KR101159193B1 - Fundation gravel sinking apparatus of sea-bottom for harbor fabric construction - Google Patents

Abstract

PURPOSE: A device for sinking a riprap foundation to a sea bottom for constructing a harbor structure is provided to reduce power consumption by tamping foundation riprap through the driving force of a tamping plate. CONSTITUTION: A device for sinking a riprap foundation to a sea bottom for constructing a harbor structure comprises a work vessel, a tamping cylinder, a drive plate(30), a ring-shaped tamping plate(40), and a tamping guide plate(50), and an underwater camera. The tamping cylinder is vertically positioned at the work vessel and ascends and descends the drive plate. The drive plate is installed inside the tamping guide plate and is driven by the tamping cylinder. The tamping plate tamps a riprap foundation. The tamping guide pipe guides the tamping motion of the tamping plate. The underwater camera is installed in the edge of the tamping guide plate.

Description

FUNDATION GRAVEL SINKING APPARATUS OF SEA-BOTTOM FOR HARBOR FABRIC CONSTRUCTION}

The present invention relates to a basic sandstone sinking device of the sea floor for the construction of a harbor structure, and more particularly, to compact the groundwater foundation for the construction of a breakwater or a fish farm while simultaneously compacting a large area and performing a substantially compacting operation. It is possible to compact only by driving, and it is related to the basic basin sinking device of the sea floor for the construction of the port structure to make the compaction movement stable.

The foundation work of the sea floor, which is carried out as foundation work in the construction of all port structures including breakwaters and water docks, is a very important prerequisite for the robust construction of the port structures by putting the foundation stones and sinking them.

In particular, since most of the port construction sites in Korea have deeply depleted clay layers, the foundation work of the sea bottom is inevitable in order for the port structures to perform their functions safely.

Basic work is divided into dredging work of marine clay layer and filling and compacting work of sandstone.

Dredging work is to remove the marine clay layer on the sea floor where the structure is located by using the dredger to a predetermined depth.

In addition, the caisson is installed on the settled foundation stone thus settled, and concrete is placed on the caisson to secure a water tank and the like.

In order to select the foundation stone of the conventional marine port foundation construction, the scaffold frame is installed on the upper part of the foundation stone with wood or angle, and the diver selects the manpower while pushing the steel pipe pipe between the scaffold frames. While holding the surveying station, the level box on the land or the sea crane is used to install the three-dimensional box-shaped organizer frame at the position to be selected. The blades were powered by a power motor from an underwater motor. Such a conventional device and construction method is difficult to secure the clock at a depth of more than 15m, the safety problems, due to the large amount of divers, the divers are difficult to work in the right position in the event of severe algae, because the surveying station is long and shakes on the algae Difficult to secure, so picking performance cannot be accurately measured. In addition, even when using the frame, the large weight of marine crane is required for its movement, so the work cannot be carried out continuously, and there is a problem in that separate removal work is required when there are a lot of foundation stones in front of the blade. have.

In order to solve the problem caused by the manual operation of the diver has been proposed a technique for mechanically compacting the bottom base.

The compacting construction of the foundation stone of the underwater structure is equipped with a marine crane is installed on the ship, the end of the marine crane is equipped with a vibro hammer that generates continuous vibration by mechanical operation, the vibration hammer The compaction rod is vertically installed so that the foundation stone mound can be compacted by continuous up and down movement of the compaction rod by the operation of the vibration hammer.

Conventional mechanical foundation compaction technology, there is a domestic registered utility model No. 20-0188092, Korean Patent Publication No. 10-2001-0063740.

The Korean Utility Model Utility Model No. 20-0188092 includes a body portion formed by interconnecting a plurality of buoys formed of cylindrical rods having flanges at upper and lower ends, respectively, by flanged joints. It is formed by interconnecting the beams with flange joints, the buoys formed on both sides of the intermediate portion of the "H" beam, the compaction plate portion is formed on the lower end side of the body portion, Korean Patent No. 10-2001-0063740 In the prior art, in submerging the foundation stone in the dredging work, provided with a hydraulic hammer device having a hydraulic hammer and a hammer guide on the dredger, and the steel pipe hit by the hammer vertically interlocked with the hammer guide, On the lower end of the steel pipe, the foundation stone sinking compaction plate integrally and widely formed, the prior art is applied to the foundation stone mound during compaction construction The compaction force of the compaction rod is excellent, but the weight of the compaction rod is reduced to buoyancy so that compaction construction can be easily performed (prior art 1), or the basic stone is built and the settlement and compaction work are performed at the same time. Easily completed, this greatly shortens the construction period as compared to the conventional means of leaving the load for a long time by using the load of the loading block, and greatly reduces the construction cost, and also generates settlement before mounting the caisson. By eliminating the use of a standard framework for normal management, such as the alignment of normals, the caisson normal management is easy and excellent construction property and stability are secured according to this (prior art 2). Because of the weak force, structures such as breakwater and water lifts There is a weak issue.

In addition, in the case of the prior art 2, the portion which substantially compacts the foundation is a compaction plate, but there is a problem in that a large power is required for the compaction movement of the steel pipe because the entire steel pipe is compacted together with the compaction plate (up and down movement).

In addition, although the hammer is compacted through the hammer guide, the distance between the hammer and the compaction plate is considerably far, and the compaction plate is unstable because the compaction motion of the compaction plate is unstable.

In addition, since the compaction plate compacts only the lower part of the foundation by lowering movement, a large tremor occurs during compaction, and thus there is a problem in that the adverse effect of dispersing the historic site is caused during compaction.

Korea Utility Model Registration No. 20-0188092 Republic of Korea Patent Publication No. 2001-0063740 Republic of Korea Patent No. 10-0339036

The present invention is to solve the problems as described above, while compacting the base of the sandstone for the construction of breakwater or water paddles at the same time to compact a large area, can be compacted by driving only the portion to perform the compaction operation. The purpose is to provide a subsurface basin subsidence device for the construction of a harbor structure that allows the movement to be stable.

Basic basin sinking device of the sea floor for the construction of a harbor structure according to the present invention, the working ship floating on the sea; A compaction cylinder mounted on the work line, the rod reciprocating up and down by the pressure of the fluid; A compaction guide tube detachably installed at the work line and having a guide hole therein; A compaction plate mounted on the circumferential portion of the compaction guide tube and provided with a plurality of permeation holes in a shape in which a water passage area is widened upwardly; Driven to be mounted to the inside of the compaction guide pipe while being connected to the rod and the compaction plate of the compaction cylinder through a connecting member, forcibly lifting the compaction plate by the compaction cylinder to compact the base of the dead stone It includes a plate, the circumference of the compaction guide tube is formed with a plurality of lifting guide holes in communication with the outside at regular intervals along the circumferential direction, the connecting member is penetrated through the lifting guide hole to be elevated It is characterized in that the upper and lower parts are rotatably connected to the driving plate and the compaction plate, respectively.

According to the base sandstone sinking device of the sea floor for the construction of the harbor structure according to the present invention, the compaction guide pipe is fixed and the compaction board is compacted by the guided guide pipe while descending, the compaction board, Compaction drive through the driving force is less than the compaction movement of the entire compaction guide tube, it is possible to miniaturize the equipment and to reduce the cost of reducing the power consumption.

In addition, since the compaction plate is guided at the portion (lower portion of the compaction guide tube) where the compaction operation is performed, the compaction operation of the compaction plate is performed normally, thereby firmly compacting the basic dead stone part.

In addition, since the compaction plate is twisted with the descending to firmly compact the stones, the foundation of the sandstone can be firmly established, and as a result, the structure of the breakwater or the water cage can be stabilized.

Figure 1 is a front view of the state of use of the basal stone sinking device of the sea floor for the construction of the harbor structure according to the present invention.
Figure 2 is an exploded perspective view of the compaction guide tube and the compaction plate applied to the base sandstone sinking device of the sea floor for the construction of the harbor structure according to the present invention.
Figure 3 is an operating state diagram of the compaction plate applied to the basic basin sinking device of the sea floor for the construction of the harbor structure according to the present invention.
Figure 4 is another exemplary view of the compaction plate applied to the base sandstone sinking device of the sea floor for the construction of the harbor structure according to the present invention.

As shown in Figures 1 to 3, the basic basin sinking device of the sea floor for the construction of the port structure according to the present invention, the working line 10, compaction cylinder 20, compaction cylinder 20 floating on the sea Compaction guide for guiding compaction movement of the compaction plate 40 and the compaction plate 40 of the ring-shaped compaction plate 40 which compacts by means of the driving plate 30 and the driving plate 30, which are driven by the compaction movement. It consists of a tube 50.

The work vessel 10 has a space in which the above-described configurations are mounted and may be any vessel towed by its own power or towing vessel.

The compaction cylinder 20 is erected on the work line 10 so that the rod 21 faces downward through the frame 11, and the rod 21 moves in both directions (up and down) by hydraulic pressure so that the driving plate ( Raise 30).

The driving plate 30 is mounted to the inside of the compaction guide tube 50 to be elevated and connected to the rod 21 of the compaction cylinder 20 through the connecting rod 22 to be elevated by the power of the compaction cylinder 20. .

The driving plate 30 is rotatably connected in place through a bearing or the like at the end of the connecting rod 33 so that the compaction plate 40 moves up and down.

The compaction plate 40 is mounted to the periphery of the compaction guide tube 50 while being connected to and driven through the driving plate 30 and the plurality of connecting members 31, and the compaction guide tube as the driving source. With the guidance of (50), ascend and descend to pave the base of the stone foundation (1).

The compaction plate 40 is provided with a plurality of water passages 41 to reduce the water pressure during the compaction movement. Passing hole 41 is formed in a size that does not pass through the sandstone base portion 1, and also to allow the seawater to quickly pass to the top for the rapid descending of the compaction plate (40).

Compaction guide tube 50 is a tube with a guide hole 51 formed therein, is installed through the clamp 12 to the working line 10, except that the depth of the seawater from the sea basal foundation 1 is different. It may be installed to be height-adjustable or a structure in which a plurality of unit pipes are connected through a flange. The guide hole 51 is a hole in which the connecting rod 22 and the driving plate 30 are accommodated, and also serves to prevent the compaction guide tube 50 from being floated by the seawater.

The compaction guide tube 50 guides the compaction movement of the compaction plate 40 and is formed with a twisted hole 52 in which the connecting member 31 of the driving plate 30 is accommodated, and the compaction plate is driven by the driving plate 30. 40 to compaction exercise.

Twist hole 52 is formed in a spiral so that the compaction plate 50 can be elevated and twisted, the lower end may be opened for the installation of the drive plate 30 and the compaction plate (40).

The compaction guide tube 50 guides the compaction of the compaction plate 40, and the compaction plate 40 compacts by pressing and pressing the sandstone foundation 1 and the compaction guide tube 50 has a lower portion of the foundation stone ( Since buried in 1) will be effective for compaction of the compaction plate 40, a sharp portion 53 may be formed at the bottom of the compaction guide tube 50 so as to be lodged in the base stone foundation 1.

4 illustrates another example of the compaction plate 40, wherein the compaction plate 40 is between the cross frame 42 and the cross frame 42 connected to the driving plate 30 through the connecting member 31. It consists of a plurality of unit compaction plate 43 coupled to.

Therefore, the maintenance cost can be reduced by selecting and replacing only the unit compaction plate 43 that needs to be replaced among the plurality of unit compaction plates 43. For example, the unit compaction plate 43 is interposed between the cross frame 42 and both sides are detachably fixed to the cross frame 42 through a plurality of fasteners 44.

Settling method using the basic bottom stone sinking device of the sea floor for the construction of the harbor structure according to the present invention is as follows.

For the construction of structures such as breakwater or a fish farm, the bottom of the seabed is first dredged using an excavator, etc., after the sandstones are laid in the dredged space, the foundation is constructed.

In the present invention, the underwater camera 60 is applied so that the compaction plate 40 and the sandstone foundation 1 can be visually checked from the work line. The underwater camera 60 is installed so as not to interfere with the compaction plate 40 at the periphery of the compaction guide tube 50, and the cable is wired to either the outside or the inside of the compaction guide tube 50. Therefore, the adjustment chamber of the work line 10 is equipped with a monitor which shows the image photographed by the underwater camera 60. FIG.

The sinking work of the sandstone foundation 1 using the present invention is as follows.

When the compaction guide tube 50 is installed so that the sharp part 53 of the compaction guide tube 50 is lodged in the base stone foundation 1, and the rod 21 of the hydraulic cylinder 20 is driven to repeat the vertical movement, That is, when the fluid is repeatedly supplied in both directions of the hydraulic cylinder 20, the rod 21 is driven up and down repeatedly by drawing and inserting.

The vertical movement of the rod 21 of the hydraulic cylinder 20 is transmitted to the driving plate 30 through the connecting rod 22, and the driving plate 30 repeatedly moves up and down.

Up and down driving of the drive plate 30 is transmitted to the compaction plate 40 through the connecting member 31, in this case, the compaction plate 30 by the shape of the twist hole 52 for guiding the connecting member 31 It rotates while descending along the twist hole 52, and therefore, it vibrates while pressing the dead stone foundation 1.

Subsequently, the driving plate 30 and the compaction plate 40 are raised while moving in the opposite direction to the lowering time. While repeating the fall and rise as described above, firmly solidifies the foundation stone foundation (1).

The underwater camera 60 photographs the compaction movement of the compaction plate 40 and the sandstone foundation 1, and the image displayed by the underwater camera 60 is displayed on the monitor, and the operator looks at the monitor in the control room while the underwater working environment is displayed. By adjusting the compaction operation while compacting all parts of the base stone foundation 1 uniformly and firmly.

10: working ship, 20: hydraulic cylinder
30: drive plate, 31: connecting member
40: compaction plate, 41: water passage
42: cross frame, 43: unit compaction plate
50: compaction guide, 51: guide hall
52: twisted hole,

Claims (2)

A working ship 10 floating on the sea;
A compaction cylinder 20 installed on the work line through a frame 11 and having a rod 21 reciprocating up and down by a pressure of a fluid;
A plurality of unit pipes are connected, but a guide hole 51 is formed inside, while a sharp portion 53 is formed at a lower end thereof, and a plurality of spirals communicates with the outside of the guide hole 51 at a peripheral portion thereof. Twist hole 52 is a tubular shape formed at regular intervals along the circumferential direction, the compaction guide tube 50 is detachably installed on the work line;
A driving plate 30 rotatably mounted in the guide hole 51 of the compaction guide tube so as to be rotatably connected to the lower end of the rod of the compaction cylinder and lifted by the compaction cylinder;
It is a ring-shaped plate provided with a plurality of water passage holes 41 to increase the water flow area toward the upper portion, the drive through the connecting member 31 through which the twist hole 52 of the compaction guide tube can be twisted A compaction plate (40) connected to the plate and configured to compact the sandstone foundation while lifting and twisting together with the driving plate;
It is mounted to the outside of the compaction guide tube and includes a submersible camera 60 for photographing the compaction plate and the base of the sandstone to display on the monitor provided in the control room of the work line,
The compaction plate is composed of a cross-shaped frame 42 connected to the drive plate through the connecting member, a plurality of unit compaction plate 43 coupled between the cross-shaped frame, the unit compaction plate of the cross-shaped frame While the intervening between the two sides is fixed to the cross-shaped frame through the fasteners (44), the foundation of the bottom of the basin sinking device for the construction of the harbor structure, characterized in that the fixed structure. delete

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