KR20230122861A - Galloping prevention device of overhead electric line - Google Patents

Abstract

The present invention relates to a galloping prevention device of an overhead line which comprises: a sensing unit that detects vibration occurring in a wire to generate a detection signal; a control unit that receives the detection signal and generates an offset vibration operation signal when an amplitude of the detected vibration is greater than a preset amplitude; and a vibration generating unit installed in the wire and configured to generate offset vibration with the same frequency and opposite phase of the detected vibration when the offset vibration operation signal is received, thereby preventing galloping phenomena that occur on an overhead line.

Description

Galloping prevention device of overhead electric line}

The present invention relates to a galloping prevention device for an overhead line, and relates to a galloping prevention device for an overhead line capable of preventing damage to an overhead line and auxiliary facilities by preventing a galloping phenomenon occurring in an overhead line.

The galloping phenomenon of overhead lines, which is rapidly increasing due to recent climate change, is generally caused by wires passing through mountainous regions or by severe snow accumulation and ice and snow phenomena depending on the region.

This galloping phenomenon occurs when ice snow is formed on the overhead line, and the wire falls at once due to environmental factors in a state where it is stretched more than the designed position. Lifting force is generated, and continuous vertical vibration occurs at low frequency due to the interaction between the lifting force and the weight of the wire.

Since the vibration of wires caused by this galloping phenomenon forms a large amplitude ranging from tens of mm to tens of meters, it is not only the main cause of overhead line short circuit accidents, but also various auxiliary facilities related to overhead lines (insulator, anchor shackle, ball crevice) etc.) becomes loose or causes damage, which adversely affects the stability of the equipment.

Therefore, conventionally, galloping was prevented by installing an interphase spacer that interconnects wires to maintain spacing or a damper (eg, Stock-Bridge damper) that converts vibration energy into kinetic energy, but these are costly There is a problem that the vibration reduction effect is limited because it takes a lot or responds only to a specific frequency.

In addition, conventionally, there is no way for a manager to know in real time whether a galloping phenomenon occurs in an overhead line, and a follow-up action can be taken only after a problem occurs due to damage to the line and auxiliary facilities caused by galloping. There was a problem that was difficult to deal with.

Republic of Korea Patent Registration No. 10-1726311

The present invention has been devised from the above background, and a galloping prevention device for an overhead line that more effectively reduces galloping or removes icing snow, a factor that causes galloping, to prevent accidents such as line short circuits in advance Its purpose is to provide

In addition, an object of the present invention is to provide a galloping prevention device for an overhead line that can prevent additional breakdowns by notifying a manager in real time of a location requiring inspection due to a high possibility of galloping.

The object of the present invention is not limited thereto, and other objects not mentioned will be clearly understood by those skilled in the art from the description below.

According to the present invention, a sensing unit for detecting vibration generated in a wire and generating a detection signal, a control unit for receiving the detection signal and generating an offset vibration operation signal when the amplitude of the detected vibration is greater than a preset amplitude, and installed on the wire and an electromagnetic wave shielding device for ground equipment including a vibration generating unit generating offset vibration having the same frequency and opposite phase of the detected vibration when the offset vibration operation signal is received.

In addition, the sensing unit measures the amount of change in the ear canal of the wire and transmits it to the control unit, and the control unit determines that the measured change in the ear canal is greater than the preset change in the ear canal, determines that the wire is icing or icing, and generates a micro-vibration actuation signal, and the vibration generating unit When the microvibration operation signal is received, a preset microvibration may be generated for a preset time.

Here, the control unit may include a data storage unit for storing data measured by the sensing unit and transmitting the data to a manager PC, and a power supply unit for supplying power to the sensing unit and the vibration generating unit.

In addition, the control unit may transmit a warning signal to the manager PC when the offset vibration operation signal or the micro vibration operation signal is transmitted to the vibration generator.

In addition, the power supply unit may use an induced current induced from a current flowing in a wire as a power source.

In addition, the vibration generating unit may include a body in which a wire is inserted and fixed to one side and a motor for providing rotational force to the other side, and a vibration generating member connected to a rotation axis of the motor so that the mass is eccentric with respect to the rotation axis.

According to the present invention as described above, there is an effect of preventing accidents such as short circuits between lines by more effectively reducing the galloping phenomenon or removing ice snow, which is a factor causing the galloping phenomenon.

In addition, there is an effect of preventing additional failures by notifying a manager in real time of a location requiring inspection due to a high possibility of a galloping phenomenon.

1 is a front view schematically showing an apparatus for preventing galloping of an overhead line according to an embodiment of the present invention;
2 is a cross-sectional view schematically showing an apparatus for preventing galloping of an overhead line according to an embodiment of the present invention;
3 is a configuration diagram schematically showing an apparatus for preventing galloping of an overhead line according to an embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described in detail through exemplary drawings. In adding reference numerals to components of each drawing, it should be noted that the same components have the same numerals as much as possible even if they are displayed on different drawings. In addition, in describing the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description will be omitted.

1 is a front view schematically showing a galloping prevention device for an overhead line according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view schematically showing a galloping prevention device for an overhead line according to an embodiment of the present invention. 3 is a configuration diagram schematically showing an apparatus for preventing galloping of an overhead line according to an embodiment of the present invention.

The present invention relates to an apparatus for preventing galloping of an overhead line, and includes a sensing unit 100 that detects vibrations generated in an electric wire 10 and generates a detection signal, receives the detection signal, and sets the amplitude of the detected vibration to a preset amplitude. When the offset vibration operation signal is received, the controller 300 generates an offset vibration operation signal, and the vibration generator 200 installed on the electric wire 10 and generates offset vibration having the same frequency and opposite phase to the detected vibration. ).

The present invention relates to an apparatus for preventing galloping of an overhead line, and is composed of a sensing unit 100, a control unit 300, and a vibration generating unit 200.

The vibration generating unit 200 is an exciter that generates vibration according to a signal from the control unit 300, and as an example, as shown in FIGS. 1 and 2, the body 210, the motor 220, and the excitation member ( 230). As another example, the vibration generating unit 200 is composed of two permanent magnets spaced apart from each other and having opposite poles, and an electromagnet disposed therebetween. It may be composed of an exciter that generates vibration as it moves between magnets, but is not limited thereto.

1 and 2, the vibration generating unit 200 is installed on the wire 10 and is provided to generate offset vibration or fine vibration according to the control unit 300, and the body 210, the motor 220, and It is composed of a vibrating member 230.

The body 210 is formed through an insertion hole 211 through which the electric wire 10 is inserted and fixed on one side, and an installation space 212 is provided so that a motor 220 for providing rotational force is embedded on the other side.

For example, the body 210 on one side is provided in a block shape formed long in the longitudinal direction of the electric wire 10, and both sides in the longitudinal direction are penetrated to form an insertion hole 211, and the body 210 on the other side is It is provided in a block shape that is larger than the body 210 on one side and formed long in the longitudinal direction of the electric wire 10 and may be integrally formed on the lower side of the body 210 on one side.

The body 210 on the other side provides an installation space 212 in which the motor 220 and the excitation member 230 can be installed, and the installation space 212 is spaced apart from the electric wire 10 to the lower side. do.

The motor 220 is installed in the installation space 212 and operates according to the control unit 300. For example, the rotation shaft 221 may protrude from both sides in the longitudinal direction.

The excitation member 230 is formed in a disk shape and may be provided as a pair to be installed at the end of the rotation shaft 221 of the motor 220, respectively, and offset vibration when the rotation shaft 221 rotates by driving the motor 220 Alternatively, it is provided to generate micro-vibrations.

The excitation member 230 is connected to the rotating shaft 221 of the motor 220 so that the mass is eccentric with respect to the rotating shaft 221, so that when the motor 220 is driven, it rotates around the eccentric rotating shaft 221 and vibrates. generate

In this way, the vibration generating unit 200 is composed of a body 210, a motor 220, and a vibrating member 230, and is designed to generate offset vibration or micro-vibration according to the operation signal transmitted from the control unit 300. desirable.

The sensing unit 100 detects the amplitude and frequency of vibration generated in the electric wire 10 and generates a detection signal.

The sensing unit 100 may be installed on one side of the body 210, for example, and detects vibration occurring in the wire 10 to generate a detection signal and transmits the detection signal to the control unit 300.

The sensing unit 100 includes a gyro sensor 110 and a temperature sensor 120, and may further include a vibration sensor using a moving coil type sensor, a piezoelectric sensor, a strain gauge sensor, a MEMS sensor, an acceleration sensor, and the like. .

The gyro sensor 110 detects the vibration state of the wire 10, generates a detection signal for vibration, measures the ear canal or the ear canal change amount of the wire 10, and transmits the ear canal change amount to the control unit 300, and the temperature sensor ( 120) measures the temperature and transmits the measured temperature value to the controller 300.

The control unit 300 receives and analyzes the detection signal from the sensing unit 100 and generates an operation signal for the operation of the vibration generating unit 200 .

The control unit 300 generates an offset vibration operation signal that reduces vibration to prevent galloping according to the magnitude of the vibration detected by the sensing unit 100, or the electric wire 10 measured by the sensing unit 100 Depending on the amount of change in the ear canal, it is determined whether snow or ice is accreted, and a micro-vibration operation signal is generated to remove the snow or ice.

More specifically, the control unit 300 analyzes the detection signal and generates an offset vibration actuation signal when the amplitude of the vibration is greater than a preset amplitude.

Here, the preset amplitude may be, for example, an amplitude of 5 cm to 10 cm, and when the amplitude of the vibration according to the detection signal is greater than the preset amplitude, the control unit 300 cancels out the galloping phenomenon to prevent it. Generates an actuation signal.

Then, the vibration generating unit 200 receives the canceling vibration operation signal and generates canceling vibration having the same frequency and opposite phase of the vibration detected by the sensor 100 .

In addition, the control unit 300 determines that the wire 10 is icing or icing when the measured change in the ear canal is greater than the preset change in the ear canal, and generates a microvibration actuation signal.

At this time, the ear canal change amount is the difference between the slope of the wire 10 measured when the sensor 100 is initially installed and the measured slope of the wire 10, and the preset ear canal change amount may be, for example, 5 degrees, but is not limited thereto. no.

In addition, since the ear canal of the electric wire 10 is easily affected by the temperature, the control unit 300 according to the temperature measured by the temperature sensor 120 of the sensing unit 100 If the image is 2 degrees or more, snow or icing occurs In this condition, even if the measured change in the ear canal is greater than the preset change in the ear canal, the microvibration actuation signal is not generated.

In addition, when the temperature measured by the temperature sensor 120 of the sensing unit 100 is less than 2 degrees Celsius and greater than 2 degrees below zero, the control unit 300 determines that snow accumulation or icing may occur, and in this condition, the measurement When the amount of change in the ear canal is greater than the preset amount of change in the ear canal, a microvibration actuation signal is generated.

In addition, the control unit 300 determines that when the temperature measured by the temperature sensor 120 of the sensing unit 100 is 2 degrees below zero or less and the wire 10 does not shrink but increases in inclination while being stretched, it is determined that snow accumulation or icing has occurred. and generate a micro-vibration operation signal.

Further, the vibration generating unit 200 operates the motor 220 to generate a preset microvibration for a preset time when receiving a microvibration operation signal according to the control unit 300 .

Here, the preset microvibration may be a vertical vibration of 3Hz to 150Hz with an amplitude of 2mm to 3mm, and the control unit 300 controls the microvibration operation signal until the amount of change in the ear canal of the electric wire 10 is smaller than the preset amount of change in the ear canal. Can transmit, but is not limited thereto.

In addition, the control unit 300 compares the change in the ear canal of the wire 10 with the preset change in the ear canal when the amplitude of the vibration is smaller than or equal to the preset amplitude according to the detection signal received by the detector 100, and the preset A microvibration actuation signal is generated when the degree of change is greater than the change amount. That is, the control unit 300 does not repeatedly generate the offset vibration actuation signal and the micro-vibration actuation signal.

In addition, the controller 300 may include a data storage unit 310 and a power supply unit 320 . The power supply unit 320 is for supplying power to a place requiring power from the sensing unit 100, the control unit 300, and the vibration generating unit 200, and the wire 10 without direct physical contact with the wire 10. ) is used as a power source.

In addition, the detection signal, which is measurement data such as the movement amount, frequency, and amplitude of the electric wire 10 measured by the sensing unit 100, is stored in the data storage unit 310 through the control unit 300.

The control unit 300 periodically transmits data stored in the data storage unit 310 to the manager PC 20 . step. The control unit 300 may include a transmitter for data transmission, the manager PC 20 may include a receiver for receiving data, and typical devices for signal processing such as analog or digital conversion are of course provided. .

In addition, the control unit 300 transmits a warning signal to the manager PC 20 when the offset vibration operation signal or the micro vibration operation signal is transmitted to the vibration generating unit 200, so that the manager needs to be inspected before the galloping phenomenon occurs. To be aware or guide to pay attention to nearby electric wires 10 and related facilities.

Accordingly, even if a related accident occurs, it is possible to respond immediately and promptly, and the galloping phenomenon can be prevented in advance. In addition, the data related to the vibration of the electric wire 10 stored in the data storage unit 310 may be usefully used as basic data when preparing countermeasures for galloping by receiving and storing accumulated data.

According to the embodiments of the present invention having such a shape and structure, it is possible to prevent accidents such as short circuits between lines by more effectively reducing the galloping phenomenon or removing ice snow, which is a factor causing the galloping phenomenon. .

In addition, there is an effect of preventing additional failures by notifying a manager in real time of a location requiring inspection due to a high possibility of a galloping phenomenon.

In the above, even though all the components constituting the embodiment of the present invention have been described as being combined or operated as one, the present invention is not necessarily limited to these embodiments. That is, within the scope of the object of the present invention, all of the components may be selectively combined with one or more to operate.

The above description is merely an example of the technical idea of the present invention, and various modifications and variations can be made to those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed according to the following claims, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

100: sensing unit 110: gyro sensor
120: temperature sensor 200: vibration generating unit
210: body 211: insertion hole
212: installation space 220: driving member
221: axis of rotation 230: excitation member
300: control unit 310: data storage unit

Claims (6)

a sensing unit generating a detection signal by detecting vibration occurring in the electric wire;
a control unit receiving the detection signal and generating an offset vibration operation signal when the amplitude of the detected vibration is greater than a preset amplitude;
a vibration generator installed on the electric wire and generating offset vibration having the same frequency and opposite phase of the detected vibration upon receiving the offset vibration actuation signal;
An overhead line galloping prevention device comprising a.
According to claim 1,
The sensing unit measures the amount of change in the ear canal of the wire and transmits it to the control unit,
When the measured ear canal change amount is greater than the preset ear canal change amount, the control unit determines that snow or ice is deposited on the electric wire and generates a microvibration actuation signal,
The galloping prevention device of the overhead line, characterized in that the vibration generating unit generates a preset microvibration for a preset time when receiving the microvibration operation signal.
According to claim 1,
The control unit,
a data storage unit for storing data measured by the sensing unit and transmitting the data to a manager PC; and
a power supply unit supplying power to the sensing unit and the vibration generating unit;
Galloping prevention device of the overhead line, characterized in that it comprises a.
According to claim 3,
The control unit transmits a warning signal to the manager PC when the offset vibration operation signal or the micro vibration operation signal is transmitted to the vibration generating unit.
According to claim 3,
The galloping prevention device of the overhead line, characterized in that the power supply unit uses the induced current induced from the current flowing in the wire as a power source.
According to claim 1,
The vibration generating unit,
A body into which the wire is inserted and fixed to one side and a motor for providing rotational force to the other side; and
Doedoe connected to the rotating shaft of the motor, the excitation member connected so that the mass is eccentric with respect to the rotating shaft;
Galloping prevention device of the overhead line, characterized in that it comprises a.