KR20070066778A - Appatatus equipped with alarm function of slope movement detection - Google Patents

Abstract

A slope behavior measurement apparatus equipped with an alarm unit is provided to confirm the behavior state of the slope according to the deformation of the slope on which a measurement unit is installed even in the field. A slope behavior measurement apparatus includes a case(100), a wire winding roll, a displacement sensor, an alarm unit, and a printed circuit board. A communication port is provided on one side of the case. A rotational shaft connecting a wire to the slope behavior measurement apparatus is included in the wire winding roll. The displacement sensor measures the winding and releasing displacement of the wire. The alarm unit outputs an alarm signal. The printed circuit board includes a relay interrupting the supply of a power source applied to the alarm unit and a microcomputer outputting a drive current to the relay if wire displacement data are deviated from a reference value on a preset wire displacement.

Description

Apparatus equipped with alarm function of slope movement detection

1 is a perspective view showing a slope behavior measuring device having a warning means in accordance with a preferred embodiment of the present invention.

Figure 2 is an exploded perspective view showing a slope behavior measuring device with a warning means according to a preferred embodiment of the present invention.

3 is a cross-sectional view taken along the line A-A of FIG.

4 is a view showing a conventional slope measuring apparatus.

<Description of the reference numerals for the main parts of the drawings>

1: pile

10: slope surface behavior measuring device with warning means

100: case

      110: lower case

            111: communication port, 112: wire lead-out, 113: discharge hole

      120: upper case

200: connection means

      210: pile fixture

            211: first horizontal hole

       220: intermediate rotating body

            221: second horizontal hole

      230: case fixing

300: wire winding roll

      311: axis of rotation

      312: wire

400: displacement sensor

500: warning means

600: printed circuit board

      610: relay, 620: communication module, 630: microcomputer

700: tilt measurement device

      710: tilt sensor

The present invention relates to a slope surface behavior measuring device, and more particularly to a slope surface behavior measuring device having a warning means that can be confirmed in the field of the behavior according to the deformation of the slope on which the measuring device is installed.

Incision surface, especially slope surface, generally has different soil properties within the same incision surface according to weathering or deterioration degree, the presence and type of geological structure, and the depth of crushing zone.

Therefore, it is difficult to accurately predict the stability of the slope.

Recently, in order to evaluate the stability of such a slope, a trend that is gradually using a measurement that can quantitatively determine the behavior of the slope.

As such, slope collapse due to slope behavior usually occurs along the soft side.

Accordingly, it is necessary to continuously observe the movement patterns such as the deformation and collapse of slopes occurring on the soft surface for a long time. To this end, it is necessary to first investigate the geology, topography, etc. of the inclined surface, to check the geological structure, and to measure the surface movement.

The collapse risk detection methods known to date are based on the use of rainfall or the preparation of an evaluation table for the safety of the collapse, or by installing the vertical pipes stacked vertically on the slope to install the sensors vertically. It was a method of detecting collapse signs by layers through internal sensors.

However, rainfall method was almost impossible due to bad weather conditions and site survey or incision survey.

In addition, the method of burying the vertical pipe is a rapid detection of the collapse as the temporal gap (gab) exists between the point of collapse and the time when the sensor installed inside the slope, that is, inside the vertical pipe detects the sign of collapse. And it was difficult to accurately predict the signs of collapse of the slope because it is impossible to prepare a countermeasure.

In order to solve this problem, a method of grasping the tensile crack and the surface movement occurring in the soft surface of the slope has been recently proposed. An example is Korean Patent Registration No. 0430026 filed by the present applicant. The slope measurement apparatus according to this technique is connected to the upper portion of the base portion 2 and the base portion 2 to which the measurement pile 1 is fixed to the slope as shown in FIG. Various circuits including a displacement sensor (3) for measuring the displacement of the drawn wire, a communication module (5) and an analog / digital converter (6) for transmitting and receiving data to and from an external device through the communication port (4) are mounted. A main body 8 including a printed circuit board 7 and an inclination measuring part 9 connected to an upper portion of the main body 8 and including an inclination sensor for measuring inclination therein. It is done.

According to the configuration as described above, the conventional slope measuring device not only measures the distance change between the two positions installed on the slope through the displacement sensor, but also simultaneously measures the inherent tilt variation occurring on the ground through the tilt sensor. As a result, the slope behavior can be measured more accurately, and the measured data enables the administrator to determine safety and more accurate analysis of the slope.

However, according to the configuration as described above, the conventional slope measuring device has a problem that there is no way to check the behavior state according to the deformation of the slope on which the measuring device is installed in the field.

In other words, accidents occur because slopes and falling rocks cannot be identified immediately.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide a slope measuring device including a warning means capable of immediately confirming a behavior state according to a deformation of a slope on which a measuring device is installed.

Slope surface behavior measuring device provided with a warning means for the present invention for achieving the above object, the case is provided to be able to change the angle through the connecting means to each pile and the case is provided with a communication port on one side, the case A wire winding roll including a rotating shaft that is provided inside of the rotating shaft for tension connecting the wires to the slope of the neighboring pile, and a displacement sensor provided at an upper portion of the rotating shaft to measure the winding and unwinding displacement of the wire; A warning means for outputting a warning signal by a power source, a relay for interrupting the supply of power applied to the warning means, and wire displacement data input from the displacement sensor to the outside through a communication module electrically connected to the communication port. And the wire displacement data is outside the reference set point for the preset wire displacement. In this case, it includes a printed circuit board mounted with a microcomputer for outputting a driving current to the relay.

These and further aspects of the present invention will become more apparent through the preferred embodiments described below with reference to the accompanying drawings. Hereinafter, the present invention will be described in detail to enable those skilled in the art to easily understand and reproduce the present invention.

1 is a perspective view showing a slope surface behavior measuring device having a warning means according to a preferred embodiment of the present invention, Figure 2 is an exploded perspective view showing a slope surface behavior measuring apparatus having a warning means according to a preferred embodiment of the present invention 3 is a cross-sectional view taken along the line AA of FIG. 1.

In the embodiment of the present invention, as shown in the drawings, the slope measuring device 10 with a warning means (hereinafter referred to as "measurement device" for convenience.) Through the connecting means 200 to each pile (1) It is possible to change the angle and the case 100 is provided with a communication port 111 on one side, and the wire 312 to the measuring device 10 of the neighboring pile 1 is provided inside the case 100 ) A wire winding roll 300 including a rotating shaft 311 to tension the wire, and a displacement sensor 400 provided on an upper portion of the rotating shaft 311 to measure winding and unwinding displacement of the wire 312. A warning means 500 for outputting a warning signal by an external power source, a relay 610 for controlling the supply of power applied to the warning means 500, and wire displacement data input from the displacement sensor 400. Transfer to the outside through the communication module 620 electrically connected to the communication port 111 And a printed circuit board 600 mounted with a microcomputer 630 for outputting a driving current to the relay 610 when the wire displacement data deviates from a reference set value for a predetermined wire displacement.

That is, in the embodiment of the present invention, the case 100 is the upper case with a spiral coupled to the upper case of the lower case 110, the lower case 110, as shown in the figure and the warning means 500 therein It is composed of a case 120.

The lower case 110 is an upper portion fixed to the pile 1 through the connecting means 200 is opened and the wire winding roll 300 and the displacement sensor 400 and the printed circuit board 600 is provided therein. The spiral portion is formed around the upper end.

That is, as shown in the drawings, the connecting means 200 for fixing the lower case 110 to the pile 1 is inserted into and fixed to the top of the pile 1 so that the first horizontal hole 211 is provided at the top. The pile fixing body 210 and the first horizontal hole 211 are formed to be able to change angles through hinge shafts, and the second horizontal hole 221 is formed at a right angle with respect to the first horizontal hole 211. The intermediate rotating body 220 and the case 100 is provided with a protruding lower portion and the case is fixed to the second horizontal hole 221 is provided with a hinge axis through the hinge shaft 230 is provided.

According to such a configuration, the lower case 110 can be changed vertically and / or horizontally through the connecting means 200, so that when the lower case 110 is installed on the fixed stake 1 installed on the slope, the other case 1 is installed. On the contrary, the direction of the wire 312 drawn out from the wire winding roll 300 of the measuring device 10 installed in the pile 1 and the direction of the connector of the other pile 1 may be installed to match.

The lower case 110 is connected to a communication port 111 to which a cable for performing data communication with an external device is connected, and wound around the wire winding roll 300 and drawn out to the outside, that is, to another pile 1. The wire lead-out part 112 through which the wire 312 to be passed is formed.

In addition, according to an additional embodiment of the present invention, the lower side of the lower case 110, the discharge hole 113 is further provided. Accordingly, the lower case 110 drains the rainwater introduced into the case 100 by riding on the surface of the wire 312 connected to the other pile 1 through the discharge hole 113, thereby having a printed circuit board embedded therein. The 600 and various sensors can be protected from moisture.

And the inside of the lower case 110 is provided with a wire winding roll 300, the wire 312 connected to the measuring device 10 of the neighboring pile 1 is tensioned as described above. Here, the wire winding roll 300 is provided with a rotating shaft 311 perpendicular to the center of the wire winding roll 300 that rotates in accordance with the unwinding or winding of the wire 312 at the center thereof.

And the upper portion of the wire winding roll 300 is provided with a displacement sensor 400 for measuring the displacement of the wire 312 according to the rotation of the rotary shaft 311.

In the embodiment of the present invention, the displacement sensor 400 for measuring the wire displacement according to the rotation of the rotary shaft 311 is a potentiometer (Pootentiometer) for measuring the displacement of the wire interconnecting each pile 1, it measures the displacement The potentiometer is a technique known before the filing date of the present application, and a detailed description thereof will be omitted.

And the upper part of the displacement sensor 400 is provided with a printed circuit board 600 is mounted with a microcomputer 630 for controlling the driving of the overall device in accordance with the wire displacement value input from the displacement sensor 400.

That is, the printed circuit board 600 has a communication module 620 for performing data communication with an external device through the communication port 111 according to the driving of the microcomputer 630 and the microcomputer 630 and the characteristics of the present invention. The relay 610 is provided.

The microcomputer 630 controls to transmit the wire displacement measurement value input from the displacement sensor 400 to an external device through the communication module 620, and converts the analog signal input from the displacement sensor 400 into digital. And a memory in which a reference setting value for a wire displacement and a program for controlling driving of the A / D converter and the apparatus are included.

In the exemplary embodiment of the present invention, the reference set value for the wire displacement is a reference value for the wire displacement amount according to the slope behavior, and the microcomputer 630 refers to the reference set value for the wire displacement data input from the displacement sensor 400. Power supply of the relay 610 is controlled to output the slope behavior according to the outside.

That is, the microcomputer 630 outputs a driving current to the relay 610 when the wire displacement measurement value input from the displacement sensor 400 deviates from the reference set value set in the memory.

In addition, the relay 610 controls the supply of power to the warning means 500 provided in the upper case 120 according to the current applied from the microcomputer 630.

However, in the embodiment of the present invention, as described above, the means for interrupting the power supply to the warning means 500 is not necessarily limited to the relay 610 and may be implemented through a circuit designed switching element.

Meanwhile, the upper case 120 is spirally coupled to the upper portion of the lower case 110 as described above, and a spiral portion is formed around the lower inner side. In addition, the upper part is provided with a warning means 500 connected to the printed circuit board 600 through a cable and operated by a power applied according to the driving of the microcomputer 630. The warning means 500 includes not only a warning light that can be visually identified, but also a siren and the like capable of sound output.

Therefore, according to the configuration as described above, the measuring device 10 according to the present invention by displaying the behavior of the slope of the slope according to the wire displacement through the warning means 500, to easily check the behavior of the slope at the site where the slope is constructed As a result, the damage caused by the collapse of the slope can be minimized.

Meanwhile, according to an additional embodiment of the present invention, the measuring device 10 is further provided with a tilt measuring device 700 having a tilt sensor 710 for measuring the tilt of the pile 1 installed on the slope.

That is, in this embodiment, as shown in the drawing, the tilt measuring device 700 is an intermediate case connecting the lower case 110 and the upper case 120, and the lower case 110 and the lower inner circumference and the upper circumference thereof. A spiral portion corresponding to the spiral portion of the upper case 120 is formed. In addition, a through hole is formed at an upper portion of the tilt measuring device 700 so that the cable drawn from the warning means of the upper case 120 is connected to the printed circuit board 600 of the lower case 110.

As such, the tilt sensor 710 provided in the tilt measuring device 700 serving as an intermediate case is composed of an X-axis sensor and a Y-sensor for measuring the NS direction and the EW direction for each pile 1 to recognize the tilt. Measure the angle of inclination of the ground.

In a preferred embodiment of the present invention, an inclinometer was used as the inclination measuring apparatus 700 for measuring the inclination of the measuring apparatus provided on the slope. Such an inclinometer is a technique already known before the filing date of the present application, and a detailed description thereof will be omitted.

In this embodiment, the microcomputer 630 may further include outputting a driving current to the relay 610 when the inclination data input from the inclination sensor 710 deviates from a reference set value for a predetermined inclination. Accordingly, when the slope of the pile 1 in which the measuring device is installed is out of the reference set value without a wire displacement, a current is output to the relay 610 so that the relay 610 is contacted to supply power to the warning means 500. And it works.

Therefore, the measurement apparatus 10 according to the present invention, when the slope change due to the behavior as well as the wire displacement during the slope surface behavior as described above, by displaying a warning signal according to this, the state according to the slope surface behavior more accurately You will be notified.

As described in detail above, the inclined surface behavior measuring apparatus including the warning means according to the present invention displays the behavior of the inclined surface according to the wire displacement through the warning means, thereby easily inclining the inclined behavior at the site where the inclined surface is constructed. As it can be confirmed, the damage caused by the collapse of the slope can be minimized.

In addition, when the change in the slope occurs, by displaying the behavior of the slope according to the slope change through the warning means, it is possible to more accurately check the current state of the slope according to the slope behavior.

Although the present invention has been described with reference to the accompanying drawings, a preferred embodiment centered on the slope, the present invention is not limited to this, but installed in civil engineering structures, for example, bridges, tunnel construction sites, roads, etc. It is clear that it is also possible to measure the behavior. Therefore, the scope of the invention should be construed by the claims described to include many such variations.

Claims (4)

In the slope behavior measuring device for measuring the behavior data necessary for the prediction of slope slope collapse, The slope behavior measuring device 10; A case 100 having an angle changeable through the connecting means 200 at each stake 1 and having a communication port 111 at one side thereof; A wire winding roll 300 provided inside the case 100 and including a rotating shaft 311 that tensions the wires 312 to the slope-surface behavior measuring device 10 of the neighboring pile 1; A displacement sensor 400 provided on an upper portion of the rotation shaft 311 to measure winding and unwinding displacement of the wire 312; Warning means 500 for outputting a warning signal by an external power source; A relay 610 for controlling the supply of power applied to the warning means 500 and a communication module 620 electrically connected to the communication port 111 with wire displacement data input from the displacement sensor 400. A printed circuit board (600) mounted with a microcomputer (630) for transmitting a driving current to the relay (610) when the wire displacement data is transmitted to the outside and the wire displacement data deviates from a reference set value for a predetermined wire displacement; Slope behavior measuring device having a warning means comprising a. The method of claim 1, wherein the connecting means 200, A pile fixing body 210 having a first horizontal hole 211 formed therein and fixedly rotatable at an upper end of the pile 1; An intermediate rotor 220 having the second horizontal hole 221 formed at a right angle with respect to the first horizontal hole 211 and provided with a hinge axis in the first horizontal hole 211, It is provided with a protruding portion of the lower portion of the case 100, slopes behavior with a warning means characterized in that consisting of a case fixing body 230, which is provided to be able to change the angle through the hinge axis in the second horizontal hole (221) Instrumentation. The method according to claim 1 or 2, The case 100 has a slope surface behavior measurement with a warning means further comprises a discharge hole 113 for discharging the rainwater flowing into the outside riding the wire 312 connected to the other pile (1) to the outside Device. The method according to any one of claims 1 to 3, The case 100 is further provided with a tilt measuring device 700 having a tilt sensor 710 for measuring the tilt of the pile 1 installed on the slope. The microcomputer 630 outputs a driving current to the relay 610 when the inclination data input from the inclination sensor 710 deviates from a reference set value for a predetermined inclination. Slope behavior measuring device provided.

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