KR20110009094U - Apparatus for remote monitering control in instrumentation - Google Patents

Abstract

The present invention provides a remote monitoring control device for transmitting measurement data for a plurality of facilities to a data processing server, a power supply unit for converting an external power supply to provide a drive power, or to charge the drive power to provide the drive power, and A communication interface for receiving the measurement data by at least one data type or data transmission method from a plurality of measurement systems for generating measurement data for each facility, and setting for outputting the measurement data or setting parameters from a user A user interface for receiving information, a network interface for connecting to at least one type of network, and the measurement data received through the communication interface to the data processing server through the network; And a central control unit for setting the parameter or updating the software in accordance with the setting information received from the computer device connected through the network, and the data type and data transmission scheme of the measurement data generated by the measurement system. Measurement data can be received regardless of the network type, and the measurement data can be safely transmitted to the data processing server regardless of the network type.

Description

Far-away monitoring and control device for facilities {APPARATUS FOR REMOTE MONITERING CONTROL IN INSTRUMENTATION}

The present invention can receive the measurement data regardless of the data type and data transmission method of the measurement data for the facility generated by the measurement system, and transmit the measurement data to the data processing server safely regardless of the network type. It relates to a far-away monitoring control device of the facility.

Currently, various facilities are installed and operated throughout society, providing various conveniences to consumers.

The types of facilities include power system automation facilities such as power plants and substations, gas supply facilities that supply gas to homes and factories, water and sewage-related water treatment facilities such as water purification plants, sewage / wastewater treatment plants, pump stations, agricultural water plants, and village sewage. Environment-related facility facilities such as water, manure treatment plants, livestock / wastewater treatment plants, building facilities installed in high-rise buildings and apartments, disaster prevention / defense facility facilities for disasters such as floods, integrated river management, flood forecasting, dams River management facility equipment, such as control, etc. may be applicable.

In other words, various facilities are installed / operated at appropriate locations to provide convenience to many members of society.

The most important factor is the operational management of the facilities and the management of the measurement data measured in the facility. The management of the facility is the development of network / communication technology and electronic technology. It is proposed to collect and manage through.

The existing remote monitoring system of the proposed facility includes a measurement system for generating measurement data (for example, a flow and pressure value of a water pipe) in the facility, and a data collection for collecting and transmitting measurement data generated from the measurement system to a network. / Transmitter, and a data processing server for receiving and processing measurement data from the data collection / transmitter, the data processing server is a system for managing facilities in remote locations.

Such a conventional remote monitoring system is described in the 'apparatus measuring data wireless transmission system using the Internet network' (Registration No. 10-0438093).

However, while the existing remote monitoring system has a significant advantage that the administrator can centrally manage the remote facilities, there is a problem to install a different data collection / transmitter for each facility.

For example, different data acquisition / transmitters must be installed according to the type of measurement data (analog or digital) and data transmission methods measured at the facility, resulting in increased system construction costs and difficulty in system construction. do.

Therefore, a system capable of transmitting measurement data to a data processing server through two networks should be proposed regardless of the type of measurement data measured in a facility and a data transmission method.

The present invention has been devised in view of the above circumstances, and an object thereof is to provide a remote monitoring and control device for a facility capable of receiving measurement data regardless of the type of measurement data measured in the facility and a data transmission method. have.

In addition, another object of the present invention can provide a remote monitoring and control device of the facility that can transmit the measurement data of the facility regardless of the type of the network, as well as safely to the data processing server even when a problem occurs in the network.

The present invention to achieve the above object is to provide a drive power by converting an external power source, or a power supply unit for charging the drive power to provide the drive power and a plurality of measurement systems for generating measurement data for each facility A communication interface for receiving the measurement data by at least one data type or data transmission method, a user interface for outputting the measurement data or receiving setting information for setting parameters from a user, and at least one network A network interface unit connected to the network interface unit, and the measurement data received through the communication interface unit to the data processing server through the network through the network interface unit, and received from a computer device connected through the network. Setting the parameter in accordance with the setting information, or a central control unit for updating the software.

As described above, according to the present invention, the remote monitoring controller can receive the measurement data regardless of the data type and the data transmission method of the measurement data generated by the measurement system, and various types of measurement generated by many measurement systems. The ability to receive data makes it applicable to systems regardless of the type of measurement system deployed in the facility.

According to the present invention, the remote monitoring control device can transmit the measurement data to the data processing server regardless of the network type, and if the remote monitoring control device has a problem with the network, it can transmit the measurement data through another network. Even if an error occurs in the network, measurement data can be transmitted to the data processing server.

Therefore, the present invention can be applied to a wide range of systems such as water and sewage facility monitoring systems, next generation wireless environment monitoring systems (eg, temperature, humidity, pollution, hazardous materials, carbon dioxide, etc.), oil pipeline remote monitoring systems, and industrial facility monitoring systems. Not only can be applied to the field, but also organically applied to the system in which the existing measurement system is constructed.

1 is a network block diagram for explaining a remote monitoring system including a remote monitoring control device of a facility according to the present invention.
2 is a block diagram for briefly explaining a measurement system applied to the present invention.
Figure 3 is an internal block diagram for explaining the remote monitoring control device according to the present invention.
4 is a block diagram illustrating an external interface unit according to the present invention.
5 is an internal block diagram illustrating a communication interface unit according to the present invention;
6 is an internal block diagram for explaining a network interface unit according to the present invention;
7 is a flowchart illustrating a remote monitoring method of a facility according to the present invention.

Hereinafter, a remote monitoring system of a facility according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings, which will obscure the main technical gist of the present invention, or a detailed description of well-known technical details will be omitted.

1 is a network block diagram illustrating a remote monitoring system including a remote monitoring control device for a facility according to the present invention. The remote monitoring system of the facility 110 collects measurement data generated by a plurality of measurement systems 100 generating measurement data for various types of facilities 110 and a plurality of measurement systems 100 through a network. The remote monitoring control device 200 to transmit and the data processing server 300 which processes the measurement data received from the remote monitoring control device 200 through a network are included.

The data processing server 300 manages / monitors each facility 110 based on measurement data for each measurement system 100 received from the remote monitoring and control device 200. That is, the data processing server 300 manages / monitors the current state of each facility 110 when each measurement system 100 transmits the measurement data for the facility 110 through the remote monitoring control device 200.

For example, if the facility 110 is a water pipe, the data processing server 300 manages / monitors the current flow rate, water pressure, or flow rate variation of the water pipe based on the measurement data generated by the measurement system 100. .

2 is a block diagram for briefly explaining a measurement system applied to the present invention. The measurement system 100 includes a facility 110 installed in a field, a measurement device 120 for measuring the facility 110 to generate measurement data, and a remote monitoring control device 200 for measurement data generated by the measurement device 120. Interface unit 130 to transmit to.

The meter 120 may be configured with various kinds of sensors, and measures the flow rate of the facility 110, for example, a water pipe, to generate measurement data corresponding to the flow rate value.

The interface unit 130 transmits the measurement data to the remote monitoring controller 200 according to the type and data transmission method of the measurement data generated by the measurement instrument 120.

Such measurement system 100 is a water and sewage facility 110 monitoring system, next-generation wireless environmental monitoring system (for example, temperature, humidity, pollution, harmful substances, carbon dioxide, etc.), oil pipeline remote monitoring system, industrial The facility 110 may be applied to a monitoring system, and the like, and thus the description of the measurement system 100 is well known, and thus detailed description thereof will be omitted.

3 is an internal block diagram illustrating a remote monitoring control apparatus according to the present invention. Remote monitoring control device 200 according to the present invention is a communication interface 220, a network interface 210, a central control unit 270, a storage unit 240, a power supply unit 250, a user interface The unit 260 and an external interface unit 230 are included.

The power supply unit 250 receives an external power supply (for example, DC 12 volts), converts the driving power supply into driving power, and provides the remote monitoring device 200. In addition, when the external power is disconnected by charging the external power, the power supply unit 250 provides emergency driving power to the remote monitoring controller 200.

The storage unit 240 may be configured as a nonvolatile memory such as a HAND flash memory or a NOR flash memory. The storage unit 240 stores measurement data received by the measurement system 100 and operation information of the remote monitoring controller 200.

The user interface unit 260 may be configured as a 4.3-inch TFT-LCD touch screen, and outputs the measurement data or the operating status of the remote monitoring control device 200 so that the user can check / manage it. In addition, the user interface unit 260 allows a user to process parameter settings or software updates of the remote monitoring control device 200.

The external interface 230 allows an external device, for example, an external SD memory, a USB memory, a computer device, a camera module, and the like to operate the remote surveillance control device 200.

4 is a block diagram illustrating an external interface unit according to the present invention. The external interface unit 230 according to the present invention includes a USB interface unit 231, a memory interface unit 232, and a camera interface unit 233.

Since the USB interface unit 231 is a master-slave method, for example, the USB interface unit 231 provides one USB master port and one USB slave port, respectively.

That is, the USB interface unit 231 reads data stored in, for example, a USB memory connected to the remote monitoring control device 200 as a slave, receives data from a computer device connected to a mast, or the user sets the computer device. Allows you to set parameters or update software.

The memory interface unit 232 is connected to an external memory such as an external SD memory to allow the remote monitoring control device 200 to store data in the external memory or to read data stored in the external memory.

The camera interface unit 233 is connected to a camera module of CCTV, for example, a camera module of a CCTV for capturing an image of a site where the facility 110 is installed or a site where the remote monitoring control device 200 is installed. 200 may transmit the image data to the data processing server 300 through a network. The communication interface 220 is connected to the measurement system 100 and receives measurement data generated by the measurement system 100.

5 is an internal block diagram illustrating a communication interface unit according to the present invention. The communication interface 220 according to the present invention includes a serial port unit 221, a digital port unit 222, an analog port unit 223, a mix unit 224, and a data interworking unit 225. do.

The serial port unit 221 receives measurement data from the measurement system 100 whose data transmission method is a serial transmission method. That is, the serial port unit 221 reads a plurality of measurement data (for example, three) from the measurement system 100 at the same time.

The digital port unit 222 receives digital measurement data generated by the measurement system 100. That is, the digital port unit 222 provides a detection and output control function of the relay type digital input signal.

The analog port unit 223 receives analog measurement data generated by the measurement system 100 and converts it to a digital method. That is, the analog port unit 223 receives an analog signal of 4-20 milliamperes (mA) or 0-5 volts, and performs analog-to-digital conversion processing.

In addition, the analog port unit 223 bypasses the received analog signal through a signal conversion and restoration process so that the other measurement system 100 can receive it. The mixing unit 224 mixes measurement data received in parallel through the serial port unit 221, the digital port unit 222, or the analog port unit 223, respectively.

The data interlocking unit 225 converts the measurement data received through the mixing unit 224 so that the central control unit 270 can recognize and transmits the measured data to the central control unit 270. That is, the data interlocking unit 225 is composed of a 16-bit processor, and the measurement data received through the serial port unit 221, the digital port unit 222, or the analog port unit 223 is the central control unit ( 270 is converted to be recognized so as to interlock between the measurement system 100 and the central control unit 270.

Therefore, the remote monitoring and control device 200 according to the present invention can receive the measurement data regardless of the data type and data transmission method of the measurement data generated by the measurement system 100, a plurality of measurement systems 100 Since various types of measurement data generated can be received, the present invention can be applied to a system regardless of the type of the measurement system 100 constructed in the facility 110.

The central control unit 270 may be configured as a central processing unit (CPU) of the ARM-9 core series, and the data processing server 300 receives the measurement data received through the communication interface unit 220 through the network interface unit 210. To send).

The central control unit 270 outputs measurement data or operation information of the remote monitoring control device 200 through the user interface unit 260 or according to information input from the user through the user interface unit 260. Or update the software.

In this case, the central controller 270 may update the software based on software stored in an external memory, a USB memory, or a computer device connected through the external interface unit 230, and the user is connected through the external interface unit 230. Parameters can be set according to the setting information input via a computer device.

Meanwhile, the central controller 270 may set a parameter according to setting information input from a computer device connected through the network interface unit 210.

For example, the authentication process is performed based on an ID and a passwork input from a computer device accessing the central control unit 270 through the network interface unit 210 (for example, the Internet). Set the parameters according to the setting information input from the computer device.

In addition, the central control unit 270 is connected to the Internet based on a floating IP (internet protocol) address or a second public IP address allocated from the Dynamic Host Configuration Protocol (DHCP) data processing server 300, and received from a computer device. Parameters can be set according to the information, and the IP address is periodically checked, and when the IP address is changed, the measurement data is transmitted by accessing the data processing server 300 based on the new IP address.

That is, the remote monitoring control device 200 according to the present invention is a parameter through a user interface unit 260 and a computer device connected through a computer device or a network interface unit 210 connected through the external interface unit 230. Can be set or software can be updated.

The network interface unit 210 transmits measurement data to the data processing server 300 through various types of networks.

6 is an internal block diagram illustrating a network interface unit according to the present invention. The network interface unit 210 according to the present invention includes an internet interface unit 211, a serial communication interface unit 220, and a mobile communication network interface unit 213.

The internet interface unit 211 allows the remote monitoring control device 200 to connect to the data processing server 300 through the Internet, so that the remote monitoring control device 200 transmits the measurement data to the data processing server 300 through the Internet. Send it.

At this time, the Internet interface unit 211 accesses the Internet based on the floating IP address or the public IP address allocated from the DHCP data processing server 300, and the remote monitoring control device 200 according to the TCP / IP data processing server (300). The Internet interface unit 211 provides a channel for, for example, a physical connection of 10/100 BASE-T.

The serial communication interface 220 allows the remote monitoring and control device 200 to transmit measurement data to the data processing server 300 through the serial communication network. That is, the serial communication interface 220 allows the remote monitoring and control device 200 to physically interwork with the serial communication network in an RS-232C / RS-422 manner, and provides an asynchronous data bit rate.

The mobile communication network interface unit 213 allows the remote monitoring control device 200 to connect to the mobile communication network. That is, the mobile communication network interface unit 213 causes the remote monitoring and control device 200 to transmit the measurement data to the data processing server 300 through the mobile communication network.

On the other hand, the central control unit 270 of the remote monitoring and control device 200, the storage unit 240 transmits the measurement data to the user's mobile terminal through the mobile communication network when the phone number of the mobile terminal to transmit the measurement data is set and stored. . For example, when the remote monitoring control device 200 generates measurement data set by the user, such as error measurement data, among the measurement data, the remote monitoring control device 200 transmits the error measurement data to the user's mobile terminal through a mobile communication network. message service) / multimedia text message (MMS).

In addition, when the central control unit 270 fails to transmit the measurement data to the data processing server 300 due to a problem such as an error in the network while transmitting the measurement data to the data processing server 300 through the network interface unit 210. For example, it safely transmits the measurement data to a network other than the failed network.

For example, the central control unit 270 of the remote monitoring control device 200 has a transmission error on the Internet when a problem occurs in confirming data transmission while transmitting measurement data to the data processing server 300 via the Internet. If so, the measurement data is transmitted to the data processing server 300 through a serial communication network or a mobile communication network.

Therefore, the remote monitoring control apparatus 200 according to the present invention can transmit the measurement data to the data processing server 300 regardless of the network type, and even if an error occurs in one network, the measurement data may be transmitted to the data processing server ( 300).

7 is a flowchart illustrating a remote monitoring method of a facility according to the present invention. Each measurement system 100 according to the present invention generates measurement data for the facility (110) (S100).

The remote monitoring control apparatus 200 receives measurement data generated by each measurement system 100 regardless of data type and data transmission method (S110).

At this time, the remote monitoring control device 200 receives measurement data from the measurement system whose data transmission method is a serial transmission method through the serial port unit 221, and generates the measurement data in the measurement system 100 through the digital port unit 222. The digital measurement data is received, and the analog port unit 223 receives the analog measurement data generated by the measurement system 100 and converts the digital measurement.

In addition, the remote monitoring control apparatus 200 converts the received measurement data so that the central control unit 270 can recognize the interlocking system between the measurement system 100 and the central control unit 270.

The remote monitoring control device 200 transmits the received measurement data to the data processing server 300 through the network (S120).

At this time, the remote monitoring control device 200 is connected to the Internet through the Internet interface unit 211 based on the floating IP address or public IP address assigned from the DHCP data processing server 300, and measured in accordance with TCP / IP The data is transmitted to the data processing server 300.

In addition, the remote monitoring and control device 200 transmits the measurement data to the data processing server 300 by interworking with the serial communication network through the serial communication interface 220 physically in the RS-232C / RS-422 method, and the mobile communication network. The interface unit 213 transmits the measurement data to the data processing server 300 through the mobile communication network.

On the other hand, the remote monitoring and control device 200 is an error via the mobile communication network when the phone number of the mobile terminal to which the measurement data is to be transmitted is set and stored, that is, when measurement data set by the user, such as error measurement data, is generated among the measurement data. The measurement data is transmitted to the user's mobile terminal.

And, the remote monitoring control device 200 checks whether an error occurs in the network transmitting the measurement data (S 130), and if an error occurs in the network, the measurement is performed by a network other than the network where the error occurred. Securely transmit the data (S 140).

For example, the remote monitoring control apparatus 200 may transmit a measurement error because a transmission error occurs in the Internet when a problem occurs during data transmission confirmation while transmitting measurement data to the data processing server 300 through the Internet. The data is transmitted to the data processing server 300 through a serial communication network or a mobile communication network.

Meanwhile, the remote monitoring control apparatus 200 checks whether an external device, for example, a USB memory or an external memory is connected through the external interface unit 230, and reads data stored in the external device when the external device is connected. Or, store the data (S 150).

And, the remote surveillance control device 200 is connected to the camera module, for example, the camera module of the CCTV that captures the image of the site where the facility 110 is installed or the remote surveillance control device 200 is installed, the camera module In operation S 160, the captured image is transmitted to the data processing server 300.

When the remote control apparatus 200 receives setting information from a computer device connected through the external interface 230 or a computer device connected through the Internet, the remote monitoring control device 200 sets parameters or updates software (S 170).

Although the present invention has been described in detail only with respect to the described embodiments, it will be apparent to those skilled in the art that various modifications and changes are possible within the technical idea of the present invention, and such modifications and modifications belong to the appended utility model registration claims. will be.

100: measurement system 110: facilities
120: instrument 130: interface unit
200: remote monitoring control device 210: network interface unit
211: Internet interface unit 212: Serial communication network interface unit
213: mobile communication network interface unit 220: remote monitoring control device
221: serial port portion 222: digital port portion
223: analog port portion 224: mix portion
225: data interlocking unit 230: external interface
231: USB interface unit 232: Memory interface unit
233: camera interface unit 240: storage unit
250: power supply unit 260: user interface unit
270: central control unit 300: data processing server

Claims (4)

In the remote monitoring control device for transmitting the measurement data for a plurality of facilities to the data processing server,
A power supply unit converting external power to provide driving power, or charging the driving power to provide the driving power;
A communication interface unit for receiving the measurement data by at least one or more types of data types or data transmission methods from a plurality of measurement systems for generating measurement data for each facility;
A user interface unit for outputting the measurement data or receiving setting information for setting parameters from a user;
A network interface unit for connecting to at least one kind of network,
The measurement data received through the communication interface unit is transmitted to the data processing server through the network through the network interface unit, and the parameter is set according to setting information received from a computer device connected through the network, or software. Far-away monitoring control device of a facility comprising a central control unit for updating. The method according to claim 1,
The communication interface unit includes a serial port unit for receiving measurement data from the measurement system whose data transmission method is a serial transmission method;
A digital port unit for receiving digital measurement data generated by the measurement system;
An analog port unit for receiving analog measurement data generated by the measurement system and converting it digitally or bypassing the signal through another signal conversion and restoration process;
A mixing unit for mixing measurement data received in parallel through the serial port unit, the digital port unit or the analog port unit, respectively;
And a data interlocking unit for converting and processing the measurement data received through the mixing unit so that the central control unit can recognize the remote control device of a facility. The method according to claim 1,
The network interface unit,
An internet interface unit for accessing the Internet based on an IP address so that the central control unit transmits the measurement data to the data processing server through the Internet;
A serial communication interface unit for allowing the central control unit to transmit measurement data to the data processing server through a serial communication network;
A mobile communication network interface unit for allowing the central control unit to transmit the measurement data to the data processing server through a mobile communication network;
And the central control unit transmits the measurement data to the user's mobile terminal through the mobile communication network when predetermined measurement data is received. The method according to claim 1,
And the central control unit transmits the measurement data to another type of network when a transmission error of the measurement data through the first network occurs.

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