KR101570938B1 - Method for constructing dam using steel pipe pile and precast concrete block - Google Patents

Abstract

Provided is a method for constructing a dam in the river, capable of quickly constructing a dam and increasing the strength to resist the lateral forces by using steel pipe pile foundations and precast concrete blocks. According to a proper embodiment of the present invention, the method for constructing a dam comprises the following steps of: (a) installing steel pipe piles (10) in two rows along the direction of a dam axis (X); (b) installing a central PC block (20) so that the steel pipe piles (10) are placed inside thereof; (c) combining the central PC block (20) and the steel pipe piles (10); (d) installing a first or second peripheral PC block (30 or 40); and (e) placing concrete inside the central PC block (20) and the first and second PC blocks (30, 40).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for constructing a dam in a steel pipe using a steel pipe pile foundation and a precast concrete block,

The present invention relates to a method of constructing a dam in a river, and more particularly, to a method of constructing a dam in a river by using a steel pipe pile foundation and a precast concrete block.

In the United States, Olmsted dam, Chickamauga lock, etc. were built using the in the wet method of constructing the dam by assembling and assembling the concrete block made on the land without flowing fragments.

This method is applied to the construction of dams having the same width in the stream direction of the river. In order to apply to the construction of a dam in a trapezoidal or triangular cross-section in a direction orthogonal to the flow of a river, Do.

Japanese Patent Laid-Open No. 5-187010 (a method of constructing a gravity type concrete dam using a precast concrete plate) has been proposed as a background of the present invention. This is a method of constructing an outer concrete wall by stacking a plurality of concrete plates, introducing a prestress through PC steels into each precast concrete plate, and simultaneously injecting inner concrete to construct a gravity concrete dam of a required height . However, in this case, it is necessary to install a fixing device on the base surface, and there is a limit to shortening the air for tensioning.

As another background art of the present invention, Japanese Patent Application Laid-Open No. 10-131155 (method of constructing a concrete structure) has been proposed. This provides a method of constructing a concrete structure capable of building a concrete structure composed of a plurality of PC blocks to a high degree by remote operation. However, in this case, the lowermost PC block is constructed without special fixing means on the river foundation surface, and the resistance against the lateral force (direction perpendicular to the dam axis) can not be increased.

Japanese Patent Application Laid-Open No. 5-187010 (Method of constructing a gravity type concrete dam using precast concrete plate) Japanese Patent Application Laid-Open No. 10-131155 (Method of constructing concrete structure)

The present invention provides a method of constructing an on-dam construction capable of rapidly constructing a building using a steel pipe pile foundation and a precast concrete block without any debris, and increasing a resistance against a lateral force. .

According to a preferred embodiment of the present invention, (a) after cleaning the entire foundation surface 2 of the dam 1 to be constructed, the steel pipe pile 10 is pushed toward the dam axis X in the direction of the width W of the dam In two rows along the longitudinal direction; (b) installing a center PC block (20) having an inner hollow shape in such a manner that the steel pipe pile (10) is located therein; (c) pouring concrete into the central PC block 20 to join the central PC block 20 and the steel pipe pile 10; (d) installing a first or second peripheral PC block (30 or 40) without adding or adding a central PC block (20) to both sides of the central PC block (20); (e) pouring concrete into the central PC block 20 and the first and second peripheral PC blocks 30 and 40, and constructing the floor with the lowest floor height; Repeating the steps from the lowest floor height to the upper floor height to be planned, the floor is laid by using the central PC block 20 and the first and second peripheral PC blocks 30 and 40. However, The first peripheral PC block 30 has the same short width W ₁ as the central PC block 20 and the upper surface has a quarter area of the upper surface of the central PC block 20, A side wall of the central PC block 20 has a one-half area, one side of the short side forms a vertical plane 301, the other side of the short side forms a slope 302 having a constant slope, And the second peripheral PC block 40 has the same width W ₁ as that of the central PC block 20 and the upper surface is the upper surface of the central PC block 20 The bottom surface of the center PC block 20 is the same as the bottom surface of the center PC block 20 And a hollow hole 403 for filling concrete, which has a vertical surface 401 on one side and a slope 402 having a constant inclination on the other side, .

The center PC block is a box-shaped box having a width that is twice the width of the short width and the short width, and has a connecting bar mounting groove formed on the side in the long width direction, a plurality of hollow concrete filling holes vertically penetrating the inside, And a reinforcing partition wall for separating a plurality of concrete filling hollow holes is constituted.

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In addition, the center PC block may further include a plurality of connection bars arranged in a plurality of connection bar installation grooves formed on both sides of the long side in the longitudinal direction.

The first peripheral PC block may further include connection bars arranged in a plurality of connection bar installation grooves formed on both lateral sides in the width direction.

The second peripheral PC block is further provided with connecting bars arranged in a plurality of connection bar installation grooves formed on both lateral sides in the width direction.

In addition, two or three rows of synthetic reinforcing bars intersecting with each other in the vertical direction are inserted into the upper portion of the steel pipe pile so as to enhance the composition with the concrete.

The central PC block, the first peripheral PC block, and the second peripheral PC block, which are applied from the second floor or more of the floor, are each provided with a concrete filling hollow hole, a filling hollow hole, And a coupling protrusion coupled to the hole is further provided.

In addition, the center PC block and the first or second peripheral PC blocks are arranged with a step difference in the direction orthogonal to the dam axis direction.

Also, a steel pipe pile penetrated to the foundation surface is installed in the first or second peripheral PC block located at the lower part of the dam.

In addition, a backing material is provided between the PC blocks that meet in the direction perpendicular to the dam axis direction, and fillers are filled therebetween.

In addition, the PC blocks that meet in the direction perpendicular to the dam axis direction are coupled with each other by a key groove and a shear key.

According to the method of constructing an in-river dam using a steel pipe pile foundation and a precast concrete block of the present invention, a PC block can be installed using a crane by anchoring the barge to a river, and in this state, It is possible to construct in river flowing without installation of damper for dam construction.

In addition, by using a PC block manufactured by a factory with a certain standard, it is possible to construct a dam quickly by simply assembling it in the field.

In addition, the central PC block disposed at the center portion is supported by concrete through the steel pipe pile penetrated into the foundation surface, so that the force against the lateral force can be increased.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description, serve to explain the principles of the invention, Shall not be construed as limiting.
1 is a view showing a construction state of a steel pipe pile according to the present invention.
Fig. 2 is a side view and an enlarged view of the main part of Fig. 1; Fig.
Fig. 3 is a view showing an example in which a central part PC block according to the present invention is installed. Fig.
4A is a perspective view of a central PC block according to the present invention.
FIG. 4B is a perspective view of a first peripheral PC block according to the present invention; FIG.
4C is a perspective view of a second peripheral PC block according to the present invention.
5 is a perspective view showing a state where concrete is installed after installing a central PC block according to the present invention.
6 is a sectional view of one side of Fig.
Fig. 7 is a side cross-sectional view of the single-layered floor completed in Fig. 5 and cut at one side after pouring concrete. Fig.
8 is a schematic side view of a dam constructed in accordance with the method of the present invention;
9 is a perspective view of another embodiment of a central PC block applied to the present invention.
Fig. 10 is an assembled state in the case where the central PC block of Fig. 9 is vertically stacked and applied. Fig.
FIG. 11 is a view illustrating an installation state of a central PC block and a peripheral PC block according to another embodiment of the present invention; FIG.
12 and 13 are various junction states between a central PC block and a peripheral PC block according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

Pipe penetration of steel pipe

First, as shown in Figs. 1 and 8, after cleaning the entire foundation surface 2 of the dam 1 to be constructed, the steel pipe pile 10 is divided into two rows along the direction of the dam axis X, Or more. At this time, the upper end of the steel pipe pile 10 is penetrated so as to rise from the entire base surface 2 by a certain height. The height of the upper end of the steel pipe pile 10 is preferably about 1/4 to 1/2 of the height of the central portion PC block 20 to be described later.

At this time, two or three rows of synthetic reinforcing bars 12, which are alternately shifted from each other in the vertical direction, may be installed on the upper part of the steel pipe pile 10 in order to improve the composition with the concrete. Therefore, the synthetic reinforcing bars 12 are exposed upwardly from the entire base surface 2.

Central part PC  Block installation

Next, as shown in FIG. 3A and FIG. 4A, the center PC block 20 having an inner hollow shape is installed so that the steel pipe pile 10 is located therein.

The central PC block 20 is made of precast concrete. Center PC block 20 as shown in Figure 4a is danpok (W ₁₎ and danpok connection bar mounting groove 201 formed on the jangpok direction side than a box type having two times longer jangpok (W ₂₎ (W _1), A plurality of concrete filling hollow holes 202 and 202 penetrating in the vertical direction, and a reinforcing partition wall 203 arranged in the width direction to partition a plurality of concrete filling hollow holes 202 and 202.

In this embodiment, a central PC block 20 is installed so that two steel pipe piles 10 are located in one filling hollow hole 202. Therefore, four steel pipe piles 10 are located in one central PC block 20.

4A, the central PC block 20 is further provided with connection bars 204, which are arranged in a plurality of connection bar installation grooves 201 formed on both sides in the width direction (W ₂ ) have.

Central part PC  Synthesis of block and steel pipe pile

Then, as shown in FIGS. 5 and 6, the concrete 9 is installed in the central PC block 20 to synthesize the central PC block 20 and the steel pipe pile 10.

At this time, the pile height of the concrete makes it possible to sufficiently cover the portion where the steel pipe pile 10 is raised above the base surface 2. By the concrete installation, the central PC block (20) is combined with the steel pipe pile (10) through the adhesive force of the concrete. Of course, when the synthetic reinforcing bars 12 are installed on the steel pipe pile 10, the composite force with the concrete increases.

Periphery PC  Installation of blocks

5 and 7, the same central PC block 20 is added to both sides of the central PC block 20, and the first peripheral PC block 30 is attached to the side of the added central PC block 20, .

Here, when the central PC block 20 is displaced in the dam axis direction, the second peripheral PC block 40 can be installed without adding the same central PC block 20.

4B, the first peripheral PC block 30 has the same short width W ₁ as that of the central PC block 20 and the upper surface has a quarter area of the upper surface of the central PC block 20 One side of which has a vertical plane 301 and the other side of which has an inclined plane 302 having a constant slope and is vertically penetrated into the interior of the central PC block 20 And a hollow hole 303 for filling concrete. At the lower end of the inclined surface 302, a protruding protrusion 304 protruding outward by a predetermined amount may be further provided.

At this time, the first peripheral PC block 30 may be installed with connection bars 306, which are arranged in a plurality of connection bar installation grooves 305 formed on both sides in the width direction.

4C, the second peripheral PC block 40 has the same short width W ₁ as that of the central PC block 20, and the upper surface has three quarters of the upper surface of the central PC block 20 The reinforcing partition wall 405 has an area equal to the area of the lower surface of the central PC block 20, one side of the short side forming a vertical plane 401 and the other side of the short side having a constant inclination, And hollow holes 403 and 403 for filling concrete, which are penetrated by the hollow holes 403 and 403, respectively. At the lower end of the inclined surface 402, a protruding protrusion 404 protruding outward by a predetermined amount may be further provided.

Also, the second peripheral PC block 40 may be installed with connection bars 406, which are arranged in a plurality of connection bar installation grooves 405 formed on both sides in the width direction.

The protruding jaws 304 and 404 are preferable for application to one layer of the floor, and the protruding jaws 304 and 404 are selectively formed on the first peripheral PC block 30 and the second peripheral PC block 40, Can be used.

Center and periphery PC  Concrete pouring inside blocks

Then, as shown in FIG. 7, concrete is poured into the central PC block 20 and the first and second peripheral PC blocks 30 and 40 to form a bottom floor.

Next, as shown in FIG. 8, the layers are stacked using the central PC block 20 and the first and second peripheral PC blocks 30 and 40 from the lowest floor height to the upper floor height, The dam system will be completed.

On the other hand, the central PC block 20, the first peripheral PC block 30 and the second peripheral PC block 40, which are applied from the second floor or more in the present construction method, A plurality of coupling protrusions 207 and 207 to be coupled to the filling hollow holes 202 and 202, the filling hollow hole 303 and the filling hollow hole 403 can be installed. In this case, the installation positions of the respective blocks can be exactly matched through the coupling protrusions 207 (207), and air can be shortened.

According to the method of constructing the river dam using the steel pipe pile foundation and the precast concrete block, the PC block can be installed using the crane after the barge is anchored to the river, and in this state, It is possible to build in the river which flows without installation of the damper for dam construction.

In addition, by using a PC block manufactured by a factory with a certain standard, it is possible to construct a dam quickly by simply assembling it in the field.

In addition, the central PC block disposed at the center portion is supported by the concrete through the steel pipe pile penetrated into the foundation surface, so that the force against the lateral force is increased.

On the other hand, as shown in FIG. 11, The central PC block 20 and the first or second peripheral PC block 30 or 40 may be installed with mutual steps in an orthogonal direction to the direction of the dam axis X. [ At this time, it is preferable that the step structure has different heights between the center PC block 20 and the first and second peripheral PC blocks 30 and 40 so that the interface on the same block is shifted from the interface between the adjacent other blocks .

In the above embodiment, the steel pipe pile 10 may be installed only in the central PC block 20 or the first or second peripheral PC block 30 or 30 located in the lower portion of the dam 1 as shown in FIGS. 40, the steel pipe pile 10 penetrated into the base surface 2 can be positioned and installed. By doing so, the resistance against the water pressure that the dam 1 receives can be increased.

12, a backup material 500 is installed between the PC blocks 20, 30, and 40 that meet in the direction orthogonal to the direction of the dam axis X. In this case, A filling material 502 such as a mortar may be filled and bonded. In another embodiment, as shown in FIG. 13, the PC blocks 20, 30 and 40, which meet in the direction orthogonal to the direction of the dam axis X, can be joined together by the key groove G and the shear key K, respectively.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

10: Steel pipe pile
20: central PC block
30: First peripheral PC block
40: second peripheral PC block

Claims (13)

(a) installing two rows of steel pipe piles (10) along the direction of the dam axis (X) in the center of the dam in the width direction (W) after cleaning the entire foundation surface (2) of the dam
(b) installing a center PC block (20) having an inner hollow shape in such a manner that the steel pipe pile (10) is located therein;
(c) pouring concrete into the central PC block 20 to join the central PC block 20 and the steel pipe pile 10;
(d) installing a first or second peripheral PC block (30 or 40) without adding or adding a central PC block (20) to both sides of the central PC block (20);
(e) pouring concrete into the central PC block 20 and the first and second peripheral PC blocks 30 and 40, and constructing the floor with the lowest floor height;
Repeating the steps from the lowest floor height to the upper floor height to be planned, the floor is laid by using the central PC block 20 and the first and second peripheral PC blocks 30 and 40. However,
The first peripheral PC block (30)
Have the same danpok (W ₁₎ and the central portion PC block 20, the upper surface is a half of the said central PC block 20, if having a first area of a quarter of the upper surface of the central portion PC block 20 1 And a hollow hole 303 for concrete filling, which has a vertical surface 301 on one side of the short width and an inclined surface 302 having a constant inclination on the other side,
The second peripheral PC block (40)
Have the same danpok (W ₁₎ and the central portion PC block 20, the upper surface has the same area as the lower face of the said central PC block 20, if having a third area of a quarter of the upper surface of the central portion PC block 20 And a concrete hole for concrete filling 403 which is formed in a vertical plane 401 at one side of the short side and an inclined side 402 having a constant inclination at the other side of the short side, Construction Method of River Dam Using Steel Pipe Foundation and Precast Concrete Block. The method according to claim 1,
The central PC block 20,
Danpok (W ₁₎ and danpok (W ₁₎ to the double connection formed on the jangpok direction side of a box type having jangpok (W ₂₎ is a bar mounting groove 201, a plurality of concrete filling the through in the vertical direction inside And a reinforcing partition wall (203) which is arranged in the direction of the short side and which divides a plurality of hollow holes for concrete filling (202, 202), is constituted by a steel pipe pile foundation and a precast concrete block How to build my dam. delete delete 3. The method of claim 2,
Wherein the center PC block 20 is further provided with connecting bars 204 arranged in a plurality of connecting bar mounting grooves 201 formed on both sides in the width W ₂ direction. And a method for constructing an in - river dam using precast concrete block. The method according to claim 1,
The first peripheral PC block (30)
Wherein a plurality of connection bars (306) are further provided on connection bar installation grooves (305) formed on both sides in the width direction of the steel pipe piles. The method according to claim 1,
The second peripheral PC block (40)
Wherein a plurality of connection bars (406) are further provided on connection bar installation grooves (405) formed on both sides in the width direction of the steel pipe piles. The method according to claim 1,
And two or three rows of synthetic reinforcing bars 12 crossing in the vertical direction are inserted and installed in the upper part of the steel pipe pile 10 in order to improve the composition with concrete. How to construct a dam in a river. The method according to claim 1,
The central PC block 20, the first peripheral PC block 30 and the second peripheral PC block 40, which are applied from the second floor or more of the floor, are all provided with concrete filling hollow holes 202, 202 The present invention further relates to a steel pipe pile foundation and a river inner dam using a precast concrete block, wherein the steel pipe pile foundation and the prefabricated concrete block are provided with coupling holes 207, 207 to be connected to the filling hollow hole 303 and the filling hollow hole 403. [ Construction method. The method according to claim 1,
Wherein the central PC block (20) and the first or second peripheral PC block (30 or 40) are installed with a step difference in a direction orthogonal to the direction of the dam axis (X) How to build a dam. The method according to claim 1,
Wherein the steel pipe pile (10) penetrated into the foundation surface (2) is placed in the first or second peripheral PC block (30 or 40) located at the lower part of the dam (1) Construction method of river dam using cast concrete block. The method according to claim 1,
Wherein a backing material (500) is installed between the PC blocks (20, 30, 40) which meet in the direction orthogonal to the direction of the dam axis (X) and the filler material (502) Construction method of river dam using concrete block. The method according to claim 1,
And the PC blocks (20, 30, 40) that meet in the direction orthogonal to the direction of the dam axis (X) are coupled with each other by a key groove (G) and a shear key (K) How to build a dam.

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