KR100445321B1 - The method of construction for fundamental formative of bent in under the water. - Google Patents

Abstract

The present invention relates to the invention for the foundation installation of underwater piers, in particular, water and concrete is not mixed when placing concrete without clogging, and therefore, the quality of the pier infrastructure that does not separate cement, gravel, sand, etc. It is about the invention to provide.

The reinforcing bar frame 2 is placed in a state in which water 7 is submerged in the well caisson 1 installed at the position for the foundation installation of the pier and the predetermined depth of the bed, and the space between the bar frames 2 The bag 3 is interposed therebetween, and the concrete 6 is poured into each bag 3 to fill the caisson internal space, so that the bag 3 is placed on the upper side of the well caisson 1. By pulling the binding line 9 bound to the lower end opening 5, the concrete 6 is discharged into the well caisson 1, and when the bag 3 is pulled up above the well caisson 1, Since the inner space of the well caisson (1) is filled without voids, problems such as weakening of the viscosity and separation of concrete (6) materials due to mixing with the water (7) occur in the installation work of the piers even under water. Does not occur, resulting in significant labor savings The present invention relates to an invention designed to form a uniform and high-quality pier foundation structure.

Description

The method of construction for fundamental formative of bent in under the water.

The present invention relates to the invention for the foundation of the bridge piers located in the water, in particular when the concrete is placed in the water without the clogging, the seawater or river fresh water and concrete is not mixed and the material is not separated It is about the invention to provide a bridge infrastructure.

In general, the well hole method is used for the foundation of the pier, and the well caisson is fixed at the position where the pier is to be installed, and the bottom of it (the sea bottom in the sea, the bottom of the river in the river) is excavated. The caisson is settled to a predetermined depth to excavate the soil inside, and the space is filled with concrete to be filled. However, when pouring concrete in water, the concentration of cement is diluted by mixing with seawater or fresh water. In order to prevent this problem, defects are caused by the weakening of the viscosity or the separation of concrete materials such as gravel, sand, cement, etc., in order to prevent this problem, an expensive admixture is added to the concrete and other underwater concrete. The technique is used a lot, but at shallow depths, you can simply hold the pilings by hitting piles of steel, In order to install the piers at the depth of water, a large number of large circular cells are manufactured separately on land, and they move to the place where the piers are to be installed by using a heavy seabed, etc., and the sand is filled inside. Then, the temporary barrier work was carried out, and the interior of the piers was built by creating a dry environment such as land by pouring out the water inside the temporary barrier work.

As described above, when concrete is poured in water, the concentration of cement is diluted and the slump value is lowered. Therefore, the strength is weak and the structure of the concrete foundation structure is not uniform. When the piers foundation is installed by using the clogging method, the strength of the foundation structure can be maintained because the work is carried out in a land-like environment by digging out water. It takes a lot of work manpower and enormous air and air expenditures, and there is a problem that can cause danger in the high tidal wave and rapid tidal current for offshore construction.

1 is a state in which the sewage of the lower part of the well caisson is collected and submerged the well caisson below the ground surface

2 is an exemplary view showing a state in which the reinforcing bar reinforced in the well bucket

Figure 3 is a partial illustration of the load between the reinforcement skeleton and the reinforcement skeleton reinforced bag to be carried out according to the present invention

Figure 4 is a state diagram for opening the opening of some bags after drawing concrete for each bag carried out in accordance with the present invention and withdrawn to the upper side

5 is a state diagram of the well caisson of the concrete pouring completed by removing the bag carried out in accordance with the present invention

6 is a partial schematic view showing a state in which the binding line is tied to the bag to be implemented in accordance with the present invention

<Code Description of Main Parts of Drawing>

1. Well Cistern 2. Rebar Frame

3. Sack 4. Wrinkles

5. Opening 6. Concrete

7. Water 8. Knot

9. Binding line

The present invention is an invention devised to provide a high-quality pier foundation by preventing concrete from being mixed with water while concrete is placed in the water without the construction of temporary curtains, and is not diluted or separated by water. The configuration of the invention will be described below with reference to the accompanying drawings.

As shown in the drawing, the sewage well caisson (1) made separately is settled in the seabed or in the bottom of the position where the foundation of the pier is to be installed, and the soil of the lower part is crushed by blasting, etc. The pumping caisson 1 is lowered to a predetermined depth by repeating the pumping using pressure water, etc., and the positioning work of the well caisson 1 for pier foundation installation is finished. The produced reinforcing bar frame 2 is vertically charged and settled in the well caisson 1, and in the space between the transverse bar 2a and the longitudinal bar 2b of the enclosed bar frame 2, The sack or the like implemented in the present invention, and the bag 3 of the same length as the well caisson (1) depth is charged in the vertical direction, wherein the bag 3 is not torn well and has durability Made of materials such as synthetic fiber It is slightly longer than the width of the well caisson (1) from the upper side to the bottom side and slightly wider than the width of the transverse reinforcing bars (2a) and longitudinal reinforcing bars (2b), the hollow hemp is inserted between the reinforcing frame (2) When inserting, the pleats (4) are interposed between the reinforcing bars in the state in which the pleats (4) are easy to insert, and the openings (5) are formed at the bottom end of the bottom side, and the end is easily released by simply pulling the end from the upper side. A bag (3) made of a known knot (knot identical to the rice sack tip end sealing portion) 8, sealed with a tie line 9, and extending the tie line 9 to the upper side of the well caisson 1 above. And a plurality of bags 3 having such a structure are inserted. For each bag 3 inserted as described above, when the concrete 6 is poured through the opening of the tip of the bag 3, the bag 3 is inserted. When the concrete 6 in the bag 3 is filled from the bottom of the bag The water 7 in the well caisson 1 is pushed upward by the pressure, the water 7 is discharged to the outside of the well caisson 1 by the pressure. When placing the concrete 6 in each bag 3, almost no water 7 remains in the well caisson 1 by the expanded bag 3, and at the bottom end of the bag 3, The bottom end of the bag (3) is opened by pulling each sealed line 9 above the well caisson (1), so that only the concrete (6) filled in the bag (3) is inside the well caisson (1). When the bag (3) with the opening (5) is opened to the upper side of the well caisson (1) to take out, the withdrawal while forcibly injecting a large pressure between the bag (3) and the bag (3) Underwater pier concrete carried out in accordance with the present invention by making it easier to withdraw The base end is formed.

As described above, the present invention forms a foundation for the pier in the water state with water 7 without constructing the temporary curtain, thereby preventing the enormous work force, aerobics, and waste of air due to the temporary barrier, and expensive admixtures. Since it is possible to significantly reduce the construction cost since no addition, etc., the viscosity due to the decrease in the concentration of cement due to mixing with the water (7) does not decrease, or separation of concrete (6) materials such as gravel, sand, cement, etc., does not occur. The structure of the concrete foundation has the effect of forming a bridge foundation having uniform and necessary strength.

Claims (1)

In the underwater piers foundation forming method in which concrete is poured while water (7) is stored inside the well caisson (1) among the well bases used in the foundation of the pier, each of the reinforced steel frame (2) A separate bag 3 is charged in each space between the horizontal bar 2a and the vertical bar 2b, the concrete 6 is poured into the loaded bag 3, and the concrete 6 is poured to a predetermined height. When each of the binding lines (9) bound to the bag (3) is pulled out to let the concrete (6) is discharged into the well caisson (1), the bag (3) is made of a material such as synthetic fiber with durability It has a width slightly longer than the length from the upper side to the bottom side of the well caisson (1) and slightly wider than the space width between the longitudinal reinforcing bars (2b) and the longitudinal reinforcing bars (2b). Pulling out the opening 5 and pulling out the binding line 9 which binds the end, the binding is easily loosened. Is sealed with a knot (8), and that the binding wire (9) based on formation process water pier which the one end extends to the upper right hayeoseo bucket caisson (1).