KR101582055B1 - System for equipment control using measures of radon data - Google Patents

Abstract

In a facility control system which includes a radon data measurement device, a communication converter, an integrated control part and a facility control part, and uses radon measurement data which is transmitted and received by a wired/wireless complex method for numerical radon generation value management of an underground station building, the present invention relates to the facility control system using radon measurement data, which includes: the radon measurement device which generates and accumulates the radon measurement data by measuring the numerical radon generation value in the underground station building in real-time, and transmits the accumulated radon measurement data by a radio frequency (RF) communications method if the radon measurement data is accumulated during a previously established time; the communications converter which converts the received radon measurement data into an Ethernet communications format and then transmits the converted radon measurement data to the integrated control part if the radon measurement data is received from the radon measurement device, and converts a control signal received from the integrated control part into a contact point signal and then delivers the converted contact point signal to the facility control part if the control signal is received from the integrated control part; the integrated control part which generates a control signal to control a ventilation facility on the basis of an analyzed numerical value by analyzing the numerical value of the radon measurement data of the Ethernet communications format, if the radon measurement data of the Ethernet communications format is received through the communication converter, and then transmits the control signal to the communications converter; and the facility control part which controls the ventilation facility by an operation corresponding to the contact point signal by receiving the contact point signal delivered through the communications converter.

Description

Technical Field [0001] The present invention relates to a facility control system using radon measurement data,

The present invention relates to a facility control system and a method thereof using radon measurement data, and more particularly, to a facility control system using radon measurement data that monitors a radon level measured in the history of a subway system in real time and transmits a control signal to a facility control panel Control system and method thereof.

 Radon gas is a type of carcinoma that causes lung cancer by mutation in such a way that it inflows into the lungs through the respiratory tract and constantly emits an alpha wave (radiation) to cause gene mutation. Such radon gas is generated in various buildings, and there is a problem that it is difficult to remove it when the radon gas occurs in the underground history.

In the case of the radon data measuring instrument currently used in the underground history, it is possible to store a predetermined number of continuous data at predetermined time intervals. However, currently used radon data measuring devices have data that can be stored according to the memory capacity. Therefore, when the data is full, a person has to directly visit the field history to extract data and clear the memory .

In order to retrieve the data, a radon data measuring instrument and a notebook are connected by an RS-232 cable. Then, a radon data measuring device button is operated to transmit data through a serial communication and downloaded through a notebook. Then, There is an inconvenience that the capacity must be secured again by clearing the memory directly.

In other words, the conventional radon measuring method has the disadvantages that the person directly measures the radon data in the history in the history, and the measured data is backed up in a separate memory device and taken to the office, There is a problem that the manpower and the labor cost are large.

Currently, there are about 600 subway stations in the metropolitan area including Seoul, and the number of subway stations such as Daejeon, Daegu, Busan, and Gwangju combined together significantly increases the waste of manpower and labor costs. It is increasing

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a radon monitoring system capable of real- And an object of the present invention is to provide a facility control system using measurement data and a method thereof.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not restrictive of the invention, unless further departing from the spirit and scope of the invention as defined by the appended claims. It will be possible.

In order to solve the above-mentioned technical problems, there is provided a radon data measuring device, a communication converter, an integrated controller, and an equipment controller, The facility control system using the radon measurement data using the data generates and stores the radon measurement data by measuring the radon occurrence value in the underground history in real time, and when the radon measurement data is accumulated for a predetermined time or longer, A radon data measuring device for transmitting data by a radio frequency (RF) communication method; And a control unit for receiving the radon measurement data from the radon data measuring unit and converting the received radon measurement data into an Ethernet communication format and transmitting the converted radon measurement data to the integrated control unit, A communication converter for converting the signal into a signal and transmitting the signal to the facility controller; A control signal for controlling the ventilation equipment is generated based on the analyzed numerical value of the received radon measurement data when the radon measurement data of the Ethernet communication format is received through the communication converter, An integrated control unit; And a facility controller for receiving the contact signal transmitted through the communication converter and controlling the ventilation facility by an operation corresponding to the contact signal.

Also, in order to manage the radon occurrence value in the underground history of the facility control system including the radon data measuring device, the communication converter, the integrated control unit, and the facility control unit according to the embodiment of the present invention, The method for controlling equipment using data includes the steps of: measuring the radon generation value in the basement history by the radon data measuring device to generate and store radon measurement data; and when the radon measurement data is accumulated over a predetermined time, Transmitting data through a radio frequency (RF) communication method; Converting the received radon measurement data into an Ethernet communication format and transmitting the converted radon measurement data to the integrated control unit when the communication converter receives the radon measurement data transmitted from the radon data measurer; Wherein when the radon measurement data of the Ethernet communication format is received by the integrated controller through the communication converter, the integrated controller analyzes the numerical value of the received radon measurement data and controls the ventilation equipment based on the analyzed numerical value Generating and transmitting a signal to the communication converter; Converting the received control signal into a contact signal and transmitting the contact signal to the facility controller when the control signal transmitted from the integrated controller is received in the communication converter; And the facility control unit receiving the contact signal transmitted through the communication converter and controlling the ventilation equipment by an operation corresponding to the contact signal.

The facility control system and the method using the radon measurement data according to the present invention provide an effect of improving work efficiency and convenience by inquiring, storing and managing radon measurement data of a remote underground history in an office.

In addition, the facility control system and the method using the radon measurement data according to the present invention can detect a real time radon value and automatically realize the historical ventilation equipment when the radon control value exceeds a predetermined value, It provides scientific and accurate management, and provides a safe and pleasant underground historical environment.

The effects obtained by the present invention are not limited to the above-mentioned effects, and other effects not mentioned can be clearly understood by those skilled in the art from the following description will be.

1 is a block diagram schematically showing a configuration of a radon measurement data transmission system according to an embodiment of the present invention.
2 is a flowchart illustrating an operation of the radar data measuring apparatus according to an embodiment of the present invention.
3 is a flowchart illustrating an operation of the communication converter according to an embodiment of the present invention.
4 is a flowchart illustrating an operation of the integrated controller according to an embodiment of the present invention.
5 is a flowchart illustrating an operation of the facility control unit according to an embodiment of the present invention.
6 is a flowchart schematically illustrating an operation of transmitting and receiving data of a facility control system using radon measurement data according to an embodiment of the present invention.
7 is an exemplary view showing an apparatus control system using radon measurement data according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to facilitate a person skilled in the art to easily carry out the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram schematically showing a configuration of a radon measurement data transmission system according to an embodiment of the present invention.

1, a facility control system using radon measurement data according to an exemplary embodiment of the present invention includes a radon data measurer 110, a communication converter 120, an integrated controller 130, and a facility controller 140 .

The radon data measurer 110 may generate radon measurement data by measuring the radon generation value in real time, and may store the generated radon measurement data in a memory such as a separate storage device. When the radon measurement data is accumulated for a predetermined time or longer, the stored radon measurement data may be transmitted to another device or device to manage the corresponding radon measurement data. At this time, the radon data measurer 110 may be configured to transmit the radon measurement data in a wireless communication manner. Therefore, there is an advantage that it is easy to install and remove the radon data measuring instrument 110 when changing the history to measure the radon data. For example, due to the characteristics of underground history, there is a difference of more than two stories on the average from the station room and the platform, and it takes a lot of construction cost to establish a communication line to connect through the wired network. Therefore, the remote control such as reading the radon measurement data from the radon data measurer 110 or clearing the memory can be implemented by installing a radio frequency (RF) modem in the radon data measurer 110 and implementing wireless communication have. When the radio communication method is used, an advantage that the installation and removal of the radon data measuring instrument 110 is easy is generated. In addition, a repeater can be installed as a method for eliminating the shadow area, which is a disadvantage of the wireless communication system, to supplement the intensity of the wireless signal.

The communication converter 120 may receive the radon measurement data received from the radon data measurer 110 and convert it into an Ethernet communication format for transferring the radon measurement data to the office room or the like. That is, the communication converter 120 can connect the RF wireless communication modem wireless network of the radon data measurer 110 with the TCP / IP wired network (Ethernet communication) of the office room. Meanwhile, when receiving a control signal for controlling the ventilation equipment from the integrated controller 130, the communication converter 120 converts the received control signal into a contact signal for on / off control of the ventilation equipment To the facility control unit for controlling the ventilation equipment.

The integrated controller 130 may receive the radon measurement data of the Ethernet communication format converted through the communication converter 120 and provide a real-time monitoring function through the PC installed in the office room. The integrated control unit 130 can manage radon measurement data using a specific database. In addition, when the received radon measurement data is determined to be equal to or greater than a predetermined management target value, the integrated controller 130 may control the ventilation equipment by generating a specific control signal for controlling the ventilation equipment.

The facility control unit 140 may receive the contact signal transmitted from the communication converter 120 and control the ventilation facility by an operation corresponding to the contact signal. At this time, the contact signal is a signal for controlling the on / off control of the ventilation equipment. For example, the ventilation equipment may be operated while supplying electricity to the ventilation equipment for a predetermined time.

2 is a flowchart illustrating an operation of the radar data measuring apparatus according to an embodiment of the present invention.

As shown in FIG. 2, the radon data measuring device according to the present invention is installed in the underground history, real-time measurement of the radon value occurring in the history, generates and accumulates radon measurement data using the measured radon value, To another device or device for implementing the system.

First, the radon data measuring device can generate and accumulate radon measurement data by measuring the radon generation value in real time (S210, S220). That is, the radon data measuring device may be installed in a basement station or the like to generate radon measurement data by real-time measurement of the radon value generated at the installed location, and store the generated radon measurement data in a separate memory.

When the radon measurement data is accumulated for a predetermined time or more, the accumulated radon measurement data may be transmitted (S230, S240). That is, when the radon data is stored in the memory for a predetermined period of time or more, the radon data measuring device transmits the stored radon measurement data to other devices and devices for controlling the facility in order to control the ventilating facility in the underground history can do. At this time, the radon data measuring instrument installed in the underground history can transmit the radon measurement data by wireless communication method to the station room for monitoring and controlling the underground history. Therefore, there is an advantage that the radon data can be measured anywhere by changing the installation position by fluid without fixing the radon data measuring device to only one place. In addition, there is an advantage that remote control of the ventilation facilities in the history can be performed by using the radon measurement data provided by the wireless communication method. At this time, a repeater may be installed to solve the shadow area.

3 is a flowchart illustrating an operation of the communication converter according to an embodiment of the present invention.

3, the communication converter according to the present invention can convert the radon measurement data received from the radon data measuring instrument into a specific communication format (for example, a wired network communication format such as Ethernet) and transmit it to a stationhouse or the like .

First, the communication converter can receive radon measurement data generated and accumulated in real time from the radon data measuring apparatus [S310]. That is, the communication converter can receive the radon measurement data transmitted from the radon data measuring device through the RF wireless communication method.

In this case, when the Ethernet communication is connected to the communication converter, the communication converter may convert the communication format of the radon measurement data received from the radon data measuring device into the Ethernet communication format and transmit it to the integrated controller (S320, S330, S340]. The communication converter implements data communication between devices supporting different communication schemes, and can convert a communication format for transmitting and receiving specific data. For example, the radon measurement data of the RF communication format received from the radon data meter can be converted into the Ethernet communication format and transmitted to the office room through the wired network.

Then, when a control signal for equipment control is received from the integrated control unit, the received control signal may be converted into a contact signal and transmitted to the equipment control unit (S350, S360, S370). The integrated control unit generates a control signal for controlling various equipments installed in the history. When the control signal for equipment control generated from the integrated control unit is received, the communication converter transmits the received control signal to the equipment control To a specific signal for transmission. That is, when the ventilation equipment control signal for historical ventilation is received from the integrated control unit, the communication converter may convert the signal into a signal of a specific format for controlling the ventilation equipment and transmit the signal to the ventilation equipment. At this time, a signal of a specific format for controlling the ventilation equipment may include a contact signal for on / off control of the ventilation equipment.

4 is a flowchart illustrating an operation of the integrated controller according to an embodiment of the present invention.

4, when the radon measurement data received through the communication converter is equal to or higher than a predetermined management target value, the integrated controller according to the present invention generates an understanding control signal for controlling the ventilation equipment for ventilation in the history, Can be transmitted to the converter.

First, the integrated controller receives the radon measurement data transmitted from the communication converter and analyzes numerical values of the data (S410, S420). The integrated control unit may receive radon measurement data transmitted from the communication converter through an Ethernet communication method. The received radon measurement data may be analyzed on a predetermined time basis.

If the radon measurement data is greater than or equal to a predetermined management target value, the integrated control unit may generate a control signal for controlling the ventilation equipment in the history and transmit the control signal to the communication converter (S430, S440, S450). That is, the management target value is set in consideration of the air quality in the history, and the integrated control unit analyzes the radon measurement data transmitted in real time, and when the real time rolling radon measurement data is higher than the management target value, It can be determined that the air is bad and a control signal for operating the ventilation equipment can be generated.

5 is a flowchart illustrating an operation of the facility control unit according to an embodiment of the present invention.

As shown in FIG. 5, the facility control unit according to the present invention controls various facilities such as ventilation equipment for ventilation in history, and can receive a facility control signal including a contact signal and transmit the facility control signal to the facility.

The facility control unit receives the contact signal transmitted from the communication converter, and controls the ventilation equipment by an operation corresponding to the contact signal [S510, S520]. At this time, the contact signal may be a signal for on / off control of the ventilation equipment, for example, an electricity supply for operating the ventilation equipment for a predetermined time.

FIG. 6 is a flowchart schematically illustrating an operation of transmitting and receiving data of a facility control system using radon measurement data according to the present invention, and FIG. 7 is a system diagram showing a facility control system using radon measurement data according to an embodiment of the present invention. Fig.

Hereinafter, the data transmission / reception operation shown in Fig. 6 will be described with reference to the system shown in Fig.

First, the radon data measurer 760 measures the radon data in real time, accumulates the measured data for a predetermined time, and transmits it to the communication converter 730 (S601, S602, S603). That is, the radon data measurer 760 can generate radon measurement data by measuring the radon generation value in real time, and store the generated radon measurement data in a memory such as a separate storage device. When the radon measurement data is accumulated for a predetermined time or longer, the accumulated radon measurement data may be transmitted to another device or device and managed. The radon data measuring device 760 may include a separate radon measurement controller 750 for controlling the radon data measuring device 760. The radon data measuring device 760 may include an RS- Data can be transmitted and received by a communication method. Therefore, the radon measurement controller 750 can perform operations such as reading the radon measurement data from the radon data measurer 760, clearing the memory of the radon data measurer 760, and the like. Meanwhile, the radon measurement controller 750 may transmit the radon measurement data to another device through an RF wireless communication method. The radon data measuring device 760 can be installed and removed easily by implementing the data transmission / reception using the wireless communication method. As a method for eliminating the shadow area, which is a disadvantage of the wireless communication method, (740) to compensate for the strength of the radio signal.

Then, the communication converter 730 receives the radon data, changes the communication format of the radon data, and transmits the communication format to the integrated controller 710 (S604, S605, S606). The communication converter 730 receives the radon measurement data transmitted through the radon measurement controller 750 and transmits the radon measurement data to the unified controller 710 of the office room through the in-house network 720. The communication converter 730 may convert the radon measurement data in a format suitable for the in-house network 720. The in-house network 720 may be a wired network including Ethernet communication such as TCP / IP Lt; / RTI >

The integrated controller 710 analyzes the radon data received from the communication converter 730 and transmits a control signal for controlling the ventilator 780 to the communication converter 730 when the radon value is greater than a predetermined value (S607, S608). At this time, the integrated controller 710 may receive the radon measurement data of the Ethernet communication format converted through the communication converter 730, and may further provide a real-time monitoring function through the PC installed in the office room. The integrated controller 710 may manage radon measurement data using a specific database. If the received radon measurement data is determined to be equal to or greater than a predetermined management target value, the integrated controller 710 controls the ventilator 780 And transmits the generated control signal to the communication converter 730.

Then, the communication converter 730 converts the control signal received from the integrated controller 710 into a contact signal, and transmits the contact signal to the facility controller 770 (S609, S610). That is, when a control signal for controlling the ventilation equipment 780 is received from the integrated control unit 710, the communication converter 730 controls the on / off control of the ventilation equipment 780 And may transmit the signal to the facility control unit 770. [

Lastly, the facility control unit 770 may control the ventilation equipment 780 in response to the contact signal transmitted from the communication converter 730 (S611). That is, the facility control unit 770 can receive the contact signal transmitted from the communication converter 730. At this time, the contact signal may be a signal for on / off control of the ventilator 780, for example, a signal for supplying electricity to the ventilator 780 for a predetermined time. Thus, while electricity is supplied corresponding to the contact signal, the ventilation facility 780 may operate.

As described above, the facility control system using the radon measurement data according to the present invention can implement a remote control by installing a specific control module so that the radon data measurer having no network function can be networked.

Further, the facility control system using the radon measurement data according to the present invention can easily install and remove the radon data measuring instrument by introducing a wireless system for data transmission, and can be installed anywhere, And the cost can be reduced.

In addition, the facility control system using the radon measurement data according to the present invention can monitor the statuses of the radon numbers of a plurality of history in one office. By using a specific database in the user program, the radon data can be managed more efficiently , And the ventilation equipment according to the radon level is also easy to manage.

Meanwhile, the method of the present invention as described above can be written in a computer program. And the code and code segments constituting the program can be easily deduced by a computer programmer in the field.

In addition, the created program is stored in a computer-readable recording medium (information storage medium), and is read and executed by a computer to implement the method of the present invention. And the recording medium includes all types of recording media readable by a computer.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. The present invention is not limited to the drawings.

110, 760: Radon data measuring instrument 120, 730: Communication converter
130, 710: integrated controller 140, 770: facility controller

Claims (8)

1. A facility control system using radon measurement data transmitted and received in a radio / wireless hybrid method for managing radon occurrence numerical value in a basement history, comprising a radon data measuring device, a communication converter, an integrated control unit and a facility control unit,
The radon measurement data is generated and stored by measuring the radon occurrence value in the underground history in real time. When the radon measurement data is accumulated for a predetermined time or longer, the accumulated radon measurement data is transmitted through a radio frequency Radon data meter;
And a control unit for receiving the radon measurement data from the radon data measuring unit and converting the received radon measurement data into an Ethernet communication format and transmitting the converted radon measurement data to the integrated control unit, A communication converter for converting the signal into a signal and transmitting the signal to the facility controller;
A control signal for controlling the ventilation equipment is generated based on the analyzed numerical value of the received radon measurement data when the radon measurement data of the Ethernet communication format is received through the communication converter, An integrated control unit; And
And a facility controller for receiving the contact signal transmitted through the communication converter and controlling the ventilation facility by an operation corresponding to the contact signal.
The method according to claim 1,
The facility control system
Further comprising a repeater for amplifying a signal intensity transmitted from the radon data measuring device in a wireless communication manner.
The method according to claim 1,
The integrated control unit
Wherein the controller further generates a control signal for outputting a warning screen and an alarm sound when the radon measurement data received from the radon data meter exceeds a predetermined management target value.
The method according to claim 1,
The contact signal
Wherein the control signal is a signal for on / off control of the ventilation facility.
A facility control method using radon measurement data transmitted / received in a radio / wireless hybrid method for managing the radon generation value in the underground history of a facility control system including a radon data measuring device, a communication converter, an integrated control unit,
Wherein the radon data measuring device measures a radon occurrence value in a basement history in real time to generate and store radon measurement data. When the radon measurement data is accumulated for a predetermined time or longer, the accumulated radon measurement data is transmitted to a radio frequency ) Communication method;
Converting the received radon measurement data into an Ethernet communication format and transmitting the radon measurement data to the integrated control unit when the communication converter receives the radon measurement data transmitted from the radon data measurer;
Wherein when the radon measurement data of the Ethernet communication format is received by the integrated controller through the communication converter, the integrated controller analyzes the numerical value of the received radon measurement data and controls the ventilation equipment based on the analyzed numerical value Generating a signal and transmitting the signal to the communication converter;
Converting the received control signal into a contact signal and transmitting the contact signal to the facility controller when the control signal transmitted from the integrated controller is received in the communication converter; And
And receiving the contact signal transmitted through the communication converter and controlling the ventilation equipment in an operation corresponding to the contact signal, wherein the facility control unit controls the facility control unit using the radon measurement data.
6. The method of claim 5,
The facility control system
Further comprising a repeater for amplifying a signal intensity transmitted from the radon data measuring device in a wireless communication manner.
6. The method of claim 5,
When the radon measurement data received from the radon data measurer exceeds a predetermined management target value,
And generating a control signal for controlling the integrated controller to output a warning screen and an alarm sound.
6. The method of claim 5,
The contact signal
Wherein the control signal is a signal for on / off control of the ventilation facility.

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