KR101474687B1 - Apparatus and method for measuring performance of load of scada system - Google Patents

Abstract

The disclosed technology relates to an apparatus and a method for measuring operational performance of loads in a supervisory control and data acquisition system (SCADA) to control a plurality of loads installed in a site from a remote place, which comprises: a sensing part arranged in each of the loads to sense driving temperature, driving power and the number of driving times; a communications part transmitting the driving temperature, the driving power and the number of driving times to a central control server via wired and wireless communications; a processing part arranged in the central control server and receiving the driving temperature, the driving power and the number of driving times of the loads from the communications part to measure the operation performance of the loads; and an administrator terminal receiving the measured operational performance via the communications part. Therefore, the present invention individually measures the operational performance of the loads included by the supervisory control and data acquisition system to improve overall operational efficiency of the SCADA.

Description

[0001] APPARATUS AND METHOD FOR MEASURING PERFORMANCE OF LOAD OF SCADA SYSTEM [0002]

The disclosed technique relates to an apparatus and method for measuring the performance of a load of a remote monitoring control system.

SCADA (Supervisory Control And Data Acquisition) system, which is a remote surveillance control system, is generally used as a system for controlling various facilities installed in an industrial field. It monitors and controls the operation of infrastructure processes such as industrial processes such as manufacturing, production, generation, processing or smelting processes, and sewage treatment, waste water collection, transmission and distribution.

Such a remote monitoring and control system generally collects status information of a plurality of field facilities at a remote location by remote small facilities located in an adjacent area and transmits the collected information to an administrator working at a central control center through a communication network, And provide an environment in which it can operate properly.

As mentioned above, this remote monitoring and control system not only remotely processes various on-site facilities such as loads, but also manages to be close to unmanned automation system Has been developed.

However, it is difficult for each of the loads installed in the field to operate identically, so it is quite difficult to identify each load individually to see how much performance each load has.

Of course, even if one or two loads do not perform properly, the whole system does not cause problems, but even if such a problem arises sporadically over a certain number of loads, it is difficult to cope quickly and flexibly with conventional unmanned systems alone. Therefore, the system can not be operated normally, and at the same time, the industrial site can not be controlled properly, resulting in a lot of damage. For example, a motor used in a remote monitoring and control system that controls a water treatment motor has no problem in a test environment, but sometimes it may happen that the above performance can not be achieved in the field. There is a need to do.

On the other hand, in order to prevent damage due to a situation in which it is impossible to measure how and when to occur as described above, it is not efficient to permanently place an administrator in the central control server. In fact, most remote monitoring and control systems automatically return according to the contents set in the system in advance, so it is a waste of manpower to deploy the manager at all times to prepare for the emergency situation. Therefore, the disclosed technology discloses an apparatus and method for measuring to what degree the load of the remote monitoring control system actually operates.

Korean Patent Laid-Open Publication No. 1-2011-0136949 (entitled: remote monitoring and control device capable of authenticating control commands, remote monitoring and control command authentication device, and control command authentication method) is known as a conventional remote monitoring and control system.

The disclosed technique is to provide an apparatus and method for measuring the operating performance of each load of a remote monitoring control system to increase the overall efficiency of the remote monitoring and control system.

According to a first aspect of the present invention, there is provided a remote surveillance control (SCADA) system for remotely controlling a plurality of loads installed on a field, the system comprising: A communication unit for transmitting the driving temperature, the driving power and the driving frequency of the loads to the central control server through wired / wireless communication; and a control unit for controlling the driving of the load from the communication unit A processor for measuring the operation performance of the load by receiving the temperature, the drive power, and the drive frequency, and an administrator terminal for receiving the measured operation performance through the communication unit, .

According to a second aspect of the present invention, there is provided a remote surveillance control (SCADA) method for remotely controlling a plurality of loads installed on a site, wherein a sensing unit disposed in each of the plurality of loads The method comprising the steps of: sensing a driving temperature, a driving power, and a driving frequency; transmitting a driving temperature, a driving power, and a driving frequency of the loads to a central control server through wired / wireless communication; Measuring the operating performance of the load by receiving the driving temperature of the load, the driving power and the driving frequency, and transmitting the measured operating performance to the manager terminal, And to provide a method for performing the method.

Embodiments of the disclosed technique may have effects that include the following advantages. It should be understood, however, that the scope of the disclosed technology is not to be construed as limited thereby, since the embodiments of the disclosed technology are not meant to include all such embodiments.

According to an embodiment of the disclosed technology, an apparatus and method for measuring the operating performance of a load of a remote monitoring and control system can be realized by individually measuring the operation performance of a plurality of loads included in a remote monitoring control system, And the like.

In addition, it provides an effect that the efficiency of the overall system can be increased by immediately recognizing that the performance of the load drops below a predetermined level and can not perform the function, and the load is replaced.

1 is a block diagram of an apparatus for measuring the operational performance of a load of a remote monitoring and control system according to an embodiment of the disclosed technique.
2 is a flow diagram of a method for measuring operational performance of a load of a remote monitoring and control system in an embodiment of the disclosed technique.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

The terms first, second, A, B, etc., may be used to describe various components, but the components are not limited by the terms, but may be used to distinguish one component from another . For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component. And / or < / RTI > includes any combination of a plurality of related listed items or any of a plurality of related listed items.

It is to be understood that the singular < RTI ID = 0.0 > terms < / RTI > used herein should be interpreted to include a plurality of representations unless the context clearly dictates otherwise. And "comprises ", when used in this specification, specify the presence of stated features, numbers, steps, operations, elements, parts, or combinations thereof, Or combinations thereof, as a matter of course.

Before describing the drawings in detail, it is to be clarified that the division of constituent parts in this specification is merely a division by main functions of each constituent part. That is, two or more constituent parts to be described below may be combined into one constituent part, or one constituent part may be divided into two or more functions according to functions that are more subdivided. In addition, each of the constituent units described below may additionally perform some or all of the functions of other constituent units in addition to the main functions of the constituent units themselves, and that some of the main functions, And may be carried out in a dedicated manner. Accordingly, the presence or absence of each component described in this specification should be interpreted as a function.

1 is a block diagram of an apparatus for measuring the operational performance of a load of a remote monitoring and control system according to an embodiment of the disclosed technique. Referring to FIG. 1, an apparatus for measuring the operation performance of a load of a remote monitoring and control system includes a remote monitoring control (SCADA) system for remotely controlling a plurality of loads installed on the ground, A communication unit 120 for transmitting the driving temperature, the driving power, and the driving frequency of the loads to the central control server through wired / wireless communication; A processing unit 130 for receiving the driving temperature, the driving power and the driving frequency of the loads from the communication unit and measuring the operation performance of the loads, and a controller 140 for receiving the measured operation performance through the communication unit, ).

The sensing unit 110 is disposed in each of the plurality of loads. And detects the state of the load. Here, the load refers to the equipment installed on the site, which includes the SCADA system. For example, it may be a water treatment motor, a power generation motor, or a device that processes a predetermined process. The control system monitors the operation of these loads and controls the entire system to run smoothly.

On the other hand, in the disclosed technique, the operation performance of the load is measured in order to replace or repair the load before stopping the operation in the one-shot control system. Typically, the load control system includes a plurality of loads. Accordingly, even if one or two loads are broken or aged, the operation is stopped or the operation is not performed to the extent that the function is not performed, the entire system is not shut down.

However, this is a definite loss when considering the efficiency of the overall system, and large or small damages can accumulate if this happens simultaneously or irregularly. Accordingly, in the disclosed technology, the sensing unit 110 is disposed in each load to sense the driving temperature, the driving power, and the driving frequency of the load.

Meanwhile, the sensing unit 110 senses the driving temperature, the driving power, and the driving frequency of the load as described above. The load included in the one-time control system is driven by the power supplied from the power source, and the central control server manages whether the load operates properly. The sensing unit 110 separately senses how many degrees the load is operating, how much driving power it is operating, and how many times it operates. In the disclosed technique, the drive temperature, the drive power, and the drive frequency of each load are determined as information indicating the operation state of each load.

Meanwhile, the sensing unit 110 includes at least one of a temperature sensor, a current sensor, a voltage sensor, and a motion sensor to sense the driving temperature, the driving power, and the driving frequency of the load. By using the temperature sensor, it is possible to measure the temperature in a state where the load is operating. It is also possible to measure the driving power of the load by using the current sensor and the voltage sensor. Using the motion detection sensor, it is possible to measure how many times the load has been performed. Accordingly, the sensing unit 110 can detect how many times the power is used under which state the load is operated by using these sensors.

The communication unit 120 transmits the driving temperature, the driving power, and the driving frequency of the load sensed by the sensing unit 110 to the central control server through wired / wireless communication. Here, the term "wired / wireless communication" means that a predetermined Internet communication line is used or a wireless network such as 3G, 4G or Wi-Fi is used. The communication unit 120 can perform predetermined wired / wireless communication in consideration of the environment of the site where the load is placed and the work characteristics of the load.

The processing unit 130 is disposed at the central control server of the remote monitoring and control system. Then, the operating performance of the load is measured by receiving the driving temperature, the driving power, and the driving frequency of the load from the communication unit 120. The processing unit 130 loads a predetermined algorithm to measure the operation performance of the load. Then, the driving power, the driving temperature, and the driving frequency of the load are set as input values using the above algorithm, and the operation performance of the load is calculated.

In one embodiment, if the expected performance of the load is 100% without the variable applied, it can operate at 80% performance when the temperature at which the load is driven is higher or lower than usual. Or, a load that is normally driven with an operating performance between 90% and 100% may experience a 50% to 60% performance due to the heat one day. Or the load is a kind of mechanical device, so that the load may not be able to perform if the threshold of the number of operating times exists and approaches or exceeds this threshold. Accordingly, in the processing unit 130, the driving power, the driving temperature, and the driving frequency of each load are received from the sensing unit 110 by using variables that affect the operation performance of the load.

Meanwhile, the processing unit 130 may receive a predetermined input value including the expected performance of the load in advance. Generally, in the case of a load operating in the field, the operation performance is gradually reduced as the installed time elapses. If the performance falls below the input value from a certain moment, this time can be regarded as a replacement cycle.

On the other hand, the processor 130 may compare the calculated performance of the load after receiving the expected performance of the load as described above. For example, if the expected performance inputted is 10, the operation performance of the load can be calculated based on the driving power of the load, the driving temperature, and the number of times of driving, and the operation performance of the actual load can be calculated to be 10 or less.

The administrator terminal 140 receives the performance of the operation measured by the processing unit 130 through the communication unit 120. [ Since the system is operated automatically even if the administrator does not wait at all times due to the nature of the remote monitoring control system, the administrator of the system can not check the status of the load and can not replace the status of the load, so that a message is transmitted to the administrator terminal 140 It is possible to solve such a problem. As described above, since the communication unit 120 uses a wired / wireless communication network, the administrator terminal 140 can receive the performance of the load measured by the processing unit 130 through the communication unit 120. Therefore, there is an advantage that it is easy to judge whether the load should be replaced or maintained.

Meanwhile, the administrator terminal 140 can receive the operation performance of the load according to a predetermined period. For example, if the operation performance of the load remains one year, a message requesting replacement of the load may be received from the processing unit 130 once a month. Or may be transmitted while gradually decreasing the interval for notifying the performance of the load. That is, if the operation performance of the load is one year, the load can be changed by gradually narrowing the intervals such as 6 months, 3 months, 1 month, and full-time.

Meanwhile, the administrator terminal 140 can transmit a control signal for a plurality of loads included in the remote monitoring control system to the central control server. The administrator terminal 140 includes a predetermined input means for inputting the control signal. For example, the administrator terminal 140 may be a PC, a notebook, or a smart phone. That is, instead of directly inputting the control signal from the central control server, it is possible to input the control signal using the manager terminal 140 at a remote place, and to transmit the control signal through the communication unit 120. Therefore, it is possible to monitor the operation state of the load and simultaneously control the operation of the load.

2 is a flow diagram of a method for measuring operational performance of a load of a remote monitoring and control system in an embodiment of the disclosed technique. Referring to FIG. 2, a method for measuring an operation performance of a load of a remote monitoring and control system includes a remote monitoring control (SCADA) method for remotely controlling a plurality of loads installed on a site, A step 220 of sensing the driving power, the driving temperature and the driving frequency of the loads by the sensing unit, the communication unit transmitting the driving power, the driving temperature and the driving frequency of the loads to the central control server through wired / (230) for receiving a status of the loads from the communication unit (230) and measuring a performance of the load (230); and transmitting the measured performance to an administrator terminal (240).

In step 210, the sensing unit senses the driving power, the driving temperature, and the driving frequency of the loads. The sensing unit is disposed in each of a plurality of loads included in the one-touch sensing system. The sensing unit senses the driving temperature, the driving power, and the driving frequency of the load in the state of the load. The load included in the one-time control system is driven by the power supplied from the power source, and the central control server manages whether the load operates properly. Separately, the sensing unit senses how many degrees the load is operating, how much driving power it is operating, and how many times it has operated.

In step 210, the sensing unit may include at least one of a temperature sensor, a current sensor, a voltage sensor, and a motion sensor to detect the driving power, the driving temperature, and the driving frequency of the load. By using the temperature sensor, it is possible to measure the temperature in a state where the load is operating. It is also possible to measure the driving power of the load by using the current sensor and the voltage sensor. Using the motion detection sensor, it is possible to measure how many times the load has been performed. Therefore, it is possible to use the sensors to detect how many times the load has operated in what state the load is operating.

In step 220, the communication unit transmits the driving power, the driving temperature, and the driving frequency of the loads to the central control server through wired / wireless communication. The communication unit uses wired / wireless communication. Here, the term "wired / wireless communication" means that a predetermined Internet communication line is used or a wireless network such as 3G, 4G or Wi-Fi is used. The communication unit can perform predetermined wired / wireless communication in consideration of the environment of the site where the load is placed and the work characteristics of the load.

In step 230, the processing unit disposed in the central control server receives the driving power, the driving temperature, and the driving frequency of the loads from the communication unit, and measures the operation performance of the load. The processing unit is disposed in the central control server of the remote monitoring and control system. Then, the operation status of the load is measured by receiving the status of the load from the communication unit. The processor loads a predetermined algorithm to measure the operation performance of the load. Then, the driving power, the driving temperature, and the driving frequency of the load are set as input values using the above algorithm, and the operation performance of the load is calculated.

In one embodiment, if the operating performance of the load is 100 while the variable is not applied, the load may have a performance of 85, which is slightly lower than 100 when the temperature at which the load is driven is higher or lower than usual. Also, a load that is normally driven at 80 to 90 percent performance may show performance well below 80 at some time. Likewise, as the load approaches the maximum number of times it can operate, the driving performance may decrease. Accordingly, in step 230, variables affecting the operation performance of the load are calculated using the processor.

On the other hand, in step 230, the processor may receive an input value indicating the expected performance of the load in advance. Generally, in the case of a load operating in the field, the operation performance is gradually reduced as the installed time elapses. If the efficiency drops below the average from a certain moment, this time can be set as the replacement cycle.

Further, the processor may compare the calculated performance of the load after receiving the expected performance of the load in advance as described above. For example, if the expected performance inputted is 10, the operation performance of the load can be calculated based on the driving power of the load, the driving temperature, and the number of times of driving, and the operation performance of the actual load can be calculated to be 10 or less.

In step 240, the measured performance of the load is transmitted to the administrator terminal. The manager terminal receives the performance of the operation measured by the processor through the communication unit. Since the system is operated automatically even if the administrator does not wait at all times due to the nature of the remote monitoring control system, the administrator of the system can not check the status of the load and can not replace it. Therefore, by sending a message to the administrator terminal It is possible to solve.

As described above, since the communication unit uses the wired / wireless communication network, the manager terminal can receive the performance of the load measured in step 230 in advance. Therefore, there is an advantage that it is easy to judge whether the load should be replaced or maintained.

Meanwhile, the administrator terminal can receive the operation performance of the load according to a certain period. For example, if the load performance remains for five years, a message requesting replacement of the load can be received from the processing unit once a year. Or may be transmitted while gradually decreasing the interval for notifying the performance of the load. That is, if the operation performance of the load is one year, the load can be changed by gradually narrowing the intervals such as 6 months, 3 months, 1 month, and full-time.

On the other hand, in step 240, the administrator terminal can transmit a control signal for a plurality of loads included in the remote monitoring control system to the central control server. The administrator terminal includes a predetermined input means for inputting the control signal. For example, the administrator terminal may be a PC, a notebook or a smart phone. That is, instead of inputting the control signal directly from the central control server, it is possible to input the control signal using the manager terminal at a remote place, and to transmit the control signal through the communication unit. Therefore, it is possible to prevent the situation where the remote monitoring control system is inadvertently stopped by measuring the operation performance of the load of the remote monitoring control system, and to provide an effect of efficiently controlling the load.

Although the apparatus and method for measuring the operating performance of the load of the remote monitoring control system according to an embodiment of the disclosed technology have been described with reference to the embodiments shown in the drawings for purposes of understanding, It will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention. Accordingly, the true scope of protection of the disclosed technology should be determined by the appended claims.

110: sensing unit 120: communication unit
130: processing section 140:
210: Load status detection 220: Sense information transmission
230: Measurement of load operation performance 240: Transfer to the administrator terminal

Claims (10)

1. A remote control system (SCADA) system for remotely controlling a plurality of loads installed on a site,
A sensing unit disposed in each of the plurality of loads to sense a driving temperature, a driving power, and a driving frequency of the loads;
A communication unit for transmitting the driving temperature, the driving power, and the driving frequency of the loads to the central control server through wired / wireless communication;
A processing unit which is disposed in the central control server and receives the driving temperature, the driving power and the driving frequency of the loads from the communication unit and measures the operation performance of the load; And
And an administrator terminal that receives the measured operation performance through the communication unit,
Wherein the sensing unit includes a temperature sensor, a current sensor, a voltage sensor, and a motion detection sensor,
Wherein the processor compares the expected performance of the load, which has been previously input with a predetermined measurement algorithm, and the operation performance,
The manager terminal transmits a control signal for the plurality of loads to the central control server to control the driving temperature, the driving power, and the driving frequency of the load, and transmits the notification of the operating performance to the central control server And measures the operating performance of the load of the remote monitoring control system that induces replacement of the loads. delete delete delete delete A remote surveillance control (SCADA) method for remotely controlling a plurality of loads installed on a site,
Sensing a driving temperature, a driving power, and a driving frequency of the loads, the sensing unit being disposed in each of the plurality of loads;
Transmitting a driving temperature, a driving power, and a driving frequency of the loads to the central control server through wired / wireless communication;
A processing unit disposed in the central control server receives the driving temperature, the driving power, and the driving frequency of the loads from the communication unit to measure the operation performance of the load; And
And transmitting the measured performance to the administrator terminal,
Wherein the sensing unit includes a temperature sensor, a current sensor, a voltage sensor, and a motion detection sensor,
Wherein the processor compares the expected performance of the load, which has been previously input with a predetermined measurement algorithm, and the operation performance,
The manager terminal transmits a control signal for the plurality of loads to the central control server to control the driving temperature, the driving power, and the driving frequency of the load, and transmits the notification of the operating performance to the central control server Wherein the at least one of the plurality of loads includes a plurality of loads. delete delete delete delete

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