KR101377560B1 - Large diameter base file for offshore construction equipment and method for removing slime - Google Patents

Abstract

The present invention has an effect of improving construction efficiency by enabling users to construct a large diameter base file required for a large scale building including a wind generator or a bridge. Especially, the present invention has an effect of improving work efficiency by not generating vibration and noise. Also, the present invention has an effect of reducing the construction time by smoothly removing slime regardless of the softness and hardness of weak ground including soil, clay, sand, sandy soil, weathering soil, and weathered rock. The present invention has an effect of constructing the large diameter base file after inserting casings with various diameters with low generation of vibration and noise based on a design and removing the slime.

Description

Large diameter base file for offshore construction equipment and method for removing slime

The present invention relates to a slime removal equipment and construction method for the construction of large diameter foundation piles, and more particularly to the construction of large diameter foundation piles by smoothly removing the slime of the ground or seabed using a water jet, compressed air and excavation screw. The present invention relates to a slime removal equipment and a method (Liquid Disturb Water, hereinafter referred to as "LDW") for the construction of large diameter foundation piles.

In general, the slime removal equipment is used to remove (discharge) slime at a designated position in order to construct a foundation pile such as a pier or a wind turbine on the ground or the sea floor.

However, in the related art, only the slime for constructing the foundation pile having a constant diameter can be removed, which has a construction limitation in that the construction of the large-diameter foundation pile required for a large structure such as a wind power generator and a pier cannot be performed.

Particularly, in the related art, the slime after excavation must be removed using a vibrating means such as a vibrohammer, so that noise and shock are generated, thereby lowering the work efficiency.

In addition, in the related art, since the slime for constructing the large-diameter foundation pile cannot be smoothly removed, the construction period is increased and the use range is limited.

In the related art, there is a problem in that it is not possible to construct a large diameter foundation pile having various diameters according to design specifications.

On the other hand, in the prior art, there is a problem that can not perform a smooth slime removal on a solid ground.

In addition, conventionally, the stirring efficiency of the slime is lowered, which causes a problem of lowering the construction quality of the foundation pile.

Patent Document 1: Korean Utility Model Registration No. 20-0351848 (2004.05.31) Patent Document 2: Korea Patent Registration No. 10-1130314 (2012.03.26) Patent Document 3: Korea Patent Publication No. 10-2013-0053711 (2013.05.24)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

An object of the present invention is to provide a slime removal equipment and a method for large diameter foundation pile construction that can smoothly stir and remove the slime of the ground or the seabed using a water jet and compressed air and excavation screw.

Slime removal equipment for large diameter foundation pile construction of the present invention for achieving the above object,

A pedestal 110 formed so that the casing 10 penetrating the ground or the sea bottom is located at the center; A plurality of pin piles 111 fixed to the bottom one side of the pedestal 110 to penetrate into the ground or the sea floor; A worktable 120 seated on an upper end of the casing 10; A fixing member 130 formed at a lower portion of the work table 120 to fix an upper end of the casing 10; A discharge hopper 140 installed inside the casing 10; A discharge pipe 150 installed at an upper portion of the discharge hopper 140 to discharge the slime to the outside; A water jet injection tube 160 connected to an upper side of the discharge hopper 140 to inject high pressure water into the discharge hopper 140; A compressed air injection pipe 161 installed on the other side of the discharge hopper 140 to inject compressed air into the discharge hopper 140; Excavation equipment 170 is provided so as to be moved above the worktable 120, and a leader 171 is installed in a vertical direction in front of the drilling equipment 170, and is vertically along the leader 171. A driving member 172 is installed to move, a rod 180 is installed to be rotated by being installed below the driving member 172, and an excavation screw 181 is formed below the rod 180. And a plurality of water jet injection nozzles 182 on the outer diameter of the rod 180.

In particular, in order to support the upper end of the casing 10 in the lower portion of the work table 120 is characterized in that the support portion 121 is formed to be spaced apart.

In addition, the fixing member 130 is characterized in that the cylinder having a pressing hole 131 for pressing the surface of the casing 10 is installed on the lower side of the work table 120.

In addition, the slime removal method for the construction of the present invention, the large diameter basic pile for achieving the above object,

(1) fixing the pedestal by injecting a pin pile into the ground or the sea floor at the construction position; (2) injecting the casing into the ground or the sea floor at the construction position; Installing a worktable on the upper end of the casing; Installing a discharge hopper in which the discharge pipe, the water jet injection pipe, and the compressed air injection pipe are connected to the inside of the casing; A step (5) of rotating the rod and the excavating screw by operating the driving member of the excavating equipment and simultaneously supplying the high pressure water through the water jet spray nozzle; And a step (6) of supplying high pressure water to the discharge hopper through the water jet injection tube and supplying compressed air to the discharge hopper through the compressed air injection tube to discharge slime to the outside through the discharge pipe. It is done.

The present invention has the effect of improving the construction efficiency because it can be installed a large diameter foundation pile for large structures such as wind turbines and piers.

In particular, the present invention has an effect that can improve the work efficiency because vibration and noise does not occur.

In addition, the present invention can smoothly remove the slime regardless of the hardness of the soft ground, such as soil, clay, sand, sandy soil, weathered soil, weathered rock, etc. has an effect that can shorten the construction period.

And the present invention has a small noise and vibration and has the effect of installing a large diameter foundation pile after removing the slime after injecting casing of various diameters according to the design.

1 is a conceptual diagram showing the structure of the slime removal equipment for large diameter foundation pile construction of the present invention.
Figure 2 is a conceptual diagram showing the underground construction state of the slime removal equipment for large diameter foundation pile construction of the present invention.
Figure 3 is a conceptual diagram showing the sea construction state of the slime removal equipment for large diameter foundation pile construction of the present invention.

Technical features of the present invention will become apparent from the following description of exemplary embodiments with reference to the attached drawings.

1 is a conceptual diagram showing the structure of the slime removal equipment for large diameter foundation pile construction of the present invention, Figure 2 is a conceptual diagram for showing the ground construction state of the slime removal equipment for large diameter foundation pile construction of the present invention, Figure 3 Figure 3 shows a conceptual diagram for showing the sea construction of the slime removal equipment for large diameter foundation pile construction of the present invention.

The present invention provides a pedestal (110) formed so that the casing (10) penetrating the ground or the sea bottom in the center; A plurality of pin piles 111 fixed to the bottom one side of the pedestal 110 to penetrate into the ground or the sea floor; A worktable 120 seated on an upper end of the casing 10; A fixing member 130 formed at a lower portion of the work table 120 to fix an upper end of the casing 10; A discharge hopper 140 installed inside the casing 10; A discharge pipe 150 installed at an upper portion of the discharge hopper 140 to discharge the slime to the outside; A water jet injection tube 160 connected to an upper side of the discharge hopper 140 to inject high pressure water into the discharge hopper 140; A compressed air injection pipe 161 installed on the other side of the discharge hopper 140 to inject compressed air into the discharge hopper 140; Excavation equipment 170 is provided so as to be moved above the worktable 120, and a leader 171 is installed in a vertical direction in front of the drilling equipment 170, and is vertically along the leader 171. A driving member 172 is installed to move, a rod 180 is installed to be rotated by being installed below the driving member 172, and an excavation screw 181 is formed below the rod 180. And, the outer diameter of the rod 180 is provided with a plurality of water jet injection nozzle 182.

The pedestal 110 serves to support the slime removal process by installing on the ground or the sea floor.

In this case, as shown in FIG. 3, when the pedestal 110 is installed on the sea floor, the pedestal 110 may be manufactured in the form of a barge so as to float on the sea.

Here, a plurality of pin piles 111 may be installed at one side of the pedestal 110 to penetrate into the ground or the sea floor to minimize shaking of the pedestal 110 and the work table 120.

In particular, the worktable 120 may be fixed to the operator can move to the top, as well as seated on the upper end of the casing 10, even if the pedestal 110 is shaken by the current.

At this time, the state of the casing 10 is intrusive to have a certain depth in the ground can be easily fixed without moving.

On the other hand, in order to support the upper end of the casing 10 in the lower portion of the work table 120 may be formed a support portion 121 to be spaced apart.

Therefore, the casing 10 may be inserted between the support parts 121 to minimize the phenomenon that the work table 120 moves in the left and right directions.

In addition, the fixing member 130 is provided with a cylinder 130 having a pressing hole 131 for pressing the surface of the casing 10 on the lower side of the work table 120.

Therefore, since the pressing hole 131 may press or detach the surface of the casing 10 by the forward or backward operation of the cylinder 130, the work table 120 and the casing 10 may be detached.

In this case, the pressing hole 131 may be made of urethane or synthetic resin and closely pressed to the surface of the casing 10, which is a metal material.

In particular, the discharge hopper 140 serves to guide the slime to be discharged to the outside through the discharge pipe 150.

Here, a pressure difference occurs in the process of injecting high-pressure water and compressed air into the discharge hopper 140, so that slime can be discharged through the discharge pipe 150 having a relatively low pressure.

On the other hand, the discharge pipe 150 induces to discharge the slime to the outside in a state connected to the upper portion of the discharge hopper 140.

In addition, the water jet injection pipe 160 may increase the frequency of slime by injecting high pressure water into the discharge hopper 140 to increase the mixing efficiency with the soft ground.

In addition, the compressed air injection pipe 161 may generate a discharge pressure for discharging compressed air into the discharge hopper 140 to discharge slime to the outside through the discharge pipe 150.

In addition, as shown in Figure 1 is provided with an excavation equipment 170 so as to move to the upper portion of the work table 120, the front of the excavating equipment 170 is installed a leader 171 in the vertical direction, The driving member 172 is installed to move upward and downward along the leader 171, the rod 180 is installed to rotate under the driving member 172, and the rod 180 is rotated. An excavation screw 181 may be formed at a lower portion thereof, and a plurality of water jet injection nozzles 182 may be provided at an outer diameter of the rod 180.

In particular, the driving member 172 may rotate the rod 180 and the drilling screw 181 at a constant speed by using a reducer and a motor.

Therefore, the rod 180 and the excavation screw 181 are excavated while rotating, and at the same time, the high pressure water is injected through the water jet injection nozzle 182 to smoothly stir the slime to discharge the hopper ( 140) can be discharged to the outside.

And the slime removal method for the large-diameter foundation pile construction of the present invention,

Slime removal method for the construction of large diameter foundation piles using slime removal equipment for the construction of large diameter foundation piles,

(1) fixing the pedestal by injecting a pin pile into the ground or the sea floor at the construction position; (2) injecting the casing into the ground or the sea floor at the construction position; Installing a worktable on the upper end of the casing; Installing a discharge hopper in which the discharge pipe, the water jet injection pipe, and the compressed air injection pipe are connected to the inside of the casing; A step (5) of rotating the rod and the excavating screw by operating the driving member of the excavating equipment and simultaneously supplying the high pressure water through the water jet spray nozzle; The high pressure water is supplied to the discharge hopper through the water jet injection tube, and compressed air is supplied to the discharge hopper through the compressed air injection tube, thereby slime is discharged to the outside through the discharge tube.

Therefore, the casing can be introduced into the ground or the sea floor through the second step in a state where the pedestal is firmly fixed to the construction position in the first step.

At this time, the casing may be introduced into the ground through a separate penetration equipment.

Next, the slime can be discharged to the outside through the six processes in the seating state on the upper end of the casing through the three processes.

Here, after the four process proceeds, the rod and the excavation screw is rotated by the operation of the driving member of the excavating equipment and at the same time the process of stirring while supplying the high pressure water through the water jet injection nozzle, the fifth process is the soft ground of the ground As shown in Fig. 1, the excavation efficiency can be increased to improve the discharge efficiency of the slime.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Of course.

10: casing
100: slime removal equipment for large diameter foundation pile construction of the present invention
110: pedestal 111: pin pile
120: Vocational College 121: Support
130: fixing member 131: crimp
140: discharge hopper
150:
160: water jet injection pipe 161: compressed air injection pipe
170: Excavator 171: Leader
172: drive member
180: rod 181: drilling screw
182: water jet spray nozzle

Claims (4)

A pedestal 110 installed so that the casing 10 penetrating the ground or the sea bottom is located at the center; A plurality of pin piles 111 fixed to the bottom one side of the pedestal 110 to penetrate into the ground or the sea floor; A worktable 120 seated on an upper end of the casing 10; A fixing member 130 formed at a lower portion of the work table 120 to fix an upper end of the casing 10; A discharge hopper 140 installed inside the casing 10; A discharge pipe 150 installed at an upper portion of the discharge hopper 140 to discharge the slime to the outside; A water jet injection tube 160 connected to an upper side of the discharge hopper 140 to inject high pressure water into the discharge hopper 140; A compressed air injection pipe 161 installed on the other side of the discharge hopper 140 to inject compressed air into the discharge hopper 140; Excavation equipment 170 is provided so as to be moved above the worktable 120, and a leader 171 is installed in a vertical direction in front of the drilling equipment 170, and is vertically along the leader 171. A driving member 172 is installed to move, a rod 180 is installed to be rotated by being installed below the driving member 172, and an excavation screw 181 is formed below the rod 180. And, Slime removal equipment for large diameter foundation pile construction, characterized in that it comprises a plurality of water jet injection nozzles (182) in the outer diameter of the rod (180). According to claim 1, Slime removal equipment for large diameter foundation pile construction, characterized in that the support portion 121 is formed to be spaced apart a predetermined interval to support the upper end of the casing (10) in the lower portion of the work table (120). According to claim 1, wherein the fixing member 130 is a large diameter, characterized in that the cylinder provided with a pressing hole 131 for pressing the surface of the casing 10 on the lower side of the work table 120 Slime removal equipment for foundation pile construction. As a slime removal method for the construction of large diameter foundation piles using the slime removal equipment for the construction of any one of the large diameter foundation piles,
(1) fixing the pedestal by injecting a pin pile into the ground or the sea floor at the construction position; (2) injecting the casing into the ground or the sea floor at the construction position; Installing a worktable on the upper end of the casing; Installing a discharge hopper in which the discharge pipe, the water jet injection pipe, and the compressed air injection pipe are connected to the inside of the casing; A step (5) of rotating the rod and the excavating screw by operating the driving member of the excavating equipment and simultaneously supplying the high pressure water through the water jet spray nozzle; And a step (6) of supplying high pressure water to the discharge hopper through the water jet injection tube and supplying compressed air to the discharge hopper through the compressed air injection tube to discharge slime to the outside through the discharge pipe. Slime removal method for construction of large diameter foundation piles.

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