KR100717902B1 - Checking method to confirm entrance angle of the corrugated pipe which is piled down to solidify the safe clay - Google Patents

Abstract

The present invention relates to a method for checking the type angle of corrugated perforated pipes that are typed in the ground for stabilization of soft ground during piloting, by inserting the nonwoven fabric coated corrugated perforated pipes into a steel pipe casing of anti-crane and 3 to 5 m in the ground. After press-fitting, the ultrasonic oscillator is attached to the top of the anchor plate, which is the end of the corrugated pipe, and the ultrasonic receiving transducer is installed at the vertex of the equilateral triangle whose side is about 2m centered on the steel pipe casing. The processing apparatus converts the steel pipe casing into an indentation angle, and if the vertical tilt is within the reference value, the work continues. If the reference value is out of the reference value, the repositioning is performed by changing the position of the anti-perforation hole.

Soft ground, corrugated pipe, inclination angle, ultrasonic wave, anti-crane

Description

Checking method to confirm entrance angle of the corrugated pipe which is piled down to solidify the safe clay}             

Figure 1 is a schematic perspective view of the anti-crane used for indentation of the corrugated hole for the soft ground stabilization of the present invention

Figure 2 is a perspective view of the anchor plate coupled to the distal end of the present invention corrugated pipe

3 is a cross-sectional view of the anchor plate of Figure 2 coupled to the corrugated pipe and steel pipe casing

4 is a schematic configuration diagram of a tilt angle checking system using the present invention ultrasound

※ Explanation of code for main part of drawing

10. Anti-crane 11.Steel pipe casing

12. Anchor plate 13. Porosity

14. Needle wheel 15. Nonwoven fabric

16. Wrinkle perforated tube 17. Ultrasonic oscillator

18. Ultrasonic receiving transducer 19. Central processing unit

The present invention relates to a method of checking and confirming the indentation angle of corrugated perforated pipes in the ground during operation in order to discharge the moisture contained in the soft ground to the ground, and more specifically, alluvial soil such as coastal landfill, swamp or Gimhae plain. In developed areas, the soft viscous soil layer forms the ground due to the high moisture content. To install structures such as buildings and roads, reinforce the ground by stabilizing work to remove moisture from the ground, and construct after filling work. Since the hole pipes pressurized into the ground to be removed need to be press-fitted evenly and side by side, it is possible to check and confirm the angle of the hole pipes pushed in during the hole pipe type work.

Generally, there are sand drain method, paper drain method, and crimped pipe indentation method for discharging moisture in soft ground. However, sand drain method floats during ground subsidence due to dehydration and embankment load due to disturbance of channel formed in the ground layer. There was a problem that the sand column was deformed or disconnected due to settlement, and the paper drain method had a problem that the drainage function was reduced because the corrugated strip and the nonwoven fabric of the paper drain board, which is the drainage material, were joined and the drainage function was reduced. In the case of press-fitting a hole into a hole, if there is a ground layer with different density such as rock or sand in the ground, the hole is not pressed vertically but is inclined inclined and is normally pressed at intervals of 1.2mm ~ 2m. The paths intersect with each other, or in some places There is a problem such that the soft uniformly stabilize the soil and does not occur, and defects generated in the work of reinforcing the strength of the delay and costs of the construction period, etc. Increase jaesigong.

The present invention was devised to solve the conventional problems as described above, the indentation angle of the corrugated air pipes typed for soft ground stabilization type ultrasonic wave oscillator at the tip of the corrugated air pipe type after about 5m type during the type work of the corrugated air pipes The ultrasonic receiving transducers are installed at the vertices of an equilateral triangle having sides of about 2m around the hole where the corrugated tube is typed on the ground, and the ultrasonic wave oscillated from the ultrasonic oscillator reaches the ultrasonic receiving transducer in terms of time difference. An object of the present invention is to make it possible to check the inclination angle of the hollow pipe through the central processing unit.

Another object of the present invention is to reduce the soft ground stabilization work time and to perform a uniform ground reinforcement work by early detection and reconstruction of the perforated pipe outside the predetermined range of the inclination angle.

Method of confirming the indentation angle of the pleated perforated tube which is type for soft ground stabilization of the present invention for the above purpose is wrapped around the spiral pleated perforated tube with a non-woven fabric and attached to the end of the perforated tube to prevent the inflow of earth and sand to prevent it from being driven. It is inserted into the steel pipe casing and typed into the ground.

When the steel pipe casing is about 3 to 5 m from the ground, the ultrasonic oscillator is inserted into the end of the tube in the corrugated hole, and then the ultrasonic receiving transducers are installed at the vertices of an equilateral triangle of approximately 2 m on one side with the steel pipe casing as the center point. .

When the ultrasonic oscillator and the ultrasonic receiving probe are installed, the power is applied to oscillate the ultrasonic wave, and the central processing unit converts the indentation angle of the perforated tube by the time difference of the received ultrasonic waves to check the indentation angle of the perforated tube. If work is stopped and reconstructed, and if the angle of inclination is within a certain range, the piercing work continues to press the steel pipe casing and then remove the steel pipe casing.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic perspective view of the anti-crane used for the press-fit of the corrugated pipes for stabilizing the soft ground of the present invention, Figure 2 is a perspective view of the anchor plate coupled to the front end of the corrugated pipes of the present invention, Figure 3 is an anchor of Figure 2 4 is a cross-sectional view of the plate coupled to the corrugated pipe and the steel pipe casing, and FIG. 4 is a schematic configuration diagram of a tilt angle checking system using the ultrasonic wave of the present invention.

As shown, the dewatering method for stabilization of the soft ground press-fitting the pleated perforated tube 16 is the outer side of the pleated perforated tube 16 covered with a nonwoven fabric 15, the spiral prosthetic ring is inclined more than 20 ° and the inlet ring 14 The collection hole (13) is formed in the) so that it is flexibly deformed into a gentle curvature with a large radius of curvature with respect to vertical consolidation settlement and horizontal shear deformation according to the deformation behavior of the ground. It is possible to prevent the drainage function from dropping due to the drastic decrease in the drainage cross-sectional area. Even if the shape of the perforated pipe is deformed by the horizontal lateral pressure of the ground, uneven rings are formed inside and outside the pipe to prevent the water channel from being blocked and the drainage function is prevented from deteriorating.

The type of corrugated oil pipe 16 is inserted into the corrugated oil pipe 16 wrapped with a nonwoven fabric 15 in the steel pipe casing 11 of the anti-crane 10 and anchor plate at the end of the steel pipe casing 11 and the corrugated oil pipe 16 Combining the (12) to prevent the inflow of soil to the inside of the corrugated hole 16 when the type of steel pipe casing (11).

When the corrugated hole tube 16 is typed, the steel pipe casing 11 of the anti-crane 10 is about 3 to 5 m long on the ground, and then stops the driving operation and inserts the ultrasonic oscillator 17 into the corrugated hole tube 16 to anchor the anchor. It is located on the upper surface of the plate (12), and on the ground surface, each of the ultrasonic receiving transducers 18 are installed at the vertices of an equilateral triangle having a side of approximately 2 m centered on the steel pipe casing 11 and connected to the central processing unit 19. do.

When the installation of the ultrasonic wave oscillation and the receiving device is completed, the power is connected to measure the arrival time of the ultrasonic waves received by the three ultrasonic receiving transducers 18 to analyze the inclination angle of the corrugated hole 16 in the changing device. The process of calculating the indentation angle in the central processing unit 19 is as follows.
The ultrasonic receiving transducers 18 are installed at three horizontal ground planes having the same distance from the steel pipe casing 11 and forming vertices of an equilateral triangle on a horizontal plane. The corrugated pipes are underground typed through a central processing unit 19. When power is applied to the ultrasonic wave oscillator 17 in the ultrasonic wave 16, ultrasonic waves are generated from the ultrasonic wave oscillator 17, and the generated ultrasonic waves are received by each ultrasonic wave receiving transducer 18, and then the received signals are received from the central processing unit 19. Is delivered.
The central processing unit 19 generates ultrasonic waves by applying power to the ultrasonic oscillator 17 and at the same time receives the ultrasonic signals received by the ultrasonic receiving transducer 18 and amplifies, filters, and converts them into voltages. After the back, the distance between the ultrasonic wave oscillation time and the ultrasonic wave reception time is calculated to calculate the distance between the ultrasonic wave oscillator 17 and each ultrasonic wave probe 18 and display the result.
At this time, if the steel pipe casing 11 is vertically typed, the distance between each ultrasonic receiving transducer 18 and the ultrasonic oscillator 17 is kept constant in the same state as a result, and as a result, ultrasonic waves in each ultrasonic receiving transducer 18 The time it takes to reach is the same.
However, when the steel pipe casing 11 is not vertically typed and is bent to one side, the distance between the ultrasonic receiving transducer 18 and the ultrasonic oscillator 17 does not remain the same and changes. As a result, the time that the ultrasonic wave reaches each ultrasonic receiving transducer 18 is different.
That is, in the state where the three ultrasonic receiving transducers 18 form the vertices of the virtual equilateral triangles forming a horizontal plane, the steel pipe casing descends vertically through the center of gravity of the virtual equilateral triangles formed by the receiving transducers 18. The receiving transducer 18 and the ultrasonic oscillator 17 form a virtual inverted triangular pyramid.
Thus, when the steel pipe casing 11 is vertically typed, all three virtual triangles on the sides of the two receiving transducers 18 and the ultrasonic oscillator 17 form the same isosceles triangle, but the steel pipe casing 11 ) Is not vertically typed, the three side triangles formed by the two receiving transducers 18 and the ultrasonic oscillator 17 in the hypothetical inverted triangular pyramid do not coincide with each other, and in this case, the receiving transducer 18 It is possible to know which receiving transducer is bent to the type.
For example, if the time taken for the ultrasonic wave to reach the first, second, and third three ultrasonic receiving transducers is 0.1 second, 0.11 second, and 0.12 second, respectively, the distance between each ultrasonic wave oscillator and the ultrasonic receiving transducer is 1 It can be seen that in order of the transducer, the second receiving transducer and the third receiving transducer in increasing order.
That is, as the steel pipe casing 11 is bent, that is, the ultrasonic oscillator 17 may be located closest to the first receiving probe and located farthest from the third receiving probe, as well as the ultrasonic oscillator 17. The distance between each receiving transducer 18 is possible.
In addition, since the distance between the virtual triangular center and the ultrasonic oscillator 17 on the horizontal plane formed by the three receiving transducers 18 can also be calculated geometrically, the slope of the straight line connecting the center of the virtual triangle and the ultrasonic oscillator 17, that is, The indentation angle of the ultrasonic oscillator 17 can also be calculated.

When the angle of inclination of the corrugated hole tube 16 is within the reference value range, the blue light emission signal may be generated, and when the reference value is out of the reference value, the blue light emission signal may be generated or a warning sound may be generated by a buzzer. You can also output the measurements or store the processed data in a database.

If the angle of inclination of the steel pipe casing 11 to the depth of about 3 to 5m is within the reference value, even if the deeper type is guided to the reference type angle, the bending or inclination that deviates from the reference value hardly occurs.

If the angle of type of steel pipe casing 11 is out of the standard value at the depth of 3 ~ 5m, pull out the steel pipe casing and corrugated hole pipe with anti-crane, change the type position, and retype it if it is within the standard value. After removing the steel pipe casing (11), the end of the crimp hole pipe indentation work for soft ground stabilization is finished.

As described above, the method of confirming the indentation angle of the corrugated air pipes for stabilizing the soft ground of the present invention can be reconstructed or continued work by checking the inclination angle at the beginning of the driving operation for indenting the corrugated air pipes, and determining the amount and part of the type work. Therefore, it is possible to reduce air shortening and cost of ground stabilization work, and to prevent defects such as ground subsidence after installation of facilities by eliminating bad factors of type work.

Claims (3)

In the spiral crimped tube coated with a non-woven fabric into a steel pipe casing of anti-tacra, and the anchor plate at the end is pressed in vertically and press-fitted vertically to discharge moisture in the ground, Suspending the driving operation after pressing the steel pipe casing 11 from the ground for 3 to 5 m with the anti-taking crane 10; Attaching the ultrasonic oscillator 17 to the upper end of the inner anchor plate 12 of the corrugated air pipe 16 and installing the ultrasonic receiving probes 18 at vertices of an equilateral triangle having a side of 2 m around the steel pipe casing; Calculating a distance between the ultrasonic wave oscillator and the respective ultrasonic wave receiving transducers and the indentation angle of the steel pipe casing in the central processing unit 19 which oscillates the ultrasonic wave by applying power to the ultrasonic wave oscillator and receives the signal received by the ultrasonic wave receiving transducer; Method of confirming the indentation angle of the corrugated perforated tube type for the soft ground stabilization, characterized in that to continue the rudder operation or change the rudder position according to the indentation angle output from the central processing unit. The method according to claim 1, further comprising means for warning when the indentation angle of the steel pipe casing output from the central processing unit deviates from a reference value. The method of claim 1, wherein the central processing unit includes a database for storing the calculated data and a printer for outputting the data.

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