KR20100065417A - Wireless strain measurement system and method using thereof - Google Patents

Abstract

PURPOSE: A wireless structure strain measuring system and a method thereof are provided to improve usage and installation convenience by wirelessly communicating with a master terminal and a sensor and to enable a sensor to work for a long term by using an energy saving battery. CONSTITUTION: A wireless structure strain measuring system comprises: a wireless measurement unit(42) which measures strain transmits the strain to a master device; the master device(45) which controls a plurality of wireless measurement units and transfers the strain which it is transmitted from the wireless measurement unit to a control computer; and the control computer(43) which commands a strain measurement to the master device and displays the strain which it is transmitted from the master device. The master device and the control computer transmit and receive the control command by using a public mobile network.

Description

Wireless Strain Measurement System and Method Using Thereof

The present invention relates to a wireless structure strain measurement system and a method thereof, and more particularly, to a wireless structure strain measurement system comprising a plurality of wireless strain measurement devices, a master and a central control computer.

Existing equipment for measuring strain can be largely classified into fixed equipment, mobile equipment, and wireless equipment. Strain measuring devices are generally separated into sensors and measuring equipment that measure the vibration of the strings. Sensors correspond to commonly used devices.

 Since the fixed strain measuring device is a fixed type device such as a desktop computer, it is impossible for a user to measure the strain of the structure while carrying and moving the fixed strain measuring device. This is because it is difficult to take and use large equipment to measure the strain in the field. Therefore, it is not possible to construct and use a fixed strain measuring device in the field.

The mobile strain measuring device is compact and can be used while moving. However, in order to measure the strain of a structure by using a mobile strain gauge, a person needs to go to the site and perform the strain measurement by directly controlling the device. In this type of strain measurement device, when only the sensor is installed and measured in the field, it is necessary to go directly and measure the strain using mobile equipment.

The wireless strain measurement device places the wireless measurement device in the place where the sensor is installed, and the user reads the value by installing the receiver corresponding to the master away from the site. However, it is a structure that can use only one sensor device in one master, and has a structure that reads the value measured by the sensor by requesting the value directly from the master to the sensor.

The present invention was to operate the entire system wirelessly to solve the problem that it is difficult to use the wire due to the nature of the construction site, and applied a wireless communication technique for long-distance communication to control the use of the system in the office, not the site, Field sensors aim to provide a wireless strain rate device that includes a low power wireless modem.

Wireless structure strain measurement system according to an aspect of the present invention comprises a plurality of wireless measuring devices for measuring the strain and transmits the measured strain to the master; A master device for controlling the plurality of wireless measuring devices and transferring the strain received from the wireless measuring device to a control computer; And a control computer for instructing the strain measurement to the master device and displaying the strain received from the master device.

The master device and the control computer may be characterized by transmitting and receiving control commands using a public mobile communication network. In addition, the control computer may be characterized by periodically instructing the strain measurement to the master device. Preferably the control computer can send a short text message to a predetermined number if there is an error in the measured strain. More preferably, the control computer may be characterized by instructing at least one of the plurality of wireless measuring devices to measure strain.

On the other hand, the plurality of wireless measuring device, characterized in that for measuring the strain of the structure using a vibration string sensor.

According to another aspect of the present invention, there is provided a method for measuring a strain of a wireless structure, the control computer comprising: wirelessly transmitting a strain measurement command to a master device; The master device instructing strain measurement to at least one wireless measuring device; The wireless strain measuring device measures the strain of the structure when receiving a measurement command from the master device and transmitting the result to the master device; And the master device transmits the received result to the control computer, and the control computer displays the received measurement result.

In this case, the master device and the control computer is characterized in that for transmitting and receiving a control command using a public mobile communication network. The control computer may further include periodically instructing the strain measurement to the master device. Preferably, the control computer may further include transmitting a short text message to a predetermined number when the measured strain rate is abnormal. More preferably, the control computer may be configured to instruct at least one of the plurality of wireless measuring devices to measure strain.

On the other hand, the plurality of wireless measuring device may be characterized in that for measuring the strain of the structure using a vibration string sensor.

According to the wireless structure strain measuring apparatus according to the present invention is excellent in the convenience of use and installation by transmitting and receiving a signal wirelessly between the master terminal and the sensor. In addition, the sensor can adopt a low-power battery circuit, the sensor can be operated for a long time.

In addition, the system operation can optionally use a method of reading a value periodically and a method of reading a current value according to a setting, thereby further saving the sensor battery.

In addition, since the battery is used as a system power source and a proper power cut-off device can be implemented to prolong the use time of the battery, the strain can be easily measured using the present invention even in a field where electricity supply is difficult.

Control can be made from a management computer in the office, allowing convenient use of wireless meters in the field. When set to operate periodically, wireless measurement devices periodically measure strain and provide the collected information to the management computer. By setting the current value to be read at the request of the administrator, it is possible to measure the structural strain of the site in real time in the office if necessary.

When the management computer interworks with the mobile communication network and collects all the information, and determines that an abnormality has occurred, the management computer can urgently notify the manager by a communication means such as a text message using the mobile communication network.

Finally, the wireless strain measurement system according to the present invention has a feature that one master in the field can manage dozens of radiometers, so that dozens of radiometers can be installed and simply controlled at a desired position.

Hereinafter, a wireless structure strain measuring apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing the configuration of a wire strain measurement apparatus according to an embodiment of the present invention.

The wired strain measuring apparatus 12 may be connected to the measurement sensor 11 to operate, and may include a display unit 13, an operation switch 14, a sensor signal line 15, and the like.

The measuring sensor 11 is a component for measuring parameter values for measuring the strain of the structure. In particular, the measuring sensor 11 according to the present invention is preferably a vibration string sensor. The vibration string sensor may be configured of a sensor signal line 15 and a ground line.

The wired strain measuring device 12 is connected to the measuring sensor 11 and the sensor signal line 15, and receives a structure strain measuring command from the user through the operation switch 14, and drives the string in the measuring sensor 11. The vibration value is measured. The measured data is output through the display unit 13 configurable by an LCD (Liquid Crystal Display) or the like.

2 is a view showing the configuration of a wireless strain measurement system according to another embodiment of the present invention.

The wireless strain measurement system 20 may largely include a wireless strain measurement device 21 and a master 22.

The wireless strain measuring apparatus 21 is connected to the measuring sensor 11 like the wired strain measuring apparatus 12. The wireless strain measuring apparatus 21 reads the value measured by the measuring sensor 11 and transmits the measured value to the master 22 through a wireless signal. The master 22 receives the measured value transmitted by the wireless strain measuring apparatus 21 and outputs the received measured value to the display unit 23.

In this case, it is more preferable that the measurement sensor 11 of the wireless strain measuring device 21 further includes a signal line capable of temperature measurement in order to correct the deviation according to the temperature.

In addition, the wireless strain measuring apparatus 21 may measure a parameter for measuring the strain of the structure at regular intervals or at regular intervals when the power is supplied. As described above, the wireless strain measuring apparatus 21 according to the present invention drives the string of the sensor at regular intervals and measures the vibration degree accordingly. Of course, the wireless strain measuring apparatus 21 then periodically transmits the measured value to the master 22, the master 22 outputs the transmitted measured value to the display unit (23).

3 is a view showing the operation of the wireless strain measurement system according to another embodiment of the present invention.

First, power is supplied to the wireless strain measuring apparatus 21 and the master 22 (S301). The master 22 transmits a command to measure the strain through the measurement sensor 11 to the wireless strain measuring apparatus 21 (S302). The wireless strain measurement apparatus 21 receives a measurement command from the master 22 and senses a value using the measurement sensor 11 accordingly (S303).

The wireless strain measuring apparatus 21 transmits the sensed value to the master 22 (S304). The master 22 outputs the received value to the display unit 23 (S305). In this case, the master 22 may be connected to a personal PC or the like and output a sensed value to a display device such as a monitor connected to the personal PC. When the operations of S301 to S305 are completed, the wireless measurement system ends the operation.

4 is a view showing the configuration of a wireless measurement system according to another system of the present invention.

As shown in FIG. 4, the wireless measurement system includes a measurement sensor 41, a wireless strain measurement device 42, a control computer 43, a CDMA modem 44, a master 45, a mobile communication network 46, and the like. Can be configured.

The wireless strain measuring device 42 may transmit and receive data wirelessly with the master 45. The wireless strain measurement device 42 receives a strain measurement command of the structure from the master 45, and accordingly operates the vibrating wire and senses the value accordingly. The wireless strain measuring device 42 wirelessly transmits the sensed value to the master 45.

The master 45 not only communicates wirelessly with the wireless strain measurement device 42, but also communicates with a control computer 43 that can be operated by a central operator via the mobile communication network 46. (Not shown).

The master 45 receives the strain measurement command from the control computer 43. Upon receiving the strain measurement command, the master 45 instructs at least one of the wireless strain measurement devices 42 of the plurality of wireless strain measurement devices 42 to selectively measure the strain. In addition, the master 45 transmits the value measured by the wireless strain measuring device 42 to the control computer 43 through the mobile communication network 46.

The control computer 43 may include a CDMA modem 44 or the like for communication using a mobile communication network. The wireless measuring system operator may use the control computer 43 to manage the entire system and, in the event of an abnormality, may notify the administrator of the abnormality by text message or other communication means through the communication network. In this case, as the control computer 43, a processor board or the like may be used in addition to a computer generally used.

The mobile communication network 46 according to the present invention refers to a main communication network such as TRS (Trunked Radio System) and Global System for Mobile (GSM) in addition to the CDMA communication network most used in Korea.

At this time, the communication between the master 45 and the control computer 43 may use data communication such as a wireless LAN network. In this case, the master 45 and the control computer 43 do not need a CDMA modem.

FIG. 5 is a diagram illustrating an operation of periodically measuring strain using the wireless measurement system illustrated in FIG. 4.

First, the control computer 43 instructs the master 45 to measure and report the strain value periodically to any wireless strain measuring device 42 while powering the entire wireless measuring system component (S501). . Such a command may be transmitted using a mobile communication network 46 or a wireless data communication network.

The master 45 receives the command and the measurement condition transmitted from the control computer 43 and transmits the strain measurement command and the measurement condition to the wireless measuring device 42 (S502). The wireless measuring device 42 having received the strain measurement command and the measurement condition measures the strain rate according to the received measurement condition (S503).

The plurality of wireless measuring devices 42 measuring the strain according to the instruction of the control computer 43 reports the measurement data to the master 45 (S504). The master 45 transmits the data received from the wireless measuring devices 42 to the control computer 43 using a mobile communication network or a wireless data network (S505).

The control computer 43 outputs the data received from the master 45 to the predetermined display unit (S506). Through this process, the user can review the strain measurement data using the control computer 43 installed in the office without going to the field.

The control computer 43 then checks whether the time set to measure the refractive index of the structure has been reached (S507). If the time set in step S507 is reached, the control computer goes back to step S501 to automatically measure the refractive index of the structure.

If the time set in step S507 is not reached, the control computer 43 checks whether the periodic refractive index measurement operation is completed by the user. If the user issues a command to terminate the refractive index measurement operation, the wireless strain measurement system ends the operation. If the refractive index measurement operation is not finished, the control computer 43 proceeds to step S507 to determine whether the refractive index measurement time has arrived.

As described above, the system according to FIG. 4 and the measuring method of FIG. 5 using the same enable the user to periodically measure the strain of the structure in the office without going out to the field.

FIG. 6 is a diagram illustrating an operation of measuring strain at a necessary time using the wireless measurement system illustrated in FIG. 4.

The control computer instructs the master to report the current measurement value to any radio measuring device (S601). The master receives a command of the control computer, and accordingly transmits a command to measure the strain to the wireless measuring device (S602).

The wireless measuring device drives the vibration string sensor and reports the measured value to the master (S603). The master may repeatedly scan according to the instructions of the management computer until all the values of the corresponding wireless sensor devices are read (S604).

The master transmits the measured values received from the at least one wireless sensor device to the control computer through the mobile communication network (S605). The control computer displays the measured value received from the master (S606), and through this process, the user can measure the strain of at least one or more structure locations without going to the site using the management computer.

Although the present invention has been described in detail through the representative embodiments, those skilled in the art to which the present invention pertains can make various modifications without departing from the scope of the present invention. Will understand. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the claims below and equivalents thereof.

1 is a view showing the configuration of a wire strain measurement device according to an embodiment of the present invention.

2 is a view showing the configuration of a wireless strain measurement system according to another embodiment of the present invention.

3 is a view showing an operation flow of a wireless strain measurement system according to another embodiment of the present invention.

4 is a diagram illustrating a configuration of a wireless measurement system according to another system of the present invention.

FIG. 5 is a diagram illustrating an operation of periodically measuring strain using the wireless measurement system illustrated in FIG. 4.

FIG. 6 is a diagram illustrating an operation of measuring strain at a necessary time using the wireless measurement system illustrated in FIG. 4.

<Description of the symbols for the main parts of the drawings>

41: measuring sensor 42: wireless strain measurement device

43: control computer 44: CDMA modem

45: master 46: mobile communication network

Claims (12)

In the wireless structure strain measurement system, A plurality of wireless measuring devices for measuring strain and transmitting the measured strain to a master; A master device for controlling the plurality of wireless measuring devices and transferring the strain received from the wireless measuring device to a control computer; And And a control computer for instructing the strain measurement to the master device and displaying the strain received from the master device. The method of claim 1, The master device and the control computer, Wireless structure strain measurement system, characterized in that for transmitting and receiving control commands using a public mobile communication network. The method of claim 1, And the control computer periodically commands strain measurement to the master device. The method of claim 1, And the control computer transmits a short text message to a predetermined number when there is an abnormality in the measured strain. The method of claim 1, The control computer, And selecting at least one wireless measuring device from among the plurality of wireless measuring devices and instructing to measure the strain. The method according to claim 1, wherein The plurality of wireless measuring devices, the wireless structure strain measurement system, characterized in that for measuring the strain of the structure using a vibration string sensor. In the wireless structure strain measurement method, The control computer wirelessly transmitting a strain measurement command to the master device; The master device instructing strain measurement to at least one wireless measuring device; And The wireless strain measuring device measures the strain of the structure when receiving a measurement command from the master device and transmitting the result to the master device; And the master device transmits the received result to the control computer, and wherein the control computer displays the received measurement result. The method of claim 7, wherein The master device and the control computer, Wireless structure strain measurement method, characterized in that for transmitting and receiving a control command using a public mobile communication network. The method of claim 7, wherein And the control computer periodically instructing the strain measurement to the master device. The method of claim 7, wherein And transmitting the short text message to a predetermined number when the measured strain is abnormal. The method of claim 7, wherein And the control computer instructs to select at least one wireless measuring device from among a plurality of wireless measuring devices to measure strain. The method according to claim 7 to 11, The plurality of wireless measuring device is a wireless structure strain measurement method characterized in that for measuring the strain of the structure using a vibration string sensor.

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