KR101030516B1 - measuring and transmitting apparatus of fail information for power line - Google Patents

Abstract

The present invention relates to a failure information measuring and transmitting apparatus of a distribution line; A case in which a through hole through which a distribution line passes is formed, an iron core provided in the case and surrounding the distribution line passing through the through hole, and wound around the iron core and energizing the distribution line, an induced current is induced by electromagnetic induction. The induction coil generated, the current sensing unit for measuring the current induced in the induction coil, the control unit for generating fault information when the current measured by the current sensing unit is an overcurrent, and the fault information generated by the control unit Signal control unit for transmitting to the intermediate information collector associated with the control room or the central control room, and a power supply for supplying the driving power of the control unit, the voltage sensing unit for measuring the voltage induced in the induction coil further comprises: Always current and voltage information measured by the current sensing unit and the voltage sensing unit to the signal transmitter And the signal transmitting unit comprises a wireless transmitting module for converting the failure information output from the control unit into a wireless signal, and an antenna for transmitting the wireless signal to a receiving apparatus or an intermediate information collector in the central control room. .

The fault information measuring and transmitting device of the distribution line according to the present invention measures the current, voltage, and the like of the distribution line for supplying electricity in real time and notifies the central control room, so that the place where the overcurrent occurs when energizing the current due to the fault It is advantageous to shorten the recovery time of the distribution line.

Distribution line, over current, induction current

Description

Equipment for measuring and transmitting fault information on distribution lines {measuring and transmitting apparatus of fail information for power line}

The present invention relates to a device for measuring and transmitting fault information of a distribution line. More specifically, the present invention relates to a case in which a current and voltage of a distribution line are constantly measured and an overcurrent flows through the distribution line due to a failure. The present invention relates to a fault information measuring and transmitting apparatus of a distribution line that transmits fault information to a receiving apparatus or an intermediate information collector of a central control room.

In general, electricity is a power source that has a huge impact on industrial and daily life, and is usually supplied to users through substations in power plants.

At this time, a telephone pole is installed to supply electricity from a substation to a factory or a house, which is a final consumer, and a power distribution line is attached to the telephone pole. The distribution line mounted on the telephone pole is a high voltage current, and the distribution line is connected like a mesh.

However, substation or electricity supply protection device when the insulation of the distribution line is destroyed by the deterioration of the equipment such as the telegraph line insulator that fixes the distribution line connected by such a complicated structure, the damage caused by lightning, the contact of trees or birds, etc. When a power failure occurs due to the operation of a switch and the like, the power supply is interrupted, the operation of the industrial equipment is stopped, and the operation of household appliances such as a refrigerator is stopped in the home, causing enormous damage. Prompt recovery must occur in a short time.

Nevertheless, at present, there is no automatic search for fault points in distribution lines, so there is no way to quickly determine where overcurrent flows due to breakdown of insulation in a wide distribution line, such as a network. It takes a long time to find a spot.

Accordingly, the present invention has been made to solve the above problems, an object of the present invention is to measure the value of the voltage and current flowing through the power distribution line at all times and when the over current is energized in the power distribution line due to the failure of the power distribution line The present invention provides a failure information measurement and transmission device for a distribution line that transmits failure information in real time to a receiver or an intermediate information collector in a central control room so that rapid recovery can be performed.
In addition, an object of the present invention is to measure the value of the voltage flowing through the distribution line at all times and when the overvoltage occurs in the distribution line due to the failure of the distribution line, the failure information in real time (receipt device or intermediate information in the central control room) in real time (real time) The present invention provides a device for measuring and transmitting fault information of a distribution line that transmits to a collector for rapid recovery.

In addition, another object of the present invention is to provide a device for measuring and transmitting fault information of a distribution line that is independently driven by securing driving power using an electromagnetic induction method.

Another object of the present invention is to provide a fault information measuring and transmitting apparatus of a distribution line for transmitting fault information of a distribution line to an intermediate information collector connected to a receiving apparatus of a central control room or a receiving apparatus of a central control room in a wireless manner. have.

The present invention to solve this technical problem;

A case in which a through hole through which a distribution line passes is formed, an iron core provided in the case and surrounding the distribution line passing through the through hole, and wound around the iron core and energizing the distribution line, an induced current is induced by electromagnetic induction. The induction coil generated, the current sensing unit for measuring the current induced in the induction coil, the control unit for generating fault information when the current measured by the current sensing unit is an overcurrent, and the fault information generated by the control unit Signal control unit for transmitting to the intermediate information collector associated with the control room or the central control room, and a power supply for supplying the driving power of the control unit, the voltage sensing unit for measuring the voltage induced in the induction coil further comprises: Always current and voltage information measured by the current sensing unit and the voltage sensing unit to the signal transmitter Force, and wherein the signal transmission unit is characterized by comprising the antenna that transmits a radio transmission module and the receiving device, or intermediate information collector in the central control room of the radio signal to convert the failure information output from the controller to a radio signal.

delete

delete

The power supply unit may be formed of a rechargeable battery which is charged with an induced current generated by the induction coil.

In addition, the case is formed in a cylindrical shape as a whole is formed through holes through which the distribution line penetrates in the center, divided into first and second cases to facilitate installation at any position of the existing distribution line integrated into the fastening means The iron core is divided into first and second iron cores provided in the first and second cases.

The fault information measuring and transmitting device of the distribution line according to the present invention measures the current, voltage, etc. of the distribution line for supplying electricity in real time and notifies the central control room, so that the place of occurrence of the overcurrent at the time of energizing the current due to the fault immediately There is an advantage of reducing the fault recovery time of the distribution line, and when there is an overvoltage, the place where the overvoltage occurs is immediately identified, and there is an advantage of reducing the fault recovery time of the distribution line.

In addition, the present invention has the advantage of driving independently and semi-permanently without securing a power supply from the distribution line by using an electromagnetic induction method.

Hereinafter, with reference to the accompanying drawings, the failure information measuring and transmitting device of the distribution line according to the present invention will be understood by the embodiments described in detail.

1 is a perspective view illustrating a failure information measuring and transmitting apparatus of a distribution line according to the present invention, FIG. 2 is a cross-sectional view of one side of the failure information measuring and transmitting apparatus of a distribution line according to the present invention, and FIG. 4 is a circuit block diagram of a fault information measuring and transmitting apparatus of a distribution line according to the present invention, and FIG. 5 is a fault information of a distribution line according to the present invention. It is a figure which shows the installation state of a measurement and transmission apparatus.

1 to 5, the fault information measuring and transmitting apparatus 100 of the distribution line according to the present invention always measures the current and voltage of the distribution line 1, which is a cable line supplying a high voltage of 22,900V, When overcurrent is energized in 1), fault information is transmitted to the receiving device 210 or the intermediate information collector 220 of the central control room 200 in real time so as to promptly recover.

In this case, the power distribution line 1 means that it is typically installed on the insulator 30, which is an insulator of the upper portion of the support 20 installed on the telephone pole 10, is hypothesized.

The failure information measuring and transmitting device 100 of the distribution line according to the present invention is a case 110 and a through hole 110a through which the distribution line 1 penetrates, and the through in the case 110 The iron core 120 is provided to surround the power distribution line (1) passing through the ball (110a), and is wound around the iron core 120 is induced by electromagnetic induction when electricity is supplied through the power distribution line (1) Induction coil 130 for generating a current, a current sensing unit 140 for measuring the current induced in the induction coil 130, and a voltage sensing unit 150 for measuring the voltage induced in the induction coil 130 ), A control unit 160 generating fault information if the current measured by the current sensing unit 140 is an overcurrent, and receiving information of the fault information generated by the control unit 160 in the central control room 200. 210 or the signal transmitter 170 for transmitting to the intermediate information collector 220, the drive of the controller 160 It comprises a power supply section 180 for supplying a source.

Hereinafter, the configuration of each part of the present invention in more detail.

First, the case 110 is formed in a cylindrical shape as a whole, and a through-hole 110a through which the distribution line 1 penetrates is formed at the center thereof so as to be easily installed at any position of the distribution line 1 already installed. It is preferably made of a structure divided into first and second cases (112, 114).

At this time, when the first and second cases 112 and 114 are fastened, the first and second cases using the metal tie band 116 as a fastening means to be firmly fixed to the power distribution line 1. 112, 114).

Of course, instead of using the tie band 116, the first and second cases 112 and 114 may be integrally fastened using fastening means (not shown), such as bolts and nuts, or may have a ring shape. It is also preferable to mount directly to the power distribution line 1 using a fastener.

Meanwhile, an iron core 120 is provided inside the case 110. The iron core 120 is also divided into two first and second iron cores 122 and 124, and the first and second cases 112 and 114. Each is provided in the inside to surround the distribution line (1), the induction current is generated when the induction coil 130 is wound on one side of the iron core 120 is energized the distribution line (1).

In this case, the control unit 160 provided inside the case 110 compares whether the current information is received from the current sensing unit 140 that measures the current of the induction coil 130, and compares whether it is an overcurrent. Failure information including information (for example, device number and installation location information) is generated and output.

In addition, the controller 160 always detects a current through the current detector 140 and a voltage through the voltage detector 150 to identify unique information (eg, device number and installation position). Information) is transmitted to the receiving device 210 or the intermediate information collector 220 of the central control room 200 at regular time intervals to inform the operation state.

In this case, the current sensing unit 140 converts an analog induced current value into digital current information, and the voltage sensing unit 150 converts an analog induced voltage value into digital voltage information. The controller 160 is input to the controller 160, and the controller 160 determines whether there is an overcurrent using current and voltage information in a digital form.

The control unit 160 is preferably configured as a microcomputer having a built-in memory that stores fault information and permanent information including unique information (for example, device number and installation location information).

On the other hand, the signal transmission unit 170 for transmitting the failure information generated by the control unit 160 to the receiving device 210 or the intermediate information collector 220 of the central control room 200 is implemented in various ways, such as a wired or wireless method. It may be, but in consideration of the ease of installation and the like is to use a wireless method.

More specifically, the signal transmitting unit 170 may convert the failure information and the continuous information output from the control unit 160 into a wireless signal and the failure information and the continuous information of the wireless transmission module 172. It consists of an antenna 174 that transmits wirelessly to the receiver 210 or the intermediate information collector 220 of the central control room 200.

At this time, the wireless transmission module 172 is GSM, CDMA, IMT 2000, WiBro, wireless TRS in order to transmit the fault information and the continuous information to the receiving device 210 of the central control room 200 located at a far distance. Use long-distance communication module such as UHF, VHF, AM, FM. The wireless transmission module 172 is located at a short distance and transmits fault information and continuous information to the intermediate information collector 220 which transmits information to the reception device 210 of the central control room 200. ) Uses a module capable of short-range communication such as Bluetooth (blue tooth) and ZIPBee.

In addition, although the antenna 174 may be embedded in the case 110, the antenna 174 may be exposed to the outside so that signal transmission is smoothly performed.

On the other hand, the power supply unit 180 for supplying the driving power of the controller 160 is composed of a rechargeable battery 182, the rechargeable battery 182 serves to charge the induced current generated by the induction coil 130. .

At this time, since the charging power of the rechargeable battery 182 may not be suitable as the driving power of the controller 160, it is preferable to further include a constant voltage IC and a DC / DC converter for a stable power supply, such a constant voltage The configuration of the IC and the DC / DC converter is a general known configuration.

By such a configuration, the rechargeable battery 182 of the power supply unit 180 is charged with the current induced in the induction coil 130 and supplied to the driving power of the controller 160, and thus, semi-permanently driven even without a separate power supply. Power can be supplied.

Hereinafter, an operation process of a failure information measuring and transmitting apparatus of a distribution line according to the present invention will be described in detail with reference to FIGS. 1 to 5.

First, when the fault information measuring and transmitting device 100 of the distribution line according to the present invention is installed on the distribution line 1, and electricity is supplied to the distribution line 1, the iron core 120 is magnetized and thereby Induction current is generated in the induction coil 130.

When the induction current is generated in the induction coil 130, the power is charged to the rechargeable battery 182 constituting the power supply unit 180, and the controller 160 is driven by the rechargeable battery 182.

In addition, the controller 160 receives the induced current and voltage information detected through the current sensing unit 140 and the voltage sensing unit 150.

On the other hand, the controller 160 compares whether the current information exceeds the set allowable current from the current sensing unit 140 for measuring the current of the induction coil 130, and if the allowable current is exceeded on the distribution line 1 It is determined that the overcurrent is energized and generates and outputs fault information including unique information such as device number and installation location.

The failure information generated by the control unit 160 is converted into a wireless signal in real time through the wireless transmission module 172 constituting the signal transmitter 170, and the receiving device of the central control room 200 through the antenna 174. 210 or the intermediate information collector 220 is transmitted wirelessly.

Of course, the controller 160 wirelessly transmits the constant information, such as voltage and current values, to the receiver 210 or the intermediate information collector 220 of the central control room 200 in real time or at regular time intervals even when the failure is not a failure. Done.

In this case, when the fixed information is transmitted to the receiving device 210 of the central control room 200 or the intermediate information collector 220 associated with the receiving device 210 of the central control room 210, the central control room 200 uses the fault information. After confirming the installation location of the equipment and quickly input the manpower to restore the corresponding distribution line (1).

On the other hand, even in a failure state in which the power supply line 1 is not energized, the fault information measuring and transmitting device 100 of the power distribution line according to the present invention is driven independently for a predetermined time by using the power of the rechargeable battery 182. Due to this, it is possible to transmit the failure information of the distribution line (1) it is possible to transmit a stable signal.

Although the preferred embodiment of the present invention has been described above, the scope of the present invention is not limited thereto, and the scope of the present invention extends to the scope of the present invention to be substantially equivalent to the embodiment of the present invention. Various modifications can be made by those skilled in the art without departing from the scope of the present invention.

1 is a perspective view illustrating a failure information measuring and transmitting apparatus of a distribution line according to the present invention.

2 is a cross-sectional side view of a failure information measuring and transmitting apparatus of a distribution line according to the present invention.

3 is a cross-sectional view taken along line 'A'-'A' of FIG. 1.

4 is a circuit block diagram of an apparatus for measuring and transmitting fault information of a distribution line according to the present invention.

5 is a diagram illustrating an installation state of a failure information measuring and transmitting apparatus of a distribution line according to the present invention.

*** Explanation of symbols for main parts of drawing ***

1: distribution line 10: telephone pole

20: support 30: insulator

100: device for measuring and transmitting fault information on distribution lines

110: case 120: iron core

130: induction coil 140: current detection unit

150: voltage detection unit 160: control unit

170: signal transmitter 180: power supply

200: central control room 210: receiver

220: Intermediate Information Collector

Claims (5)

A case in which a through hole through which the distribution line passes is formed; An iron core provided in the case and surrounding a distribution line passing through the through hole; An induction coil wound around the iron core to generate an induction current by electromagnetic induction when the distribution line is energized; A current sensing unit measuring a current induced in the induction coil; A controller for generating fault information if the current measured by the current detector is an overcurrent; A signal transmitter for transmitting the fault information generated by the controller to a central control room or an intermediate information collector associated with the central control room; The power supply unit for supplying the driving power of the control unit; A voltage sensing unit for measuring the voltage induced in the induction coil is further included, and the controller outputs the current and voltage information measured by the current sensing unit and the voltage sensing unit to the signal transmitter, The signal transmission unit comprises a wireless transmission module for converting the failure information output from the control unit into a radio signal, and an antenna for transmitting the radio signal to a receiver or an intermediate information collector of the central control room. Fault information measuring and transmitting device. delete delete The method of claim 1, The power supply unit fault information measurement and transmission device of the distribution line, characterized in that the battery is made of a rechargeable battery induced current generated in the induction coil. The method of claim 1, The case is formed in a cylindrical shape as a whole, and a through hole through which a distribution line penetrates is formed in the center. The case is divided into first and second cases so as to be easily installed at an arbitrary position of an existing distribution line, and is integrally coupled to a fastening means. And the iron core is divided into first and second iron cores provided in the first and second cases.

Images