KR100970005B1 - Distributing board of smart grid type - Google Patents

Abstract

PURPOSE: A smart grid cabinet panel is provided to efficiently manage energy use by exchanging information between a power supplier and a consumer in real time. CONSTITUTION: A sub module(100) comprises a conductive unit, a bus bar, and a display unit. One side of a bus bar is fixed to the conductive unit. The other side of the bus bar is fixed to a main circuit breaker or branch adapter. The display unit displays the data about the power use. A control module(200) collects and transmits the data of the sub module. A display module(300) is detachably combined with the control module to display the data of the sub module. An external server(400) displays the data transmitted from the control module.

Description

Smart Grid Distribution Board {DISTRIBUTING BOARD OF SMART GRID TYPE}

The present invention relates to a smart grid-type distribution panel, and more specifically, to exchange energy in real-time information such as voltage, current, power, power factor, power, busbar temperature, usage time, overload alarm between the power supplier and the consumer in both directions The present invention relates to a smart grid-type distribution panel that can efficiently manage use.

In general, various building electrical distribution boards separate power through various breakers such as main breakers, branch breakers, and earth leakage breakers, and branch buses are installed by installing busbars on the main breakers and sub-breakers.

By the way, according to the conventional structure of the distribution panel, when the overcurrent higher than the rated power occurs, it is automatically cut off, but below the rated power it is not possible to check the short-circuit state, causing energy loss and risk of fire caused by long-time neglect On the other hand, there is a problem that it is difficult to determine the cause when the overcurrent flows or to predict the trend of electricity use.

In the case of the recent distribution panel to solve the above problems, through the control unit including the various sensors and the CPU connected thereto to detect the electrical flow inside the distribution panel and to display the wired or wireless to the outside, CT for the instrument (Current As the control unit directly embeds a sensor such as a transformer, a manufacturing and maintenance thereof is difficult and bulky.

The present invention has been made to solve the above problems of the prior art, by flexibly adjusting the power supply by exchanging real-time information in both directions between the power supplier and the consumer or to adjust the use time and usage by avoiding expensive time periods accordingly On the other hand, it is an object of the present invention to provide a smart grid-type distribution panel that improves the space utilization of the power distribution unit installed in the main circuit breaker and the branch adapter.

In order to achieve the above object, the present invention, the conductive member is fitted in the through-hole formed in a plurality of instrument CT (Current Transformer) disposed in the casing portion, one side is fixed to the conductive member and the other side is the main circuit breaker or branch adapter One of the voltage, current, power, power amount, power factor, temperature, power supply time and overload alarm is installed detachably outside the casing through a bus bar connected to the instrument and the first CT connected to the instrument and the bus bar. A sub module including a display unit for displaying an abnormality; A control module for collecting the sub module data in group units and transmitting the data to the wired or wireless; A display module detachably coupled via the control module and a second connector to display data of the submodule in a group unit; And an external server for wirelessly receiving and displaying data transmitted from the plurality of control modules.

Here, the conductive member is spirally coupled to each other, consisting of the first and second conductive member having an insertion groove on the outside, or the spiral hole is formed on both sides, so that the busbar is fixed to the spiral hole by a fastening bolt It is characterized by.

In addition, the bus bar connected to the branch adapter is characterized in that it is fixed to the casing portion extending to the inside of the branch adapter, or through a connection portion extending from the branch adapter.

On the other hand, the control module includes a power input unit for receiving power from the power supply line connected to the main circuit breaker; A power supply unit converting an AC voltage applied to the power input unit into a rated voltage and supplying the voltage to the submodule; An A / D (Analog Digital) converter for converting an AC signal of the power input unit into a DC signal; A microprocessor for converting the DC signal of the A / D converter into data which can be checked by the sub module or the display module; A first communication port connected to the first connector so that the microprocessor and the submodule communicate with each other; A second communication port connected to the second connector such that the microprocessor and the display module communicate with each other; And a communication unit for allowing the microprocessor and the external server to communicate wirelessly with each other.

As described above, the smart grid-type distribution panel according to the present invention increases the space utilization of the sub-module which can check the electric flow data by installing a bus bar on the CT for the instrument disposed in the casing part, and collects a plurality of sub-module data. The control module can be collected and supplied in real time to the power supplier and the consumer to enable stable and efficient use of power.

In addition to the basic functions described, systematic operation of power management by integrated management of distribution boards, harmonics management (measures energy savings before and after the establishment of countermeasures), phase imbalance management (manages unbalanced periods for each feeder) Management (peak load management by Demend Trend), power factor management (condensation of capacitor proper placement), operation management (management according to power usage such as start time and end time), standby power management (power management for unused loads) And motor load efficiency management.

1 is a view showing the wiring structure of the smart grid-type distribution panel according to the present invention.
2a and 2b is a view showing the internal and external structure of the smart grid-type distribution panel according to the present invention.
3 is a view illustrating a monitoring principle of an external server of the smart grid-type distribution panel according to the present invention.
4a to 4c is a view showing a fastening structure of the instrument CT, the conductive member and the busbar of the smart grid-type distribution panel according to the present invention.
5a to 5c is a view showing another fastening structure of the instrument CT, the conductive member and the busbar of the smart grid-type distribution panel according to the present invention.
6a to 6c is a view showing a fastening structure of the main circuit breaker, sub-modules and branch adapter of the smart grid-type distribution panel according to the present invention.
7a and 7b is a view showing another fastening structure of the main circuit breaker, sub-modules and branch adapter of the smart grid-type distribution panel according to the present invention.
8 is a view showing the structure of a control module of the smart grid-type distribution panel according to the present invention.

Hereinafter, a smart grid type distribution panel according to the present invention will be described with reference to the drawings.

1 is a view showing the wiring structure of the smart grid-type distribution panel according to the present invention, Figures 2a and 2b is a view showing the internal and external structure of the smart grid-type distribution panel according to the invention, Figure 3 according to the present invention The figure shows the monitoring principle of an external server among the smart grid type distribution panel.

Smart grid type distribution panel according to the present invention is basically a sub-module 100 for checking the data on the electrical flow through the main circuit breaker 30 or branch adapter 40 in the distribution panel, and the data of the sub-module 100 A control module 200 for collecting and converting the data into visually identifiable data, and then transmitting the control module 200, a display module 300 for detachably connecting to the control module 200 to display data of the sub-module 100; It is composed of an external server 400 for wirelessly receiving and displaying data of the plurality of control modules 200.

Figures 4a to 4c is a view showing the fastening structure of the CT, the conducting member and the busbar for the instrument of the smart grid-type switchboard according to the present invention, Figures 5a to 5c for the instrument of the smart grid-type switchboard according to the present invention Figure 6 is a view showing another fastening structure of the CT, the conductive member and the busbar, Figure 6a to 6c is a view showing the fastening structure of the main circuit breaker, sub-modules and branch adapter of the smart grid-type distribution panel according to the present invention, 7A and 7B are views illustrating another fastening structure of the main circuit breaker, the sub module, and the branch adapter in the smart grid type distribution panel according to the present invention.

The sub module 100 has a conductive member 110 fitted into a through hole formed in a plurality of instrument CT (Current Transformer) 20 disposed in the casing portion 10, and one side of the sub module 100 is fixed to the conductive member 110. The busbar 120 connected to the other side of the main circuit breaker 30 or the branch adapter (the conventional circuit breaker 30 and the conventional adapter for connecting the branch circuit breaker) 40, the CT 20 for the instrument and the busbar ( It is installed detachably to the outside of the casing portion 10 through the first connector 50 which is connected to the R, S, T, N in a three-phase four-wire type 120, the voltage, current, power, power By including a display unit 130 for displaying one or more of the power factor, busbar temperature, power supply time, overload alarm, the casing unit ( 10) improve the space utilization of the sub-module 100 through the structure to fix the bus bar 120 by using the instrument CT (20) in In addition, the display unit 130 and the control module 200 to be described below may be prevented from installing the instrument CT 20, and as the attachment and detachment of the instrument CT 20 can be easily performed. have.

Looking at the fastening structure of the conductive member 110 and the busbar 120, the conductive member 110 is spirally coupled to each other and the first and second conductive members formed with insertion grooves (111a, 112a) on the outside ( 111, 112, the panel-shaped busbar 120 is inserted or inserted into the insertion grooves (111a, 112a) and then maintained in a fixed state by welding or the like, or instrument CT (20) By forming a spiral hole (110a) on both sides of the conductive member 110 that can be inserted into the through hole of the bus bar 120 is fixed to the spiral hole (110a) with a fastening bolt 70 in the state of the main circuit breaker 30 or The branch adapter 40 is fixed with a bolt as in the prior art.

In addition, the bus bar 120 connected to the branch adapter 40 has a step as shown in the drawing and fixed in an extended state to the inside of the branch adapter 40, or a connection portion 41 extending from the branch adapter 40. It may be fixed in the casing portion 10 through.

Furthermore, since the display unit 130 may be detachably mounted to the casing unit 10 through the first connector 50, the display unit 130 may be disposed in a state that is easily visible with the naked eye regardless of the fixing position of the sub module 100. On the other hand, voltage, current, power, power amount, power factor, power supply time, overload status and the TIC (Temperature Indicatior Controller) embedded in the display unit 130 can be checked through the CT 20 and the busbar 120 for the instrument. ) To display data on temperature, etc.

8 is a view showing the structure of a control module of the smart grid-type distribution panel according to the present invention.

The control module 200 is for transmitting data of a plurality of sub-modules 100 installed in one distribution board by wired or wireless. For this purpose, the power input unit 210 receives power from a power supply line connected to the main circuit breaker 30. And a power supply unit 220 of a switched-mode power supply (SMPS) type, which converts an AC voltage applied to the power input unit 210 into a rated voltage and supplies the same to the sub-module 100. A / D (Analog Digital) converter 230 for converting an AC signal into a DC signal, and converts the DC signal of the A / D converter 230 into data that can be checked by the submodule 100 or the display module 300. The microprocessor 240, the first communication port 250 connected to the first connector 50 so that the microprocessor 240 and the submodule 100 communicate with each other, the microprocessor 240 and the display module ( To the second connector 60 so that 300 may communicate with each other. The second communication port 260 is connected, and the microprocessor 240 and the external server 400 are configured to communicate with each other wirelessly.

The display module 300 performs functions such as monitoring individual loads connected to the busbars 120 of one distribution panel, that is, displaying data of the submodule 100, and the like through the second connector 60. Since it can be detachably coupled with the control module 200, even when separating the inside of the distribution panel and the door, there is no need to wire the control module 200 and the display module 300 unnecessarily again.

The external server 400 is to receive and display data transmitted from a plurality of distribution boards, that is, a plurality of control modules 200 according to various conventional wireless communication methods, thereby enabling integrated monitoring of distribution panels in large buildings. Make it possible.

Claims (5)

The conductive member 110 is inserted into the through hole formed in the plurality of instrument CT (Current Transformer) 20 disposed in the casing portion 10, one side is fixed to the conductive member 110, the other side is the main circuit breaker 30 Or the busbar 120 connected to the branch adapter 40 and the instrument CT 20 and the first connector 50 connected to the busbar 120 can be attached or detached to the outside of the casing unit 10. A submodule 100 which is installed to be possible and includes a display unit 130 for displaying at least one of voltage, current, power, power amount, power factor, temperature, power supply time, and an overload alarm;
A control module (200) for collecting the sub-module (100) data in group units and transmitting the data to wired or wireless;
A display module 300 detachably coupled via the control module 200 and the second connector 60 to display data of the sub module 100 in a group unit;
Consists of an external server 400 for wirelessly receiving and displaying data transmitted from a plurality of the control module 200,
The busbar 120 connected to the branch adapter 40 extends to the inside of the branch adapter 40 or is fixed at the casing part 10 through a connection part 41 extending from the branch adapter 40. Smart grid type distribution panel, characterized in that. The method according to claim 1,
The conductive member 110 is helically coupled to each other, the smart grid-shaped distribution panel, characterized in that consisting of the first and second conductive members (111, 112) formed with insertion grooves (111a, 112a) on the outside. The method according to claim 1,
Spiral hole (110a) is formed on both sides of the conductive member 110, the bus bar 120 is a smart grid-type distribution panel, characterized in that the fastening bolt 70 is fixed to the spiral hole (110a). delete The method according to claim 1,
The control module 200,
A power input unit 210 receiving power from a power supply line connected to the main circuit breaker 30;
A power supply unit 220 for converting an AC voltage applied to the power input unit 210 into a rated voltage and supplying it to the sub module 100;
An A / D (Analog Digital) converter 230 for converting an AC signal of the power input unit 210 into a DC signal;
A microprocessor (240) for converting the direct current signal of the A / D converter (230) into data that can be identified by the submodule (100) or the display module (300);
A first communication port (250) connected to the first connector (50) so that the microprocessor (240) and the submodule (100) communicate with each other;
A second communication port 260 connected to the second connector 60 so that the microprocessor 240 and the display module 300 communicate with each other;
The microprocessor 240 and the external server 400, the communication unit for performing wireless communication with each other; Smart grid-type distribution panel, characterized in that consisting of.

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