KR101864772B1 - Infrared ray data transmission sensor for detecting abnormality of switchboard using potential difference - Google Patents

Abstract

The present invention relates to an IR data transmission sensor for detecting an abnormality of a switchboard using a potential difference, and it is an object to provide an IR data transmission sensor for detecting an abnormality of a switchboard using an electric potential difference flowing in a conductor as a power supply for driving a sensor which detects an abnormality of a switchboard without using a separate power supply. An IR data transmission sensor for detecting an abnormality of a switchboard using a potential difference according to the present invention, which is included in a switchboard and configured to detect a power outage state and a phase sequence state for each phase of a three-phase power supply and a temperature of a conductor in real time, comprises a potential difference detecting unit providing a power supply for driving an MPU using a potential difference of electricity flowing in the conductor; a plurality of non-power supply sensors mounted on the respective phases of R, S and T provided as a three-phase power supply for generating a predetermined radio frequency according to the energized state or phase sequence state of the corresponding point and the temperature of the conductor; a dip switch for setting a unique setting number for each of the plurality of non-power supply sensors mounted on the respective R, S and T phase to prevent a crosstalk; the MPU which is a main CPU for controlling the transmission of IR data, wherein the MPU is operated by a power source provided via a potential difference oscillation unit, controls the radio frequency transmission of the plurality of non-power supply sensors set through the dip switch to thereby allow information on energizing or phase sequence and the temperature of conductor to be outputted to each phase; and an RF/IR transmitting unit for transmitting a radio frequency signal for state information on each of the three-phase power supplies under the control of the MPU to the outside.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an IR data transmission sensor for detecting an abnormality of an ASSEMBLY using a potential difference,

The present invention relates to an IR data transmission sensor for detecting an anomaly of an ASSEMBLY using a potential difference, and more particularly to an IR data transmission sensor for detecting an anomaly of an ASSEMBLY using an electric potential difference which is obtained by using a potential difference of an electric conductor, To an IR data transmission sensor for detecting an abnormality of an electric panel.

      In general, the switchboard is provided to monitor the power system, perform functions such as control and protection, and is equipped with switches, instruments, and relays for operation and control of the power plant or substation, operation of the motor, do.

      The switchboard includes various facilities for separately supplying power to be supplied according to the purpose of use, a panel for controlling each facility, and various kinds of electric components.

      On the other hand, in various industrial facilities including factories, large electric power is required by using three-phase alternating current power, and AC power reaching tens of thousands of volts [V] supplied from the power transmission line through the power transmission line is supplied to the transformer The voltage is reduced by AC power of about V [V], and the AC voltage reduced through the transformer can be supplied to each facility of the factory through the switchboard.

      In order to supply high-voltage high-currents to each facility in each switchboard, each equipment and switchboard are usually connected by a bus-bar, and the reduced-voltage AC power is supplied to the facility through the busbar do.

      In this case, in the case of a switchboard to which a three-phase load is applied, if any one of the power lines is disconnected arbitrarily or an image is formed in the load, the motor is burned out due to the single-phase operation, Resulting in malfunction of precision equipment.

      Accordingly, various methods for detecting whether or not a three-phase load angle including R, S, and T have been applied to the switchboard have been applied to the switchboard, and this is disclosed in Korean Patent No. 10-1508177 and Korean Patent No. 10-0733612 As shown in Fig.

      However, in a conventional apparatus for detecting the temperature of the conductors, whether or not a three-phase load angle is unstable and phase-laden, and the like, a separate power source for operating the apparatus is required. When simultaneous communication is required for each of a plurality of R, S, and T phases in a load, there arises a problem that an arbitrary interference occurs and malfunction of the apparatus occurs.

Korean Patent No. 10-1508177 Korean Patent No. 10-0733612

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art as described above and it is an object of the present invention to provide a power supply for a sensor for detecting anomaly of an A / And to provide an IR data transmission sensor for detecting an abnormality of an ASSEMBLY using one potential difference.

It is another object of the present invention to provide an IR data transmission sensor for detecting an anomaly of an ASSEMBLY using a potential difference using sensors mounted on R, S, and T phases of a three-phase power source and dividing the sensor into dip switches.

      According to an aspect of the present invention, there is provided an IR data transmission sensor for detecting an anomaly of an ASSEMBLY using a potential difference according to an embodiment of the present invention. ; A potential difference detecting unit for providing power for driving the MPU using a potential difference of electricity flowing in the conductor; A plurality of non-power source sensors mounted on the R, S, and T phases provided as three-phase power sources to generate a predetermined radio frequency according to the energized state or phase state of the corresponding point or the temperature of the conductor; A dip switch for setting a unique setting number for a plurality of non-power source sensors mounted on each of R, S, and T to prevent crosstalk; A main CPU for controlling the transmission of IR data, wherein the main CPU is operated by a power source provided via the potential difference oscillation unit, and controls radio frequency transmission of a plurality of non-power source sensors set through the dip switch to energize or image each phase, An MPU for outputting information according to the temperature of the MPU; And an IR transmitter for externally transmitting a radio frequency signal for state information of each of the three-phase power sources under the control of the MPU.

      Preferably, the AC power obtained through the potential difference detecting unit is converted into a DC power through an AC / DC converter and then stored in a DC power charging unit, and the DC power stored in the DC power charging unit drives the MPU through a driving power supply unit. And a power supply for supplying power to the battery.

      More preferably, the MPU is configured to perform over-charge, over-discharge, and over-voltage prevention functions of a power source stored in the DC power charger through the potential difference oscillation.

      Preferably, the MPU is connected to a reset circuit for operating the MPU in initialization upon application of driving power through the driving power supply unit.

As described above, according to the present invention, since the sensor is driven by supplying the power from the power source through the potential difference of the conductor through which the electricity flows, it is possible to perform power supply and image formation of the power source of the power distribution board through the sensor, It is possible to check whether the temperature of the switchboard is low or not, thereby improving the safety of the switchboard.

In addition, since sensors are mounted on the R, S, and T phases of the three-phase power source of the power distribution board and divided into dip switches and their respective unique numbers are set, a plurality of sensors can be used simultaneously without interference.

1 is a block diagram showing the configuration of an IR data transmission sensor for detecting an anomaly of a power distribution board using a potential difference according to an embodiment of the present invention;
2 is a diagram showing a configuration of a potential difference oscillation circuit applied to an IR data transmission sensor for detecting an anomaly of an ASSEMBLY using a potential difference according to an embodiment of the present invention.

      Hereinafter, the present invention configured as described above will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram showing a configuration of an IR data transmission sensor for detecting an anomaly of a switchboard using a potential difference according to an embodiment of the present invention. FIG. 2 is a block diagram of an IR data transmission sensor for detecting an anomaly of a switchboard using a potential difference according to an embodiment of the present invention. 1 is a diagram showing a configuration of a potential difference oscillation circuit applied to a sensor.

      First, an IR data transmission sensor for detecting an anomaly of a switchboard using a potential difference according to the present invention is implemented to supply power for driving a sensor for detecting anomaly of the switchboard using a potential difference of electricity flowing through a conductor without a power supply.

      To this end, an IR data transmission sensor for detecting an anomaly of a switchboard using a potential difference according to an embodiment of the present invention includes a potential difference detection means 10, a driving power supply unit 16, a plurality of non-power source sensors 30, a dip switch 40, a reset circuit 20, an MPU 50, and an RF / IR transmission unit 60 .

      The electric potential difference detecting unit 10 as the electric potential difference detecting unit obtains electric power for driving the MPU 50 by using electric potential difference of the electric current flowing in the electric conductor 100. That is, The induced electromagnetic field is induced to the induction electrode, and a predetermined AC power is obtained through the potential difference oscillation.

      The AC power obtained from the potential difference detecting unit 10 is converted into a DC power by the AC / DC converting unit 12 and the DC power rectified by the AC / DC converting unit 12 is stored in the DC power charging unit 14 The MPU 50 can be used as a power source for selectively driving the MPU 50 through the driving power supply unit 16.

      Each of the non-power source sensors 30 is connected to a power source for each of the R, S and T phases, and a power source sensor 30 is connected to each of the R, S and T phases provided on the three- State or an imaging state, and the temperature of the conductor in real time, and then generates a predetermined radio frequency signal corresponding thereto.

      At this time, the dip switch 40 generates a unique setting number for each of the plurality of non-power source sensors 30 mounted on the R, S, and T phases of the power source of the power distribution board 3, The dip switch 40 is provided to transmit data from a plurality of non-power source sensors 30 in eight ways from 0 to 7. The dip switch 40 outputs a radio frequency (RF) signal from a sensor provided on the conductive portions R, S, When a signal is generated in a plurality of sensors at the same time as a plurality of sensors are generated, in order to prevent data crosstalk, it is possible to prevent data interference by setting each unique number to the non-power source sensor 30 will be.

      The reset circuit 20 causes the MPU 50 to be initialized when the driving power is supplied to the MPU 50 through the driving power supply.

      The MPU 50 is operated by a power source provided through the driving power supply unit 16 after being detected through the potential difference detection unit 10 and sets transmission data using the dip switch 40, , And controls the radio frequency transmission of the plurality of non-power source sensors (30) to output information according to energization or image formation on each phase.

      In response to the control of the MPU 50, the RF / IR transmitter 60 transmits a radio frequency signal for status information on each of the three-phase power sources of the corresponding switchboard to the outside using RF communication or IR communication / RTI >

Next, the operation of the present invention as described above will be described with reference to the drawings.

According to an embodiment of the present invention, a non-power source sensor 30 for detecting whether or not a three-phase power source of a distribution panel is installed is provided on each of the phases, and the power source sensor 30 and the potential difference detection unit A specific structure for abnormal detection of the switchboard including the power supply unit 10, the drive power supply unit 16, the dip switch 40, the reset circuit 20, the MPU 50, and the RF / IR transmission unit 60, Is applied.

Accordingly, when an electromagnetic field is formed with currents flowing through the three-phase power sources R, S, and T of the power distribution board, the potential difference detection unit 10 acquires a predetermined AC power through the operation of the potential difference oscillation circuit, The alternating current power obtained through the potential difference oscillation is rectified and converted into a direct current power and then charged to the direct current power charging unit 14 and supplied to the MPU driving power source through the driving power supply unit 16.

      At this time, the reset circuit 20 applies a signal so that the MPU 50 is initialized and operated when the driving power is supplied to the MPU 50 side.

      In the state where the no power source sensors 30 for detecting whether the power is off or on the phases of the R, S, and T phases of the power source of the power distribution board 3, respectively, the dip switch 40 has a unique setting number So that even when a signal is simultaneously generated from the non-power source sensor 30 provided in each phase, it is possible to perform smooth transmission in a state in which interference of data is prevented.

      The MPU 50 is operated by a power source obtained through the potential difference detecting unit 10 so that an abnormality detection signal from the non-power source sensor 30 provided on each of the R, S, T phases of the three- When a data signal is simultaneously generated from the plurality of non-power source sensors 30, the control signal is transmitted to each phase through a unique setting number assigned to each phase via the dip switch 40. [ It becomes possible to recognize whether energization or connection is established.

      Accordingly, the MPU 50 controls the RF / IR transmission unit 60 to transmit data according to whether the three-phase power source of the corresponding power distribution board is energized or connected by RF communication or IR communication, The corresponding information can be displayed on the display unit or the like.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the scope of the appended claims.

10: Potential difference detection unit, 12: AC /
14: DC power charging unit, 16: Driving power supply unit,
20: reset circuit, 30: non-powered sensor,
40: dip switch, 50: MPU,
60: RF / IR transmitter, 100: conductor (wire).

Claims (4)

Wherein the control unit is provided in the switchboard so as to detect the uninterrupted and phase-locked states of the respective phases of the three-phase power supply;
A potential difference detecting unit for providing power for driving the MPU using a potential difference of electricity flowing in the conductor,
A plurality of non-power-source sensors mounted on the R, S, and T phases provided by the three-phase power source to generate a predetermined radio frequency in accordance with the energized state or the phase-
A plurality of non-power-source sensors mounted on each of the R, S, and T phases are set to have respective unique setting numbers so as to prevent crosstalk, and are provided to transmit data from a plurality of non-power- When a radio frequency is generated from sensors provided on the conductive parts R, S, and T, when a plurality of signals are generated simultaneously from a plurality of sensors, interference is caused between data, A dip switch for setting a number so as to prevent interference of data,
A main CPU for controlling the transmission of IR data, wherein the main CPU is operated by a power supply provided via the potential difference detecting unit, and controls radio frequency transmission of a plurality of non-power supply sensors set through the dip switch to energize or image each phase, An MPU for outputting information according to the temperature of the MPU,
And an IR transmitter for externally transmitting a radio frequency signal corresponding to status information of each of the three-phase power sources under the control of the MPU;
The AC power obtained through the potential difference detecting unit is converted into a DC power through an AC / DC converter and then stored in a DC power charging unit. The DC power stored in the DC power charging unit is supplied to a power source for driving the MPU through a driving power supply unit And the MPU is configured to perform over-charging, over-discharging, and over-voltage prevention functions of a power source stored in the DC power charging unit through a potential difference oscillation. Data transmission sensor. delete delete The method according to claim 1,
Wherein the MPU is connected to a reset circuit for initializing the MPU when the driving power is supplied through the driving power supply unit.

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