KR102039897B1 - Current control monitoring device - Google Patents

Abstract

The present invention is a current control monitoring device for remotely confirming the failure of a unit load set connected in a phase 3-wire system, wherein the unit load sets are connected in parallel in each of R phase, S phase, and T phase of a three-phase power source. At least one branch line is connected to one EOCR (Electronic OverCurrent Relays) among the phases branched into one unit load set, and the EOCR distinguishes and measures the currents of the branch lines of the respective phases at the same time. The current value of the branch line of each phase is displayed and transmitted to the central server.

Description

Current control monitoring device

The present invention relates to a current control monitoring device, and more particularly, to a current control monitoring device that can remotely check the current flow state of a unit load receiving a three-phase power supply to determine the failure.

5 is a configuration diagram of a power monitoring apparatus for a load according to a conventional method.

In general, the method of monitoring the load power in a remote location, as shown in Figure 5, converts the AC current signal of the load into a low current AC current signal by a current sensor (usually CT sensor is used) and low current After converting the AC current signal into a signal suitable for the communication module, it is transmitted to the remote server through the communication equipment.

As a related technology, the digital power meter reader system for remote meter reading of Patent No. 10-1546027 measures the amount of power through a CT sensor, transfers the measured amount to the DCU, and the DCU is connected to a server using a mobile communication network. It is configured to transmit related data.

In addition, an additional current display device can be installed to check the current value of the load directly and take immediate action.

However, according to this conventional method, since a single phase power source is used, a monitoring device is required for each line branched from the main stream, and installation work must be performed, and there is a problem in that additional cost is generated when the site is checked.

Patent Registration No. 10-1546027 (August 20, 2015)

An object of the present invention is to reduce the material cost and installation cost by 1/3 by using the EOCR that can measure the current of all three connected loads independently, and in the field using the current display function of the EOCR itself An object of the present invention is to provide a current control monitoring device that allows an operator to easily grasp the number of failed unit loads.

Other objects of the present invention can be achieved by the detailed description of the present invention described with reference to the accompanying drawings.

In order to achieve the above object, the current control monitoring apparatus of the present invention is a current control monitoring apparatus for remotely confirming whether a unit load set is connected in a three-phase three-wire system remotely, and wherein the unit load is three-phase 380V. A motor of a standard, wherein the unit load sets are connected in parallel to each of the R, S, and T phases of a three-phase power supply, and at least one branch line is one EOCR among the phases branched into one unit load set. Connected to the electronic overcurrent relays, the EOCR distinguishes and measures the currents of the bifurcation of each phase and displays the current value of the bifurcation of each phase and transmits it to the central server. The communication module is connected to a communication module, the communication module is composed of a PLC and a communication card, the PLC, the PLC receives the current value output from the EOCR for each phase processing, the communication card is The current value output from the PLC is transmitted to the central server, and each of the EOCRs is interconnected in the form of a relay through a Modbus cable and connected to the PLC through the adapter, so that the EOCR is within the limit of the slave address of the PLC. The system is expanded in such a way as to further install the current, and the current current value C1 transmitted to the central server is displayed in real time on the monitor of the central server, and the upper limit breaking current value C2 preset by the administrator is By being immediately displayed to the side, it is characterized by checking while individually checking the state of the unit load of the site.

delete

delete

delete

According to the current control monitoring apparatus of the present invention, since the EOCR is connected to each phase of the three-phase power supply and the three sets of unit load arrangements as the loads are connected via the EOCR, three sets of unit load arrangements are managed by one EOCR. Since the current is monitored, the number of components for installation is reduced to 1/9, and the installation process and labor are reduced.

In addition, since EOCR displays the current measurement value, it is not necessary to add a separate display device to display the measured current value as in the conventional CT sensor. I can figure out the number of unit loads.

1 is an overall configuration diagram of a current control monitoring apparatus according to an embodiment of the present invention.
2 is an enlarged view of a circuit unit of the current control monitoring device of FIG.
3 is a configuration diagram for explaining a communication method of the current control monitoring device of FIG.
Figure 4 is a circuit diagram showing a state in which the resistance for confirming the position in series connected to the unit load in the current control monitoring apparatus according to another embodiment of the present invention.
5 is a configuration diagram of a power monitoring apparatus for a load by a conventional method.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. The terms or words used in the specification and claims are not to be construed as being limited to conventional or dictionary meanings, but should be construed as meanings and concepts corresponding to the technical matters of the present invention.

1 is an overall configuration diagram of a current control monitoring apparatus according to an embodiment of the present invention, Figure 2 is an enlarged view of the circuit portion of the current control monitoring device of Figure 1, Figure 3 is a communication of the current control monitoring device of Figure 2 4 is a schematic diagram illustrating a method, and FIG. 4 is a circuit diagram illustrating a state in which a resistance for confirming position is connected to a unit load in a current control monitoring apparatus according to another exemplary embodiment of the present invention.

1 and 2, in the current control monitoring apparatus of the present invention, a set of unit loads M is connected in parallel in each of R, S, and T phases of a three-phase power source. In this embodiment, the unit load (M) is a three-phase 380V motor.

For example, a plurality of unit load sets connected in R, S, and T phases of a three-phase power supply are connected in parallel with each phase, and a branch line of each phase branched into one unit load set has one EOCR (Electronic OverCurrent). Relays) 100, each EOCR is connected to the communication module 200, the communication module transmits the current value of the branch line of each phase detected by the EOCR to the central server 300 through the communication network, The EOCR is configured to display the current of each unit load at present.

According to the conventional method, as shown in Fig. 5, for each branch line of the three-phase power source, a separate monitoring device, that is, a current sensor, a display device, and a DC converter had to be monitored for the unit load installed on the branch line.

However, according to the present invention, as shown in Figs. 1 and 2, the branch lines of the three phases of the three-phase power supply are connected to one EOCR together, and a plurality of unit loads are bundled and managed in three combinations. The number of parts can be reduced to 1/9 (1/3 × 1/3).

That is, three sets of unit load arrangements are connected to one EOCR in different phases, and one EOCR measures the current flowing through a series of unit loads connected to each phase, and the existing current sensor, display device, and DC converter By replacing the function of the one EOCR, the number of parts can be drastically reduced, as well as to provide an advantageous effect in terms of convenience and economics of management.

In FIG. 2, a plurality of EOCRs are connected along a main line of a three-phase power supply, and each of the EOCRs is connected between each branch line branched on R, S, and T phases, and a unit load as a load. In addition, since EOCR displays the current value of the current branch line in real time, it can be confirmed that some unit loads are open when the current current display value is smaller than the normal current value when the unit loads are all operating normally. Will be.

As such, the current value measured and displayed is transmitted to the central server through the communication module in real time, so that the state of the unit load of the site can be accurately confirmed in real time at a remote location, as shown in FIG. The transmitted current current value C1 is displayed in real time on the monitor of the central server, and the upper limit cutoff current value C2 preset by the administrator is displayed right next to it, thereby individually checking the state of the unit load in the field. You can check while.

The number of faulty unit loads can be checked by analyzing the current value, which is calculated by considering the number of unit loads installed on the branch line, the node current value according to the voltage applied to each unit load, and the internal resistance of the unit load. Can be.

Therefore, another embodiment of the present invention includes a control unit for automatically calculating in consideration of the current current value, the node current value flowing in each unit load, and displays the number of the failure unit load calculated by the control unit numerically It may further include a display device.

For example, assuming that the current value of one node load is 1A, if 20 unit loads are installed in one branch line in parallel, the branch line measured and displayed through EOCR considering the internal resistance of the unit load The current value of is about 20.30A in the normal range. If the current value of the corresponding branch line measured and displayed through EOCR is measured as about 19.xxA, it means that one unit load is open and failure If the current value of the corresponding line is measured as about 18.xxA, it can be confirmed that two unit loads have failed.

Ideally, the current value multiplied by the current value of the individual node of the unit load should be equal to the current value displayed in the EOCR, but in practice, the current value can be changed as the difference of the characteristics of each unit load. There may be differences in the values below the decimal point due to external factors. If the number of failed unit loads increases, these differences may also affect the calculation process.

As shown in FIG. 3, the data of the current value detected by the EOCR 100 is first transmitted to the communication module 200 through a communication line. An RS-communication method, which is a general serial communication method, may be used.

The communication module 200 may be composed of a PLC and a communication card. The PLC receives the digital signal (current value) output from the EOCR (100) and processes each phase separately, and the communication card functions to transmit the output value output from the PLC to the central server.

The communication module 200 transmits data to a central server at a remote location through wired / wireless communication through a communication network, specifically, the Internet network. Since the EOCR 100 can transmit the data of the current value that distinguishes the self-identification ID and the three-phase information of the EOCR to the communication module 200, the central server by dividing the current value and the current value of the specific phase of the EOCR at a specific position. Can be sent to.

In this embodiment, the plurality of EOCRs 100 are interconnected in the form of a relay via a Modbus cable 40 and connected to the PLC via the adapter 50, thereby providing one value between the slave addresses 1 and 247 of the PLC. It is possible to expand the system by installing more EOCR (100) within the limit of). It can be easily monitored by integrating current supply points scattered in various places.

In addition, the ECOR 100 is provided with a display window 101 that can display the measured current value of the site as it is, the operator of the site checks the current value displayed on the display window and immediately checks the abnormal state of the current to take action. There is an advantage to take. Reference numeral 60 is a line terminator.

As another embodiment, as shown in FIG. 4, a positioning resistor 10 is added to each unit load in series, and each positioning resistor is configured with a different resistance value, thereby forming a node of each unit load. By differently configuring the node current value through, if the unit load of any one node is open and fixed occurs, it may be configured to determine the unit load at which position by analyzing the current value.

At this time, the positioning resistance 10 used is composed of a value of a small unit to be distinguished from the resistance of the unit load, for example, the integer portion of the current value measured in the EOCR is used for the number load analysis of the unit load, The portion below the decimal point may be used for positioning the unit load as an element of the current value according to the positioning resistor.

In addition, in the present invention, the EOCR 100 may generate a lower limit alarm when the sum of the currents according to the number of unit loads connected to each phase deviates below the lower limit set current value. In addition to the basic functions of the EOCR, it is possible to take immediate action on site workers by the occurrence of an alarm, which can be alarmed by generating a warning light or a special type of noise.

Such an alarm signal may be transmitted to a remote central server, or may generate an alarm signal by itself based on a current value received from the central server itself.

In addition, in the present invention, the EOCR alarms when the current value of each phase deviates from the first upper limit set current value, and the current supplied to the unit load when the EOCR deviates from the second upper limit set current value greater than the first upper limit set current value. The unit load can be protected by shutting off immediately.

This is to use the basic relay function of EOCR and to protect the unit load when over current occurs in the connected unit load. In addition, the manager is notified immediately so that action can be taken.

According to the current control monitoring apparatus of the present invention, since the EOCR is connected to each phase of the three-phase power supply and the three sets of unit load arrangements as the loads are connected via the EOCR, three sets of unit load arrangements are managed by one EOCR. Since the current is monitored, the number of components for installation is reduced to 1/9, and the installation process and labor are reduced.

In addition, since EOCR displays the current measurement value, it is not necessary to add a separate display device to display the measured current value as in the conventional CT sensor. I can figure out the number of unit loads.

Although the preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the specific embodiments described above, and the present invention is not limited to the specific scope of the present invention as claimed in the claims, and is commonly used in the art. Many modifications are possible to those skilled in the art.

In addition, matters that can be easily inferred from the appended drawings should be regarded as included in the content of the present invention even if they are not described in the detailed description, and various modifications will be separately understood from the technical spirit or the prospect of the present invention. I will not.

M: unit load
100: EOCR
200: communication module
300: central server

Claims (4)

It is a current control monitoring device to remotely check whether there is a failure of unit load set connected by 3-phase 3-wire type.
The unit load is a three-phase 380V motor,
The unit load set is connected in parallel to each of R phase, S phase, and T phase of a three-phase power supply,
Of each phase branched into one unit load set, at least one branch line is connected to one Electronic OverCurrent Relays (EOCR),
The EOCR separately measures the current of the branch lines of each phase and measures the current, and displays the current value of the current of the branch lines of each phase, and transmits the current value to the central server.
Each EOCR is connected to a communication module
The communication module is composed of a PLC and a communication card,
The communication module, the PLC receives the current value output from the EOCR for each phase processing, the communication card transmits the current value output from the PLC to the central server,
Each EOCR is interconnected in the form of a relay via a Modbus cable and connected to the PLC by means of an adapter, thereby expanding the system in such a way that the EOCR is further installed within the limits of the slave address of the PLC.
The current current value C1 transmitted to the central server is displayed in real time on the monitor of the central server, and the upper limit breaking current value C2 preset by the administrator is displayed right next to the unit load of the site. A current control monitoring device, characterized in that for checking the status individually contrasted. delete delete delete

Images