KR200446617Y1 - Dual Sensor Wireless Measurement Apparatus for Integrated Leakage Rate Test of Nuclear Power Plant - Google Patents

Abstract

The present invention relates to a dual sensor wireless measuring device for testing a leak rate of a containment building for a nuclear power plant. The technical problem to be solved is to measure the temperature and humidity of the containment building at the same time, and to measure the leak rate of the containment building for a nuclear power plant. The present invention provides a test wireless measuring device.

To this end, the present invention is installed inside a nuclear power plant containment building, and measures a plurality of wireless dual measurement units for transmitting data signals wirelessly by simultaneously measuring internal temperature and humidity, and the temperature and humidity data measured by a plurality of wireless dual measurement units. After receiving the transmission, the air mass in the containment building is calculated, compared with the previously measured value, and the server transmits a synchronization signal to a plurality of wireless dual measuring units, and receives a wireless signal transmitted from the wireless dual measuring unit to the server. Dual sensors for nuclear power plant containment leak rate testing including a repeater for supplying synchronization signals from a server to a plurality of wireless dual meters and a data communication network for serial connection between the server and the repeater through the containment building A wireless measuring device is disclosed.

Nuclear Power Plants, Containment Buildings, Dual Sensors, Wireless, Instrumentation

Description

Dual Sensor Wireless Measurement Apparatus for Integrated Leakage Rate Test of Nuclear Power Plant

The present invention relates to a dual sensor wireless measuring device for testing the total leakage rate of a nuclear power plant containment building, and more specifically, to measure the temperature and humidity of the containment building at the same time, which can be transmitted wirelessly. The present invention relates to a dual sensor wireless measuring device for use in the present invention.

Korea has been promoting the construction of nuclear power plants for long-term energy diversification since the 1970s and has contributed a lot to the safe supply of electric energy. At present, 20 nuclear power plants are in operation in Korea, and are the world's highest in terms of utilization. However, despite excellent operational technologies, core technologies and materials such as nuclear reactor core design, safety evaluation, and precision measurement are still highly dependent on nuclear power plant design countries, and require a long-term security strategy.

Typically, a comprehensive leak rate test for a containment building in a nuclear power plant is a test to determine if a nuclear power plant leaks below the specification in a design basis accident (DBA) out of the containment. This test is to be carried out periodically by all nuclear power plants under the Atomic Energy Act. As a test method, the mass point analysis method which calculates a leak rate by real-time monitoring of the time-phase change of the air mass in a containment building by US ANS 56.8 specification is used. To this end, conventionally, the interior space of the containment building is divided into three dimensions, and a temperature sensor measuring unit measuring 20 or more temperatures for each divided part and a humidity sensor measuring unit measuring 6 or more dew points (or relative humidity) are installed. In this case, the total number of sensor measuring units to be installed varies depending on the nuclear power plant. In the temperature sensor measuring unit, 24-59, dew point sensor or humidity sensor measuring unit is in the range of 6-9, and a total of 30-68 sensor measuring units are required. .

However, in order to acquire sensor measurement values, a multi-channel data acquisition device must be provided outside the containment building, and as many signal lines as the number of sensor measurement units must be provided between the sensor measurement unit and the acquisition device. Therefore, a lot of time and manpower is required to install a plurality of sensor measuring units and to install a plurality of signal lines, and a complicated intermediate connection is required, which makes accurate measurement difficult.

The present invention is to overcome the above-mentioned problems, the purpose of the present invention in the nuclear power plant containment building leak rate test, by using a dual sensor that can measure the temperature and humidity at the same time, reducing the number of sensors In addition, the present invention provides a dual-sensor wireless measuring device for comprehensive leak rate testing of a containment building for a nuclear power plant, which can improve the manpower, time, and data reliability by eliminating the need for signal line installation.

In order to achieve the above object, the dual sensor wireless measuring device for testing the total leak rate of a nuclear power plant containment building according to the present invention is installed inside a nuclear power plant containment building, and simultaneously measures the temperature and humidity of the inside to transmit data signals wirelessly. Receiving a plurality of wireless dual measurement unit and the temperature and humidity data measured by the plurality of wireless dual measurement unit to calculate the air mass inside the containment building, and compared with the previously measured value, the plurality of wireless dual A server for transmitting a synchronization signal to a measuring unit, a repeater for receiving a wireless signal transmitted from the wireless dual measuring unit, supplying the wireless signal to the server, and supplying a synchronization signal from the server to the plurality of wireless dual measuring units; Data communication network that connects the server and the repeater in series through a building It may include.

The wireless dual measurement unit may include a wireless antenna for wirelessly detecting a synchronization signal supplied from the server, a dual sensor unit for simultaneously measuring temperature and humidity inside the containment building, and the wireless antenna and the dual sensor unit. It may include a sensor body for receiving the measured wireless data to transmit the analyzed measurement value.

At this time, the dual sensor unit may include a temperature sensor for measuring the temperature, and a humidity sensor for measuring the relative humidity.

The sensor body may further include a wireless transmitter configured to transmit wireless data received from the wireless antenna, a data processor configured to process communication and data received by the dual sensor unit and the wireless transmitter, and the wireless dual measurement unit. It includes a power supply for supplying.

The sensor body unit may further include a data communication line including a communication path between the dual sensor unit and the data processor.

On the other hand, the wireless dual measurement unit, the wireless dual measurement unit is a rectangular parallelepiped, a sensor body portion formed with a hole for preventing the inundation at one side corner of the front lower portion, the dual sensor portion of a cylindrical rod shape on the sensor body portion and The rod-shaped antenna may be spaced apart from the dual sensor unit in a cylindrical shape, and a status indicator indicating a power state and a data transmission state in front of the sensor body.

Here, the hole of the sensor body portion may be formed in a right triangular shape.

In addition, the repeater may be installed in the containment building. In this case, the repeater may be wirelessly connected to the wireless dual measurement unit, and may be connected to the server by wire.

As described above, the dual sensor wireless measuring device for testing the total leakage rate of the nuclear power plant containment building according to the present invention, the number of sensors by using a dual sensor that can measure the temperature and humidity at the same time, the total leakage rate test of the containment building of the nuclear power plant It is possible to improve the manpower, time, and data reliability by reducing the number of signals and eliminating the need for signal line laying.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

1 is a block diagram showing a dual sensor wireless measuring device for a comprehensive leak rate test for a nuclear power plant containment building according to an embodiment of the present invention.

As shown in FIG. 1, the dual sensor wireless measurement apparatus 100 for a nuclear power plant containment building comprehensive leak rate test according to an embodiment of the present invention is installed inside the containment building 10 and has an internal temperature and humidity. Simultaneously measuring a plurality of wireless dual measurement unit 20 for transmitting a data signal wirelessly, and receives the temperature and humidity data measured by the plurality of wireless dual measurement unit 20 receives the air mass inside the containment building (10) To calculate and compare with the previously measured value, the server 50 for transmitting a synchronization signal to the plurality of wireless dual measurement unit 20, and receives the wireless signal transmitted from the wireless dual measurement unit 20 And a repeater 30 for supplying the server 50, a synchronization signal from the server 50, to the plurality of wireless dual measurement units 20, and the server 10 through the containment building 10. 50) and the repeater 30 A it comprises a data communication network 40 which connects in series.

Specifically, the wireless dual measurement unit 20 is installed in a number of places in the interior of the containment building 10 of the nuclear power plant. The wireless dual measurement unit 20 receives the synchronization signal from the server 50, measures the temperature and humidity, converts it into a data signal, and transmits the data signal. At this time, at least one repeater 30 for receiving a signal from the wireless dual measurement unit 20 and transmitting a signal to the wireless dual measurement unit 20 is installed.

The repeater 30 is a communication device capable of wireless and wired communication, and transmits the received signal. The repeater 30 is connected to wired and wireless communication networks. That is, the repeater 30 is formed in the containment building 10 of the nuclear power plant, and consists of a wireless communication network virtually formed between the plurality of wireless dual measurement unit 20. Then, it is connected to the server 50 through the data communication network 40 made of a wire in series through the containment building 10 to one side of the repeater (30). Here, the repeater 30 transmits a synchronization signal from the server 50 to the server 50 with the received data data signals from the plurality of wireless dual measurement units 20. At this time, the thickness of the containment building 10 is formed to a thickness of about 50cm or more so that the radiation inside does not leak to the outside even if a radioactive leakage accident. Since the signal to penetrate such a thick outer wall has to be transmitted with a very large signal, if such a large signal is transmitted, it may affect the electronic equipment installed in the reactor or the containment building 10, so that the repeater 30 and The outside is wired.

The wireless dual measurement unit 20 is installed 20 to 60 in various places inside the containment building 10 of the nuclear power plant. The wireless dual measurement unit 20 is installed at a distance capable of receiving a signal transmitted from each. In this case, the wireless dual measurement unit 20 installed in the containment building 10 may simultaneously measure each of temperature and humidity. That is, in the prior art, the internal space of the containment building 10 is divided into three dimensions, and 20 or more temperature sensor measuring units are installed for each divided part, and 6 or more relative humidity (or dew point) sensor measuring units are installed at the temperature sensor measuring unit. Installed in duplicate. At this time, by using the wireless dual measurement unit 20 having both sensors for measuring the temperature and humidity per sensor measurement unit, it is possible to prevent the redundant installation of the sensor measurement unit of the temperature and relative humidity, and to reduce the six or more sensor measurement unit have. Therefore, in addition to reducing the burden on the economic side, since the wireless dual measurement unit 20 is wirelessly connected and no signal line is required, installation time and manpower can be reduced as much as possible. Hereinafter, the wireless dual measurement unit 20 capable of simultaneously measuring temperature and humidity will be described in detail with reference to other drawings.

The server 50 transmits a synchronization signal to each wireless dual measurement unit 20, and calculates an internal air mass of the containment building 10 through temperature and humidity data signals received from each wireless dual measurement unit 20. Then, the leak rate is calculated through comparative analysis with the air mass inside the containment building 10 measured and calculated in the previous time. To this end, the synchronization signal supplied from the server 50 is passed through the repeater 30 installed inside the containment building 10 through the data communication network 40 connected in series wired. Therefore, the server 50 is a computer for analysis, transmits a synchronization signal to the repeater 30, receives the data received through the repeater 30 from the wireless dual measurement unit 20 and analyzes the leak rate Can be evaluated

As described above, the dual sensor wireless measuring device 100 for testing a comprehensive leak rate of a nuclear power plant containment building according to an embodiment of the present invention includes a wireless dual measuring unit 20 installed inside the containment building 10. 10) Point-to-point server 50 is installed on the outside, it is made in the manner that is connected by using the repeater 30 between. At this time, since the wireless dual measurement unit 20 is wireless, no signal line is required and installation is easy. Therefore, it is easy to install and the time required for test preparation and manpower can be greatly reduced. In addition, by measuring the temperature and humidity at the same time, duplication of the measurement and duplication of the transmission and reception system is achieved, thereby improving the reliability of the data.

FIG. 2A is a diagram illustrating the inside of the wireless dual measurement unit illustrated in FIG. 1.

Referring to FIG. 2A, the wireless dual measurement unit 20 simultaneously measures the temperature and humidity of the wireless antenna 24 and the interior of the containment building 10 that wirelessly detect the synchronization signal supplied from the server 50. The dual sensor unit 22, the wireless antenna 24 and the sensor body portion 26 for receiving the wireless data measured from the dual sensor unit 24 and transmits the measured measurement value.

In addition, the dual sensor unit 22 includes a temperature sensor 22a for measuring temperature and a humidity sensor 22b for measuring relative humidity.

In addition, the sensor body 26 receives the wireless transmitter 26a for transmitting the wireless data received from the wireless antenna 22, the dual sensor 22 and the wireless transmitter 26a. And a power supply unit 26c for supplying power to the wireless dual measurement unit 20.

The dual sensor unit 22 includes a temperature sensor 22a for measuring a temperature inside the containment building 10 and a humidity sensor 22b for measuring relative humidity. The dual sensor unit 22 is installed outside the wireless dual measurement unit 20 and simultaneously measures the ambient temperature and humidity. In addition, the temperature sensor 22a and the humidity sensor 22b are periodically measured according to an input predetermined time and supplied to the data processing unit 26b of the sensor body 26.

The sensor body 26 includes a wireless transmitter 26a for wireless data transmission, a data processor 26b for communication with the repeater 30, data processing and measurement control, and the wireless dual measurement unit 20. And a power supply unit 26c for supplying power thereto.

Specifically, the wireless transmitter 26a receives the signal detected from the wireless antenna 24 and transmits the signal to the data processor 26b. The data processor 26b processes and measures and controls the communication and data received from the wireless transmitter 26a and the dual sensor unit 22. That is, the data processor 26b converts the temperature and humidity values measured by the temperature sensor 22a and the humidity sensor 22b into data values. The data processor 26b is formed with an analog-to-digital converter to process the analog temperature and humidity signals into digital signals, and then send the results back to the wireless transmitter 26a and the dual sensor unit 22. It controls and coordinates the sequence of processes. In addition, the power supply unit 26c serves as a battery for supplying power to the wireless dual measurement unit 20.

FIG. 2B is an external view illustrating the outside of the wireless dual measurement unit illustrated in FIG. 1.

Referring to FIG. 2B, the wireless dual measurement unit 20 has a rectangular parallelepiped shape, and includes a sensor body 26 having a hole 27 formed at one side corner of the front lower portion to prevent flooding, and the sensor body 26 of the sensor body 26. A cylindrical rod-shaped dual sensor unit 22 at an upper portion, the dual sensor unit 22 is spaced apart by a predetermined distance from the cylindrical rod-shaped wireless antenna 24 and the sensor body portion 26 in the power state And a status indicator 28 indicating a data transmission status.

The wireless dual measurement unit 20 is a small independent wireless measurement transmitter having integrated the dual sensor unit 22 for simultaneously measuring temperature and humidity and the sensor body unit 26 for data acquisition and wireless data transmission functions. to be. The wireless dual measurement unit 20 is installed at a designated location inside the containment building 10 to sense wireless data with the wireless antenna 24, and the temperature and relative humidity of each measurement point in accordance with the measurement command to the dual It is measured simultaneously from the sensor unit 22.

The hole 27 formed in the sensor body part 26 may have a straight triangular shape to prevent the infiltration of the humidity sensor 22b of the dual sensor part 22. The hole 27 is formed at one side edge of the front surface of the sensor body 26 of the wireless dual measurement unit 20. At this time, when the wireless dual measurement unit 20 is installed in the space, by keeping the sensor body 26 inclined to prevent the inundation of the inside of the sensor body 26 due to the humidity measurement, it is possible to ensure the accuracy of the humidity measurement. . In addition, the wireless antenna 24 is inclined to facilitate wireless transmission in the vertical structure inside the containment building 10, and is advantageous in reflecting electromagnetic waves.

In addition, the status indicator 28 is a light emitting diode and is connected to the data processor 26b inside the sensor body 26. The state indicator 28 may display the power state and the data transmission state with a predetermined light to check the state of the wireless dual measurement unit 20.

1 is a block diagram showing a measurement device for a comprehensive leak rate test for a nuclear power plant containment building according to the present invention.

FIG. 2A is a diagram illustrating the inside of the wireless dual measurement unit illustrated in FIG. 1.

FIG. 2B is an external view illustrating the outside of the wireless dual measurement unit illustrated in FIG. 1.

Claims (9)

A plurality of wireless dual measurement units installed in a nuclear power plant containment building to simultaneously measure internal temperature and humidity and transmit data signals wirelessly; Server for transmitting the synchronization signal to the plurality of wireless dual measurement unit by receiving the temperature and humidity data measured by the plurality of wireless dual measurement unit to calculate the air mass inside the containment building, and compared with the previously measured value, ; A repeater for receiving a wireless signal transmitted from the wireless dual measuring unit, supplying the wireless signal to the server, and supplying a synchronization signal from the server to the plurality of wireless dual measuring units; And, A data communication network for connecting the server and the repeater in series through the containment building; The wireless dual measurement unit, A wireless antenna for wirelessly sensing a synchronization signal supplied from the server; A dual sensor unit simultaneously measuring the temperature and humidity of the inside of the containment building; And And a sensor body unit configured to receive the wireless data measured by the wireless antenna and the dual sensor unit, and to transmit the measured measurement value. delete The method of claim 1, The dual sensor unit A dual sensor wireless measuring device for a comprehensive leak rate test for a containment building of a nuclear power plant, characterized by comprising a temperature sensor for measuring temperature and a humidity sensor for measuring relative humidity. The method of claim 1, The sensor body portion A wireless transmitter for transmitting wireless data received from the wireless antenna; A data processor configured to process communication and data received by the dual sensor unit and the wireless transmitter; And A dual sensor wireless measurement device for a comprehensive leak rate test for a nuclear power plant containment building, characterized in that it comprises a power supply for supplying power to the wireless dual measurement unit. The method of claim 4, wherein The sensor body portion Dual sensor wireless measuring device for a comprehensive leak rate test of a nuclear power plant containment building further comprises a data communication line consisting of the communication path of the dual sensor unit and the data processing unit. The method of claim 1, The wireless dual measurement unit A rectangular parallelepiped shape, the sensor body portion having a hole formed at one side edge of the front lower portion to prevent flooding; A dual sensor part having a cylindrical rod shape on the sensor body part; A cylindrical rod-shaped wireless antenna spaced apart from the dual sensor unit at a predetermined interval; Dual sensor wireless measuring device for a comprehensive leak rate test for a nuclear power plant containment building, characterized in that consisting of a status indicator indicating the power state and data transmission state on the front of the sensor body. The method of claim 6, The hole of the sensor body portion Dual sensor wireless measurement device for a comprehensive leak rate test of a nuclear power plant containment building characterized in that the triangular shape. The method of claim 1, The repeater Dual sensor wireless measurement device for a nuclear power plant containment building comprehensive leak rate test, characterized in that installed inside the containment building. The method of claim 1, The repeater A dual sensor wireless measuring device for a comprehensive leak rate test of a nuclear power plant containment building, characterized in that it is wirelessly connected to the wireless dual measurement unit and connected to the server by wire.

Images