KR20090126488A - A assembled power distriburting unit making possible monitoring - Google Patents

Abstract

PURPOSE: An assembled power distributing unit making possible monitoring is provided to minimize time and costs for installing an additional measurement apparatus by connecting them to a circuit breaker through only a screw. CONSTITUTION: In a device, a terminal for a main circuit breaker is installed on the top of the case and it is connected to a main circuit breaker power source and a line. An additional terminal is recessed in the surface of the case and is connected to another terminal outside and is connected through a branch line. In a sensor unit, at least one of a current sensor(20), a voltage sensor(23), a temperature sensor(24), and a current leak sensor(22) is connected to the terminal for the main circuit breaker or the branch blocker. An A/D converter(30) converts analog information measured at the sensor unit into digital. A center operation controller(40) processes the digital sensor information transformed in the A/D converter.

Description

A Assembled Power Distriburting Unit Making Possible Monitoring

The present invention is an assembly type power distribution device, in particular to display the outside to be able to monitor the current state according to the flow of electricity by detecting the electric flow inside the power distribution device, and also the power required for detection terminal or branch for the main breaker The present invention relates to a prefabricated power distribution device capable of monitoring, characterized in that it is provided from a terminal for a breaker to operate various sensors and a central operation control unit without a separate power supply.

In general, separating the power of the industrial, home electrical distribution panel and switchboard is composed of various circuit breakers, such as the main circuit breaker, branch circuit breaker and earth leakage circuit breaker.

And, in the factory, building, home, etc., the existing distribution board structure is implemented by supplying to the sub-breaker by connecting to the branch point using the bus bar (bus bar) under the main breaker.

However, the following problems occur in the case of most distribution panels, such as the distribution panel using the conventional copper busbar or the distribution panel using the prefabricated power distribution device.

(1) In case of general circuit breaker used in distribution board, when the over current much higher than rated current occurs, it automatically cuts off the electric circuit.However, below the rated current, the circuit breaker is not known and current leakage value is not known. It causes a loss, and if it is left for a long time in a short circuit state, the heat generated in the short circuit part may cause a fire.

(2) A general circuit breaker is only tripped to protect the line when overcurrent flows, so it is not possible to prevent the energy waste, disaster, and property loss caused by electricity by identifying the cause of the interruption or predicting the trend of electricity use. .

(3) In case of breaker breakdown or malfunction, it can be a cause of fire, which can lead to serious consequences for life and property damage.

(4) In the case of a fire breakdown in a building, factory, or office, it is not easy to determine the cause of the fire caused by electricity, and it will take a lot of time and effort to identify the cause of the fire. In this case, the situation in which the cause of the fire is regarded as an electric leakage is inevitable.

In order to solve this problem, a sensor is attached to the main circuit breaker or the outside to detect the current amount, and to check the current value at load or short circuit occurring when working on the wiring after the branch circuit breaker, The measuring instrument is to be used.

However, a separate sensor or measuring device should be installed outside the busbar or outside. Accordingly, the size of the distribution box should be increased by the space in which the measuring device fits, and a separate power connection is required to use the measuring device. In reality, it is not easy to use the user because it requires complicated work such as mounting and connecting various sensors to measure the electric flow.

In addition, there is space and time constraints in which the administrator must visually check the measurement of the sensor in front of the distribution panel and check the measurement data generated by the sensor in real time. There is a problem that cannot be confirmed.

The present invention is to solve the above problems,

Supply power from distribution board to operate various sensor devices and central operation control unit, connect to server through various communication networks for real-time remote monitoring, and analyze related data into DB to prevent fire due to electricity and electricity in case of fire The goal is to provide a system that can identify the cause.

As a means for achieving the above object,

The present invention provides a case for protecting a power distribution line connected to a terminal for a main circuit breaker, a terminal for a branch circuit breaker, and an additional terminal; A plurality of main breaker terminals located on an upper surface of the case and connected by a main breaker power supply and a line; A plurality of branch breaker terminals located on both sides of the case and connected to a branch breaker power supply by a line; A plurality of additional terminals located on a lower surface of the case and recessed on a surface of the case to connect with other external load terminals or by adding a distribution line; At least one of a current sensor, a voltage sensor, a temperature sensor, and an earth leakage sensor is installed inside the case to detect a current, a voltage, a leakage current, or a temperature for determining a state of a distribution panel. A sensor unit connected to a terminal for the branch breaker; An A / D converter for converting analog information measured by the sensor unit into digital; A central operation central operation control unit processing the digital sensor information converted by the A / D converter; A display unit which displays the digital sensor information output from the central operation central operation control unit to the outside and is directly connected to the case or connected to the outside by a connector; It is installed inside the case, connected to the terminal for the main circuit breaker or the branch circuit breaker is branched to the power supply from the terminal to connect the sensor unit, the A / D converter, the central operation control unit and the display unit to supply the internal AC power supply It is characterized by including the wealth.

In addition, a case for protecting the power distribution line connected to the main circuit breaker terminal and the additional terminal; A plurality of main breaker terminals located on an upper surface of the case and connected by a main breaker power supply and a line; A plurality of additional terminals located on a lower surface of the case and recessed on a surface of the case to connect with other external load terminals or by adding a distribution line; At least one of a current sensor, a voltage sensor, a temperature sensor, and an earth leakage sensor is installed inside the case to detect a current, a voltage, a leakage current, or a temperature for determining a state of a distribution panel. A sensor unit connected to a terminal for the branch breaker; An A / D converter for converting analog information measured by the sensor unit into digital; A central computation controller configured to process digital sensor information converted by the A / D converter; A display unit which displays the digital sensor information output from the central operation control unit to the outside and is directly connected to the case or connected to the outside by a connector; Internal AC power installed inside the case and connected to the main breaker terminal or branch breaker terminal and branching power from the terminal to connect the sensor unit, the A / D converter, the central operation control unit, and the display unit to supply power. It is characterized by including a supply part.

In addition, it is installed inside the case, the internal AC power supply unit to supply power by connecting the sensor unit, the A / D converter, the central operation control unit and the display unit so that the power is supplied when the power is cut off, or from the outside It further comprises an external DC power connection for allowing emergency power input.

The central operation control unit may include a digital input unit for directly inputting a desired safety range to a power distribution device; It is characterized in that it is electrically connected to the control signal unit that can send an alarm signal to the user when digital sensor information is out of the safety range input by the user through the digital input unit.

In addition, the central operation control unit, electrically connecting a communication unit for connecting a communication network to connect various sensor information to the external management server; It is characterized by a more electrically connected remote monitoring unit consisting of a power distribution device that can be connected to the communication network and a monitoring system, a server capable of bidirectional communication, and related programs.

In addition, the communication unit is characterized in that the communication is made by any one selected from wired, wireless, or PLC.

As described above, the effect of the 'disaster prevention distribution panel remote monitoring system using the assembled power distribution device' according to the present invention is as follows.

 (1) You can easily monitor the desired electrical characteristics in the distribution panel by tightening screws with a screwdriver to minimize the effort, time, and cost of installing additional measurement equipment or devices.

(2) No separate power supply work is required by using the power supply in the distribution panel.

(3) It occupies the same width as the prefabricated power distribution system already in use, taking up less space.

(4) Standardized, compatible with any type of breaker in use.

(5) It is possible to install the display unit outside the distribution panel enclosure, so it can be immediately checked without opening the enclosure.

(6) Even if the manager does not continue monitoring beyond the time constraints, an alarm signal, alarm lamp, SMS, etc. may be issued in an abnormal situation so that the person in charge can take quick action.

(7) It is possible to monitor the electrical characteristics of the distribution panel in real time through the communication network in the remote area as well as in front of the distribution panel or in the room or building where the distribution panel is located, without space limitation.

(8) By analyzing the data stored in the DB, it is possible to easily grasp the actual use of electric energy. Based on this, specific measures can be taken to reduce wasted electric energy and save energy.

(9) Analyze the data stored in the DB and compare the past and present of the electricity flow to find out where there is a problem beforehand and take precautions to prevent possible future disasters such as fire or accidents. It can be prevented.

(10) In the event of a fire, current and temperature data before and after the fire can be analyzed to determine whether it is caused by an electrical cause or a fire caused by another cause, and in the case of an electrical cause, detailed causes can be identified.

(11) It is possible to prevent the occurrence of overheating or fire caused by overcurrent, which may occur in case of breaker breakdown or malfunction, and damage to terminal electrical products.

In addition, although the invention has been described in connection with the preferred embodiments mentioned, other various modifications and variations may be made without departing from the spirit and scope of the invention. Accordingly, it is intended that the appended claims cover such modifications and variations as fall within the true scope of the invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

In particular, the terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or custom, and the definition thereof describes the present invention 'monitorable prefabricated power distribution device'. It should be based on the content throughout.

1 is an exemplary view of a distribution panel using a prefabricated power distribution device.

Figure 2 is a substitute picture for explaining the actual configuration of the present invention.

3 is an internal circuit diagram of a ball invention.

Figure 4 is a sensor arrangement installed in the terminal for the internal main circuit breaker and the branch circuit breaker of the present invention.

Figure 5 is a plan view of the prefabricated power distribution device (example when there is no terminal for branch breaker) of the present invention.

Figure 6 is a front view of the prefabricated power distribution device (example without the terminal for branch breaker) capable of the present monitoring.

Figure 7 is a plan view of the prefabricated power distribution device (an example in which there is a terminal for a branch breaker) capable of monitoring the present invention;

Figure 8 is a front view of the prefabricated power distribution device (example when there is a terminal for branch breaker) capable of monitoring.

9 is a configuration diagram of a display unit and a connection connector of the present invention.

10 is a block diagram of a power distribution device capable of monitoring the separated display unit of the present invention.

FIG. 11 is an exemplary view of using the display unit of the present invention attached to an enclosure. FIG.

The distribution panel to which the prefabricated power distribution device of the present invention is applied is standardized to increase scalability and usability in performing electricity distribution from the main circuit breaker 90 to the branch circuit breaker 91. The case can be used to continuously assemble up to the number of branch breakers 91 required by the main breaker 90 by using a case. In the box, the circuit is made of metal bars having high electrical conductivity such as copper for power distribution. Is composed.

1 is an exemplary view of a distribution panel using the prefabricated power distribution device 11, and distributes and distributes power from the main circuit breaker 90 and the main circuit breaker 90 to the branch circuit breaker 91 supplied from the outside. It is composed of prefabricated power distribution device.

This type of prefabricated power distribution device is a simple product that can be used by expanding the number of branch circuit breakers 91 by fastening the terminal 100 for the main circuit breaker with screws. It is a product installed to enable monitoring by installing sensor.

Figure 2 is a picture substitute for explaining the actual configuration of the present invention, the main circuit breaker terminal (100) screwed to the main circuit breaker 90 to perform a power distribution function with a prefabricated power distribution device with a built-in monitoring function Then, the terminal breaker terminal 101 is fastened to the branch breaker 91 with a screw, and an additional terminal 102 is installed at the rear end in order to connect another assembled power distribution device.

In addition, the upper portion of the case 10 has a display unit 51 for viewing the digitally converted measurement data on the distribution panel, the user can set a safety range so that the user can issue a control signal such as an alarm when the measured data is out of range. There is a digital input unit 52 that can be set and input.

Figure 3 shows the internal circuit diagram of the present invention, the current sensor (CT) 20, leakage current sensor in the power distribution device to detect the current, leakage current, voltage, temperature flowing through the power distribution device. (ZCT) 22, voltage sensor (P / T) 23 is attached to terminal 100 for main breaker or terminal 101 for branch breaker, and temperature sensor (TIC) 24 is installed When electricity flows through the breaker 90 to the branch circuit breaker 91, current, leakage current, voltage, temperature, and the like are measured.

At this time, the measured value is analog state, but is converted into digital through the A / D converter 30 and then displayed on the display unit 51 through the processing of the central operation control unit 40 such as a microcomputer and the user displays the digital of the displayed sensor. The electrical status of the distribution board will be monitored while verifying the values.

In addition, when the user sets the safety range for the sensor measurement value and inputs it through the digital input unit 52, when a measurement value out of the set range occurs, the alarm signal or the flashing warning lamp flashes through the control signal unit 50. An alarm signal can be sent to trigger an alarm.

In addition, the measured various sensor data is connected to the communication network 74 through the communication unit 70 is transmitted to the remote monitoring unit 60 composed of an external server and related programs.

In this case, the PLC unit 71 may enter the communication unit 70 in the case of a power line communication network, and in the case of a wireless communication network or a wired communication network, the wireless communication unit 72 or the wired communication unit 73 may correspond to the corresponding communication unit 70. Entered.

The remote monitoring unit 60 receives various sensor measurement information in the power distribution device sent through the communication network 74 and displays them in real time at a remote location, stores the related data in a DB, and sends alarm information to an administrator or a user when an error occurs. It will function.

The power used in the present invention is supplied through the internal AC power supply unit 81 to generate the power required for the present invention from the main breaker terminal and the branch breaker terminal inside without a separate external power supply, and the short circuit by the operation of the breaker Even if power is not supplied from the internal AC power supply 81, the internal DC power supply 82 allows the battery to be used internally in case of a power failure, or through an external DC power supply 83 that can be used in connection with an external battery. Continuous monitoring is possible.

4 is a sensor arrangement diagram installed in the internal main circuit breaker terminal and the branch circuit breaker terminal of the present invention, the current sensor (CT) 20 is the main circuit breaker terminal to measure the current flowing through the main circuit breaker terminal 100 One phase is provided for each phase of the (100), and in order to measure the current flowing through the branch breaker terminal 101, it may be installed and used in the branch breaker terminal 101 that requires measurement, and the leakage current needs to be measured. In the case of using the 4-wire 3-phase, the leakage current sensor (ZCT) 22 is used together with the three phases of the terminal 100 for the main circuit breaker.

In order to measure the voltage change in the distribution panel, it is possible to measure by connecting the electric wire from the three phases of the terminal 100 for the main circuit breaker to the voltage sensor (P / T) 23 attached to the PCB, and the temperature change in the power distribution device. In order to detect the temperature sensor (TIC) 24 may be attached to the PCB.

Figure 5 is a plan view of the prefabricated power distribution apparatus (example when there is no terminal for breaker breaker) that can be monitored in the present invention, Figure 6 is a prefabricated power distribution apparatus (the case where there is no terminal for breaker breaker) that can be monitored in the present invention As a front view of the example), the electrical characteristics and temperature of the main circuit breaker terminal 100 can be measured and monitored through the display unit 51, and in particular, a distribution panel or another type of prefabricated power distribution using the conventional bus bar. If the device is used, it is installed directly under the terminal for the main breaker and connected to the top of the busbar, or connected to the top of another type of prefabricated power distribution device to monitor the electrical characteristics of the distribution board.

That is, it shows that the branch breaker terminal is omitted and only the main breaker terminal is provided, and outputs data such as a current flowing through the main breaker terminal through the display unit 51.

7 is a plan view of the prefabricated power distribution device (an example of having a branch circuit breaker terminal) that can be monitored in the present invention, Figure 8 is a prefabricated power distribution device that can be monitored in the present invention (in the case of a terminal circuit breaker terminal) As a front view of the example), the electrical characteristics and the temperature of the main circuit breaker terminal 100 and the branch circuit breaker terminal 101 are monitored through the display unit 51. That is, FIGS. 5 and 6 are exemplary views when there is no terminal for branch breaker, and FIGS. 7 and 8 are exemplary views when there is a terminal for branch breaker. Applicable

9 is attached to the top of the power distribution device in the configuration of the display unit 51 and the connection connector 53 in the present invention, it is shown that the removable coupling so that it can be used by connecting to the distribution panel enclosure.

FIG. 10 is a configuration diagram of a power distribution apparatus capable of monitoring the display 51 separated therefrom, wherein the connector 53 of FIG. 9 and the connector 54 of FIG. 10 are connected to each other to monitor the display 51. The digital input device 52 can be used.

11 is an exemplary view in which the display unit 51 is attached to the enclosure 110 and used.

Accordingly, the flow of each sensor measurement value is displayed in real time on the display unit, and an operator can monitor the alarm signal when an abnormal data is generated, thereby overcoming the limitation of time and space.

In addition, even in the safe range of the electrical characteristic value, if the monitored characteristic value change is continuously increasing or decreasing, it is possible to predict a risk that may occur in the future, so that necessary actions can be taken in advance to prevent an electrical disaster.

After a disaster such as a fire, measurement data before and after the occurrence can be analyzed to determine the exact cause.

1 is an exemplary view of a distribution panel using a prefabricated power distribution device.

Figure 2 is a substitute picture for explaining the actual configuration of the present invention.

3 is an internal circuit diagram of a ball invention.

4 is a sensor arrangement diagram installed in the terminal for the internal main breaker and the terminal for the branch breaker of the present invention.

Figure 5 is a plan view of the prefabricated power distribution device (an example in the absence of a terminal for the breaker breaker) of the present invention.

 6 is a front view of a prefabricated power distribution unit (example without a branch breaker terminal) that can be monitored.

Figure 7 is a plan view of the prefabricated power distribution device (an example in which there is a terminal for a branch breaker) capable of monitoring the present invention;

Figure 8 is a front view of the prefabricated power distribution device (example when there is a terminal for branch breaker) capable of monitoring.

9 is a configuration diagram of a display unit and a connector of the present invention.

10 is a block diagram of a power distribution device capable of monitoring the separated display unit of the present invention.

Figure 11 is an embodiment of using the display unit attached to the enclosure of the present invention.

Explanation of symbols on the main parts of the drawings

10: Prefabricated power distribution device that can be monitored

11: prefabricated power distribution device

20: Current detection sensor (C / T)

22: Leakage Current Detection Sensor (ZCT)

23: voltage detection sensor (P / T)

24: temperature detection sensor (TIC) in the distribution panel

30: A / D Converter

40: central operation control unit (microcomputer)

50: control signal unit

51: display unit

52: digital input unit

53: connector for display unit

54: connector for power distributor

60: remote monitoring unit consisting of the server and related programs

70: communication unit

71: PLC unit

72: wireless communication unit

73: wired communication unit

74: communication network

80: power supply

81: internal AC power supply

82: internal DC power supply

83: external DC power connection

90: main circuit breaker

91: branch breaker

100: main breaker terminal

101: terminal for branch breaker

102: additional terminal

110: electrical (BOX) enclosure

Claims (6)

A case 100 for protecting a power distribution line connected to the terminal for the main circuit breaker, the terminal for the branch circuit breaker, and the additional terminal; A plurality of main breaker terminals (100) positioned on an upper surface of the case and connected by a main breaker power supply and a line; A plurality of branch breaker terminals 101 which are located at both sides of the case and are connected by a branch breaker power supply and a line; A plurality of additional terminals 102 disposed on a lower surface of the case and recessed on a surface of the case to connect with other external load terminals or by adding a distribution line; The current sensor 20, the voltage (CT) 23 sensor, the temperature (TIC) (to be installed inside the case to detect the current, voltage, leakage current or temperature that can determine the state of the distribution panel) 24) a sensor unit to which at least one of a sensor and a ground fault (ZCT) sensor are connected to a terminal for a main circuit breaker or a terminal for a branch circuit breaker; An A / D converter 30 for converting analog information measured by the sensor unit into digital; A central operation central operation control unit 40 for processing the digital sensor information converted by the A / D converter 30; A display unit 51 which displays digital sensor information output from the central operation central operation control unit 40 to the outside and is directly connected to the case or connected to the outside by a connector; An internal AC power supply unit installed inside the case and connected to the terminal for the main circuit breaker or the terminal for the branch circuit breaker, branching power from the terminal, and connecting the sensor unit, the A / D converter, the central operation control unit, and the display unit to supply power. Prefabricated power distribution device capable of monitoring, characterized in that it comprises a (81). A case 10 for protecting a power distribution line connected to the main circuit breaker terminal and the additional terminal; A plurality of main breaker terminals (100) positioned on an upper surface of the case and connected by a main breaker power supply and a line; A plurality of additional terminals 102 disposed on a lower surface of the case and recessed on a surface of the case to connect with other external load terminals or by adding a distribution line; The current sensor 20, the voltage (CT) 23 sensor, the temperature (TIC) (to be installed inside the case to detect the current, voltage, leakage current or temperature that can determine the state of the distribution panel) 24) a sensor unit having at least one of a sensor and a ground fault (ZCT) sensor connected to a terminal for a main circuit breaker or a terminal for a branch circuit breaker; An A / D converter 30 for converting analog information measured by the sensor unit into digital; A central operation controller 40 for processing the digital sensor information converted by the A / D converter 30; A display unit 51 which displays the digital sensor information output from the central operation controller 40 to the outside and is directly connected to the case or connected to the outside by a connector; An internal AC power supply unit installed inside the case and connected to the terminal for the main circuit breaker or the terminal for the branch circuit breaker, branching power from the terminal, and connecting the sensor unit, the A / D converter, the central operation control unit, and the display unit to supply power. Prefabricated power distribution device capable of monitoring, characterized in that it comprises a (81). The method according to claim 1 or 2, It is installed inside the case, the internal DC power supply unit 82 to supply power by connecting the sensor unit, the A / D converter, the central operation control unit and the display unit so that power is supplied when the internal AC power supply unit is cut off, or external Prefabricated power distribution device that can be monitored, characterized in that it further comprises an external DC power connection (83) to allow the emergency power input. The method according to claim 1 or 2, The central operation control unit, A digital input unit 52 for directly inputting a safety range desired by the user to the power distribution device; Prefabricated power distribution device capable of monitoring, characterized in that made by electrically connecting the control signal unit 50 that can send an alarm signal to the user when digital sensor information outside the safety range entered by the user through the digital input unit occurs . The method according to claim 1 or 2 The central operation control unit, Electrically connecting with a communication unit 70 for connecting various sensor information to an external management server; The prefabricated power distribution device capable of monitoring, characterized in that the connection to the communication network is made by further connecting the remote monitoring unit 60 consisting of a power distribution device 10 and a bi-directional communication and a related program. The method of claim 5 The communication unit 71 is a prefabricated power distribution apparatus capable of monitoring, characterized in that the communication is made by any one selected from wired, wireless, or PLC.

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