KR100567738B1 - Open caisson construction method for the structures constructed over the water - Google Patents

Abstract

Disclosed is a technique for installing an open caisson for forming a foundation of an underwater structure.

Steel well bucket installation method of the underwater structure of the present invention is not possible to put a large well bucket lifting equipment that can lift the well in the existing river or river banks by dividing the body of the well to the construction site as many as possible weight Unlike the steel wells, which can be assembled and constructed by repeating the transporting process several times, steel wells, which are already assembled on land, are assembled in a water platform close to the river or the river, forming a complete steel well. It is related to the steel well bucket installation method of underwater structures, which can greatly reduce the number of transportation processes, save air, and improve workability by using easy buoyancy and small lifting equipment to transport to the sea construction location. .

Description

Open caisson construction method for the structures constructed over the water}

1A to 1E are diagrams sequentially illustrating a construction process of a conventional steel well base construction method.

Figure 2a to 2h is a view showing the construction process of the steel well bucket installation method of the underwater structure of the present invention sequentially.

3 is an enlarged view of a portion 'A' of FIG. 2B.

Figure 4 is a view showing a post pile of the steel well bucket installation method of the underwater structure of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: casing pipe 110: post pile

111: reinforcement plate 200: water platform

210: guide roller 300: steel well bucket

310: steel formwork for floor order 400: lifting equipment (small scale)

The steel water tank installation method of the underwater structure of the present invention, when the steel water tank construction method in rivers or rivers, the steel water tanks that are already assembled in large part on the land is completed by the water work platform close to the river or river lands to complete the steel water tanks After forming, by using buoyancy and small lifting equipment, it can be easily transported to the sea construction location, which greatly reduces the number of transportation processes, saves air, and installs steel wells for underwater structures with improved construction properties. It is about.

Open caisson foundation construction method, which is constructed with foundation structures such as bridge piers or quay walls, is a foundation method with large bearing capacity and horizontal resistance, and is used for deep foundations. Assembled in the field and dried in the well assembly, transported and settled the dried well assembly to the pier installation position to excavate the earth and sand of the inner bottom of the well assembly at the same time by the weight or loading load of the well It is a method of building a foundation structure by submerging to a depth to fix the steel well assembly on the rock, and filling the filling concrete inside the well assembly.

The wells used in the foundation of the wells are made of round or oval cross-sections on the piers and rectangular cross-sections on the inner walls, and the wells that are frequently used are made of steel. Cylindrical steel structure, the diameter of 12m ~ 15m, the height of the 3m, 4m, 5m of the wells made by connecting the assembled units are used.

Since the steel well is installed in the water, the truss structure is integrally welded to support the water pressure while forming a space part between the inner and outer steel sheets at a distance of 1 to 2 m, while the lower steel well is installed for the bottom end. The inner and outer steel plates are integrally connected at the lower end to form a space therebetween to receive buoyancy in the water, and a curve shoe is padded to protect the ends during subsidence.

Such a cylindrical steel well is approximately 12-15 m in height and is connected and assembled at the same time on land to be transported to the installation location of the piers are installed.

The conventional 'water well foundation method' constructed by the steel well assembly as described above is to produce the steel well assembly (A) all at once from the ground and transported to the foundation installation position of the piers, as shown in Figure 1a, After filling the concrete 1 with the space between the inner and outer steel plates of the steel well, it is settled and mounted on the lower bed (a). Then, as shown in FIG. 1B, the upper end of the steel well exposed to the surface of the water well The steel well barrel assembly (A) and the concrete wall (C1) are integrally formed by placing the reinforcement assembly and the formwork at a certain height in order to pour the concrete.

Thereafter, as shown in FIG. 1C, the bottom bottom of the well assembly is excavated to settle the concrete steel well assembly A, and then, as shown in FIG. 1D, above the concrete wall C1. Connect the concrete wall (C2) again and repeat the work of excavating the soil layer (S) and the soft rock layer (R) on the bottom of the inner lower floor step by step to settle the concrete steel well assembly (A) to the required settlement depth and rock After settling on, the submerged concrete 2 is poured into the inner lower side of the settled concrete steel well assembly A and sealed, and the water contained thereon is drawn out.

Thereafter, as shown in FIG. 1E, after filling the internal space of the drainage well assembly A with sand, gravel or filling concrete 3 to build a concrete steel well foundation structure, the concrete At the upper end of the steel well basin, the construction was integrally performed with the cap concrete 4 of the pier to form the foundation concrete portion F, and the pillar concrete portion P of the pier was constructed on the conventional method. .

As described above, the conventional steel well hole method requires a large lifting device capable of transporting the steel well barrel, which has been assembled on land with a height of approximately 12 to 15 m as described above, to be transported to the construction position. Required.

However, in a narrow place such as a river or a river, it is impossible to input a large lifting equipment that can carry a completed steel well, so that the steel well can be divided into several assemblies as much as possible weight and transported to the construction site. Will be installed. Therefore, such a conventional installation method has a problem that it is inefficient in construction work, such as the process is cumbersome and the air period is prolonged and the construction cost is increased by having to repeat several transport processes.

The steel well barrel installation method of the underwater structure of the present invention devised to solve the above problems is completed when the steel well barrel construction method in rivers or rivers, the steel well barrels are already pre-assembled in a large portion on the water or near the river or river shores After forming a complete steel well, it can be easily transported to the construction position of the sea by using buoyancy and small lifting equipment, which can drastically reduce the number of transportation processes and save air, and improves the workability. The purpose is to provide a steel well installation method for underwater structures.

The steel well bucket installation method of the underwater structure of the present invention to achieve the above object is (a) after excavating the casing pipe in the water after arranging the sandstone to a certain depth from the water surface to the bottom of the river or the river, close to the land. Inserting a post pile into the casing pipe to fix it to the seabed and drawing the casing pipe; (b) installing a water platform on the water surface between the plurality of postfiles and postfiles installed as described above; (c) The steel formwork for bottom-ordering and the steel wells already assembled on the ground in the upper part of the above water work platform are completed and integrated with the water work platform, and then water is introduced into the lower part of the steel water tank to a certain height, so that the water work platform and the floor are in the bottom. Sinking the steel dies and the steel wells for the order down to the surface of the sand; (d) pumping the water in the steel well and raising the steel formwork and the steel well for the bottom order to move to the base installation position; (e) removing the steel formwork for the bottom order, placing the steel well at the foundation installation position and placing concrete in the steel well; And (f) raising the surface of the water platform to repeat the steps (c) to (e) to form the base of the water structure.

Steel well installation method of the underwater structure of the present invention is not possible to put a huge well lifting equipment in the existing rivers or rivers by splitting the well body by a plurality of wells as much as the weight that can be transported by repeating the transport operation several times to the construction site Unlike the assembly and construction of the buckets, the steel wells, which have been largely assembled on the land, are assembled in a water platform close to the river or the river, forming a complete steel well and then buoyancy and small lifting Easily transported to the construction location of the sea by using the equipment can significantly shorten the number of transportation processes and reduce the air and improves the construction, it is possible to achieve the above technical problem of the present invention by such a configuration Will be.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings. However, this is intended to enable those of ordinary skill in the art to more clearly understand and easily implement the present invention, and other technical features and advantages of the present invention other than the foregoing are described below. It will be more clearly understood by those skilled in the art through the description of the preferred embodiment according to.

Figure 2a to 2h is a view showing a sequence of the construction process of the steel well bucket installation method of the underwater structure of the present invention, Figure 3 is an enlarged view 'A' portion of Figure 2b, Figure 4 is underwater of the present invention The figure shows the post pile 110 of the steel well installation method of a structure.

Hereinafter, a preferred embodiment of the steel well bucket installation method of the underwater structure of the present invention based on the accompanying drawings.

Steel well container installation method of the underwater structure of the present invention is a suitable method where a large amount of lifting equipment is impossible due to the narrow of the city plant, such as rivers and rivers, first, the seabed from the water surface in the water near the land as shown in Figure 2a Arrange it in the past to a certain depth.

After excavating the casing pipe (100) to the sea floor using a barge (barge) is installed, the guide pipe is inserted into the casing pipe (100) by fixing the post pile 110 to the seabed ground and then the casing pipe Draw 100.

The drawn casing pipe 100 is moved to the next position using the pants, and the above operation is repeated to install the postpipe 110. At this time, the postpipe 110 is installed while navigating in the order of distant place close to the land. In addition, at this time, the postpipe 110 installed as described above has a reinforcement plate 111 installed therein, as shown in FIG. 4, thereby improving durability.

At this time, the post pile 110 is a support means of the water work platform 200, which will be described later, is located in the water near the land and excavated so that the water work platform 200 is also installed close to the land. Therefore, due to the post pile 110 is installed as described above is located within the working range of the lifting equipment 400 is located on the land by the steel well barrel already assembled in a substantial portion as described later ( 300 can be transported to the lifting equipment 400, such as a crane and the number of times of the transport process is significantly shortened to reduce the air and improve the construction.

In addition, the lifting equipment 400 used at this time is smaller than that of the large-scale lifting equipment used in the existing steel well construction method and is a small one that can be easily introduced into a river or a river.

As shown in Figure 2b is installed on the water surface 200 between the plurality of post pile 110 and the post pile 110 is installed as described above.

At this time, it is preferable to install the water work platform 200, which is divided into four parts in consideration of the safety during lifting work. That is, when performing the lifting operation using the lifting equipment 400, such as a crane, the water platform 200 divided into four parts can be moved to the construction position more easily, so that it is easy to transport and handle, and safety when lifting This is secured.

In addition, the water surface workbench 200 divided into four parts as described above is to bear the buoyancy of 130 tons per one of the water work platform 200 assembly, the water work platform 200 is assembled by the installation of one water work platform 200 Will be achieved.

In addition, since the air valve and the air suction port is mounted inside the above water work platform 200, when the water work platform 200 is raised as described below, the water surface is more easily raised. In addition, as shown in FIG. 3, the guide roller 210 is attached to the water pile 200 in contact with the post pile 110, so that the water bench 200 is more easily along the outer circumferential surface of the post pile 110. It is moved up and down.

As shown in FIG. 2C, the steel formwork 310 for bottom order is installed on the waterborne work platform 200, and the steel well barrel 300 is positioned at the upper portion thereof.

At this time, the steel well (300) is already lifted into the lifting equipment 400 located on the land as a steel well (300) that is prefabricated in a substantial portion of the land is located on the water work platform (200). Therefore, unlike the existing river or river, it is impossible to insert a large amount of lifting equipment, so that the main body of the well is divided into several parts by the weight that can be transported, and the transportation work is repeated several times until the construction position. By assembling the steel well (300) assembled in large part on the land in the water work platform (200) close to the river or river on the ground to form a complete steel well (300) by dramatically reducing the number of times of the transport process and air Save.

In addition, the steel well 300 is installed as described above is fully assembled in the upper water work platform 200 is integrated with the water work platform 200 with a fixed wire together with the steel formwork 310 for the bottom order. Afterwards, the height of the lower part of the lower part of the steel well (300) in order to prevent falling and safety by other external causes such as the wind and flood of the steel work form (310) and the bottom-order steel formwork (310) and the steel well (300) Water is introduced into the sink to the integrated water surface workbench 200 and the bottom form steel formwork 310 and the steel well 300 to the bottom of the surface of the sandstone cleanup. Therefore, the steel well 300 as described above is more easily floated on the water surface by buoyancy (浮力) and the fall prevention and safety is secured.

In addition, although not shown in the drawing, the upper end of the steel sheet for the bottom order 310 is installed with a steel well pedestal so that the bottom between the steel formwork 310 and the steel well 300 is firmly connected and any gaps are generated. It is not high degree of ordering.

As shown in FIG. 2d, the water inside the steel well 300 is pumped and the bottom form steel die 310 and the steel well 300 are raised to move to the basic installation position. At this time, the lifting equipment 400 for moving the floor order steel formwork 310 and the steel well barrel 300 is a small lifting equipment that can be put into a river or riverside instead of a large lifting equipment that was required by the existing steel well construction method. 400, by using the small lifting equipment 400 and buoyancy (바닥 浮 보다) to move the bottom order steel formwork 310 and the steel well 300 to the base installation position more easily.

As shown in FIG. 2E, the bottom formwork steel formwork 310 is removed, and the steel well barrel 300 is disposed at a foundation installation position. At this time, along with the steel formwork for the bottom order 310 is also removed along the steel well base. Then, the concrete is poured into the steel well (300), the foundation position is measured according to the steel well (300) settled, and the steel well (300) is correctly positioned and finally settled.

As shown in FIG. 2F, air is introduced into the air suction port installed in the water platform 200, and the water platform 200 is raised while discharging the internal water using an air valve. At this time, the water work platform 200 is attached to the guide roller 210 in contact with the post pile 310 as described above, the water work platform 200 is moved up and down more easily along the outer circumferential surface of the post file 110 do.

As described above, by installing the steel formwork 310 for the bottom order on the upper surface of the water work platform 200 raised to the water surface and by placing the steel well 300 on the upper portion of the water structure to form the basis of the water structure.

Steel well box installation method of the underwater structure of the present invention is not possible to put a large lifting equipment that can lift the well in the existing river or river banks by dividing the body of the well as many times as much as the weight that can be transported to the construction site several times Unlike the steel tanker, which was able to be assembled and constructed by repeating the transporting operation, the steel tanker, which was already assembled in large part on the land, was completely assembled in the water work platform close to the river or riverside to form a complete steel tank and then buoyancy ( By using small-scale lifting equipment that can be inserted into rivers and rivers or rivers, it can be easily transported to the construction site of the sea, thereby significantly reducing the number of transportation processes, saving air, and installing steel wells of underwater structures with improved construction. It is effective in providing the process.

Claims (4)

(a) In the water close to the river or river surface, after arranging the sandstone to a certain depth from the water surface to the seabed, excavate the casing pipe in the water, insert the post pile inside the casing pipe, and fix the casing pipe to the sea bed. The drawing step; (b) installing a water platform on the water surface between the plurality of postfiles and postfiles installed as described above; (c) The steel formwork for bottom-ordering and the steel wells already assembled on the ground in the upper part of the above water work platform are completed and integrated with the water work platform, and then water is introduced into the lower part of the steel water tank to a certain height, so that the water work platform and the floor are in the bottom. Sinking the steel dies and the steel wells for the order down to the surface of the sand; (d) pumping the water in the steel well and raising the steel formwork and the steel well for the bottom order to move to the base installation position; (e) removing the steel formwork for the bottom order, placing the steel well at the foundation installation position and placing concrete in the steel well; And (f) raising the surface of the water platform to repeat the steps (c) to (e) and forming the base of the water structure; Steel well installation method of the underwater structure including a. The method of claim 1, wherein an air valve and an air inlet are mounted in the water work platform, and the water work platform is provided with a guide roller at a portion adjacent to the post pile. The steel well of the underwater structure of claim 1, wherein a steel well bucket stand is installed at an upper end of the bottom order steel formwork, and the steel well support is removed together with the bottom order steel formwork in step (e). Bucket installation method. The method of claim 1, wherein the reinforcement plate is installed inside the post pile.

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