KR100986667B1 - A construction system of the suction pile - Google Patents

Abstract

The present invention relates to a construction of a suction pile, and in particular, the lower surface is opened, the upper surface is formed into a hollow hollow, the upper surface is provided with a plurality of suction pipes vertically penetrating, the upper surface is connected to the input equipment such as crane A suction file to which a plurality of wire anchors are installed; A suction pump connected to the suction pipe of the suction pile and discharging water inside the suction pile to the outside; A pressure detection sensor installed inside and outside the suction file to detect water pressure; A horizontal detection sensor installed on an upper surface of the suction file to detect a horizontal of the suction file; And a controller configured to control the pressure of the suction pile by controlling the operation of the suction pump through the sensing values input from the water pressure sensor and the horizontal sensor.

According to the present invention as described above, the suction pile is lowered by checking the pressure difference and horizontality of the suction pile when the suction pile is installed, and the pressure is blocked by blocking the water flowing back to the inlet side through the drain port of the suction pump when the suction pump is stopped. By keeping the constant, the suction file can be easily installed in the proper position.

Suction pile, suction pump, structures, pressure, control

Description

Construction system of suction pile {A CONSTRUCTION SYSTEM OF THE SUCTION PILE}

The present invention relates to a construction of a suction pile, and in detail, to check the pressure difference between the inside and the outside of the suction pile and adjust the pressure with a suction pump, and operate under vacuum pressure, to stop the reverse flow of water when the operation is stopped. It relates to a construction system for suction piles.

In general, as the method of constructing the foundation pile to construct any structure at sea, the foundation pile is constructed in the same way as the construction process on land while the seawater is blocked through the water barrier construction.

Such a construction method is not difficult to install in a sea that is not very deep, but it is extremely difficult to use this construction method in a deep sea, and such a construction method requires an excessive time and cost. have.

A construction method using a suction file is proposed as a technique for improving such a conventional construction method.

Construction method using the suction file is made through the following process.

First, a submersible pump is installed in the suction pile which is open at the lower part and closed in the upper part, which is installed at the upper part of the suction pile.

In addition, the work surface is provided using a barge or a general vessel in the water, the work platform is provided with a position measuring equipment for measuring the position of the crane and the water for installation of the suction pile.

Using a crane to position the suction pile in a suitable position in the water, and then operating the submersible pump to drain the water inside the pile, a pressure difference is generated between the underwater and the suction pile, which causes the pile to Get stuck in. Shikoriri of such a suction pile is a known technique.

However, in the conventional method of installing the suction file, the suction file itself rotates or the eccentricity acts when the pressure inside the file becomes larger than the pressure applied from the outside when the suction file is installed or vice versa. There is a problem that can not be installed in the desired location or the problem occurs.

In addition, the conventional method for the installation of the suction pile is placed in the water pump after placing the water pump on the top of the suction pile, the pressure close to the vacuum pressure in order to discharge the water on the inside of the suction pile when the suction pile penetrates into the water This is necessary because there is a problem that the submersible pump does not work.

In addition, the conventional method for the installation of the suction pile has a problem that the pressure difference does not occur because the water flows back to the suction pile when the operation of the submersible pump is stopped, the file installation is not easy.

The present invention is to solve the above problems, by checking the internal and external pressure difference and the horizontal of the suction file by adjusting the pressure with the suction pump suction that can be prevented in advance that the suction file itself is rotated or eccentric action The purpose is to provide a construction system for piles.

Another object of the present invention is to provide a suction file construction system to easily install a suction file by providing a suction pump that operates under vacuum pressure and stops the reverse flow of water when the operation is stopped.

Features of the present invention for achieving the above object,

A suction pile provided with a plurality of suction pipes having a lower surface open and a hollow upper surface closed to vertically penetrate the upper surface, and a plurality of wire anchors installed on the upper surface for connection with an input device such as a crane; A suction pump connected to the suction pipe of the suction pile and discharging water inside the suction pile to the outside; A pressure detection sensor installed inside and outside the suction file to detect water pressure; A horizontal detection sensor installed on an upper surface of the suction file to detect a horizontal of the suction file; And a controller configured to control the pressure of the suction pile by controlling the operation of the suction pump through the sensing values input from the water pressure sensor and the horizontal sensor.

Here, the construction of the suction pile is further provided with a generator for supplying the necessary power to each component.

Here, the suction pipe of the suction pile is formed of a hollow material having an upper and lower surfaces open with a metal material, and a first flange is formed at an upper edge thereof, and is integrally formed when the suction pile is manufactured.

Here, the suction pump has a water inlet is formed on the bottom, the water outlet is formed on the side, the bottom flange is formed with a second flange corresponding to the first flange of the suction pipe; A motor installed at an upper end of the case and generating rotational force by receiving power from the generator; And an impeller installed on a connection pipe connecting the inlet and the outlet of the case and rotated by the rotational force of the motor.

Here, the impeller is made of a synthetic rubber material having an IRHD (International Rubber Hardness Degree) hardness of 50 to 60, is formed in a circular rod shape, the main body is formed through the central portion vertically penetrating the shaft hole is coupled to the motor Wow; It is formed integrally with the main body, and consists of a rotary blade formed radially on the outer surface of the main body.

Here, the rotary blade is press-installed in the connection pipe of the suction pump so that when the non-rotating neighboring rotary blades are interviewed with each other to block water discharge and backflow, and the adjacent rotary blades by the centrifugal force during the rotation of the motor Spaced apart to discharge the water in the inlet through the outlet.

Here, the rotary vanes are formed to protrude in a round shape, the end of which protrudes to minimize frictional force with the connecting pipe and facilitate mutual interview.

According to the construction system of the present invention suction file configured as described above, by checking the pressure difference and horizontality of the suction file when the suction file is installed, the suction file is lowered, and when the suction pump is stopped, the suction file is discharged to the inlet side through the drain port of the suction pump. It is advantageous to easily install the suction pile in place by keeping the pressure constant by preventing water from flowing back.

Hereinafter, with reference to the accompanying drawings, the configuration of the construction system of the suction file according to the present invention will be described in detail.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. The following terms are defined in consideration of the functions of the present invention, and may be changed according to the intentions or customs of the user, the operator, and the like. Therefore, the definition should be made based on the contents throughout the specification.

1 is a block diagram showing the configuration of the installation system of the suction pile according to the present invention, Figure 2 is a cross-sectional view showing the configuration of a water pump in the construction system of the suction pile according to the present invention, Figure 3 is a suction according to the present invention Figure 4 is a perspective view showing the impeller configuration of the submersible pump in the construction system of the pile, Figure 4 is a plan view showing the impeller configuration of the submersible pump in the construction system of the suction pile according to the present invention, Figure 5a is a construction system of the suction pile according to the present invention 5 is a plan view showing a state in which the impeller of the submersible pump in the construction system of the suction pile according to the present invention, Figure 6 is a present invention This is a side view showing the installation of the submersible pump and the suction pile in the installation system of the suction pile.

1 to 6, the suction file construction system 100 according to the present invention includes a suction file 110, a suction pump 120, a hydraulic pressure sensor 130, and a horizontal sensor 140. And a controller 150 and a generator 160.

First, the suction pile 110 is formed of a concrete material having a known material and shape, the lower surface of which is opened, and the upper surface of the suction pile 110 is formed in a hollow shape. In particular, the suction pile 110 is provided with a plurality of suction pipes 111 vertically penetrating the upper surface, a plurality of wire anchors 113 for connection with the input equipment (not shown) such as a crane on the upper surface. Here, the suction pipe 111 of the suction pile 110 is formed of a hollow material having an upper and lower sides opened with a metal material, and a first flange 111-1 is formed at an upper edge thereof, and the suction pile 110 is manufactured. The first flange 111-1 is protruded from the upper surface of the suction pile 110 so that the first flange 111-1 is connected to the suction pump 120 to be described below. It is preferably formed.

In addition, the suction pump 120 includes a case 121, a motor 123, and an impeller 125.

The case 121 is formed of a metal material, and an inlet 121-11 is formed at a bottom thereof, and a connection pipe 121-1 having a outlet 121-13 is formed at a side thereof, and a suction pipe 111 is formed at a bottom edge thereof. A second flange 121-3 corresponding to the first flange 111-1 is formed.

The motor 123 is installed at the upper end of the case 121 and receives the power of the generator 160 to be described below to generate rotational force.

The impeller 125 is installed on the connection pipe 121-1 of the case 121 and is rotated by the rotational force of the motor 123, and has a synthetic rubber material having an IRHD (International Rubber Hardness Degree) hardness of 50 to 60. The main body 125-1 and the main body 125-1, which are formed in a circular bar shape and have a shaft hole 125-11 through which the rotating part of the motor 123 is coupled to the center part vertically, are formed. It is formed integrally, it consists of a rotary blade (125-3) formed radially on the outer surface of the body (125-1). Here, the rotary vanes 125-3 are press-fitted in the connection pipe 121-1 of the suction pump 120, that is, the rotary vanes 125-3 are installed in a state in which the rotary vanes 125-3 are deformed in one direction, and thus, FIG. 5A is rotated. Adjacent rotary vanes 125-3 are interviewed with each other to block water discharge and backflow, and adjacent rotary vanes 125-3 are spaced apart by centrifugal force as shown in FIG. 5B when the motor 123 rotates. Water introduced into the 121-11 is discharged through the outlet 121-13. Here, the rotary vanes 125-3 are formed to protrude in a round shape, the ends of which are protruded so as to minimize frictional force with the connecting pipe 121-1 and facilitate mutual interview.

In addition, the water pressure sensor 130 is installed inside and outside the suction pile 110 to detect the water pressure.

In addition, the horizontal sensor 140 is installed on the upper surface of the suction file 110 to detect the horizontal (X, Y value) of the suction file 110.

On the other hand, the controller 150 controls the operation of the suction pump 120 through the detection values input from the water pressure sensor 130 and the horizontal sensor 140 to adjust the pressure of the suction file (110). Here, the controller 150 may individually control each suction pump 120.

The generator 160 supplies the necessary power to each component.

Hereinafter, the installation process and operation of the installation system of the suction file according to the present invention will be described in detail with reference to the accompanying drawings.

First, a suction pile 110 having a suction pipe 111 and a wire anchor 113 is manufactured. At this time, the suction pipe 111 is installed equal to the number of installation of the suction pump 120.

Then, the suction file 110 is moved to the position to be installed, and then the suction pump 120 is connected to the suction pipe 111. At this time, the first flange 111-1 and the second flange 121 -3) is fixed to each other using the clamp 111-3. Meanwhile, a gasket or an adapter may be separately installed between the first flange 111-1 and the second flange 121-3.

Then, the wire anchor 113 is connected to the wire of the input equipment, such as a crane installed on the barge, the horizontal detection sensor 140 is installed in the center of the upper surface of the suction pile 110, the inside of the suction pile 110 and After installing the water pressure sensor 130 to the outside, the pressure sensor 130 and the horizontal sensor 140 is connected to the controller 150 and the generator 160.

In addition, the suction pump 120 is connected to the controller 150 and the generator 160 installed on the barge.

In this state, when the operator drives the system and drops the suction pile 110 into the water, the impeller 125 starts to rotate by the rotation of the motor 123 of the suction pump 120, and inside the suction pile 110. Water is discharged to the outside, creating a pressure difference between the water and the inside of the suction pile.

At this time, the controller 150 turns on / off the operation of the suction pump 120 according to the horizontal and pressure differences of the suction file 110 using the detection values input from the water pressure sensor 130 and the horizontal sensor 140. Turn it off.

On the other hand, when the operation of the suction pump 120 is turned off by the impeller 125 to the water inlet 121-11 of the suction pump 120 is blocked, the pressure difference in the suction pile 110 is continuously maintain.

Therefore, the hydraulic pressure difference between the pile and the pile generated during the installation of the suction file is controlled through the operation of the suction pump to perform the posture control, the sedimentation speed control of the suction pile, and the confirmation of the bearing capacity by the suction pressure after the sedimentation is completed.

As those skilled in the art would realize, the described embodiments may be modified in various ways, all without departing from the spirit or scope of the present invention. It is to be understood, however, that the present invention is not limited to the specific forms referred to in the description, but rather includes all modifications, equivalents, and substitutions within the spirit and scope of the invention as defined by the appended claims. Should be.

The installation system of the suction pile according to the present invention can be applied to the field of underwater structure installation, and in the case of the suction pump, it can be applied to the underwater motor where the underwater motor is used.

1 is a block diagram showing the configuration of a construction system of a suction file according to the present invention;

Figure 2 is a cross-sectional view showing the configuration of the submersible pump in the construction system of the suction pile according to the present invention,

Figure 3 is a perspective view showing the configuration of the impeller of the underwater pump in the construction system of the suction pile according to the present invention,

Figure 4 is a plan view showing the impeller configuration of the submersible pump in the construction system of the suction pile according to the present invention,

Figure 5a is a plan view showing a state in which the impeller of the submersible pump in the construction system of the suction pile according to the present invention,

Figure 5b is a plan view showing a state in which the impeller of the submersible pump in the construction system of the suction pile according to the present invention,

Figure 6 is a side view showing a state in which the suction pump and the suction pile of the installation system of the suction pile according to the invention.

<Explanation of symbols on main parts of the drawings>

110: suction file 120: suction pump

125: impeller 125-3: rotary wing

130: water pressure detection sensor 140: horizontal detection sensor

150: controller 160: generator

Claims (7)

A generator for supplying necessary power to each component; The lower surface of the metal material is opened, the upper surface is formed into a hollow shape, the first flange is formed on the upper edge is formed a plurality of suction pipes which are integrally formed during the manufacture of the suction pile vertically penetrates the upper surface, A suction pile having a plurality of wire anchors installed on an upper surface thereof for connection with an input device such as a crane; Inlet is formed on the bottom, the outlet is formed on the side, the case is formed on the bottom edge of the second flange corresponding to the first flange of the suction pipe, and installed on the top of the case, supply the power of the generator A suction pump configured to press-fit the connection pipe connecting the inlet and the outlet of the case with the receiving motor to generate rotational force, and an impeller rotated by the rotational force of the motor to discharge water inside the suction pile to the outside; A pressure detection sensor installed inside and outside the suction file to detect water pressure; A horizontal detection sensor installed on an upper surface of the suction file to detect a horizontal of the suction file; And It includes a controller for controlling the pressure of the suction pile by controlling the operation of the suction pump through the detection value input from the water pressure sensor and the horizontal sensor, The impeller of the suction pump, A main body made of a synthetic rubber material having an IRHD (International Rubber Hardness Degree) hardness of 50 to 60 and formed in a circular rod shape, the main body having a shaft hole to which the motor is coupled by vertically penetrating a central portion thereof; It is formed integrally with the main body, it is formed radially from the outer surface of the main body when the non-rotating neighboring rotary blades are interviewed with each other to block water discharge and backflow, the neighboring rotary blades by the centrifugal force during the rotation of the motor The installation system of the suction pile, characterized in that it comprises a rotary wing spaced apart to discharge the water in the inlet through the outlet. delete delete delete delete delete The method of claim 1, The rotary wing, The construction of the suction pile, characterized in that the end is formed to protrude in a round shape protruding to minimize the frictional force with the connecting pipe and facilitate mutual interview.

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