KR101385820B1 - Measuring System, Apparatus and Method for Maintaining Breakwater - Google Patents

Abstract

Disclosed are a maintenance measurement system of a breakwater structure, an automatic management device of a breakwater structure, and a method for automatically managing the same. The maintenance measurement system of the breakwater structure according to the present invention comprises: a plurality of measuring devices which are installed at a plurality of points in the breakwater structure, and measure at least one of settlement, inclination, wave pressure, and wave height of each of the breakwater structures; A communication device for short-range communication with each measurement device by wire or wirelessly; A storage device for storing the measurement value currently received through the communication device together with the reception time information; A breakwater management device that determines a damage state of the breakwater structure and calculates an inspection time based on the measured value currently received through the communication device and the measured value for a predetermined period of time stored in the storage device; And an administrator terminal connected to the breakwater management device through a network, and receiving and outputting a damage state and a check time of the breakwater structure from the breakwater management device.

Description

Maintenance measurement system of breakwater structure, automatic management device of breakwater structure and its automatic management method {Measuring System, Apparatus and Method for Maintaining Breakwater}

The present invention relates to a maintenance measurement system of a breakwater structure, an automatic management device of a breakwater structure, and an automatic management method thereof, and more particularly, to measure the settlement, inclination, wave pressure, wave height, etc. of a breakwater structure and to damage the breakwater structure accordingly. The present invention relates to a maintenance measurement system of a breakwater structure, an automatic management device of a breakwater structure, and an automatic management method thereof so that a proper response to breakage of a breakwater structure can be promptly dealt with by determining a condition and determining an inspection time.

Generally, a breakwater is installed almost indispensably in the harbor or the coast, and these breakwater are installed in various forms and various construction methods.

The breakwater of the early days was installed at a height enough to prevent a high wave, and the section where the breakwater was installed was blocked from the inside and outside. However, the construction of the breakwater in the form of confining the seawater, the inflow and outflow of the seawater is not made smoothly, the seawater of the Inner Sea family is contaminated, and various kinds of dirt accumulate, in severe cases odor occurs. It is not an exaggeration to say that the ecosystem of the tidal-flat and the sea floor on the Inland Sea has been completely destroyed.

Moreover, the above-mentioned breakwater has a large repulsive force in the seawater struck by the breakwater, and the seawater coming in successively after the seawater is added together to hit the breakwater with greater energy. As a result, have.

In order to solve these problems, various types of breakwaters have been proposed to enable the sea water to be distributed. One of them is a breakwater using the "unit block for building breakwater" of Korean Patent No. 770238.

On the other hand, since the breakwater structure is installed facing the sea, it is greatly affected by the wave pressure or wave height of the wave, and is also gradually damaged by an earthquake or ground subsidence. Therefore, in order to continuously maintain the breakwater structure, the breakage condition of the breakwater structure must be checked from time to time, and appropriate maintenance work must be performed according to the breakage state.

In particular, because the settlement, slope, wave pressure, wave height, etc. of the breakwater structure have irregularities, the manager visits the breakwater structure from time to time to determine the appropriate maintenance time of the breakwater structure, and measures the settlement, slope, wave pressure, wave height, etc. It is necessary to identify the damage state accordingly.

However, since the breakwater structure is generally installed on the seashore away from the management facility, it is not easy for the manager to visit the breakwater structure frequently and measure settlement, slope, wave pressure, wave height, and the like.

In addition, if there is a change in the environment such as weather, wind, earthquake, soil, etc. that affects settlement, slope, wave pressure, wave height, the manager visits the breakwater structure afterwards to measure settlement, slope, wave pressure, wave height, etc. If the state is judged, there may be a case where the critical point of the breakage state may already be exceeded at the time of measurement, and thus, there is a problem in that timely response may not be appropriately maintained for the maintenance of the breakwater structure.

The present invention was devised to solve the above-mentioned problems, and it is appropriate to measure breakdown structure of the breakwater structure, determine the breakage structure of the breakwater structure, and determine the inspection time accordingly. It is an object of the present invention to provide a maintenance measurement system of breakwater structures, an automatic management device of breakwater structures, and an automatic management method thereof so that the response can be promptly processed.

The maintenance measurement system of the breakwater structure according to the embodiment of the present invention for achieving the above object is installed in a plurality of locations in the breakwater structure, at least one of settlement, slope, wave pressure, wave height for each of the breakwater structure. A plurality of measuring devices for measuring; A communication device for short-range communication with each measurement device by wire or wirelessly; A storage device for storing the measurement value currently received through the communication device together with the reception time information; A breakwater management device that determines a damage state of the breakwater structure and calculates an inspection time based on the measured value currently received through the communication device and the measured value for a predetermined period of time stored in the storage device; And an administrator terminal connected to the breakwater management device through a network, and receiving and outputting a damage state and a check time of the breakwater structure from the breakwater management device.

The breakwater management device sets and classifies a range of steps for at least one of settling change amount, slope change amount, wave pressure and wave height, and matches the failure rate to each classified step and stores it as a reference range of damage determination. Range storage unit; A reference range comparison unit for comparing a measurement value currently received through the communication device with a reference range stored in the reference range storage unit; And a damage state determining unit determining a damage state of the breakwater structure using a corresponding breakage rate according to which step of the reference range stored in the reference range storage unit is a measurement value currently received through the communication device. Can be.

Here, the damage state determination unit determines the current damage state for the breakwater structure based on the damage rate corresponding to the stage corresponding to the measurement value currently received through the communication device, and the damage state determined before.

The breakwater management apparatus includes a calculation unit configured to calculate an average change amount of the measured value and an average change amount of the breakage state according to the change of the measured value based on the measured value periodically received for a predetermined period and stored in the storage device; A residual time calculation unit calculating a remaining time until the breakage state of the breakwater structure reaches a specific value based on the average change amount of the measured value calculated by the calculation unit and the average change amount of the breakage state; And a message transmission unit which transmits a check time notification message to the manager terminal based on the remaining time calculated by the remaining time calculation unit.

Breakwater management device, the absolute reference storage unit for storing the absolute reference for at least one of settlement, slope, wave pressure, wave height; A measurement value comparison unit for comparing the measurement value currently received through the communication device with an absolute reference stored in the absolute reference storage unit; And a message transmitter for transmitting an emergency message to the manager terminal when the measured value currently received through the communication device exceeds the absolute reference stored in the absolute reference storage.

When the measurement value received through the communication device exceeds the absolute reference stored in the absolute reference storage unit, the breakwater management device changes the reception period of changing the reception period of the measurement value received through the communication device to be smaller than the existing reception period. It may further include a.

The automatic breakwater structure management apparatus according to the embodiment of the present invention for achieving the above object is at least one of the settling, inclination, wave pressure, crest at each point of the breakwater structure from a plurality of measuring devices installed in a plurality of places in the breakwater structure. A measurement value receiver for receiving a measurement value for one; A measurement value storage unit for storing the measurement value currently received through the measurement value receiver together with the reception time information; A broken state determination unit determining a broken state of the breakwater structure based on the measured value currently received through the measured value receiving unit and the measured value for a predetermined period of time stored in the measured value storing unit; And a message transmitting unit transmitting a damaged state of the breakwater structure determined by the damaged state determining unit as a message to an administrator terminal connected through a network.

The breakwater structure automatic management device sets and classifies a range of steps for at least one of settlement change amount, slope change amount, wave pressure and wave height, and matches the failure rate to each classified step and stores it as a reference range of damage determination. A reference range storage unit; And a reference range comparing unit for comparing the measured value currently received through the measured value receiving unit with a reference range stored in the reference range storing unit. The damage state determining unit further includes a reference range comparing the measured value currently received through the measured value receiving unit. The breakage state of the breakwater structure can be determined using the corresponding breakage rate according to which step of the reference range stored in the storage unit.

In this case, the breakage state determining unit determines the current breakage state of the breakwater structure based on the breakage rate corresponding to the stage in which the measured value currently received through the measure value receiving unit corresponds, and the breakage state determined before.

Automatic breakwater structure management device, the calculation unit for receiving the average change amount of the measured value, and the average change amount of the damage state according to the change of the measured value based on the measured value periodically received for a predetermined period and stored in the measured value storage unit; And a residual time calculation unit that calculates a remaining time until the breakage structure of the breakwater structure reaches a specific value based on the average change amount of the measured value calculated by the calculation unit and the average change amount of the breakage state. . In this case, the message transmitting unit transmits a check time notification message to the manager terminal based on the remaining time calculated by the remaining time calculating unit.

Automatic breakwater structure management device, the absolute reference storage unit for storing the absolute reference for at least one of settlement, slope, wave pressure, wave height; And an absolute reference comparison unit comparing the measured value currently received through the measured value receiver with an absolute reference stored in the absolute reference storage unit.

The absolute reference comparison unit transmits an emergency message to the administrator terminal through the message transmission unit when the measured value currently received through the measurement value receiver exceeds the absolute reference stored in the absolute reference storage unit.

The breakwater structure management device changes the reception period of the measured value received through the measured value receiver to be smaller than the existing reception period when the measured value currently received through the measured value receiver exceeds the absolute reference stored in the absolute reference storage. The reception period changing unit may further include.

The method for automatically managing a breakwater structure according to an embodiment of the present invention for achieving the above object includes at least one of settlement, inclination, wave pressure, wave height at each point of the breakwater structure from a plurality of measuring devices installed at a plurality of points in the breakwater structure. Receiving a measurement for one; Storing the measurement value currently received through the measurement value reception step together with the reception time information; Determining a damage state of the breakwater structure based on the measurement value currently received through the measurement value receiving step and the measured value for a predetermined period stored by the measurement value storing step; And transmitting the damaged state of the breakwater structure determined by the damaged state determination step to a manager terminal connected through a network as a message.

The automatic breakwater structure management method includes setting and classifying a range of steps for at least one of settlement, slope, wave pressure, and height, and storing a reference range of failure state judgment by matching a failure rate to each classified step. step; And comparing the measurement value currently received through the measurement value receiving step with a reference range stored by the reference range storing step. The damage state determining step is based on the measurement value currently received through the measurement value receiving step. The failure state of the breakwater structure can be determined using the corresponding failure rate according to which step of the reference range stored by the range storage step.

In this case, the failure state determination step may determine the current damage state of the breakwater structure based on the failure rate corresponding to the step in which the measurement value currently received through the measurement value reception step corresponds, and the damage state previously determined. do.

The method for automatically managing a breakwater structure includes calculating an average change amount of a measured value and an average change amount of a breakage state according to a change of the measured value based on the measured value periodically received and stored for a predetermined period of time by the measured value storing step; And calculating a remaining time until the breakage structure of the breakwater structure reaches a specific value based on the average change amount of the measured measurement value and the average change amount of the breakage state. In this case, the message transmitting step may transmit a check time notification message to the manager terminal based on the remaining time calculated by the remaining time calculating step.

Automatic breakwater structure management method, the step of storing the absolute reference for at least one of settlement, slope, wave pressure, crest; Comparing the measured value currently received through the measurement value receiving step with an absolute reference stored by the absolute reference storing step; And transmitting an emergency message to an administrator terminal when the measured value currently received through the measured value receiving step exceeds an absolute reference stored by the absolute reference storing step.

In the method of automatically managing breakwater structures, when the measurement value currently received through the measurement value reception step exceeds the absolute reference stored in the absolute reference storage step, the reception period of the measurement value received through the measurement value reception step is determined. It may further include a step of changing to a smaller.

According to an embodiment of the present invention, the maintenance measurement system of the breakwater structure, the automatic management device of the breakwater structure and the automatic management method thereof measures the settlement, slope, wave pressure, wave height, etc. of the breakwater structure and accordingly the broken state of the breakwater structure It is possible to predict the inspection time for maintenance of the breakwater structure according to the determined breakage state.

In addition, the maintenance measurement system of breakwater structures, the automatic management device of breakwater structures, and the automatic management method thereof are characterized by settlements, slopes, wave pressures, and wave heights of breakwater structures that are suddenly changed by natural disasters such as typhoons, earthquakes, and tsunamis. In the event of a change, the manager is notified of the situation so that the manager can take prompt action to maintain the breakwater structure.

1 is a view schematically showing a maintenance measurement system of a breakwater structure according to an embodiment of the present invention.
2 is a view schematically showing an example of the breakwater management device of FIG.
3 is a view showing an example of the reference range of the damage state determination, showing an example of matching and storing the failure rate according to the inclination change amount.
4 is a view schematically showing another example of the breakwater management device of FIG.
5 is a view schematically showing another example of the breakwater management device of FIG.
6 is a view schematically showing an apparatus for automatically managing breakwater structures according to an embodiment of the present invention.
7 is a view schematically showing an apparatus for automatically managing breakwater structures according to another embodiment of the present invention.
8 is a view schematically showing an apparatus for automatically managing breakwater structures according to another embodiment of the present invention.
9 is a flowchart illustrating a method for automatically managing a breakwater structure according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, like reference numerals are used to denote like elements in the drawings, even if they are shown in different drawings. In addition, when it is determined that the detailed description of the known configuration or function related to the description of the embodiments of the present invention may obscure the gist of the present invention, the detailed description thereof will be omitted.

1 is a view schematically showing a maintenance measurement system of a breakwater structure according to an embodiment of the present invention.

Referring to Figure 1, the maintenance measurement system of the breakwater structure according to an embodiment of the present invention is a plurality of measuring devices 112, 114, 116, 118 installed in a plurality of places in the breakwater structure 110, communication device 120 , The storage device 130, the breakwater management device 140, and the manager terminal 150 connected to the breakwater management device 140 through the network 150.

The plurality of measuring devices 112, 114, 116, and 118 are structure settler 112 for measuring the settlement of the breakwater structure 110, a structure inclinometer 114 for measuring the inclination of the breakwater structure 110, and a breakwater structure ( Wave pressure gauge 116 to measure the wave pressure of the wave hitting the 110, and wave height meter 118 to measure the wave height of the wave that is pushed into the breakwater structure 110, each of the various within the breakwater structure 110 It can be provided in multiple places.

The communication device 120 communicates with each of the measurement devices 112, 114, 116, and 118 in close proximity, and may receive the measured value at a set period from each of the measurement devices 112, 114, 116, and 118. To this end, the communication device 120 is connected to each of the measuring devices 112, 114, 116, 118 through an Ethernet network, or each of the measuring devices 112, 114, 116, 118 and Bluetooth. Short-range wireless communication such as Zigbee, Near Field Communication (NFC), and the like may be performed.

The storage device 130 stores the measurement value currently received through the communication device 120 together with the reception time information. That is, the storage device 130 stores the settlement measurement value, the slope measurement value, the wave pressure measurement value, the wave height measurement value, and the like of the breakwater structure 110 measured by the communication device 120 together with the visual information at the time of reception. . In this case, the storage device 130 preferably stores the position information together in the breakwater structure 110 of each of the measuring devices 112, 114, 116, 118 in response to the received measured value.

The breakwater management device 140 is based on the measurement values currently received from the respective measurement devices 112, 114, 116, 118 through the communication device 120, and the measurement values for a predetermined period of time stored in the storage device 130. Determine the damage state for the breakwater structure 110 and calculate the inspection time.

To this end, the breakwater management device 140 includes a reference range storage unit 141, a reference range comparison unit 142, and a broken state determination unit 143, as shown in FIG. 2.

The reference range storage unit 141 sets and classifies a range in a plurality of stages for at least one of settlement change amount, slope change amount, wave pressure, and height, and matches the failure rate to each classified step to the reference range of the damage stage. Save it. For example, as shown in FIG. 3, the reference range storage unit 141 classifies the change amount of the slope of the breakwater structure 110 with respect to the sea level as a reference in several stages, and corresponds to each classified stage. The breakage rate indicating how much the breakwater structure 110 is broken may be matched and stored. In FIG. 3, although the reference range storage unit 141 classifies the step of the inclination change amount into five steps and stores the matched failure rate corresponding to each classified step, the reference range storage unit 141 is inclined. By reflecting the statistical value of the degree of breakage according to the change of, the slope change can be classified into more steps and the breakage rate can be matched and stored in each step. In this manner, the reference range storage unit 141 may classify the change amount of the settlement, the wave pressure, the crest height, and the like into a plurality of stages, and may match and store the failure rate corresponding to each stage. At this time, the reference range storage unit 141 stores the damage rate of the breakwater structure 110 to the present stage by matching the settlement change amount and the slope change amount for each step, and the current wave pressure measurement value and wave height measurement for wave pressure and wave height. Corresponding to the value, the breakwater structure 110 may be stored in accordance with the current damage rate for each step. Here, each failure rate represents the degree of breakage of the breakwater structure 110 according to the change of the slope, the change of the settlement, the wave pressure, the crest, and the like as a percentage, and such a breakage rate may be statistically obtained.

The reference range comparison unit 142 compares the measurement value currently received through the communication device 120 with the reference range stored in the reference range storage unit 141.

The damage state determination unit 143 may use the breakwater structure using the corresponding breakage rate according to which stage of the reference range stored in the reference range storage unit 141 is the measurement value currently received through the communication device 120 ( The damage state of the 110) is determined. For example, assuming that the inclination measurement value currently received through the communication device 120 is 1.2 °, the damage state determining unit 143 corresponds to the second step in the case where the inclination measurement value currently received is FIG. 3. Therefore, it can be determined that the breakwater structure 110 is damaged by 0.2% to 3%.

At this time, the breakage determination unit 143 is the breakwater structure 110 based on the breakage rate corresponding to the step corresponding to the step that the measurement value currently received through the communication device 120 in the reference range, and the previously determined breakage state (110) It is also possible to determine the current breakage state for. That is, when the measured value received through the communication device 120 is the wave pressure measurement value or the wave height measurement value, the damage state determination unit 143 is the breakage structure 110 of the breakwater structure by the wave pressure measurement value or the wave height measurement value before Accumulate and store the breakage rate, and add the breakage rate corresponding to the accumulated wave pressure or the breakage rate corresponding to the wave height to the present time of the breakwater structure 110 by adding a breakage rate corresponding to the wave pressure measurement value or the wave height measurement value currently received. It is also possible to determine the breakage state of.

In addition, the failure state determination unit 143 may determine the overall damage state up to the present of the breakwater structure 110 by summing the damage states determined by the respective measured values of settlement, inclination, wave pressure, and crest. For example, the failure state determined by the settlement measurement is 0.2%, the failure state determined by the slope measurement is 0.1%, the failure state to date determined by the wave pressure measurement is 0.2%, and the crest Assuming that the failure state to date determined by the measured value is 0.05%, the failure state determination unit 143 may determine that the breakwater structure 110 is broken by 0.55% so far by summing up each broken state. .

4 is a view schematically showing another example of the breakwater management device of FIG.

Referring to FIG. 4, the breakwater management device 140 may include a calculator 144, a residual time calculator 145, and a message transmitter 146.

The calculation unit 144 calculates, for each measured value received at a set period and stored in the storage device 130, the average change amount of the measured value for a predetermined period and the average change amount of the broken state according to the measured value change. For example, among the inclination measurements received at a weekly interval and stored in the storage device 130, the last three inclination measurements are 0.15 °, 0.16 °, and 0.17 °, respectively, and the corresponding failure rates are 0.14%, 0.16%, Assuming 0.18%, the calculation unit 144 may calculate that the average change amount of the weekly interval of the slope measurement value is 0.01 °, and the average change amount of the breakage state according to the change of the measurement value is 0.02%.

The residual time calculation unit 145 calculates the remaining time until the failure state of the breakwater structure 110 reaches a specific value based on the average change amount of the measured value calculated by the calculation unit 144 and the average change amount of the break state. Can be calculated. For example, as described above, when the average change amount of the measured value at the weekly interval calculated by the calculation unit 144 is 0.01 °, and the average change amount of the damage state according to the measured value change is 0.02%, the remaining time calculation unit 145 may be expected to take 50 weeks until the breakage structure 110 of the breakwater structure 110 by 1% due to the change in the inclination, of which breakage structure 110 by the change of the slope since the failure rate to date is 0.18% It can be calculated that 41 weeks of remaining time is left until the failure state of) is 1%.

The message transmitter 146 may transmit a check time notification message to the manager terminal 160 through the network 150 based on the remaining time calculated by the remaining time calculator 145. In this case, the network 150 may be a wired network using UTP or an optical fiber cable, a short range wireless communication network using Bluetooth, Near Field Communication (NFC), Zigbee, or code division multiple access (CDMA). ), A mobile communication network such as Wideband CDMA (WCDMA), Global System for Mobile communication (GSM), and the like. In addition, the manager terminal 160 includes not only a computer connected through a wired network, but also a mobile phone, a personal digital assistant (PDA), and the like, connected to a mobile communication network, and a smartphone, a notebook, and the like connected through a wireless internet.

5 is a view schematically showing another example of the breakwater management device of FIG.

Referring to FIG. 5, the breakwater management apparatus 140 may include a message transmission unit 146, an absolute reference storage unit 147, a measurement value comparison unit 148, and a reception period changing unit 149. Here, the message transmitter 146 has the same reference numeral as the function of the message transmitter 146 of FIG. 4.

The absolute reference storage unit 147 stores the absolute reference for at least one of the settlement, slope, wave pressure, wave height of the breakwater structure (110). In this case, the absolute reference storage unit 147 may store the settled measurement value, the slope measurement value, the wave pressure measurement value, the wave height measurement value, etc., which must be accompanied by the inspection of the manager and the repair of the breakwater structure 110. have.

The measured value comparing unit 148 compares the measured value currently received through the communication device 120 with a corresponding absolute reference stored in the absolute reference storage unit 147. For example, when the measurement value currently received through the communication device 120 is the slope measurement value, the slope measurement value is compared with the corresponding slope absolute reference. When it is determined that the measured value currently received by the measured value comparing unit 148 exceeds the absolute standard, the message transmitter 146 transmits an emergency message to the manager terminal 160 through the network 150. In this case, the message transmission unit 146 includes the position corresponding to the measured value exceeding the absolute reference and the type of the signal corresponding to the measured value (for example, the settlement signal, the slope signal, etc.) in the emergency message. It is desirable to transmit. In this way, if a settlement, slope, wave pressure, or crest changes suddenly due to an unexpected natural disaster such as a typhoon, earthquake, or tsunami, the manager can be notified of the situation so that a quick response can be taken.

If it is determined by the measured value comparing unit 148 that the measured value received through the communication device 120 exceeds the absolute reference stored in the absolute reference storage unit 147, the reception period changing unit 149 is a communication device ( The receiving period of the measured value received through 120 may be changed to be smaller than the existing receiving period. When the settled measurement value, the slope measurement value, the wave pressure measurement value, the wave height measurement value, etc. are suddenly changed by natural disasters such as typhoon, earthquake, tsunami, and the like and exceed the absolute standard, the given period change part 149 By reducing the receiving period, the administrator can pay more attention to the subsequent change of situation.

The manager terminal 160 may be connected to the breakwater management device 140 through the network 150, and may output the damage state and the inspection time of the breakwater structure 110 determined by the breakwater management device 140.

6 is a view schematically showing an apparatus for automatically managing breakwater structures according to an embodiment of the present invention.

6, the automatic breakwater structure management apparatus 600 according to an embodiment of the present invention is a measurement value receiving unit 610, a measurement value storage unit 620, a damage state determination unit 630, a message transmission unit ( 640, a reference range storage unit 650, and a reference range comparison unit 660.

The measured value receiver 610 receives measured values for at least one of settling, tilting, wave pressure, and wave height at each point of the breakwater structure from a plurality of sensors installed at a plurality of points in the breakwater structure at a set period. To this end, sensors such as structure settlement meter, structure inclinometer, wave pressure gauge, crest gauge, etc. are installed in a plurality of places of the breakwater structure, the measurement value receiving unit 610 is implemented to enable communication with such sensors in a wired or wireless manner.

The measured value storage unit 620 stores the measured value received through the measured value receiver 610 together with the reception time information. That is, the measurement value storage unit 620 stores the settlement measurement value, the slope measurement value, the wave pressure measurement value, the wave height measurement value, and the like of the breakwater structure measured by the measurement value receiver 610 together with the visual information at the time of reception. .

The damage state determination unit 630 determines a damage state of the breakwater structure based on the measurement value currently received through the measurement value receiver 610 and the measurement value stored for a predetermined period of time stored in the measurement value storage unit 620. .

The message transmission unit 640 may transmit a damage state of the breakwater structure determined by the damage state determination unit 630 to a manager terminal connected through a network. To this end, the message transmission unit 640 stores the identification number of the administrator terminal for the registered administrator.

In order to assist in determining the breakage state of the breakwater structure by the breakage state determining unit 630, the reference range storage unit 650, as described with reference to FIG. 2, is a plurality of at least one of the settlement change amount, the slope change amount, the wave pressure, the wave height By setting the range in the step of the classification, it is possible to match the failure rate to each classified step can be stored as a reference range of the failure state to determine the failure state of the breakwater structure.

The reference range comparison unit 660 compares the measurement value currently received through the measurement value receiving unit 610 with the reference range stored in the reference range storage unit 650.

In this case, the damage state determining unit 630 uses the corresponding damage rate according to which stage of the reference range stored in the reference range storage unit 650 is the measurement value currently received through the measurement value receiving unit 610 The breakage state of the breakwater structure can be determined. In addition, the failure state determination unit 630 is based on the breakage rate corresponding to the step corresponding to the step that the measurement value currently received through the measurement value receiving unit 610 in the reference range, and the breakage state determined before, for the breakwater structure You can also determine the current breakage condition. That is, when the measured value received through the measured value receiving unit 610 is a wave pressure measurement value or a wave height measurement value, the failure state determination unit 630 is the breakage rate of the breakwater structure by the previous wave pressure measurement value or wave height measurement value Accumulate and store and determine the failure state up to the present of the breakwater structure by adding the breakage rate corresponding to the current wave pressure measurement value or the wave height measurement value to the breakage rate corresponding to the accumulated wave pressure or the breakage rate corresponding to the wave height. You may.

The failure state determination unit 630 determines the overall failure state to date of the breakwater structure by summing the failure states determined by the respective measured values of settlement, slope, wave pressure, and crest.

7 is a view schematically showing an apparatus for automatically managing breakwater structures according to another embodiment of the present invention.

Referring to FIG. 7, another automatic breakwater structure management apparatus 700 according to another embodiment of the present invention includes a measurement value receiver 710, a measurement value storage unit 720, a damage state determination unit 730, and a message transmission unit ( 740, a calculator 750, and a residual time calculator 760. Here, the functions and operations of the measured value receiving unit 710, the measuring value storing unit 720, the damage state determining unit 730, and the message transmitting unit 740 are measured value receiving unit 610 and measured value storing unit of FIG. 620, similar to the functions and operations of the damage state determining unit 630 and the message transmitting unit 640, the description of overlapping contents will be omitted.

The calculation unit 750 calculates, for each measurement value received at a set period and stored in the measurement value storage unit 720, the average change amount of the measured value for a predetermined period and the average change amount of the broken state according to the measured value change. . For example, among the inclination measurements received at a weekly interval and stored in the storage device 130, the last three inclination measurements are 0.15 °, 0.16 °, and 0.17 °, respectively, and the corresponding failure rates are 0.14%, 0.16%, Assuming that 0.18%, the calculation unit 750, as described in Figure 4, the average change amount of the weekly interval of the inclination measurement value is 0.01 °, it can be calculated that the average change amount of the damage state according to the change of the measurement value is 0.02% have.

The remaining time calculation unit 760 may calculate the remaining time until the breakage structure of the breakwater structure reaches a specific value based on the average change amount of the measured value and the average change amount of the broken state calculated by the calculation unit 750. have. For example, as described above, when the average change amount of the measured value at the weekly interval calculated by the calculation unit 750 is 0.01 °, and the average change amount of the broken state according to the measured value change is 0.02%, the remaining time calculation unit (760) can be expected to take 50 weeks until the breakage structure of the breakwater structure is 1% due to the change of the slope, of which the breakage structure of the breakwater structure due to the change of slope is 1 It can be calculated that the remaining time until the percentage is 41 weeks remaining.

The message transmitter 740 may transmit a check time notification message to the manager terminal through the network based on the remaining time calculated by the remaining time calculator 750.

8 is a view schematically showing an apparatus for automatically managing breakwater structures according to another embodiment of the present invention.

Automatic breakwater structure management apparatus 800 according to another embodiment of the present invention is a measurement value receiving unit 810, the measurement value storage unit 820, damage status determination unit 830, message transmission unit 840, absolute reference The storage unit 850 may include an absolute reference comparator 860 and a reception period changing unit 870. Here, the functions and operations of the measurement value receiver 810, the measurement value storage unit 820, the damage state determination unit 830, and the message transmission unit 840 are measured value receiver 610 and measurement value storage unit of FIG. 6. 620, similar to the functions and operations of the damage state determining unit 630 and the message transmitting unit 640, the description of overlapping contents will be omitted.

The absolute reference storage unit 850 stores the absolute reference for at least one of the settlement, slope, wave pressure, wave height of the breakwater structure. In this case, the absolute reference storage unit 850 may store the settlement measurement value, the slope measurement value, the wave pressure measurement value, the wave height measurement value, etc., which must be accompanied by the inspection of the administrator and the repair of the breakwater structure.

The absolute reference comparison unit 860 compares the measurement value currently received through the measurement value receiver 810 with a corresponding absolute reference stored in the absolute reference storage unit 850. For example, when the measurement value currently received through the measurement value receiving unit 810 is a slope measurement value, the slope measurement value is compared with a corresponding slope absolute reference.

When it is determined that the measured value currently received by the absolute reference comparator 860 exceeds the absolute standard, the message transmitter 840 may transmit an emergency message to an administrator terminal connected through a network. In this case, the message transmission unit 840 includes the position corresponding to the measured value exceeding the absolute reference and the type of the signal corresponding to the measured value (eg, a sinking signal, a slope signal, etc.) in the emergency message. send.

In addition, if it is determined that the measured value received by the absolute reference comparing unit 860 through the measured value receiving unit 810 exceeds the absolute reference stored in the absolute reference storing unit 850, the receiving period changing unit 870 The measurement value receiver 810 may be controlled to change the measurement value reception period to be smaller than the existing reception period. Through this, if the settlement measurement value, the slope measurement value, the wave pressure measurement value, the crest measurement value, and the like are determined to be an emergency situation exceeding the absolute standard, the given period changing unit 149 decreases the reception period of the measurement value so that the administrator can Pay close attention to changing the situation.

9 is a flowchart illustrating a method for automatically managing a breakwater structure according to an embodiment of the present invention.

6 to 9, the reference range storage unit 650 sets and classifies the range in a plurality of stages for at least one of the settlement change amount, the slope change amount, the wave pressure, and the wave height, and breakage rate at each classified step. By matching with the stored in the reference range of the broken state determination for determining the breakage state of the breakwater structure (S902).

In addition, the absolute reference storage unit 850 stores the absolute reference for at least one of the settlement, slope, wave pressure, wave height of the breakwater structure (S904). In this case, the absolute reference storage unit 850 may store the settlement measurement value, the slope measurement value, the wave pressure measurement value, the wave height measurement value, etc., which must be accompanied by the inspection of the administrator and the repair of the breakwater structure.

The measured value receivers 610, 710, and 810 receive measured values for at least one of settling, tilting, wave pressure, and wave height at each point of the breakwater structure from a plurality of sensors installed at a plurality of points in the breakwater structure at a set period ( S906).

The measured value storage units 620, 720, and 820 store the measured values received through the measured value receivers 610, 710, and 810 together with the reception time information (S908). That is, the measurement value storage unit 620, 720, 820 receives the settlement measurement value, the slope measurement value, the wave pressure measurement value, the wave height measurement value, etc. of the breakwater structure measured through the measurement value receivers 610, 710, 810. Store with the time information of the viewpoint. In this case, the measurement value storage units 620, 720, and 820 may store location information corresponding to each measurement value.

The reference range comparison unit 660 compares the measurement value currently received through the measurement value receivers 610, 710, and 810 with the reference range stored in the reference range storage unit 650 (S910).

The damaged state determination unit 630, 730, 830 responds according to which stage of the reference range stored in the reference range storage unit 650 is the measurement value currently received through the measurement value receiver 610, 710, 810. The breakage state of the breakwater structure can be determined using the breakage rate to (S912). In addition, the failure state determination unit 630, 730, 830 is a failure rate corresponding to the step corresponding to the step that the measurement value currently received through the measurement value receiving unit (610, 710, 810) in the reference range, and the damage determined before Based on the condition, the current failure state of the breakwater structure may be determined.

The calculation unit 750 is received at a set period and stored in the measured value storage unit 620, 720, 830, the average change amount of the measured value for a predetermined period, and the average of the damage state according to the measured value change The amount of change is calculated (S914).

The remaining time calculation unit 760 calculates the remaining time until the breakage structure of the breakwater structure becomes a specific value based on the average change amount of the measured value and the average change amount of the broken state calculated by the calculation unit 750 ( S916).

The message transmitters 640, 740, and 840 may transmit the damage state of the breakwater structure determined by the damage state determination unit 630, 730, or 830 to an administrator terminal connected through a network. In addition, the message transmission unit 740 may transmit a check time notification message to the administrator terminal through the network based on the remaining time calculated by the remaining time calculation unit 750 (S918).

The absolute reference comparison unit 860 compares the measurement value currently received through the measurement value receiver 810 with a corresponding absolute reference stored in the absolute reference storage unit 850 (S920).

When it is determined that the measured value currently received by the absolute reference comparator 860 exceeds the absolute standard (S922), the reception period changing unit 870 controls the measured value receivers 610, 710, and 810 to measure the measured value. The reception period is changed to be smaller than the existing reception period (S924).

At this time, the message transmission unit 640, 740, 840 emergency situation including the position corresponding to the measured value exceeding the absolute reference and the type of the signal corresponding to the measured value (for example, sinking signal, slope signal, etc.) By sending a message to the administrator terminal to allow the administrator to recognize the emergency (S926).

110: breakwater structure 120: communication device
130: storage device 140: breakwater management device
141: reference range storage unit 142: reference range comparison unit
143, 630, 730, 830: damaged state judgment
144, 750: calculation unit 145, 760: remaining time calculation unit
146, 640, 740, 840: message transmission unit
147, 850: Absolute reference storage section 148: Comparison of measured values
149, 870: Receiving period changing unit 150: Network
160: manager terminal 610, 710, 810: measured value receiver
620, 720, 820: measured value storage unit 660: reference range comparison unit

Claims (18)

A plurality of measuring devices which are installed at a plurality of locations in the breakwater structure and measure at least one of settlement, inclination, wave pressure, and wave height of each of the breakwater structure;
A communication device for short-range communication with each of the measurement devices by wire or wirelessly;
A storage device for storing a measurement value currently received through the communication device together with reception time information;
A breakwater management device that determines a damage state of the breakwater structure and calculates an inspection time based on a measurement value currently received through the communication device and a measured value stored in the storage device for a predetermined period of time; And
An administrator terminal connected to the breakwater management device through a network and receiving and outputting a damage state and an inspection time of the breakwater structure from the breakwater management device;
Includes, the breakwater management device,
At least one of settling change amount, inclination change amount, wave pressure, and crest is set and classified in a plurality of stages.For at least one of the settling change amount and inclination change amount, the failure rate so far is matched in each step, and wave pressure and crest At least one of the reference range storage unit for matching the current failure rate of the breakwater structure in each step corresponding to the current wave pressure measurement value or the wave height measurement value to store as a reference range of the damage state determination;
A reference range comparison unit for comparing a measurement value currently received through the communication device with a reference range stored in the reference range storage unit; And
The corresponding breakage rate is determined according to which step of the reference range stored in the reference range storage unit corresponds to the measurement value currently received through the communication device, and the currently received measurement value is determined from the wave pressure measurement value and the crest measurement value. In the case of at least one, each failure rate is accumulated and stored, and the failure rate corresponding to each measured value currently received is accumulated by accumulating and storing the damage rate accumulated up to the previous time, and thus the damage state to the present breakwater structure is calculated. Judging broken state determination unit;
Maintenance measurement system of the breakwater structure comprising a. delete delete According to claim 1, The breakwater management device,
A calculation unit configured to calculate an average change amount of the measured value and an average change amount of the damage state according to the change of the measured value based on the measured value periodically received for a predetermined period and stored in the storage device;
A residual time calculation unit calculating a remaining time until the breakage structure of the breakwater structure reaches a specific value based on the average change amount of the measured value calculated by the calculation unit and the average change amount of the breakage state; And
A message transmission unit which transmits a check time notification message to the manager terminal based on the remaining time calculated by the remaining time calculation unit;
Maintenance measurement system of the breakwater structure further comprises a. According to claim 1, The breakwater management device,
An absolute reference storage unit for storing an absolute reference for at least one of settlement, slope, wave pressure, and wave height;
A measurement value comparing unit comparing a measurement value currently received through the communication device with an absolute reference stored in the absolute reference storage unit; And
A message transmitter for transmitting an emergency message to the manager terminal when a measurement value currently received through the communication device exceeds an absolute reference stored in the absolute reference storage;
Maintenance measurement system of the breakwater structure further comprises a. According to claim 5, The breakwater management device,
A reception period changing unit configured to change a reception period of the measurement value received through the communication device to be smaller than an existing reception period when the measured value received through the communication device exceeds an absolute reference stored in the absolute reference storage unit;
Maintenance measurement system of the breakwater structure further comprises a. A measurement value receiving unit for receiving a measurement value for at least one of settling, tilting, wave pressure, and wave height at each point of the breakwater structure from a plurality of measuring devices installed at a plurality of points in the breakwater structure;
At least one of settling change amount, inclination change amount, wave pressure, and crest is set and classified in a plurality of stages.For at least one of the settling change amount and inclination change amount, the failure rate so far is matched in each step, and wave pressure and crest At least one of the reference range storage unit for matching the current failure rate of the breakwater structure in each step corresponding to the current wave pressure measurement value or the wave height measurement value to store as a reference range of the damage state determination;
A reference range comparison unit for comparing a measurement value currently received through the measurement value receiver with a reference range stored in the reference range storage unit;
The corresponding breakage rate is determined according to which step of the reference range stored in the reference range storage unit corresponds to the measurement value currently received through the measured value receiver, and the currently received measurement value is the wave pressure measurement value and the wave height measurement value. In the case of at least one, each failure rate is accumulated and stored, and the failure rate corresponding to each measured value currently received is added to the damage rate accumulated up to the previous, and thus the damage state to the present breakwater structure. Determination of the damaged state judging; And
A message transmitting unit for transmitting a damaged state of the breakwater structure determined by the damaged state determining unit as a message to a manager terminal connected through a network;
Breakwater structure automatic management device comprising a. delete delete 8. The method of claim 7,
A measurement value storage unit for storing the measurement value currently received through the measurement value receiver together with reception time information;
A calculation unit configured to calculate an average change amount of the measured value and an average change amount of the damage state according to the change of the measured value based on the measured value periodically received for a predetermined period and stored in the measured value storage unit; And
And a residual time calculating unit calculating a remaining time until the breakage state of the breakwater structure becomes a specific value based on the average change amount of the measured value calculated by the calculation unit and the average change amount of the breakage state.
And the message transmitting unit transmits an inspection time notification message to the manager terminal based on the remaining time calculated by the remaining time calculating unit. 8. The method of claim 7,
An absolute reference storage unit for storing an absolute reference for at least one of settlement, slope, wave pressure, and wave height; And
And an absolute reference comparator for comparing the measured value currently received through the measured value receiver with an absolute reference stored in the absolute reference storage.
The absolute reference comparison unit transmits an emergency message to the manager terminal through the message transmission unit when a measurement value currently received through the measurement value receiving unit exceeds an absolute reference stored in the absolute reference storage unit. Breakwater structure automatic management device. 12. The method of claim 11,
Receiving period for changing the receiving period of the measured value received through the measured value receiving unit smaller than the existing receiving period when the measured value currently received through the measured value receiving unit exceeds the absolute reference stored in the absolute reference storage unit Change section;
Breakwater structure automatic management device further comprising a. In the breakwater structure automatic management method by the breakwater structure automatic management device,
At least one of settling change amount, inclination change amount, wave pressure, and crest is set and classified in a plurality of stages.For at least one of the settling change amount and inclination change amount, the failure rate so far is matched in each step, and wave pressure and crest At least one of the steps according to the current wave pressure measurement value or the wave height measurement value to match the breakage rate that the breakwater structure is currently worn in each step to store as a reference range of the failure state determination;
Receiving a measurement value for at least one of settling, tilting, wave pressure, and wave height at each point of the breakwater structure from a plurality of measuring devices installed at a plurality of points in the breakwater structure;
Comparing the measurement value currently received through the measurement value receiving step with a reference range stored by the reference range storing step;
The corresponding breakage rate is determined according to which step of the reference range stored by the reference range storage step corresponds to the measurement value received by the measurement value receiving step, and the currently received measurement value is the wave pressure measurement value and the wave height. In the case of at least one of the measured values, each failure rate is accumulated and stored, and the failure rate corresponding to each measured value currently received is accumulated by accumulating the previously stored failure rate to the present time for the breakwater structure. Determining a damage state; And
Transmitting, in a message to a manager terminal connected to a breakdown structure of the breakwater structure determined by the damage state determination step through a network;
Breakwater structure automatic management method comprising a. delete delete 14. The method of claim 13,
Storing the measurement value currently received through the measurement value reception step together with reception time information;
Calculating an average change amount of the measured value and an average change amount of the damage state according to the change of the measured value based on the measured value received and stored periodically for a predetermined period of time by the measured value storing step; And
Calculating a remaining time until the breakage state of the breakwater structure reaches a specific value based on the calculated average change amount of the measured value and the average change amount of the breakage state.
The message transmission step of the automatic breakwater structure management method, characterized in that for transmitting the inspection time notification message to the manager terminal based on the remaining time calculated by the remaining time calculation step. 14. The method of claim 13,
Storing an absolute reference for at least one of settlement, slope, wave pressure, and crest;
Comparing the measurement value currently received through the measurement value receiving step with an absolute reference stored by the absolute reference storing step; And
Transmitting an emergency message to the manager terminal when the measured value currently received through the measured value receiving step exceeds an absolute reference stored by the absolute reference storing step;
Breakwater structure automatic management method further comprising a. 18. The method of claim 17,
If the measurement value currently received through the measurement value reception step exceeds the absolute reference stored in the absolute reference storage step, changing the reception period of the measurement value received through the measurement value reception step smaller than the existing reception period step;
Breakwater structure automatic management method further comprising a.

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