KR100647488B1 - Caisson for Pier Construction and Construction Method of Underwater Structure - Google Patents

Abstract

The present invention discloses a bridge construction caisson for constructing a foundation or bridge piers in a dry state in which a water milling application is installed on a lower side and water is drained therein, and a construction method of an underwater structure using the same.

The purpose of the present invention is to excavate only the minimum area during the construction of the riverbed structure, to shorten the air and to minimize damage to the riverbed natural environment.

To this end, the present invention is a plurality of panels having a buoyancy tank therein is combined in the well-known caisson provided with a watertight means at the bottom of the panel located on the bottom, to form an inclined surface on the bottom of the panel installed on the bottom And it is characterized in that to form a recess in which the water-tight tube is installed.

In addition, in the known method of installing a caisson on a bed, draining the water therein, and constructing a foundation or a pier in a dry state, the soil layer of the bed is flattened, and the caisson assembled on land is based on a pier. The process of submerging the soil layer of the lower layer to be constructed, the process of installing a plurality of piles on the ground where the caissons touch after removing the soil layer inside the caisson to reach the ground, Process of pouring leveling concrete, installing watertight tube at the inlet, lowering the protective plate, and injecting and expanding water or air into the watertight tube to block external water inflow; and draining the water inside the caisson; Excavate the ground inside the caisson to form a key at the bottom of the pier foundation, and construct the pier foundation and pier on the excavated ground. After installing the scour prevention hole to the process and, inside the lower side of the caisson it is characterized in that the step of clean up step, tosacheung around the pier foundation for dismantling the caisson.

Accordingly, the present invention excavates only the minimum area of the soil layer and the ground when installing the caisson and constructs the structure, and does not need to install other facilities other than the caisson, so that the air is greatly shortened and the cost is reduced, There are useful effects, such as minimizing damage.

Description

Cayson for bridge construction and construction method of underwater structure using same {Caisson for Pier Construction and Construction Method of Underwater Structure}             

1 is an explanatory diagram showing a construction process of a pier using a conventional caisson for pier construction.

Figure 2 is a block diagram showing a caisson for bridge construction according to the present invention.

Figure 3 is a perspective view of the main portion of the caisson for pier construction according to the present invention.

Figure 4a) to g) is an explanatory view showing the construction process of the underwater height using the piercing kinson according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: caisson 11: panel 12: buoyancy tank

13 inclined surface 14 recessed portion 15 rib

16: shield 17: long 18: bolt

19: watertight tube 20: bridge foundation 21: bridge

22: soil layer 23: ground 24: file

25 leveling concrete 26 scour prevention ball 27 protrusion

The present invention relates to a pier construction caisson and a method of construction of an underwater structure using the same, in particular, pier construction caisson for installing the foundation or piers in the dry state in which the water installation is installed on the bottom and drained the water therein and It relates to a construction method of the underwater structure using the same.

As is well known, the bridges constructed on the riverbed are constructed by the piers on the bridge foundations constructed on the river bed, and the superstructures of the bridges are constructed on the bridges, and the bridge foundations are constructed on the basis of piles or direct foundations. As such, the construction method of the bridge foundation has the disadvantage that the construction is difficult, precise construction is difficult and takes a long time because most of the work is done underwater.

Due to these problems, the applicant has installed a prefabricated structure in the water, and the interior of the building is in a dry state, and the caisson and construction method using the same can be constructed or repaired and reinforced foundations and piers. Repair applications) and patent registration No. 0368604 (name; watertight repair for pier) has been proposed as a number of invention, it is shown in Figure 1 attached.

According to this, the caisson 100 is to be coupled to each other to form a cylindrical or square cylinder, a plurality of panels 101, the bottom of the panel 101 is located at the bottom of the plurality of panels 101 watertight tube ( 102 is installed, and is coupled to the panel 101, the protection plate 103 is formed to protect the watertight tube 102, ascending and descending downwards, such a caisson 100 is installed on the bottom, watertight After the tube 102 is inflated to block the inflow of fresh water into the caisson 100, the water inside the caisson 100 is drained to become a dry state, and then a worker enters and establishes a pier 104. Or reinforcement.

However, when the caisson 100 is installed on the lower floor, the sedimentary layer 105 and the ground (below) must be installed before installing the caisson 100 for the stable installation and effective order of the caisson 100. In addition, the excavation range of 106) is expanded, and facilities for preventing the loss of soil have to be installed, such as delays in air, expansion of the excavation area, and damage to the riverbed's natural environment due to soil loss.

The object of the present invention is to allow construction by drilling only the minimum area during construction of the riverbed structure in view of the conventional problems as described above, pier construction caisson and underwater using the same to shorten the air and minimize damage to the riverbed natural environment To provide a construction method of the structure.

In order to achieve the above object, the present invention provides a well-known caisson having a watertight means at the bottom of the panel which is coupled to a plurality of panels having a buoyancy tank therein and is located at the bottom of the panel, which is installed at the bottom of the panel. We propose a caisson for pier construction, in which a concave part is formed to form a slope and a watertight tube is installed.

In addition, in the known method of installing a caisson on a bed, draining the water therein, and constructing a foundation or a pier in a dry state, the soil layer of the bed is flattened, and the caisson assembled on land is based on a pier. The process of submerging the soil layer of the lower layer to be constructed, the process of installing a plurality of piles on the ground where the caissons touch after removing the soil layer inside the caisson to reach the ground, Process of pouring leveling concrete, installing watertight tube at the inlet, lowering the protective plate, and injecting and expanding water or air into the watertight tube to block external water inflow; and draining the water inside the caisson; Excavate the ground inside the caisson to form a key at the bottom of the pier foundation, and construct the pier foundation and pier on the excavated ground. And in that the process characterized by the step of installing an anti-scour hole in the lower inside of the caisson and a circle and the step of dismantling the caisson, tosacheung around the pier foundation repair.

Accordingly, the present invention excavates only the minimum area of the sedimentary layer and the ground, and does not need to install a separate temporary facility for caisson installation or a facility for preventing soil loss, which shortens air and reduces costs, and minimizes environmental damage to the riverbed. .                     

Referring to the configuration and operation of the present invention as described above in detail as follows.

Figure 2 is a block diagram showing a caisson for pier construction according to the present invention, Figure 3 is a perspective view of the main portion of the caisson for pier construction according to the present invention.

The present invention is to assemble the caisson 10, such as cylindrical or square shape by combining a plurality of panels 11 having a buoyancy tank 12 therein, which is coupled to the lowermost of the plurality of panels 11 An inclined surface 13 having a wedge or " V " shape is formed at the bottom of the panel 11, and a recessed portion 14 in which a watertight tube 19 is installed is formed at the side of the inclined surface 13, and the panel ( 11) Install a protective plate 16 to protect the watertight tube 19 on the inner wall.

At this time, the protective plate 16 is formed with a long hole 17, the bolt 18 is inserted through the long hole 17 is fastened to the inner wall of the panel 11, the protective plate 16 is installed on the panel 11 In addition, the reinforcing ribs 15 are formed in the inclined surface 13.

The caisson 10 configured as described above is capable of sinking the caisson 10 by the inclined surface 13 at the bottom thereof, and the method of installing the caisson 10 and constructing the underwater structure will be described below.

4a) to (h) are explanatory views showing a construction process of underwater piers using the caisson for piers according to the present invention.

The method according to the present invention first flattens the soil layer 22 on which the caisson 10 is to be installed, and then sinks the caisson 10 assembled on land to reach the soil layer 22 in the water phase, and then the caisson. (10) The soil layer 22 inside is removed so that the caisson 10 reaches the ground 23.

At this time, since the inclined surface 13 is formed at the lower end of the caisson 10, even if only the soil layer 22 inside the caisson 10 is removed, the caisson 10 is settled by its own weight, and the caisson 10 The water is injected into the buoyancy tank 12 so as to increase the load, thereby promoting settlement.

In addition, after the plurality of piles 24 are installed on the ground 23 where the lower end of the caisson 10 touches, the leveling concrete 25 is poured and cured so that the piles 24 and the leveling concrete 25 are firmly attached. Then, after installing the water-tight tube 19 in the concave portion 14, the protective plate 16 is lowered, and then water or air injected into the water-tight tube 19 to expand and compress the caisson (10) by pressing the leveling concrete 25 ) Blocks the inflow of fresh water to the inside.

The protective plate 16 is to loosen the bolt 18 fastened to the inner wall of the panel 11, lower the protective plate 16 and then tighten the bolt 18 again to fix the protective plate 16, the protective plate 16 is a long hole (17) The length of the ascending and descending will be.

After doing this, the water inside the caisson 10 is drained by a pump to be in a dry state, and then in the dry state, the ground 23 is excavated in the caisson 10, but the center portion is deeper than the edges. Then, the foundation pier 20 and the pier 21 is constructed in the excavated ground (23).

In this case, a protrusion 27 is formed at the center of the lower end of the bridge foundation 20 corresponding to the deeply excavated center portion of the ground 23, and the protrusion 27 is to reinforce the bearing capacity for the earthquake. Or other tectonic shifts, such that the position of the pier 21 is prevented from being moved or tilted by the protrusions 27, and the excavation of the ground 23 and the construction of the pier foundation 20 and the pier 21 are performed. Since the inside of the caisson 10 is a dry state, the worker can enter the caisson 10 to proceed with the construction.

In addition, when the construction of the pier foundation 20 and the pier 21 is completed, the connection type scour prevention hole 26 is installed on the inner lower side of the caisson 10 to prevent the lower scour, and using the buoyancy tank 12 After lifting and removing the caisson 10 from, to restore the soil layer 22 around the bridge foundation 20 to complete the construction.

That is, the dismantling of the caisson 10 drains the water injected into the buoyancy tank 12 and injects air so that buoyancy is generated and the nozzle 26 connected to the high pressure pump 27 of the water phase is the caisson. The lower side of the (10), and by using the high pressure pump 26 to inject water or air from the nozzle 26, the frictional force is reduced to further promote the injury of the caisson 10.

As described above, the present invention can excavate only the deposition layer 22 and the ground 23 inside the caisson 10 without digging the sediment layer 22 and the ground 23 around the caisson 10 widely. There is no need for a separate provisional facility for installing the caisson 10 or a facility for preventing soil loss, and thus it is possible to drastically shorten the air and reduce the cost.

In addition, by adjusting the balance in the water during the installation and disassembly of the caisson 10, by appropriately using the weight and buoyancy, it is possible to prevent the inclination, it is possible to install and dismantle stable.                     

In addition, the present invention can be applied to the renovation of existing structures, as well as the construction of underwater structures, and in the repair and reinforcement work, it is possible to drastically shorten the air and reduce costs.

As described above, the present invention excavates only the minimum area of the soil layer and the ground during the installation and construction of the caisson, and does not need to install other facilities other than the caisson, so that the air is drastically shortened and the cost is reduced. There are useful effects, such as minimizing damage to the environment.

Claims (3)

In the known caisson 10 having a plurality of panels 11 having a buoyancy tank 12 therein is coupled and a watertight means is provided at the lower end of the panel 11 located at the lowermost side, It is provided on the inner part of the panel 11 and the concave inlet portion 14 in which the watertight tube 19 is installed between the upper end of the inclined surface 13 of the lower end of the panel 11 and the inner vertical surface of the panel 11 which are installed on the lowermost side. The caisson for piling construction, characterized in that it consists of a protective plate 16 to protect the watertight tube (19) up and down. delete In the known method of installing the caisson 10 on the bottom and draining the water therein, constructing the pier foundation 20 or the pier 21 in a dry state, Flattening the soil layer 22 of the lower bed and submerging the caisson 10 assembled on land to the soil layer 22 of the lower bed to be constructed with the pier foundation 20 or the pier 21, and the caisson 10; Removing the internal soil layer 22 so that the caisson 10 reaches the ground 23 and then installing a plurality of piles 24 on the ground 23 to which the caisson 10 touches, and a plurality of piles ( The process of pouring leveling concrete 25 on the ground on which 24) has been constructed, and installing the watertight tube 19 on the concave portion 14, lowering the protective plate 16, and then water or air on the watertight tube 19 Injection and expansion to block the inflow of external water, the process of draining the water inside the caisson 10, and the ground 23 inside the caisson 10 so that the projections 27 are formed at the lower end of the bridge foundation 20 And excavation of the pier foundation (20) and the construction of the pier 21, and installing the scour prevention hole (26) in the lower side of the caisson (10) A method of dismantling the sson (10) and the process of restoring the soil layer (22) in the vicinity of the foundation base 20, the construction method of the underwater structure using a caisson for piling construction.

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