KR20090112352A - Structure displacement measuring system - Google Patents

Abstract

A structure displacement measurement system is disclosed. The structure displacement measuring system for measuring displacement of a structure using an accelerometer includes a displacement measuring unit and a time detector. The displacement measuring unit measures the displacement of a predetermined measuring point on the structure, and the time detector detects the time at the moment of measuring the displacement. With this configuration, it is possible to detect the progress of the fatigue phenomenon due to the displacement of the structure, and to predict the collapseable time of the structure, to prevent the loss of life and economic loss by establishing a countermeasure against collapse, repair of the structure, and the establishment of reinforcement measures. .

Description

System for measuring structure displacement

The present invention relates to a metrology system, and more particularly to a structure displacement measurement system for measuring the displacement of the structure using an accelerometer.

Recently, construction of high-rise buildings has been spreading, and the number of structures requiring structural safety review due to natural disasters and deterioration of buildings has also increased.

Therefore, it is very important to measure the current state of the structure in order to identify the condition of the structure in advance and take countermeasures, repairs, and reinforcement measures to prevent human and economic loss.

In particular, safety of deteriorated structures, structures constructed long ago, and so on may be very unstable, causing large catastrophes. The change of state of the structure or breakage is the main cause of the accumulation of fatigue phenomenon.

For example, in buildings such as apartments and buildings, the wind direction and wind speed of the building are different for each part of the building, and thus fatigue may accumulate. As a result, bridges may vary depending on the speed of the moving vehicle and the weight of the vehicle. Fatigue may accumulate due to vibrations varying for each part of the ship, and a ship may accumulate fatigue due to the influence of height, direction, and force of the wave for each part of the ship.

Of the systems that are currently used to determine the state of the structure, there is virtually no system that can quickly detect the deformation or collapse of the structure due to fatigue by measuring the exact displacement of the structure in real time.

In addition, there is also a system that can easily obtain accurate time data at the time of displacement measurement, there is a problem in that unknown information can not be obtained only by displacement data, such as predicting the collapseable time of the structure.

The present invention has been made to solve such a conventional problem, it is possible to detect the progress of the fatigue phenomenon due to the displacement of the structure, by predicting the possible collapse time of the structure to prepare for collapse and repair of the structure, reinforcement measures The aim is to provide a system for measuring displacement of structures to prevent human and economic losses.

In order to achieve the above object, the structure displacement measuring system according to the present invention includes a displacement measuring unit and a time detector.

The displacement measuring unit measures the displacement of a predetermined measuring point on the structure, and the time detector detects the time at the moment of measuring the displacement.

With this configuration, it is possible to detect the progress of the fatigue phenomenon due to the displacement of the structure, and to predict the collapseable time of the structure, to prevent the loss of life and economic loss by establishing a countermeasure against collapse, repair of the structure, and the establishment of reinforcement measures. .

In addition, the time detector may detect the measurement time using the GPS device. Since the GPS device receives a signal corresponding to the correct time from the satellite, the GPS device can detect the exact time at the moment of measuring the displacement of the structure.

The displacement measuring unit may measure the displacement of the structure using an accelerometer. Accelerometers, despite being smaller than other sensors capable of measuring displacements, are very robust, have a wide range of motion measurable frequencies (almost 0 Hz to over 100 KHz), sensitive to small vibrations, and It is strong so that its properties do not change for a long time.

Therefore, even the smallest deformation of the structure can be measured accurately, and the structure displacement system can be used for a long time without trouble.

In addition, the displacement measuring unit may measure at a plurality of locations spaced apart from each other in the structure. As a result, the displacement measuring unit can be installed at a plurality of points on the structure to measure the displacement at each installation point, and based on the measurement result, it is possible to find and manage intensively the parts where the collapse is likely to occur. Can be managed as a whole to obtain integrated and diverse information.

In addition, the structure displacement measuring system according to the present invention may further include a data storage and a data processor.

The data storage unit may store the measured displacement of the structure and the detected measurement time and transmit the data to the outside. The data processing unit receives data from the data storage unit and compares the data with a preset reference data value to check the safety of the structure. I can make it understand.

With this configuration, it is possible to calculate the statistical value by systematically managing the measured data, it is possible to check the measurement result and the calculation result of the statistics in real time, it is possible to quickly detect the occurrence of displacement of the structure.

According to the present invention, by installing the displacement measuring unit at a plurality of points on the structure, the progress of the fatigue phenomenon can be detected by the displacement of the structure, and various integrated information can be obtained.

In addition, it is possible to detect the exact time at the moment of measuring the displacement of the structure, so that it is possible to predict the possible collapse time of the structure, and precisely and quickly detect even the minute deformation of the structure to prepare for the collapse, repair of the structure, and establishment of reinforcement measures. This can prevent life and economic loss.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. In order to more clearly understand the present invention, the same reference numerals are used for the same components in different drawings.

1 is a block diagram schematically showing a structure displacement measuring system 100 according to the present invention. The structure displacement measuring system 100 includes a displacement measuring unit 110, a time detector 120, a data storage unit 130, and a data processor 140.

The displacement measuring unit 110 measures a displacement of a predetermined measurement point on the structure, and may measure the displacement of the structure by using an accelerometer. Accelerometers, despite being smaller than other sensors capable of measuring displacements, are very robust, have a wide range of motion measurable frequencies (almost 0Hz to 100Khz), sensitive to small vibrations, and are also resistant to shocks. The property does not change for a long time. Therefore, even the smallest deformation of the structure can be measured accurately, and the structure displacement system can be used for a long time without trouble.

Among these accelerometers, in particular, the three-axis accelerometer can simultaneously measure the acceleration of the x, y, z three axes using a single sensor. Therefore, when it is necessary to simultaneously measure the three-dimensional vibration occurring at the same point, it is possible to use the three-axis accelerometer, it can exhibit the effect of reducing the data measurement time.

In addition, the displacement measuring unit 110 may measure at a plurality of positions spaced apart from each other in the structure. Because of this, by installing the displacement measuring unit 110 at a plurality of points on the structure to measure the displacement by each installation point, based on the measurement results to find a portion that is likely to cause collapse in the structure to focus intensively It is possible to manage the structure as a whole and to obtain integrated and diverse information.

The time detector 120 detects a time at the moment of measuring the displacement, and thus, the time detector 120 may be connected to the displacement measurer 110.

In addition, the time detector 120 may detect the measurement time by using the GPS device. GPS stands for Global Positioning System, which uses satellites to provide location, speed, and time measurement services. GPS is capable of accurate measurement of three-dimensional position, altitude, and time, can provide 24 hours of continuous service, and is resistant to weather conditions, interference and interference, and uses a common coordinate system worldwide.

Therefore, when using the GPS device, it is possible to detect the exact time at the moment of measuring the displacement of the structure by receiving a signal corresponding to the exact time from the satellite, so that it is possible to predict the collapse time of the structure and to prepare for the collapse. Life and economic loss can be prevented by establishing maintenance and reinforcement measures.

In addition to the GPS device, any device capable of measuring an accurate time may be used for the time detector 120.

In addition, the moment measuring unit 120 may be set in advance to measure the displacement in advance so that the displacement measuring unit 110 may operate at the same time. In this case, if the set time is constant, it may be easier to check the data change over time.

Since the data storage unit 130 may store and transmit the measured displacement of the structure and the detected measurement time to the outside, the data storage 130 may systematically manage the measured data to calculate statistical values.

Although FIG. 1 illustrates that the data measured by the plurality of time detectors 120 and the displacement measurer 110 is stored in one data storage 130, the data storage 130 may be stored in the time detector 120 and the data detector 130. Grouping with the displacement measuring unit 110 may be configured as a plurality of data storage unit 130.

The data processor 140 may receive data from the data storage unit 130 in a wired or wireless manner, and compare the data with a preset reference data value to determine the safety of the structure. As a result, the measurement result and the calculation result of the statistical value can be confirmed in real time, so that the occurrence of displacement of the structure can be quickly detected.

2 is a view showing an embodiment in which the structure displacement measuring system 100 according to the present invention is applied to a high-rise building to obtain displacement data.

As mentioned in FIG. 1, in FIG. 2, the data storage unit 130 is grouped with the time detector 120 and the displacement measuring unit 110 to configure a plurality of data storage units 130, which will be described later. For convenience of description, the displacement measuring unit 110, the time detector 120, and the data storage unit 130 will be collectively referred to as a displacement measuring device.

In high-rise buildings, fatigue accumulates due to wind speed and wind direction, which often leads to deformation. As shown in the figure, the east wind blows on the upper part of the building, and when the west wind blows repeatedly on the central part of the building, torsion occurs and fatigue is accumulated. Since these winds fluctuate frequently, a total of six displacement measuring devices were used to measure the displacement of the entire building.

Displacement data measured and stored at the point where each displacement measuring device is located may be transmitted to the data processor 140, and may be compared with a reference data value preset by the data processor 140 to determine the safety of the structure.

The time detector 120 may be used jointly with a plurality of displacement measuring units 110 and a plurality of data storage units 130, and may include a displacement measuring device 6 installed underground and a displacement measuring device 5 installed above the ground. Likewise, since one time detector 120 can be used jointly, the displacement of a structure located in the basement where GPS signal reception is difficult can be easily measured.

In FIG. 2, only the example in which the structure displacement measuring system 100 is applied to a high-rise building is illustrated, but the structure displacement measuring system 100 may be applied to various structures such as a bridge or a ship to measure displacement.

So far I looked at the center of the preferred embodiment for the present invention. Those skilled in the art will appreciate that the present invention can be implemented in a modified form without departing from the essential features of the present invention. Therefore, the disclosed embodiments should be considered in descriptive sense only and not for purposes of limitation. The scope of the present invention is shown in the claims rather than the foregoing description, and all differences within the scope will be construed as being included in the present invention.

1 is a block diagram schematically showing a structure displacement measuring system according to the present invention.

2 is a view showing an embodiment in which the structure displacement measuring system according to the present invention is applied to a high-rise building to obtain data.

Claims (6)

A displacement measuring unit measuring a displacement of a predetermined measuring point on the structure; And A time detector for detecting a time at the moment of measuring the displacement; Structure displacement measuring system comprising a. The method of claim 1, The time detector, The structure displacement measuring system, characterized in that for detecting the measurement time using a GPS device. The method of claim 1, The displacement measuring unit, Structure displacement measuring system, characterized in that for measuring the displacement of the structure using an accelerometer. The method of claim 1, The displacement measuring unit, Structure displacement measuring system, characterized in that for measuring at a plurality of locations spaced apart from each other in the structure. The method of claim 1, A data storage unit for storing the measured displacement of the structure and the detected measurement time to be transmitted to the outside; Structure displacement measuring system further comprises. The method of claim 5, A data processing unit configured to receive data from the data storage unit and to compare and analyze the data with a preset reference data value to determine the safety of the structure; Structure displacement measuring system further comprises.

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