3) PC gallery which mounts the bottom part 110 on the stump wood 10 by lifting the PC gallery unit 100 while the level adjusting bolt 123 fastened to the buried nut 122 is fastened. Unit placement step;
(4) a hydraulic jack mounting step of mounting the hydraulic jack (J) between the leveling concrete (C3) and the bottom portion 110;
(5) leveling step of raising the hydraulic jack (J) to adjust the level of the bottom portion 110 by rotating the level adjusting bolt (123);
(6) the leveling completion step of removing the stump 10 and lowering the hydraulic jack (J) to bring the lower end of the level adjusting bolt 123 into close contact with the leveling concrete (C3);
(7) repeated construction step of installing the water ring in the connection part to install the other PC gallery unit 100 connected in series to the PC gallery unit 100 and repeating the steps (2) to (6);
(8) PC gallery unit coupling step of coupling the connection portion of the plurality of PC gallery unit 100 connected in series using a connection plate;
(9) the injury prevention step of connecting between the injury prevention anchor (AC) and the outer wall of the side wall portion 130 with an injury prevention connecting member (300);
(10) After placing the adjacent concrete (C4) to a certain height around the leveling concrete (C3) and then placing the high-flow concrete (C5) between the leveling concrete (C3) and the bottom portion 110 to prevent the injury High-flow concrete placing step of placing the connection member 300 to be embedded;
(11) stirring step of integrating the high-flow concrete (C5) and the adjacent concrete (C4) by stirring; And,
(12) a buried concrete placing step of placing the buried concrete (C6) so that the arch portion 150 is buried in the high flow concrete (C5) and the adjacent concrete (C4);
Construction method of dam PC gallery structure for self-leveling, characterized in that configured to include.

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