KR20190104827A - System and Method for Measuring Displacement Using reference Sensor - Google Patents

Abstract

The present invention relates to a system and a method for measuring ground displacement, which is embedded in a tunnel or a slope at a predetermined distance, and a plurality of displacement sensor measurement values connected through a wire or wireless is measured based on a measurement value of a reference sensor connected to the displacement sensor and installed on a base surface. The measurement value of the reference sensor is corrected in case of relative displacement of the reference sensor connected to a fixing position sensor fixedly installed in wall rock of the ground.

Description

Ground displacement detection system and method {System and Method for Measuring Displacement Using reference Sensor}

According to the present invention, a plurality of displacement sensor measurement values connected to each other through a wire or wireless while being embedded at a predetermined interval in a tunnel or a slope are measured based on a measurement value of a reference sensor installed on a base surface while being connected to the displacement sensor. The present invention relates to a ground displacement detection system and method for correcting a measured value of a reference sensor when a relative displacement of a reference sensor connected to a fixed position sensor fixedly installed on a base rock is generated.

It is difficult to accurately predict slope stability because slope properties generally vary according to the degree of weathering or deterioration, the existence and type of geological structure, and the depth of fracture zone.

Therefore, there are many cases where the safety factor is not secured due to the collapse of the slope during construction of the slope or the opening of the road, or due to the ground conditions and other ground characteristics.

In other words, the prediction of slope behavior and the actual behavior are often inconsistent, and one of the methods to solve such problems is to identify the slope behavior during and after construction and to find an appropriate countermeasure when abnormal signs are found. Development of the system was required.

In connection with such a technique, the technology of the integrated management system of the inclined surface is known from the Patent No. 447083, and its configuration is shown in FIG. 1 in a plurality of measurement piles installed in the longitudinal direction on each of the one or more reference piles installed on the inclined surface. A plurality of measurement devices 100 equipped with a displacement sensor, a temperature sensor, and a tilt sensor therein, and collect measurement data of each sensor measured from the measurement device 100, and process the collected measurement data by processing Computing and storing the behavior data of the location where the measuring devices are installed, and transmits the stored behavior data to the wired or wireless through the communication unit, and stores and outputs the behavior data received from the data collection device 200, the stored Analyze the behavior of the slope using the behavior data and output the alarm signal according to the analysis result And, the on-site management device 300 for transmitting the behavior data and the analysis results accordingly to the integrated management device through a network communication unit, and saves the behavior status information of the slope on the site management device for each site management device, the Internet The slope management system is installed using the Internet, including the integrated management device 400 for providing the behavior information of the slope in response to the request of a plurality of administrator computers connected through the network.

And, the measuring device 100, the base portion connected to the measuring pile; A communication port is rotatably connected to the upper portion of the base part through a lower connection part and connected to the data collection device 200, and a displacement sensor measuring a displacement of a wire drawn out to the outside is provided therein, and an ambient temperature. It consists of a temperature sensor for measuring, and a communication module for transmitting and receiving data with the data collection device through the communication port.

However, the integrated management system of the slope as described above, when the measurement device 100 installed on the slope is installed in the ground, it is difficult to accurately determine the reference position, which is difficult.

In addition, there is a disadvantage in that the measurement is impossible when the measuring device 100 installed on the inclined surface simultaneously moves.

An object of the present invention for improving the conventional problems as described above, to accurately measure the behavior of the tunnel or slope, and to prevent the safety accident in advance by preemptively coping with the displacement of the tunnel, It is to provide a ground displacement detection system and method that can minimize the measurement failure in the event of displacement such as behavior.

In order to achieve the above object, the present invention provides a plurality of displacement sensor measurement values connected to each other via wired and wireless while being embedded at a predetermined interval in a tunnel or a slope of the reference sensor installed on the base surface. Measured based on measurements,

It provides a ground displacement detection method for correcting the measured value of the reference sensor when the relative displacement of the reference sensor connected to a fixed position sensor fixedly installed on the base rock.

In addition, the present invention is to correct the displacement value of the displacement sensor on the basis of the measured value of the reference sensor and the measured value of the reference sensor and outputs the signal to the data logger, the fixed position sensor connected to the reference sensor It provides underground displacement detection method to measure change of reference sensor and fix it by sending to data logger when fixed to base.

Meanwhile, a plurality of displacement sensors connected to each other through wired and wireless and embedded in the tunnel or slope at a predetermined interval and connected to the displacement sensors and output the reference sensors installed on the base surface and the measured values of the reference sensors and the displacement sensors It consists of a connection structure of data loggers installed to notify the remote site,

The data logger is installed to correct the displacement value of the displacement sensor based on the measured value of the reference sensor,

The fixed position sensor is connected to the reference sensor is fixed to the base of the base to measure the change of the reference sensor, the fixed position sensor also provides a ground displacement detection system connected to the data logger.

In addition, the fixed position sensor of the present invention provides a ground displacement detection system fixedly installed at the vector sum position of the installation position of the rock bolt supporting the tunnel or the slope.

In addition, the data logger of the present invention provides a ground displacement detection system having a wireless communication module to transmit a signal to a remote location.

In addition, the data logger of the present invention provides a ground displacement detection system installed to output displacement data along a three-dimensional shape such as a tunnel, an inclined plane, and a pillar.

Subsequently, the data logger of the present invention is installed so that the displacement value is output in a curve connected to each other while the output value is enlarged so that the relative display is possible along the curve that draws the tunnel surface in the case of the tunnel and separated into the upper and lower sides of the tunnel surface. It provides a ground displacement detection system.

In addition, the present invention provides a ground displacement detection system that is installed to output an alarm signal when the data value is satisfied after selecting the extreme point according to the displacement of the tunnel or the slope.

In addition, the data logger of the present invention provides a ground displacement detection system for outputting a curved shape by connecting displacement data in the longitudinal direction and the transverse direction in the radial direction of the tunnel when installed in the tunnel.

As described above, according to the present invention, even if the coordinate value is not taken from a long distance, it accurately measures the behavior of tunnels or slopes, preemptively copes with displacements of tunnels, and prevents safety accidents in advance. It has the effect of minimizing the measurement failure when it occurs.

1 is a block diagram showing a conventional slope management system.
2 is an installation state diagram showing a ground displacement measurement system according to the present invention.
3 to 5 is a schematic diagram showing the displacement output state of the tunnel, beams, slopes, etc. to which the underground displacement system according to the present invention is applied.
6 is a flowchart showing the operation of the underground displacement measurement system according to the present invention.

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

Figure 2 is an installation state diagram showing a ground displacement measurement system according to the present invention, Figures 3 to 5 is a schematic diagram showing the displacement output state of the tunnel, building beams, slopes, etc. to which the ground displacement system according to the present invention is applied 6 is a flowchart illustrating the operation of the underground displacement measurement system according to the present invention.

The present invention, while a plurality of displacement sensor 170 is connected to each other via a wired or wireless, while being embedded at a predetermined interval in the measurement position 110 consisting of a tunnel or slope, column, beam, etc., the base surface It is measured based on the measured value of the reference sensor 210 installed in the (300).

In this case, the data logger 250 is connected to the reference sensor 210.

In addition, the measured value of the reference sensor 210 is installed to be corrected when the relative displacement of the reference sensor 210 is connected to the fixed position sensor 510 is fixed to the base arm 500 of the underground.

In addition, the displacement value of the displacement sensor 170 measured based on the measured value of the reference sensor 210 and the measured value of the reference sensor 210 is corrected, and the signal is output to the data logger 250.

In addition, when the fixed position sensor 510 connected to the reference sensor 210 is fixedly installed on the base arm, the relative position change of the reference sensor is measured and then transmitted to the data logger for correction.

Subsequently, the data logger 250, the reference sensor, and the displacement sensor may each be integrally provided with a transmission / reception communication module including a communication port for transmitting and receiving wireless data.

On the other hand, while being embedded at a predetermined interval in the measurement position 110 made of tunnels or slopes or pillars, beams, etc. are connected to the plurality of displacement sensors 170 and the displacement sensors connected to each other via a wired or wireless base on the base surface 300 It consists of a connection structure of the reference sensor 210 is installed and the data logger 250 is installed to inform the remote location while outputting the measured values of the reference sensor and the displacement sensor, it is possible to check the output value measured at the measurement location in real time from the remote site. It will be.

In this case, the data logger 250 is installed to correct the displacement value of the displacement sensor based on the measured value of the reference sensor and measures the displacement value of the displacement sensor based on the initial value of the reference sensor 210 installed. To be measured.

In addition, the fixed position sensor 510 is connected to the reference sensor 210 is fixedly installed on the mother arm 500 of the ground (B) is installed to measure the relative change of the reference sensor 210.

At this time, the fixed position sensor 510 is also connected to the data logger to transfer the value to the data logger 250 when the reference sensor 210 moves around the fixed position sensor to change the position of the reference sensor 210 The measured value of the displacement sensor 170 measured based on this is to be corrected.

In addition, the fixed position sensor 510 is composed of a gap sensor for measuring the distance between the fixed position sensor and the reference sensor 210 to the vector sum position of the installation position of the lock bolt 530 supporting the tunnel or the slope. It is fixedly installed.

In this case, when the position of the fixed position sensor 510 is determined to be positioned at a point exceeding the distance L corresponding to the vector sum of the size l of the lock bolt 530, the movement of the lock bolt 530 is performed. Since the change of the fixed position is minimized by being located at the summing point of the generated distance, the error due to the change of the measuring position is minimized.

As the fixed position sensor 510, the reference sensor, and the displacement sensor, an acceleration sensor made of a semiconductor using a technology known as a microelectromechanical system may be used.

That is, the reference sensor 210 measures the value when the relative movement around the fixed position sensor 510 measuring the three-dimensional value to check the correction value for the reference sensor.

In addition, the data logger 250 may be provided to output displacement data along a three-dimensional shape such as a tunnel, an inclined plane, a pillar, or the like.

Subsequently, the data logger 250 outputs an output curve connected to each other while being separated into an upper side and a lower side of the tunnel surface by enlarging the output value so that a relative value can be displayed along the curve of the tunnel surface 153 when the displacement value is a tunnel. 130 is installed to output.

That is, the output curve 130 according to the output value is a subtle change that cannot be generally distinguished from the line representing the tunnel surface 153, but in the present invention, the output value is dramatically enlarged so as to be divided and changed in the tunnel surface 153. The output curve 130 is changed, and the output curve 130 is enlarged by the same in each displacement sensor so that the same displacement can be expressed.

In this case, when one point P1 of the output curve 130 is selected, the three-dimensional values X, Y, and Z of the displacement sensor located at the point may be provided.

In addition, the data logger 250 may be provided to output an alarm signal after selecting an extreme point according to the displacement of the tunnel or the inclined surface and satisfying the data value.

In addition, as illustrated in FIG. 3, the data logger may output the curved data by connecting the displacement data in the longitudinal direction and the transverse direction in the radial direction of the tunnel when installed in the tunnel.

110 Measuring device 210 Reference sensor
250 ... data logger 300 ... base
500 ... female 510 ... fixed position sensor
530 ... bolt bolt

Claims (9)

A plurality of displacement sensor measurement values connected to each other through a wire or wireless while being embedded at a predetermined interval on the tunnel or slope are measured based on the measurement value of the reference sensor installed on the base surface while being connected to the displacement sensor.
A ground displacement detection method for correcting the measured value of the reference sensor when the relative displacement of the reference sensor connected to a fixed position sensor fixedly installed on the base of the base rock. The fixed ground connection of claim 1, wherein the ground displacement corrects the displacement value of the displacement sensor based on the measured value of the reference sensor and the measured value of the reference sensor, and outputs the signal to the data logger. When the position sensor is fixedly installed on the base rock, the ground displacement detection method characterized in that to measure the change of the reference sensor and to transmit it to the data logger for correction. While being embedded in a tunnel or slope, or at a predetermined interval, a plurality of displacement sensors connected to each other via wired and wireless, and the reference sensors installed on the base surface while being connected to the displacement sensors, and outputting measurement values of the reference sensors and the displacement sensors It consists of a connection structure of data loggers installed to notify the remote site,
The data logger is installed to correct the displacement value of the displacement sensor based on the measured value of the reference sensor,
And a fixed position sensor connected to the reference sensor so as to be fixed to the base arm to measure the change of the reference sensor, and the fixed position sensor is also connected to the data logger. The ground displacement detection system according to claim 3, wherein the fixed position sensor is fixedly installed at a vector summation position of an installation position of a rock bolt supporting a tunnel or a slope. The ground displacement detection system according to claim 3, wherein the data logger is provided with a wireless communication module to transmit a signal to a remote place. The underground displacement detection system according to claim 3, wherein the data logger is installed to output displacement data along a three-dimensional shape such as a tunnel, an inclined plane, and a pillar. According to claim 3, The data logger, the displacement value is installed in the curve connected to each other while the output value is enlarged so that the relative display along the curve that draws the tunnel surface in the tunnel to the upper and lower side of the tunnel surface. Ground displacement detection system, characterized in that. The ground displacement detection system according to claim 3, wherein the data logger is configured to output an alarm signal after selecting an extreme point according to the displacement of the tunnel or the inclined plane and satisfying the data value. According to claim 3, wherein the data logger is installed in the tunnel, the displacement displacement in the longitudinal direction located in the traveling direction of the tunnel and the transverse direction located in the radial direction of the tunnel in a curved shape to output the ground displacement, characterized in that Detection system.

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