KR20120117607A - Deep cement mixing equipment equipped with slime gathering facility and environmently friendly deep cement mixing method using the same - Google Patents

Abstract

The deep mixing treatment method according to the present invention selects the position of the soft ground to be strengthened and fixes the position of the helm ship 310 by using a surveying machine; Injecting the stirring rod 320 to a predetermined position while rotating the stirring blade 330; A floating soil collecting container 360 is installed on the sea floor; The hardening material is ejected to the hardening material jet port 340 and the stirring blade 330 is rotated and the stirring rod 320 is pulled up at a constant speed, and the floating soil conveying pump 380 is operated to operate the stirring rod 320. The floating soil coming up along the outer circumferential surface thereof is sucked into the floating soil suction device 350 and transported to the tow ship or the barge 390; When the lower end of the stirring rod 320 rises to a predetermined depth and the columnar cement column is completed, the ejection of the hardening material is stopped, the rotation of the stirring blade 330 is stopped, and the rising of the stirring rod 320 is stopped. And stop the operation of the floating soil pump (380); And after lifting up the floating soil collecting container 360 and the stirring rod 320, and moving the position of the driving vessel 310 to the position of the next soft ground to be strengthened.

Description

Deep Cement Mixing Equipment Equipped with Slime Gathering Facility and Environmently Friendly Deep Cement Mixing Method Using the Same}

The present invention relates to a deep mixing treatment equipment equipped with flotation soil collection equipment and an environmentally friendly deep mixing treatment method using the same. More specifically, the present invention is to provide a deep mixing treatment equipment equipped with a facility for collecting the floating soil generated in the conventional deep mixing treatment method and to minimize environmental pollution by using the same, and additional floating soil removal process is required To a deep mixing process that does not.

In the past, in order to install various structures such as roads, railroads, water tanks, quays, and lakes in connection with lakes, rivers, and seas, the internal friction angle is relatively large in the soft ground. Widely used sand compaction method and crushed compaction method to dig up granular sand or crushed stone to form columnar sand compaction pile or crushed compaction pile to quickly discharge pore water in soft soil to promote settlement and increase bearing capacity. Utilized.

However, in recent years, it has become difficult to obtain sand and crushed stone due to the depletion of natural sand and crushed stone resources. As an alternative method, a mixing plant facility that can mix hardening materials, such as cement, and water on the ships on the surface of the sea, river, lake, etc. Cement mortar is continuously supplied into the soft ground below the seabed and the stirring blade is rotated, or the stirring shaft is pulled out while mixing well with the soft soil in the ground by high pressure spraying to form a columnar cement column in the soft soil. The process, that is, the deep mixing process (DCM), high pressure spraying method and the like are widely used.

When the above-described method of forming a pile or continuous wall using a hardening material such as cement is applied to the sea bottom, the construction speed is fast and the strength is developed early, and thus the method is widely applied. However, in the above method, the cement particles coming up from the sea floor during the construction process are mixed with fine viscous or sandy soil (hereinafter referred to as 'floating soil') on the sea floor, and the sea surface near the construction site becomes cloudy and polluted. It is applied selectively according to the surrounding environment because the material has a problem of gradually spreading algae into the surrounding waters, destroying the habitat of the fish and degrading nearby fisheries.

In particular, considering the fact that the chemical composition of cement contains harmful constituents, such as fatal chromium that is fatal to the human body, has not been established in not only Korea but also Japanese academia, The application to the place can only be limited.

In addition, the floating soil accumulated on the top of the upper seabed of the cement pile or wall during the construction process is relatively small and inconsistent, so in order to remove it, it is dredged by a pump dredger or a grab dredger to dump it in the open sea such as a distant sea or separately. It should be dumped into the created dredged soil arena. However, in this process, the floating soil is hardened over time due to the hydration of the cement particles contained in the floating soil, so it must be removed quickly.

Figure 1 is a schematic diagram of a deep mixing process method 100 using a ship for conventional soft ground reinforcement. Referring to Figure 1, it can be seen that the floating soil generated during the stirring mixing process of the cement mortar and the ground soft soil discharged to the cement mortar injection nozzle 140 rises to the bottom surface or the sea surface along the outer circumferential surface of the stirring rod 120. As a result, the floating soil having a relatively large particle size accumulates on top of the columnar cement column, and the fine particles diffuse into the sea surface.

2 is a schematic diagram of a high-pressure spraying method 200 using a rudder crane on a barge for strengthening the conventional soft ground. Referring to Figure 2, it can be seen that the floating soil generated in the mixing process of the cement mortar and the ground soft soil discharged to the cement mortar high-pressure spray nozzle 240 rises along the outer circumferential surface of the high-pressure spray rod 230 to the sea floor or sea level In addition, floating soil having a relatively large particle size accumulates on the columnar cement column, and fine particles are diffused into the sea surface.

Floating soil generated in the process of performing deep mixing treatment method or high pressure spraying method using hardening materials such as cement as described above not only contaminates the surrounding environment, but also the strength of the accumulated floating soil itself is small and uneven. It is desirable to minimize the occurrence of it in the process of, and it is desirable to remove it before it is incorporated into the current as it occurs and diffuses into the neighboring waters.

Accordingly, the present inventors add the flotation soil collection equipment to the conventional deep mixing treatment equipment to immediately collect the floating soil generated in the process of performing the deep mixing treatment method, thereby preventing the environmental pollution of the adjacent water bodies due to the floating soil generation and It is to develop a deep mixing process equipment that does not require the flotation process and environmentally friendly deep mixing process using the same.

An object of the present invention is to provide a deep mixing equipment equipped with a facility for collecting the floating soil generated in the conventional deep mixing treatment method.

Another object of the present invention is to provide a deep mixing equipment equipped with a facility that can form a columnar cement column to reinforce the soft ground and at the same time collect floating soil generated in this process.

Another object of the present invention relates to a deep mixing process method that can minimize environmental pollution by using the deep mixing process equipment.

Another object of the present invention relates to a deep mixing process method that does not require a separate flotation process using the deep mixing treatment equipment.

Still another object of the present invention is to provide a high pressure spraying equipment equipped with a facility for collecting floating soil generated in the conventional high pressure spraying method.

The above and other objects of the present invention can be achieved by the present invention described below.

Deep mixing processing equipment according to the present invention is a stirring rod 320 is installed vertically on one side of the driving vessel 310, the stirring blade 330 integrally formed on the lower outer surface of the stirring rod 320 and the stirring rod ( In the deep mixing treatment equipment comprising a hardener jet hole 340 formed on the lower end of the 320, the floating soil collecting container 360 is wrapped around the stirring rod 320 and installed on the sea bottom; A floating soil suction device 350 installed at a side of the stirring rod 320 and sucking the floating soil in the floating soil collecting container 360; And a floating soil conveying pump 380 for sucking the floating soil through the floating soil suction device 350 and transferring the sucked soil to the ton ship or the barge 390.

In one embodiment of the present invention, to prevent the floating soil out of the floating soil collecting container 360, the upper portion of the floating soil collecting container 360 is the stirring rod 320 and the floating soil suction device 350 It is formed to pass through the bay, the lower portion of the floating earth collecting bin 360 is embedded in the sea bottom.

In one embodiment of the present invention, the floating earth suction device 350 includes a floating soil suction pipe 351 and a high pressure water supply pipe 352.

In one embodiment of the present invention, the high-pressure jet nozzle is installed in the lower or outlet of the high-pressure water supply pipe 352.

In one embodiment of the present invention, one side is connected to the floating soil collecting container 360 and the other side is connected to the leader supporting the stirring rod 320 or the stirring rod 320, the floating soil collecting container 360 And a wire rope 370 for moving the floating soil suction device 350 up and down.

In one embodiment of the invention, the floating earth suction pipe 351 is a flexible hose.

The deep mixing treatment method according to the present invention selects the position of the soft ground to be strengthened and fixes the position of the helm ship 310 by using a surveying machine; Injecting the stirring rod 320 to a predetermined position while rotating the stirring blade 330; A floating soil collecting container 360 is installed on the sea floor; The hardening material is ejected to the hardening material jet port 340 and the stirring blade 330 is rotated and the stirring rod 320 is pulled up at a constant speed, and the floating soil conveying pump 380 is operated to operate the stirring rod 320. The floating soil coming up along the outer circumferential surface thereof is sucked into the floating soil suction device 350 and transported to the tow ship or the barge 390; When the lower end of the stirring rod 320 rises to a predetermined depth and the columnar cement column is completed, the ejection of the hardening material is stopped, the rotation of the stirring blade 330 is stopped, and the rising of the stirring rod 320 is stopped. And stop the operation of the floating soil pump (380); And after lifting up the floating soil collecting container 360 and the stirring rod 320, and moving the position of the driving vessel 310 to the position of the next soft ground to be strengthened.

In one embodiment of the present invention, the floating soil collecting bin 360 so that only the stirring rod 320 and the floating soil suction device 350 pass through the floating soil out of the floating soil collecting container 360. Form the upper portion of the, using the self-weight of the floating soil collecting container 360, the lower portion of the floating soil collecting container 360 is driven to the sea bottom.

In one embodiment of the present invention, the floating soil suction device 350 includes a floating soil suction pipe 351 and a high-pressure water supply pipe 352, when sucking the floating soil with the floating soil suction device 350, The high pressure water is injected onto the floating soil through the high pressure water supply pipe 352, and the floating soil having the suspended state is sucked together with the water through the floating soil suction pipe 351 by the injected high pressure water.

In one embodiment of the present invention, by installing a high-pressure jet nozzle in the lower or outlet of the high-pressure water supply pipe 352 to inject high-pressure water in multiple directions.

In one embodiment of the present invention, by connecting the wire rope 370 to the leader supporting the floating soil collecting container 360 and the stirring rod 320 or the stirring rod 22, the floating soil collecting container 360 During installation and dismantling of the floating soil collecting container 360 and the floating soil suction device 350 is moved up and down.

In one embodiment of the present invention, further comprising the step of filtering or sedimenting the floating soil and water sucked into the floating soil suction device 350 in the tow or barge 390 and discharge the filtered water or supernatant to the outside .

The high-pressure spraying equipment according to the present invention is a high-pressure spraying rod 430 installed vertically on one side of the driving crane or boring drilling rig 420, the driving crane or boring drilling rig 420 placed on the edge of the barge 410. And a high pressure spraying nozzle 440 formed at a lower end of the high pressure spraying rod 430, wherein the floating soil collecting container 460 is wrapped around the high pressure spraying rod 430 and is installed on a sea bottom; A floating soil suction device 450 installed at a side of the high pressure injection rod 430 and sucking floating soil in the floating soil collecting container 460; And a floating soil transfer pump 480 for sucking the floating soil through the floating soil suction device 450 and transferring the sucked soil to the tow ship or the barge 490.

The deep mixing treatment equipment according to the present invention can immediately collect the floating soil generated in the conventional deep mixing treatment method, and the deep mixing treatment method according to the present invention can minimize environmental pollution and remove a separate floating soil removal process. I don't need it.

Figure 1 is a schematic diagram of a deep mixing treatment method using a ship for the conventional soft ground reinforcement.
Figure 2 is a schematic diagram of a high pressure injection method using a rudder crane on the barge for the conventional soft ground reinforcement.
Figure 3 is a schematic diagram of an environmentally friendly deep mixing treatment method using a marine vessel according to an embodiment of the present invention.
Figure 4 is a schematic diagram of an environmentally friendly high pressure spray method using a rudder crane or boring drilling equipment on the barge according to another embodiment of the present invention.
Figure 5 is a schematic diagram of a floating soil collection facility according to an embodiment of the present invention.
6 is a cross-sectional view taken along line II of the flotation soil collection facility shown in FIG.
Figure 7 is a schematic diagram of a floating soil collection facility according to another embodiment of the present invention.
FIG. 8 is a cross-sectional view taken along line II-II of the flotation soil collection facility shown in FIG. 7.
Figure 9 is a schematic diagram of a floating soil collection facility according to another embodiment of the present invention.
10 is a cross-sectional view taken along line III-III of the flotation soil collection facility shown in FIG.

Figure 1 is a schematic diagram of a deep mixing process method 100 using a ship for conventional soft ground reinforcement. Referring to Figure 1, it can be seen that the floating soil generated during the stirring mixing process of the cement mortar and the ground soft soil discharged to the cement mortar injection nozzle 140 rises to the bottom surface or the sea surface along the outer circumferential surface of the stirring rod 120. As a result, the floating soil having a relatively large particle size accumulates on top of the columnar cement column, and the fine particles diffuse into the sea surface.

2 is a schematic diagram of a high-pressure spraying method 200 using a driving crane or boring drilling rig on a barge for strengthening the conventional soft ground. Referring to Figure 2, it can be seen that the floating soil generated in the mixing process of the cement mortar and the ground soft soil discharged to the cement mortar high-pressure spray nozzle 240 rises along the outer circumferential surface of the high-pressure spray rod 230 to the sea floor or sea level In addition, floating soil having a relatively large particle size accumulates on the columnar cement column, and fine particles are diffused into the sea surface.

However, these flotation soils are contaminated with the surrounding environment, and their strength is small and uneven. Therefore, they should be minimized in the process of carrying out the process, and should be removed before they are incorporated into the ocean current and spread to nearby waters.

The deep mixing treatment equipment and the method according to the present invention can solve the problems as described above because it is collected immediately upon generation of floating soil.

Deep mixing processing equipment according to the present invention is a stirring rod 320 is installed vertically on one side of the driving vessel 310, the stirring blade 330 integrally formed on the lower outer surface of the stirring rod 320 and the stirring rod ( In the deep mixing treatment equipment comprising a hardener jet hole 340 formed on the lower end of the 320, the floating soil collecting container 360 is wrapped around the stirring rod 320 and installed on the sea bottom; A floating soil suction device 350 installed at a side of the stirring rod 320 and sucking the floating soil in the floating soil collecting container 360; And a floating soil conveying pump 380 for sucking the floating soil through the floating soil suction device 350 and transferring the sucked soil to the ton ship or the barge 390.

The deep mixing treatment method according to the present invention selects the position of the soft ground to be strengthened and fixes the position of the helm ship 310 by using a surveying machine; Injecting the stirring rod 320 to a predetermined position while rotating the stirring blade 330; A floating soil collecting container 360 is installed on the sea floor; The hardening material is ejected to the hardening material jet port 340 and the stirring blade 330 is rotated and the stirring rod 320 is pulled up at a constant speed, and the floating soil conveying pump 380 is operated to operate the stirring rod 320. The floating soil coming up along the outer circumferential surface thereof is sucked into the floating soil suction device 350 and transported to the tow ship or the barge 390; When the lower end of the stirring rod 320 rises to a predetermined depth and the columnar cement column is completed, the ejection of the hardening material is stopped, the rotation of the stirring blade 330 is stopped, and the rising of the stirring rod 320 is stopped. And stop the operation of the floating soil pump (380); And after lifting up the floating soil collecting container 360 and the stirring rod 320, and moving the position of the driving vessel 310 to the position of the next soft ground to be strengthened.

Figure 3 is a schematic diagram of a deep mixing method 300 environmentally friendly environment using a ship according to an embodiment of the present invention. 3, the stirring rod 320 installed vertically on one side of the driving vessel 310, the stirring blade 330 integrally formed on the lower outer surface of the stirring rod 320, and the lower end of the stirring rod 320. In the deep mixing treatment equipment comprising a hardener jet hole 340 formed in the, floating soil collecting container 360 is installed on the sea bottom while surrounding the circumference of the stirring rod 320, floating soil suction device 350 is the It is installed on the side of the stirring rod 320 and sucks the floating soil in the floating soil collecting container 360, the floating soil transfer pump 380 sucks and sucks the floating soil through the floating soil suction device 350. The floated floating soil is transferred to the ton ship or barge 390.

In the present invention, the driving vessel 310 may be appropriately substituted with all equipment for strengthening the soft ground that can be carried out by loading the driving crane, boring drilling equipment, etc. on the barge. In addition, the floating soil collection equipment according to the present invention is installed in the high pressure jet rod 430 instead of the stirring rod 320 and the high pressure jet nozzle 440 instead of the stirring blade 330 at the bottom of the high pressure jet rod 430 ) Can be easily applied to the method of mixing hardened materials such as cement with soft soil by high pressure injection method.

The high-pressure spraying equipment according to the present invention is a high-pressure spraying rod 430 installed vertically on one side of the driving crane or boring drilling rig 420, the driving crane or boring drilling rig 420 placed on the edge of the barge 410. And a high pressure spraying nozzle 440 formed at a lower end of the high pressure spraying rod 430, wherein the floating soil collecting container 460 is wrapped around the high pressure spraying rod 430 and is installed on a sea bottom; A floating soil suction device 450 installed at a side of the high pressure injection rod 430 and sucking floating soil in the floating soil collecting container 460; And a floating soil transfer pump 480 for sucking the floating soil through the floating soil suction device 450 and transferring the sucked soil to the tow ship or the barge 490.

Figure 4 is a schematic diagram of an environmentally friendly high pressure spray method using a rudder crane or boring drilling equipment on the barge according to another embodiment of the present invention. 4, the high pressure jetting rod 430 and the high pressure jet rod 430 vertically installed on one side of the driving crane or boring drilling rig 420 placed on the edge of the barge 410, the driving crane or boring drilling rig 420. In the high-pressure jetting equipment including a high-pressure jetting nozzle 440 formed on the lower end of the injection rod 430, the floating earth collecting container 460 is installed on the sea bottom while surrounding the circumference of the high-pressure jetting rod 430, floating The soil suction device 450 is installed on the side of the high-pressure jet rod 430 and sucks the floating soil in the floating soil collecting container 460, and the floating soil transport pump 480 is the floating soil suction device 450. Sucking the floating soil through the) and transport the sucked soil to the ton ship or barge 490.

In one embodiment of the deep mixing treatment equipment according to the present invention, the stirring rod 320 may be installed in plurality, for example, may be installed in 2, 3, 4, 5, 6, 7, 8 pieces. . 6 or 8, it can be seen that the stirring rod 320 is installed in four and the four stirring rod 320 penetrates the upper portion of the floating soil collecting container 360.

In one embodiment of the deep mixing treatment equipment according to the present invention, the stirring blade 330 may be installed in a plurality, for example, 2, 3, 4, 5, 6, 7 per one stirring rod 320 8, 9, 10 can be installed. In addition, the stirring rod 320 can be easily introduced into the soft ground, and the number, shape, length, angle, arrangement, etc. of the stirring blades 330 may be appropriately selected to easily mix the hardening material and the soft soil in the ground. Can be.

In the deep mixing treatment equipment according to the present invention, the hardener jet hole 340 is formed at the lower end of the stirring rod 320, it is preferable that the injection nozzle is installed in the hardener jet hole 340 so that the hardener can be effectively injected. . In addition, the hardening material sprayed into the hardening material outlet 340 includes cement, sand, water and the like as a main raw material.

In one embodiment of the high-pressure jetting equipment according to the present invention, the high-pressure jetting rod 430 or the high-pressure jetting nozzle 440 may be installed in plurality, for example, 2, 3, 4, 5, 6, It can be installed in 7, 8 pieces.

In the present invention, the floating soil collecting container 360 may have a shape such as a cylinder, a polygonal pillar, a truncated cone, or a combination thereof, and the floating soil collected on the bottom surface is collected along the outer circumferential surface of the stirring rod 320. Create a space to do it.

FIG. 5 is a schematic view of a floating soil collecting facility according to an embodiment of the present invention, and FIG. 6 is a cross-sectional view taken along line I-I of the floating soil collecting facility shown in FIG. 5. 5 and 6, it can be seen that the floating earth collecting bin 360 has a shape in which a small cylinder (upper) and a large cylinder (lower) are combined, and the floating earth collecting container 360 is placed on the sea bottom. It can be seen that it forms a space for collecting floating soil.

FIG. 7 is a schematic view of a floating soil collecting facility according to another embodiment of the present invention, and FIG. 8 is a cross-sectional view taken along line II-II of the floating soil collecting facility shown in FIG. 7. FIG. 9 is a schematic view of a floating soil collecting facility according to another embodiment of the present invention, and FIG. 10 is a cross-sectional view taken along line III-III of the floating soil collecting facility shown in FIG. 9. 7, 8, 9 and 10, it can be seen that the floating soil collecting bins 360 and 460 have a shape in which a small square pillar (upper) and a large square pillar (lower) are combined. It can be seen that 360, 460 is placed on the sea bottom to form a space for collecting floating soil.

In one embodiment of the deep mixing processing equipment according to the present invention, the floating soil collection bin 360, the upper portion of the floating soil collecting bin 360 to prevent the floating soil out of the floating soil collecting container 360, the stirring rod 320 and the floating It is formed to pass only the soil suction device 350, the lower portion of the floating soil collecting container 360 is embedded in the sea bottom.

In one embodiment of the deep mixing treatment method according to the invention, so that only the stirring rod 320 and the floating soil suction device 350 to pass through the floating soil out of the floating soil collecting container 360, An upper portion of the floating soil collecting container 360 is formed, and the lower portion of the floating soil collecting container 360 is driven to the sea bottom by using its own weight of the floating soil collecting container 360.

5 and 6, the upper portion of the floating earth collecting bin 360 is the stirring rod 320; And a floating soil suction device 350 formed of a floating soil suction pipe 351 and a high pressure water supply pipe 352, the upper part of which is sealed, and the floating soil collecting container 360 is embedded in the sea bottom. It can be seen that it is sealed, thereby forming a closed space for collecting floating soil.

7 and 8, the upper portion of the floating soil collecting container 360 is formed so as to pass only through the stirring rod 320 and the floating soil suction pipe 351, the upper portion is sealed and the floating soil collecting container 360 is It can be seen that it is embedded in the bottom of the sea and the bottom is sealed, thereby forming a closed space for collecting floating soil.

In one embodiment of the high-pressure spraying equipment according to the present invention, the upper part of the floating soil collecting container 460 is the high-pressure spraying rod 430 and the floating so that the floating soil does not escape to the outside of the floating soil collecting container 460 It is formed to pass only the soil suction device 450, the lower portion of the floating soil collecting container 460 is embedded in the sea bottom.

9 and 10, the upper portion of the floating soil collecting container 460 is formed so as to pass only the high-pressure injection rod 430 and the high-pressure water suction pipe 451, the upper portion is sealed and the floating soil collecting container 460 It can be seen that it is embedded in the sea floor and the lower part is sealed, thereby forming a sealed space for collecting floating soil.

In one embodiment of the deep mixing treatment equipment or high pressure injection equipment according to the present invention, the floating earth suction device (350, 450) includes a floating soil suction pipe (351, 451) and high pressure water supply pipe (352, 452). In addition, in one embodiment of the deep mixing treatment method or the high-pressure injection method according to the present invention, the floating earth suction device 350, 450 includes a floating soil suction pipe (351, 451) and high pressure water supply pipe (352, 452). When the floating soil is sucked into the floating soil suction device 350 or 450, the high-pressure water is injected through the high-pressure water supply pipes 352 and 452 onto the floating soil, and the floating state is floated by the injected high-pressure water. The soil is sucked with water through the floating soil suction pipes (351, 451). 5, 7 and 9, it can be seen that high pressure water is injected from the high pressure water supply pipes 352 and 452, and the floating soil and water move toward the floating soil suction pipes 351 and 451 along the arrow direction. Floating floating soil by spraying high pressure water on the floating floating soil, the floating soil is stagnated inside the upper portion of the floating soil collecting bins (360, 460) or exits to the outside of the floating soil collecting containers (360, 460) Can be prevented in advance.

In one embodiment of the present invention, the high-pressure water supply pipe may be installed on the side surface of the floating soil suction pipe 351 or the inner surface of the lower portion of the floating soil collecting container (360, 460), one or more, for example, 2, 3, 4, 5, 6, 7, 8, 9, 10 can be installed. Referring to FIG. 5, it can be seen that the high pressure water supply pipe is installed on one side of the floating soil suction pipe 351. Referring to FIGS. 7, 8, 9 and 10, the high pressure water supply pipe is the floating soil collecting container. It can be seen that four are provided on the inner surface of the lower portion (360, 460).

In one embodiment of the deep mixing treatment equipment or the high-pressure injection equipment according to the present invention, the high-pressure jet nozzle is installed in the lower or outlet of the high-pressure water supply pipe (352, 452). In addition, in one embodiment of the deep mixing treatment method or the high-pressure injection method according to the present invention, by installing a high-pressure jet nozzle in the lower portion or the outlet of the high-pressure water supply pipe (352, 452) to spray high-pressure water in multiple directions. By spraying high-pressure water in multiple directions through the high-pressure jet nozzle, floating floating soils can be effectively suspended simultaneously. Looking at Figure 5, it can be seen that the high-pressure injection line is installed in the lower portion of the high-pressure water supply pipe 352.

In one embodiment of the deep mixing treatment equipment according to the present invention, one side is connected to the floating earth collecting bin 360 and the other side is connected to the leader supporting the stirring rod 320 or the stirring rod 320, A wire rope 370 for moving the floating soil collecting container 360 and the floating soil suction device 350 up and down is provided. In one embodiment of the deep mixing process according to the present invention, by connecting the wire rope 370 to the leader supporting the floating soil collecting container 360 and the stirring rod 320 or the stirring rod 320, During installation and dismantling of the floating soil collecting container 360, the floating soil collecting container 360 and the floating soil suction device 350 are moved up and down.

When the wire rope 370 is connected to the stirring rod 320, the floating earth collecting bin 360 is raised or lowered according to the rising or falling of the stirring rod 320, the wire rope 370 is When connected to the leader installed on one side of the driving vessel 310, the floating earth collecting bin 360 moves independently from the stirring rod 320. 3, it can be seen that the wire rope 370 is connected to the stirring rod 320.

In one embodiment of the high-pressure spraying equipment according to the present invention, one side is connected to the floating earth collecting container 460 and the other side is connected to the leader supporting the high-pressure spraying rod 430 or the high-pressure spraying rod 430 The wire rope 470 is provided to move the floating soil collecting container 460 and the floating soil suction device 450 up and down. In one embodiment of the high-pressure spraying method according to the present invention, by connecting the wire rope 470 to the leader supporting the floating soil collecting container 460 and the high-pressure spraying rod 430 or the high-pressure spraying rod 430, When the floating soil collecting container 460 is installed and dismantled, the floating soil collecting container 460 and the floating soil suction device 450 are moved up and down.

When the wire rope 470 is connected to the high-pressure injection rod 430, the floating earth collecting container 460 is raised or lowered according to the rising or falling of the high-pressure injection rod 430, the wire rope 470 When connected to the leader is installed on one side of the driving crane or boring drilling 420, the floating soil collecting container 460 moves independently from the high-pressure jet rod 430. 4, it can be seen that the wire rope 470 is connected to the high pressure injection rod 430.

In one embodiment of the invention, the floating earth suction pipes (351, 451) is a flexible hose. In this case, the impact delivered to the floating soil suction pipes 351 and 451 may be absorbed when the deep mixing process or the high pressure spraying method is performed. The driving vessel 310 or the barge 410 may be absorbed by currents or waves. Even when the distance between the towboat or the barges 390 and 490 becomes narrow or further away, the problem that the floating soil suction pipe is ruptured or cut can be prevented.

In one embodiment of the present invention, the step of filtering or sedimenting the floating soil and water sucked into the floating soil suction device (350, 450) in the tow or barge (390, 490) and discharge the filtered water or supernatant to the outside It further includes. In this case, there is an advantage to recycle the floating soil or reduce the cost of transporting floating soil.

In the present invention, a GPS or an optical wave can be used as the measurement machine.

Deep mixing treatment equipment or method according to the present invention by the above application method is a variety of high-pressure injection injection method, that is, RJP (Rodin Jet Pile), JSP (Jumbo Special Pile), SRC (Slime Reused Column Jet Grout), FJS ( Free Jet System) can be usefully applied to all methods.

100: deep mixing treatment method using a conventional ship
110: drive ship 120: stirring rod
130: stirring blade 140: cement mortar injection nozzle
200: high pressure injection method using a conventional driving crane
210: barge 220: driven crane
230: high pressure jet rod 240: high pressure jet nozzle
300: deep mixing process for eco-friendly vessel
310: driving vessel 320: stirring rod
330: stirring blade 340: hardening material outlet
350: floating soil suction device 351: floating soil suction pipe
352: high pressure water supply pipe 360: floating soil collecting container
370: wire rope 380: pump for floating soil
390: tonboat or barge
400: Eco-friendly high pressure spraying method using driven crane or boring drilling equipment
410 barge 420 driven crane or boring drilling rig
430: high pressure jet rod 440: high pressure jet nozzle
450: floating soil suction device 451: floating soil suction pipe
452: high pressure water supply pipe 460: floating soil collecting container
470: wire rope 480: pump for floating soil
490: towboat or barge

Claims (13)

Stirring rod 320 installed vertically on one side of the driving vessel 310, the stirring blade 330 integrally formed on the lower outer surface of the stirring rod 320 and the hardening material jet hole formed at the lower end of the stirring rod 320 ( In the deep mixing process equipment comprising 340,
A floating soil collecting container 360 surrounding the circumference of the stirring rod 320 and installed on the sea bottom;
A floating soil suction device 350 installed at a side of the stirring rod 320 and sucking the floating soil in the floating soil collecting container 360; And
A floating soil transfer pump 380 for sucking the floating soil through the floating soil suction device 350 and transferring the sucked soil to the ton ship or the barge 390;
Deep mixing processing equipment comprising a.
According to claim 1, To prevent the floating soil out of the floating soil collecting container 360, the upper portion of the floating soil collecting container 360 passes only through the stirring rod 320 and the floating soil suction device 350 It is formed to be, the deep mixing process equipment, characterized in that the lower portion of the floating earth collecting bin 360 is embedded in the sea bottom.
The deep mixing process equipment according to claim 1, wherein the floating soil suction device (350) comprises a floating soil suction pipe (351) and a high pressure water supply pipe (352).
The deep mixing process equipment according to claim 3, wherein a high pressure spray nozzle is installed at a lower portion or an outlet of the high pressure water supply pipe (352).
According to claim 1, One side is connected to the floating soil collecting container 360, the other is connected to the stirring rod 320 or the leader supporting the stirring rod 320, the floating soil collecting container 360 and Deep mixing process equipment, characterized in that the wire rope 370 for moving the floating earth suction device 350 up and down is provided.
The deep mixing process equipment according to claim 3, wherein the floating soil suction pipe (351) is a flexible hose.
Selecting the position of the soft ground to be strengthened and fixing the position of the driven vessel 310 by using a surveying machine;
Injecting the stirring rod 320 to a predetermined position while rotating the stirring blade 330;
A floating soil collecting container 360 is installed on the sea floor;
The hardening material is ejected to the hardening material jet port 340 and the stirring blade 330 is rotated and the stirring rod 320 is pulled up at a constant speed, and the floating soil conveying pump 380 is operated to operate the stirring rod 320. The floating soil coming up along the outer circumferential surface thereof is sucked into the floating soil suction device 350 and transported to the tow ship or the barge 390;
When the lower end of the stirring rod 320 rises to a predetermined depth and the columnar cement column is completed, the ejection of the hardening material is stopped, the rotation of the stirring blade 330 is stopped, and the rising of the stirring rod 320 is stopped. And stop the operation of the floating soil pump (380); And
Lifting the floating soil collecting container 360 and the stirring rod 320 and moving the position of the driving vessel 310 to the position of the next soft ground to be strengthened;
Deep mixing process, characterized in that it comprises a step.
The upper portion of the floating soil collecting container 360 so as to pass only through the stirring rod 320 and the floating soil suction device 350 to prevent the floating soil out of the floating soil collecting container 360. Forming, and using the self-weight of the floating soil collecting container 360, deep mixing process method characterized in that the bottom of the floating soil collecting container 360 is put on the sea bottom.
According to claim 7, The floating soil suction device 350 includes a floating soil suction pipe 351 and a high-pressure water supply pipe 352, when the floating soil suction sucks into the floating soil suction device 350, Injecting high-pressure water onto the floating soil through the water supply pipe 352 and the deep mixing process, characterized by sucking the floating soil having a suspended state by the injected high-pressure water through the floating soil suction pipe 351. .
10. The deep mixing process according to claim 9, wherein a high pressure spray nozzle is installed at a lower portion or an outlet of the high pressure water supply pipe 352 to spray high pressure water in multiple directions.
The method of claim 7, wherein the wire rope 370 is connected to a leader supporting the floating soil collecting container 360 and the stirring rod 320 or the stirring rod 22, the installation of the floating soil collecting container 360 And a deep mixing process, characterized in that for dismantling the floating soil collecting container 360 and the floating soil suction device 350 to move up and down.
The method of claim 7, further comprising the step of filtering or sedimenting the floating soil and water sucked into the floating soil suction device 350 from the towboat or barge 390 and discharging the filtered water or supernatant to the outside. Deep mixing treatment method.
The high pressure jetting rod 430 and the high pressure jetting rod 430 installed vertically on one side of the driving crane or boring drilling rig 420, the driving crane or boring drilling rig 420 placed at the edge of the barge 410. In the high-pressure jetting equipment comprising a high-pressure jet nozzle 440 formed at the bottom of the,
A floating soil collecting container 460 wrapped around the high-pressure injection rod 430 and installed on a sea bottom;
A floating soil suction device 450 installed at a side of the high pressure injection rod 430 and sucking floating soil in the floating soil collecting container 460; And
A floating soil conveying pump 480 for sucking the floating soil through the floating soil suction device 450 and transferring the sucked soil to the ton ship or the barge 490;
High pressure injection equipment comprising a.

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