KR101383700B1 - Wireless sensing apparatus for high-voltage power line - Google Patents

Abstract

The present invention relates to a wireless sensing device for a high-voltage power line and, more specifically, to a wireless sensing device for a high-voltage power line, which includes a sensing part to monitor a current on a high-voltage power line including a distribution line and a transmission line, and a receiving part to receive information obtained by the sensing part; which prevents a dielectric breakdown of the lines caused by a high voltage. [Reference numerals] (111) Sensing member; (112) Sensing circuit; (113) Organic EMF output member; (114) Power supply circuit; (115) Digital conversion member; (116) Wireless transmission member; (120) Receiving part; (121) Wireless receiving part; (122) Signal process member; (122a) First interface; (122b) Second interface; (122c) Third interface; (123) Power supply member

Description

Wireless sensing apparatus for high-voltage power line

The present invention relates to a wireless sensing device for a high voltage line, and specifically, a sensing unit for monitoring current in a high voltage line including a distribution line and a transmission line, and a receiving unit for separating information from the sensing unit The present invention relates to a wireless sensing device for a high voltage line formed to prevent insulation breakdown due to a high voltage of the line.

In general, electricity is supplied to the user through a high voltage line connected like a net from a power plant as a power source that plays an important role in industrial and daily life. In addition, the high voltage line includes a power distribution line for supplying electricity to a user through a substation in a power plant and a transmission line for supplying electricity from a specific power plant or a specific substation to another power station or substation, and a high voltage current usually flows. .

Here, since the high voltage line should be installed outdoors, an accident such as deterioration, leakage, short circuit (Open) or short circuit (Short) may occur at all times due to external environmental influences. In particular, since a large power failure may occur due to a small accident occurring in the high voltage line, the situation is always monitored for abnormality of the high voltage line to ensure the stability and reliability of power.

In addition, in the related art, a sensing device including a current transformer was used to monitor an abnormality of the high voltage line, and the sensing device senses a current flowing in the high voltage line and generates a current proportional to a current value flowing in the high voltage line. In this way, abnormalities such as overcurrent were detected.

On the other hand, in the prior art, when the sensing device is installed on a high voltage line, the CT coil for current output, which is grounded on the high voltage line, is insulated with an insulator and installed in a state close to the high voltage line. It is vulnerable to discharge and the problem of frequent breakdown of insulation due to high voltage of the high voltage line when used for a long time.

The present inventors have made efforts to measure the current of the high voltage line while preventing an accident due to insulation breakdown in the sensing device for monitoring the high voltage line, and thus, the technical configuration of the wireless sensing device for the high voltage line was developed. To complete.

Accordingly, an object of the present invention is to provide a wireless sensing device for a high voltage line that can be insulated from the high voltage line, thereby preventing accidents due to insulation breakdown.

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the present invention is mounted on a predetermined portion of a high voltage line including a distribution line and a transmission line, and indirectly measures the current of the high voltage line and transmits the information on the measured current in a wireless signal. Sensing unit; And a receiving unit separately formed from the sensing unit and receiving a wireless signal transmitted from the sensing unit, wherein the sensing unit and the receiving unit are separated from each other and electrically insulated from each other. To provide.

In the preferred embodiment, the sensing unit, sensing means for outputting a low current or low voltage in proportion to the high current of the high voltage line by the electromagnetic induction phenomenon or the current magnetic effect; And a sensing circuit for amplifying and filtering the low current or the low voltage.

In a preferred embodiment, the sensing unit, the organic electromotive force output means for outputting the organic electromotive force generated by the magnetic flux of the high voltage line; And a power supply circuit for converting the electromotive force output from the organic electromotive force output means into a driving power supply.

In a preferred embodiment, the sensing means comprises a CT (Current transducer) or a Hall sensor (Hall sensor).

In a preferred embodiment, the organic electromotive force output means comprises a CT (Current transducer).

In a preferred embodiment, the sensing unit, the digital conversion means for converting the low current or low voltage output from the sensing circuit into a digital signal and outputs; And wireless transmission means for transmitting the digital signal output from the digital conversion means as a wireless signal through an antenna.

In a preferred embodiment, the receiving unit comprises: a wireless receiving unit for receiving a radio signal transmitted from the sensing unit through an antenna, and outputs information on the current mounted in the radio signal as an electrical signal; Signal processing means for outputting information on the current of the high voltage line as a digital signal from the electrical signal output from the wireless receiving means; And power supply means for supplying driving power to the wireless receiving means and the signal processing means.

In a preferred embodiment, a predetermined interface is preset to the signal processing means, and the interface comprises: a first interface for outputting the digital signal on a display screen; A second interface for transmitting the digital signal to a specific institution or manager; And a third interface for detecting a fault indication of the high voltage line from the digital signal.

In a preferred embodiment, the power supply means is connected to an external power source to receive power, or provided with a battery to supply power.

In a preferred embodiment, the sensing unit is provided in plurality.

The present invention has the following excellent effects.

First, according to a wireless sensing device for a high voltage line according to an embodiment of the present invention, a sensing unit mounted on a high voltage line to measure the current of the high voltage line, and receives information about the current of the high voltage line from the sensing unit. And receiving units connected to an external power source are separated from each other and provided to transmit or receive information wirelessly, the sensing unit and the receiving unit can maintain electrical perfect insulation, thereby preventing an accident due to insulation breakdown. Can be.

1 is a block diagram showing a wireless sensing device for a high voltage line according to an embodiment of the present invention.

Although the terms used in the present invention have been selected as general terms that are widely used at present, there are some terms selected arbitrarily by the applicant in a specific case. In this case, the meaning described or used in the detailed description part of the invention The meaning must be grasped.

Hereinafter, the technical structure of the present invention will be described in detail with reference to preferred embodiments shown in the accompanying drawings.

However, the present invention is not limited to the embodiments described herein but may be embodied in other forms. Like reference numerals designate like elements throughout the specification.

1 is a block diagram showing a wireless sensing device for a high voltage line according to an embodiment of the present invention.

Referring to FIG. 1, the wireless sensing device 100 for a high voltage line according to an embodiment of the present invention is for monitoring a high voltage line 10 including a distribution line and a transmission line, and the high voltage line 10. It is possible to detect an overcurrent or a fault in the structure and to have a structure that can significantly reduce the possibility of occurrence of dielectric breakdown, and includes a sensing unit 110 and a receiving unit 120.

Here, the sensing unit 110 and the receiving unit 120 is electrically insulated from each other by a structure formed separately from each other, for example, the sensing unit 110 is installed on the wire of the high voltage line 10 and the receiving unit ( 120 may be installed in a pole that is a structure for supporting the wire.

The sensing unit 110 is mounted on a portion of the high voltage line 10 to monitor the high voltage line 10. The sensing unit 110 measures power flowing in the high voltage line 10, and information of the measured power is described later. It is provided to be sent to the receiver 120, the sensing means 111, the sensing circuit 112, the organic electromotive force output means 113, the power supply circuit 114, the digital conversion means 115 and the wireless transmission means 116 It includes.

In addition, the sensing unit 110 may be provided to be able to indirectly measure the current of the high voltage line 10 and to mount and transmit information on the measured current in a wireless signal.

In addition, the sensing unit 110 is manufactured in a compact and lightweight form to measure the current flowing in the high voltage line 10 in a fixed state in the high voltage line 10, the high voltage line 10 When the single phase is a single sensing unit 110 may be provided, when the high voltage line 10 is a three-phase, the plurality of sensing unit 110 may also be provided in each wire.

In addition, the sensing means 111 is for measuring the current flowing in the high voltage line 10, and outputs a low current or a low voltage proportional to the high current of the high voltage line 10 by the electromagnetic induction phenomenon or the current magnetic effect. It is provided.

That is, the sensing means 111 may be provided as various current sensors including a CT (Current transducer) or a Hall sensor (Hall sensor), preferably, not directly connected to the high voltage line 10, epoxy, etc. The high voltage line 10 indirectly measures current in a state spaced apart by a predetermined distance by an insulator including a.

In addition, the sensing circuit 112 is connected to the output terminal of the sensing means, or integrally formed with the sensing means, and is provided to amplify and filter the low current or the low voltage output from the sensing means.

In addition, the sensing circuit 112 includes structures of various amplifying circuits including a current amplifier circuit, a voltage amplifier circuit, a power amplifier circuit, a direct current amplifier circuit, a low frequency amplifier circuit, and a high frequency amplifier circuit. And a structure of a filtering circuit for filtering the current or voltage output from 111.

In addition, the organic electromotive force output means 113 is for supplying driving power required for driving the sensing unit 110, and the sensing unit 110 is mounted on the high voltage line 10 without being connected to an external power source. Therefore, the sensing unit 110 is provided to provide driving power for driving, and the driving power is provided without providing a separate battery or solar cell.

In addition, the organic electromotive force output means 113 is provided to output the organic electromotive force generated by the magnetic flux of the high-voltage line 10, and includes a CT formed to output the electromotive force generated in the wound coil.

That is, the organic electromotive force output means 113 outputs the organic electromotive force generated by the magnetic flux generated while current flows in the high voltage line 10, and the sensing unit 110 uses the power supply circuit 114 to be described later. Organic electromotive force is used as a driving power source. Accordingly, the organic electromotive force output means 113 allows the sensing unit 110 to be supplied with a driving power even if the sensing unit 110 is not provided with a power supply means including an external power source, a battery or a solar cell.

In addition, the power supply circuit 114 is for converting and supplying the organic electromotive force output from the organic electromotive force output means 113 to a driving power supply, and the structure of the rectifying circuit for rectifying the organic electromotive force and charging the organic electromotive force Capacitors and the like may be rectified and output to the driving power source. Here, the capacitor may be provided as a super capacitor (super capacitor) that can be used as a backup power source, or may be provided as a hybrid capacitor including a lithium ion capacitor (lithium ion capacitor), a rechargeable battery for charging the organic electromotive force It may also be provided.

In addition, the output terminal of the power circuit 114 is connected to the sensing means through the sensing circuit 112 and connected to the digital conversion means 115 and wireless transmission means 116 to be described later to supply the driving power. do. Here, the sensing means 111, the sensing circuit 112, the digital conversion means 115 to be described later, and the wireless transmission means 116 to be described later may be formed in a structure that can be driven at low power.

In addition, the digital conversion means 115 is for converting an analog signal output from the sensing circuit 112 into a digital signal, and converts the low current or low voltage output from the sensing circuit 112 into a digital signal. It is provided to output.

In addition, the digital conversion means 115 may include an ADC (A-D converter) for converting the analog signal into a digital signal, and preferably, may include a central processing unit (CPU) provided with the ADC.

In addition, the digital conversion means 115 is connected to the organic electromotive force output means 113 through the power supply circuit 114 receives a driving power, a predetermined input terminal is connected to the output terminal of the sensing circuit 112 The output terminal is connected to the wireless transmission means 116 to be described later.

In addition, the wireless transmission means 116 is for transmitting the digital signal output from the digital conversion means 115 to the receiver 120 to be described later, preferably provided with an antenna capable of transmitting a wireless signal, The digital signal output from the digital conversion means 115 can be mounted on the wireless signal and transmitted through the antenna.

In addition, the antenna of the wireless transmission means 116 may be made of a structure exposed to the outside, it is to be provided with a structure embedded in the sensing unit 110 to prevent damage due to an external environment or lightning. Can be.

Meanwhile, the wireless transmission means 116 may be provided as a communication module using various short range wireless communication schemes including Bluetooth, ZigBee, binary CDMA, WLAN, ultra wideband (UWB), and infrared communication. In some cases, the antenna may not be provided.

That is, the structure of the sensing unit 110 is not electrically connected to an external power source or electrically connected to the receiving unit 120 to be described later, and is configured to be electrically insulated from the outside while supplying driving power therein. As a result, the possibility of breakdown can be significantly reduced, so that accidents caused by breakdown can be prevented.

The receiving unit 120 is for receiving a radio signal transmitted from the sensing unit 110, preferably, the structure is formed separately from the sensing unit 110, the measured by the sensing unit 110 Information on the current of the high voltage line 10 is provided to be provided to a specific institution or administrator for managing the high voltage line 10, the wireless receiving means 121, signal processing means 122 and power supply means 123.

In addition, the wireless receiving unit 121 is for receiving a radio signal transmitted from the sensing unit 110, receives a radio signal transmitted from the sensing unit 110 through an antenna, and transmits the radio signal The signal processing means 122, which will be described later, may be output as a signal to receive information about the current of the high voltage line 10 mounted on the radio signal.

In addition, the wireless receiving unit 121 may be provided as a communication module using various short-range wireless communication schemes including Bluetooth, ZigBee, binary CDMA, WLAN, ultra wideband (UWB), and infrared communication. In some cases, the antenna may not be provided.

In addition, the signal processing unit 122 is for processing an electrical signal output from the wireless receiving unit 121, and is provided to convert the electrical signal into a digital signal and output the digital signal from the outside. Through this, the information on the current of the high voltage line 10 can be confirmed or a function of detecting the failure of the high voltage line 10 is provided.

In addition, the signal processing unit 122 may be a predetermined interface for processing the digital signal, the interface, the first interface 122a for outputting the digital signal on the display screen, the digital signal It includes a second interface (122b) for transmitting a to a specific organization or administrator and a third interface (122c) for detecting a fault (Fault Indication) of the high voltage line 10 from the digital signal.

Here, the first interface 122a may be provided when display means for displaying a number or an image on a screen is formed at a predetermined position of the receiver 120.

In addition, the second interface 122b transmits the digital signal to a database or server of a specific institution or administrator managing the high voltage line 10, and preferably provided when the receiver 120 is connected to a wired communication network. Can be.

In addition, after detecting the failure of the high voltage line 10, the third interface 122c may be provided to provide information about a failure to a specific organization or administrator.

In addition, the power supply means 123 is for supplying driving power for driving the wireless receiving means 121 and the signal processing means 122, is connected to an external power supply to supply driving power, or a battery or It is provided with a solar cell so as to supply driving power.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, Various changes and modifications will be possible.

110: sensing unit 111: sensing means
112: sensing circuit 113: organic electromotive force output means
114: power supply circuit 115: digital conversion means
116: wireless transmission means 120: receiver
121: wireless receiving means 122: signal processing means
122a: first interface 122b: second interface
122c: third interface 123: power supply means

Claims (10)

A sensing unit mounted on a predetermined portion of a high voltage line including a distribution line and a transmission line, indirectly measuring the current of the high voltage line and transmitting information on the measured current to a wireless signal; And
And a receiving unit formed separately from the sensing unit and receiving a wireless signal transmitted from the sensing unit.
The sensing unit and the receiving unit is separated from each other and electrically insulated,
The sensing unit may include organic electromotive force output means for outputting organic electromotive force generated by the magnetic flux of the high voltage line; And a power circuit converting the electromotive force output from the organic electromotive force output means into a driving power required for driving the sensing unit, and supplying the electromotive force.
The method according to claim 1,
The sensing unit includes:
Sensing means for outputting a low current or a low voltage proportional to the high current of the high voltage line by an electromagnetic induction phenomenon or a current magnetic effect; And
And a sensing circuit configured to amplify and filter the low current or the low voltage and output the low voltage.
delete 3. The method of claim 2,
The sensing means wireless sensing device for a high voltage line, characterized in that it comprises a CT (Current transducer) or a Hall sensor (Hall sensor).
The method according to claim 1,
The organic electromotive force output means is a wireless sensing device for a high voltage line, characterized in that it comprises a CT.
3. The method of claim 2,
The sensing unit includes:
Digital conversion means for converting a low current or a low voltage output from the sensing circuit into a digital signal and outputting the digital signal; And
And a wireless transmission means for transmitting the digital signal output from the digital conversion means as a wireless signal through an antenna.
The method according to claim 1,
The receiver may further comprise:
Wireless receiving means for receiving a radio signal transmitted from the sensing unit through an antenna and outputting information on a current mounted in the radio signal as an electric signal;
Signal processing means for outputting information on the current of the high voltage line as a digital signal from the electrical signal output from the wireless receiving means; And
And a power supply means for supplying driving power to the wireless receiving means and the signal processing means.
8. The method of claim 7,
A predetermined interface is preset to the signal processing means,
The interface is,
A first interface for outputting the digital signal on a display screen;
A second interface for transmitting the digital signal to a specific institution or manager; And
And a third interface for detecting a fault indication of the high voltage line from the digital signal.
8. The method of claim 7,
The power supply means is connected to an external power source to receive power, or a wireless sensing device for a high voltage line, characterized in that made of a battery to supply power.
The method according to any one of claims 1, 2 and 4 to 9,
Wireless sensing device for a high voltage line, characterized in that provided with a plurality of the sensing unit.

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