KR101172775B1 - tracking apparatus for sediment movement and tracking method for sediment movement in using same - Google Patents

Abstract

PURPOSE: A soil movement tracing device and a method for tracing the movement of the soil using the same are provided to have no possibilities of a radioactivity exposure and to easily grasp a moving route of seafloor soil by tracing the movement of a soil movement tracing device movable with the soil on the seafloor. CONSTITUTION: A soil movement tracing device(1) comprises a housing(100), a GPS unit(200), a weight(300), and a timer(400). The housing comprises an opening/closing member(110). The GPS unit specifies a current location, thereby generating location information. The weight is comprised in the inside of the housing. The timer transmits dropping signals to a controlling unit(500) when current time comes under a set-up time. When the controlling unit receives the dropping signals from the timer, the weight is freely dropped while the controlling unit opens the opening/closing member being comprised in the housing so that the housing is upwardly lifted.

Description

Tracking apparatus for sediment movement and tracking method for sediment movement in using same

The present invention relates to a soil tracking system and a soil tracking method using the same, and relates to a soil tracking system that can track the bottom soil sediment behavior and a soil tracking method using the same.

Unbalanced shifting of the surface caused by changes in the hydraulic phenomena caused by anthropogenic activities can cause serious problems, such as shoreline deformations, burial of ports and routes. In order to establish countermeasures for shoreline deformation, route and port burial, it is necessary to measure the soil movement and soil movement patterns of the seabed.

FIG. 7 is a diagram illustrating a GPS received data-linked radiation counting system for tracing the marker sand according to the prior art, and FIG. 8 is a cross-sectional view showing a marine radioisotope labeled sand input device according to the prior art.

For example, the GPS receiving data interlocking radiation counting system for tracing the cover sand introduced in Korean Patent Application No. 10-2006-0064046 is a radiation sensor for detecting a tracer made of the cover sand, as shown in FIG. It is easy to track the cover sand by the detector housing to protect it, and the commercial GPS receiver 30 is applied to count and measure the GPS data and the radiation data received from the radiometer 50 by accurately interlocking. By providing various types of data such as measured coefficient values and position data to the computer 70 wired or wirelessly, the position of the tracker can be easily tracked.

In addition, the marine radioisotope labeled sand input device introduced in the Republic of Korea Patent Application No. 10-2004-0099429, as shown in Figure 8, the vial 10 is accommodated inside the hollow cylindrical container 40 A first space, an upper cap 20 coupled to the container 40 to the upper portion of the first space, and a lower cap 30 coupled to the container 40 to the lower portion of the first space. The cover sand can be easily added.

However, the present invention requires a separate radiation sensor and other equipment for data analysis to track the movement path of the radioisotope labeled sand injected into the seabed, and also, when the radioisotope labeled sand is exposed to the outside. There is a problem that radioactive exposure may occur.

The present invention has been invented to solve the problems as described above, there is no fear of radioactive exposure and provides a soil sediment tracking device that can move with the soil in the seabed, and tracks the behavior of the soil sediment tracking device to the seabed The purpose of the present invention is to provide a soil tracking method that can grasp the movement path of cotton soils.

In order to achieve the object as described above, the earth and sand behavior tracking device according to the present invention, the earth and sand behavior tracking device including a control unit, the housing provided with the opening and closing member, and provided inside the housing to specify the current position location information GPS unit for generating a; and a weight provided in the housing and a timer provided in the housing and transmitting a drop signal to the controller when the current time corresponds to a set time, wherein the controller is configured to When receiving the drop signal, it is characterized in that to drop the weight while the opening and closing member provided in the housing to float the housing.

In addition, the earth and sand behavior tracking device according to the present invention, the earth and sand behavior tracking device comprising a control unit, a housing having an opening and closing member and the identification member, and the GPS provided inside the housing to specify the current position to generate position information And a timer provided in the housing and a weight provided in the housing and transmitting a drop signal to the controller when a current time corresponds to a set time, wherein the controller receives the drop signal from the timer. In this case, while dropping the weight while opening the opening and closing member provided in the housing is characterized in that to float the housing.

In addition, the housing may be provided with a shock absorbing member on the outer circumferential surface to prevent breakage by external impact.

In addition, the shock absorbing member may be made of a rubber material.

In addition, the housing may be provided with a collection member to facilitate the collection on the outer peripheral surface.

In addition, the identification member may be made of a luminous material.

In addition, the identification member may be made of a light-emitting diode.

In addition, the light-emitting diode (light-emitting diode) further includes a protective cover on the top to prevent damage by an external impact, the protective cover may be made of a transparent plastic material.

In addition, in the soil sediment tracking method according to the present invention, after installing a plurality of soil sediment behavior tracking device according to the present invention is set on the beach with a set time different from the timer to send a drop signal, the soil sediment behavior tracking device is washed by sea water When the water inflow step is to go down into the water and the current time corresponding to the set time of the timer to transmit the drop signal to the control unit by dropping the weight included in the earth and sand behavior tracking device through the control unit Sea level injuries step to rise the behavior tracking device to the sea surface at a predetermined time interval, and to determine the current position of the earth and sand behavior tracking device by receiving the position information of each earth and sand behavior tracking device through the GPS unit included in the earth and sand behavior tracking device The current position specifying step and the angle received from the earth and sand behavior tracking device Using the location information is characterized in that it comprises a soil behavior verification step to check the behavior of the soil behavior tracking unit.

The method may further include a device collection step of collecting the respective earthwork behavior tracking devices by using the collection member provided in the earth and sand behavior tracking device after the earth and sand behavior checking step.

In addition, in the soil sediment tracking method according to the present invention, after installing a plurality of soil sediment behavior tracking device according to the present invention is set on the beach with a set time different from the timer to send a drop signal, the soil sediment behavior tracking device is washed by sea water When the water inflow step is to go down into the water and the current time corresponding to the set time of the timer to transmit the drop signal to the control unit by dropping the weight included in the earth and sand behavior tracking device through the control unit Sea level floating step of causing the behavior tracking device to rise to the sea surface at a predetermined time interval, and receiving the position information of each earth and sand behavior tracking device through the GPS unit included in the earth and sand behavior tracking device to specify the current position of the earth and sand behavior tracking device A current position specifying step, and the angle received from the earth and sand behavior tracking device Checking the earth and sand behavior by using the position information of the earth and sand behavior tracking device and the light-emitting diode provided in the earth and sand behavior tracking device through the control unit to control the earth and sand behavior tracking device Identifying the device.

The apparatus may further include a device collection step of collecting each soil motion tracking device by using a collection member provided in the soil storage behavior tracking device after the device identification step.

According to the earth and sand behavior tracking device according to the present invention and the method of earth and sand behavior tracking using the same, there is no fear of radioactive exposure, and by tracking the behavior of the earth and sand behavior tracking device that can move with the soil on the sea bottom, There is an effect that can easily grasp the movement path.

1 is a block diagram of an earthquake behavior tracking device according to a first embodiment of the present invention.
2 is a block diagram of an earthquake behavior tracking device according to a second embodiment of the present invention.
Figure 3 is a block diagram of a method of soil tracking behavior according to the first embodiment of the present invention.
Figure 4 is a block diagram of a method of soil tracking behavior according to a second embodiment of the present invention.
5 is a view showing a state of tracking the behavior of the earth and sand using the soil tracking behavior tracking device according to the invention.
Figure 6 is a diagram showing a state of tracking the movement path of the earth and sand behavior tracking device using the earth and sand behavior tracking device according to the present invention.
7 is a diagram illustrating a GPS received data-linked radiation counting system for tracing the marker sand according to the related art.
Figure 8 is a cross-sectional view showing a marine radioisotope labeled sand input device according to the prior art.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, it should be noted that the same components or parts among the drawings denote the same reference numerals whenever possible. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as not to obscure the subject matter of the present invention.

1 is a block diagram of an earthquake behavior tracking device according to a first embodiment of the present invention.

As shown in FIG. 1, the earth and sand behavior tracking device according to the first embodiment of the present invention includes a housing 100, a GPS unit 200, a weight 300, a timer 400, and a controller 500. ).

The housing 100 has an opening and closing member 110 and has a predetermined size space to include the GPS unit 200, the weight 300, the timer 400, and the controller 500 therein. Can be.

Here, the opening and closing member 110 may be opened by the opening signal generated by the control unit 500 or closed by the closing signal to open and close the housing 100. For example, the opening and closing member 110 May be connected to a hinge device to open and close the housing 100.

In addition, the housing 100 may be provided on the outer circumferential surface of the shock absorbing member 600 for preventing the housing 100 from being damaged by an external shock, wherein the shock absorbing member 600 is elastic It may be made of a rubber material, and, in addition, the housing 100 may be provided on the outer circumferential surface of the ring-shaped collection member 700 to facilitate the collection.

The GPS unit 200 may generate location information by specifying a current location of the earth and sand behavior tracking device 1.

Specifically, the GPS unit 200 may be provided inside the housing 100 to prevent damage to the earth and sand movement tracking device 1 by the earth and sand moving around when the earth and sand behavior tracking device 1 is moved around the bottom surface. When the earth and sand behavior tracking device 1 rises to the sea level again, the location of the earth and sand behavior tracking device 1 moves to a certain time so as to generate a location information so that the path of the earth and sand movement tracking device 1 has been moved for a predetermined time. do.

The weight 300 is provided inside the housing 100, and when the earth and sand behavior tracking device 1 is introduced into the water, the weight of the earth and sand behavior tracking device 1 to sink to the sea floor by its weight. can do.

In addition, the weight 300 is dropped in the water from the housing 100 after a predetermined time, by reducing the weight of the earth and sand behavior tracking device (1) to raise the earth and sand behavior tracking device (1) to sea level. Can be.

The timer 400 is provided inside the housing 100, and when the current time corresponds to a set time, the timer 400 may transmit a drop signal to the controller 500.

That is, the timer 400 measures the current time in real time, and when the measured current time corresponds to a preset time, the weight 300 drops freely from the housing 100 while dropping the earth and sand behavior. A drop signal may be transmitted to the controller 900 to float the tracking device 1.

The control unit 500 may be provided inside the housing 100 to control the operation and operation of the earth and sand behavior tracking device 1.

In detail, when the controller 500 receives the drop signal from the timer 400, the controller 500 transmits an open signal to the opening / closing member 110 to open the opening / closing member 110, and then the weight 300. Drop into the water, and then, by closing the opening and closing member 110 by transmitting a closing signal to the opening and closing member 110, the housing 100 can be raised to the sea level.

Hereinafter, an earthquake behavior tracking apparatus according to a second embodiment of the present invention will be described in detail.

2 is a block diagram of an earthquake behavior tracking device according to a second embodiment of the present invention.

The earth and sand behavior tracking device according to the second embodiment of the present invention is the same as the earth and sand behavior tracking device according to the first embodiment of the present invention, as shown in Figure 2, the housing 100, the GPS unit 200 and , Weight 300, a timer 400, and a control unit 500.

Here, the GPS unit 200, the weight 300 and the timer 400 are the same as the structure and function of the structure included in the earth and sand behavior tracking device according to the first embodiment of the present invention and the detailed description is omitted do.

The housing 100 is the same as the housing included in the earth and sand behavior tracking device according to the first embodiment of the present invention, is opened by the open signal generated from the control unit 500 or closed by the closing signal to the housing ( Opening and closing member 110 for opening and closing the 100 may be provided, and, on the outer peripheral surface of the housing 100, a rubber shock absorbing member 600 for preventing damage to the housing 100 by an external impact, A collection member 700 may be provided to facilitate the collection of the earth and sand behavior tracking device 1.

On the other hand, the housing 100 may be provided with an identification member 120 that makes it easy to find the earth and sand behavior tracking device 1, when the earth and sand behavior tracking device 1 needs to be collected at night.

Here, the identification member 120 may be made of a luminous material or a light-emitting diode. When the identification member 120 is made of a light emitting diode, the housing 100 may be formed of a light emitting diode. A protective cover 130 may be further included on the upper portion. Here, the protective cover 130 may be made of a transparent plastic material that prevents the light emitting diode from being damaged by an external impact and simultaneously transmits light.

The control unit 500 transmits an open signal to the opening / closing member 110 when receiving the drop signal from the timer 400 in the same manner as the control unit included in the earth and sand behavior tracking device according to the first embodiment of the present invention. By opening the opening and closing member 110 and then dropping the weight 300 into the water, and then transmitting the closing signal to the opening and closing member 110 to close the opening and closing member 110 to close the housing 100. ) Can rise to sea level.

Meanwhile, when the identification member 120 is formed of a light emitting diode, the controller 500 may receive a control signal from the timer 400 to operate the light emitting diode.

Specifically, when the current time corresponds to a preset ON time, for example, a time from 6 pm to 6 am before operating the light emitting diode, the timer 400 operates the light emitting diode. An ON control signal for activation is transmitted to the controller 500, or a current OFF time is set so as not to operate the light emitting diode, for example, a preset OFF time, for example, after 6 AM to 6 PM. When the time corresponding to the previous time, an OFF control signal for not operating the LED may be transmitted to the controller 500.

Here, when the control unit 500 receives the ON control signal from the timer 400, the control unit 500 operates by supplying power to the light-emitting diode or from the timer 400. When receiving the OFF control signal, the power supply to the light-emitting diode may be cut off to stop operation.

Hereinafter, a method for tracing soil soil according to the first embodiment of the present invention will be described in detail.

3 is a block diagram of a method for tracking soil movement according to a first embodiment of the present invention.

As shown in FIG. 3, the method for tracing the earth and sand behavior according to the first embodiment of the present invention includes the underwater inflow step S10, the sea level floating step S20, the current location specifying step S30, and the earth and sand behavior checking step. (S40).

5 is a view showing a state of tracking the behavior of the earth and sand using the soil tracking behavior tracking device according to the present invention.

The water inflow step (S10) is, as shown in Figure 1, as shown in Figure 5, a plurality of soil sediment behavior tracking device 1 according to the first embodiment of the present invention, after the installation on the beach The behavior tracking device is being washed down by the seawater and flowing into the water.

Here, the timers 400 included in the plurality of soil motion tracking devices 1 are preferably set differently from each other in order to transmit a drop signal to the controller 500.

The sea level floating step (S20) is a step of dropping the weight weight 300 included in the earth and sand behavior tracking device (1) to float each of the earth and sand behavior tracking device (1) at a predetermined time interval to the sea level.

Specifically, in the sea level floating step (S20), as shown in Figure 1, the current time corresponding to the set time of the timer 400 included in each earthwork behavior tracking device 1 to control the drop signal ( When transmitting to the 500, the control unit 500 of the earth and sand behavior tracking device 1 opens the opening and closing member 110, and then drops the weight 300 into the water, and then, the opening and closing member 110. As shown in FIG. 5, each soil motion tracking device 1 can be floated to the sea level at regular time intervals.

The current position specifying step (S30) is to receive the position information of each earth and sand behavior tracking device 1 through the GPS unit 200 included in the earth and sand behavior tracking device (1) of the earth and sand behavior tracking device (1) This step specifies the current location.

Specifically, in the current location specifying step (S30), when the earth and sand behavior tracking device 1 rises to the sea level, the GPS unit 200 specifies the position of the earth and sand behavior tracking device 1 to provide location information. By generating it, it is possible to track the movement route of which route the earth and sand behavior tracking device 1 has moved for a certain time.

The earth and sand behavior checking step (S40) is a step of confirming the behavior of the earth and sand behavior tracking device by using the respective position information received from the earth and sand behavior tracking device (1).

6 is a view showing a state of tracking the movement path of the soil movement tracking device using the soil movement tracking device according to the present invention.

Specifically, in the earth and sand behavior confirming step (S40), as shown in Figure 6, by checking the behavior of each earth and sand behavior tracking device 1 floating to the sea level, the earth and sand behavior tracking device (1) in the sea bottom It is possible to identify the movement paths of the various subsurface soils that have moved along with.

On the other hand, the earth and sand behavior tracking method according to the first embodiment of the present invention may further include a device collection step (S50) after the soil soil behavior check step (S40).

The device collection step (S50) is a step of collecting each soil motion tracking device 1 by using the collection member 700 provided in the soil motion tracking device (1).

Hereinafter, a method for tracing soil soil according to a second embodiment of the present invention will be described in detail.

Figure 4 is a block diagram of a method of soil tracking behavior according to a second embodiment of the present invention.

As shown in FIG. 4, the method for tracking soil sediment according to the second embodiment of the present invention includes underwater inflow step S100, sea level floating step S200, current location specifying step S300, and earth and sand behavior checking. Step S400 and device identification step S500.

The underwater inflow step (S100) is a step in which the earth and sand behavior tracking device is swept down by the sea water and introduced into the water after installing the plurality of earth and sand behavior tracking devices 1 according to the second embodiment of the present invention.

Here, the timers 400 included in the plurality of soil motion tracking devices 1 are preferably set differently from each other in order to transmit a drop signal to the controller 500.

In the sea level floating step S200, when the current time corresponds to the set time of the timer 400, when the drop signal is transmitted to the control unit 500, the earth and sand behavior tracking device 1 through the control unit 500. Dropping the weight included in 300 is the step of causing each soil movement tracking device (1) to rise to the sea level at a predetermined time interval.

The current location specifying step (S300) is to receive the position information of each earth and sand behavior tracking device 1 through the GPS unit 200 included in the earth and sand behavior tracking device (1) of the earth and sand behavior tracking device (1) This step specifies the current location.

The earth and sand behavior checking step (S400) is a step of confirming the behavior of the earth and sand behavior tracking device 1 by using the respective position information received from the earth and sand behavior tracking device (1).

The device identifying step (S500) is a step of identifying the earth and sand behavior tracking device 1 by operating a light-emitting diode included in the earth and sand behavior tracking device 1 through the control unit 500. .

Specifically, in the device identification step (S500), when the earth and sand behavior tracking device 1 needs to be collected at night, the controller 400 receives a control signal for operating the light emitting diode from the timer 400 to operate the light emitting diode. In this way, it is possible to easily identify the earth and sand behavior tracking device (1).

On the other hand, the earth and sand behavior tracking method according to the second embodiment of the present invention may further include a device collection step (S600) after the soil sedimentation behavior confirming step (S500).

The device collection step (S600) is a step of collecting each soil motion behavior tracking device 1 using the collection member 700 provided in the soil motion behavior tracking device 1.

As described above, according to the present invention, there is no fear of radioactive exposure and the movement path of the sea bottom soil can be easily grasped by tracking the behavior of the soil movement tracking device that can move with the soil at the sea bottom.

As described above with reference to the drawings illustrating the earth and sand behavior tracking device according to the present invention and the method of earth and sand behavior tracking using the same, the present invention is not limited by the embodiments and the drawings disclosed herein, Of course, various modifications may be made by those skilled in the art within the scope of the technical idea.

1: sediment behavior tracking device
100: housing 110: padding
120: identification member 130: protective cover
200: GPS part 300: Weight weight
400: timer 500: control unit
600: shock absorption member 700: collection member
S10, S100: Underwater inflow stage
S20, S200: Sea level rise
S30, S300: Current position specific step
S40, S400: Checking the soil behavior
S50, S600: Device Collection Step
S500: Device Identification Step

Claims (12)

In the earth and sand behavior tracking device 1 including a control unit,
A housing 100 having an opening and closing member 110;
A GPS unit 200 provided inside the housing 100 to generate current location information by specifying a current location;
A weight 300 provided in the housing 100; And
Is provided inside the housing 100 but includes a timer 400 for transmitting a drop signal to the control unit 500, if the current time corresponds to the set time,
When the controller 500 receives the drop signal from the timer 400, the weight 300 freely falls while opening the opening / closing member 110 provided in the housing 100 so that the housing 100 falls. Soil behavior tracking device, characterized in that to float.
In the earth and sand behavior tracking device 1 including a control unit,
A housing 100 having an opening and closing member 110 and an identification member 120;
A GPS unit 200 provided inside the housing 100 to generate current location information by specifying a current location;
A weight 300 provided in the housing 100; And
Is provided inside the housing 100 but includes a timer 400 for transmitting a drop signal to the control unit 500, if the current time corresponds to the set time,
When the controller 500 receives the drop signal from the timer 400, the weight 300 freely falls while opening the opening / closing member 110 provided in the housing 100 so that the housing 100 falls. Soil behavior tracking device, characterized in that to float.
3. The method according to claim 1 or 2,
The housing 100 is a soil motion tracking device characterized in that the shock absorbing member 600 is provided on the outer circumferential surface to prevent breakage by external impact.
The method of claim 3, wherein
The shock absorbing member 600 is a soil motion tracking device, characterized in that made of a rubber material.
3. The method according to claim 1 or 2,
The housing 100 has a sediment behavior tracking device, characterized in that the collection member 700 is provided on the outer peripheral surface to facilitate the collection.
The method of claim 2,
The earthquake behavior tracking device, characterized in that the identification member 120 is made of a luminous material.
The method of claim 2,
The earthquake behavior tracking device, characterized in that the identification member (120) is made of a light-emitting diode.
8. The method of claim 7,
The light-emitting diode (light-emitting diode) further includes a protective cover 130 to prevent damage by an external impact on the top,
The protective cover 130 is earthwork behavior tracking device, characterized in that made of a transparent plastic material.
After installing the plurality of earth and sand behavior tracking devices 1 according to claim 1, wherein the set time at which the timer 400 transmits a drop signal is set differently, the earth and sand behavior tracking device 1 is swept away by sea water. An underwater inflow step (S10) introduced into the water;
When the current time corresponds to the set time of the timer 400, when the drop signal is transmitted to the controller 500, the weight 300 included in the earth and sand behavior tracking device is dropped through the controller 500. Sea level rise step (S20) for each earthwork behavior tracking device (1) to rise to the sea level at a predetermined time interval;
A current location specifying step of specifying the current location of the earth and sand behavior tracking device 1 by receiving the position information of each earth and sand behavior tracking device 1 through the GPS unit 200 included in the earth and sand behavior tracking device 1. (S30); And
Earth and sand behavior confirmation step (S40) for confirming the behavior of the earth and sand behavior tracking device by using the respective position information received from the earth and sand behavior tracking device
Tosa behavior tracking method comprising a.
The method of claim 9,
After the soil behavior check step (S40),
And a device collection step (S50) for collecting each earthwork behavior tracking device (1) by using the collection member (700) provided in the earthwork behavior tracking device (1).
After installing the plurality of earth and sand behavior tracking devices 1 according to claim 2, wherein the set time at which the timer 400 transmits a drop signal is set differently, the earth and sand behavior tracking device 1 is swept away by sea water. Underwater inflow step introduced into the water (S100);
When the current time corresponds to the set time of the timer 400, and transmits the drop signal to the controller, the weight weight 300 included in the earth and sand behavior tracking device 1 is dropped through the controller 500. Sea level injury step (S200) for causing each earth and sand behavior tracking device (1) to rise to the sea surface at regular time intervals;
A current location specifying step of specifying the current location of the earth and sand behavior tracking device 1 by receiving the position information of each earth and sand behavior tracking device 1 through the GPS unit 200 included in the earth and sand behavior tracking device 1. (S300);
Earth and sand behavior checking step (S400) of confirming the behavior of the earth and sand behavior tracking device (1) using the respective position information received from the soil and sand behavior tracking device (1); And
A device identification step (S500) of operating a light-emitting diode provided in the earth and sand behavior tracking device (1) through the control unit (500) to identify the earth and sand behavior tracking device (1);
Tosa behavior tracking method comprising a.
12. The method of claim 11,
After the device identification step (S500),
A soil collection method further comprising a device collection step (S600) for collecting each soil collection behavior tracking device using a collection member (700) provided in the soil collection behavior tracking device (1).

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