KR20120075033A - Mobile system for monitoring power transfer line - Google Patents

Abstract

PURPOSE: A transmission line mobile monitor system is provided to prevent contact accidents of a transmission line and to prevent sensing error of an object by using a laser sensor. CONSTITUTION: A transmission line mobile monitor system comprises an alarm device(100), a monitoring device(200), and an operating server(300). The monitoring device senses an object which is near to a transmission line and creates a warning signal and image information of the transmission line. The monitoring device radiates laser and senses the object by the reflection of the laser. The alarm device outputs a warning message when receiving the warning signal. The operation server receives the image information from the monitoring device and monitors the transmission line.

Description

Transmission Line Mobile Surveillance System {MOBILE SYSTEM FOR MONITORING POWER TRANSFER LINE}

The present invention relates to a transmission line monitoring system and method, and more particularly, to detect an object close to the transmission line, and when an object close to the transmission line is detected, outputs a warning message that can indicate a danger to nearby workers, The present invention relates to a transmission line monitoring system and method capable of remotely monitoring a transmission line.

Transmission line transmits high voltage power, and should be controlled to avoid external contact as much as possible, and to prevent construction equipment such as heavy equipment from touching. If external pressure is applied to the transmission line, the transmission line may be disconnected, which may interfere with the operation of the power system, leading to fire and death due to electric shock. Accordingly, in order to prevent transmission line accidents, the power supply line must maintain a safe distance over a certain distance from the external object, and prevents the transmission line from contacting the external object by implementing a tree battery or logging.

However, when a worker performs work through heavy equipment such as a crane in the vicinity of a transmission line, it may vary depending on the worker's attention in order not to come into contact with the transmission line. There is a risk that can occur.

Accordingly, when an object near the transmission line is detected, there is a need for an automatic system that can indicate a danger to an operator through a warning sound or a warning light.

An object of the present invention is to provide a system capable of preventing an accident of contact with a transmission line by capturing an object near the transmission line and outputting a warning message.

Another object of the present invention is to use a laser sensor to enable accurate detection of an object, to prevent false detection of the object, and to prevent the monitoring system from malfunctioning.

Another object of the present invention is to provide a system for setting a surveillance region to be monitored, detecting an object in proximity to a transmission line only within the surveillance region, and remotely monitoring the surveillance region.

Transmission line monitoring system according to the present invention for solving the above object, the monitoring device for detecting an object in close proximity to the transmission line to be monitored, and generates a warning signal and the image information; An alarm device that outputs a warning message upon receiving the warning signal; And an operation server for receiving image information of the power transmission line from the monitoring apparatus and monitoring the power transmission line.

Preferably, the monitoring device is characterized in that for emitting the laser, the object is detected by the laser is reflected.

Preferably, the surveillance apparatus is characterized in that for setting the surveillance region, and generates a warning signal when the object is detected within the set surveillance region.

Preferably, the surveillance region is set based on a surveillance angle, a surveillance length and a surveillance width.

Transmission line monitoring method according to the present invention for solving the above object comprises the steps of setting a monitoring area to be monitored by the monitoring device; Sensing an object in proximity to a transmission line to be monitored by the monitoring apparatus;

Determining, by the monitoring apparatus, whether the object exists in the surveillance region; Generating, by the surveillance apparatus, a warning signal when the object exists in the surveillance region; And outputting a warning message by the alarm device receiving the warning signal.

The present invention can prevent the accident of contact with the transmission line by capturing an object close to the transmission line and outputting a warning message, enabling accurate detection of the object using a laser sensor, thereby preventing malfunction of the monitoring device. It can work.

In addition, there is an effect that can improve the performance of the monitoring device by providing a system that can detect the object only within the set monitoring area.

In addition, the present invention has an effect that can provide a system that can monitor the surveillance area from a remote.

1 is a transmission line monitoring system according to an embodiment of the present invention,
2 is a block diagram of a monitoring apparatus according to an embodiment of the present invention;
3A and 3B are exemplary views for explaining a surveillance region, and
4 is a flowchart of a transmission line monitoring method according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components, and the same reference numerals will be used to designate the same or similar components. Detailed descriptions of known functions and configurations are omitted.

1 illustrates a transmission line monitoring system according to an embodiment of the present invention.

Referring to FIG. 1, the transmission line monitoring system may include an alarm device 100, a monitoring device 200, and an operation server 300.

The alarm device 100 outputs an alarm sound or transmits a danger signal through a warning light so as to notify a worker near a transmission line of danger. The alarm device 100 includes a data receiving unit capable of receiving a warning signal from the monitoring device 200, and when a warning signal is received, outputs an alarm sound for a predetermined time, or operates a warning light to cause danger to the worker. You can inform.

The monitoring device 200 is installed in the transmission tower, and is a device that detects the object 10 approaching the transmission line in order to work in close proximity to the transmission line. The monitoring device 200 may use a motion detection sensor or a laser sensor to detect the object 10 in operation near the power transmission line. When using a motion detection sensor, the monitoring device 200 preferably includes a camera module. The camera module may detect the hazard object 10 based on a change in an image frame that changes as the hazard object 10 being photographed in operation near the transmission line is photographed.

In the case of using the laser sensor, the laser sensor emits a laser, and the harmful object 10 near the transmission line can be detected by recognizing a wavelength at which the emitted laser is reflected from the dangerous object 10 and returned.

The monitoring device 200 may detect an object in the set surveillance area. The monitoring device 200 may determine that the object is a hazard only when the detected object is within the set monitoring area. The motion detection sensor and the laser sensor may be connected to a mechanical part such as a motor to enable rotation, and the monitoring apparatus 200 may control the monitoring to be performed only in the set monitoring area by setting the rotation range of the mechanical part.

In particular, when the laser sensor is used in the monitoring device 200, the distance that the monitoring device 200 wants to monitor may also be set as the monitoring range. The distance of the detected object 10 may be measured by measuring a time when the emitted laser is returned from the object 10, and when the detected object 10 is out of the surveillance area, the object 10 may be detected. It can be determined that is not.

When the monitoring range is set, the monitoring device 200 monitors the area. At this time, in order to prevent the monitoring device 200 from malfunctioning due to the flying object 10 such as a bird or a worm, the monitoring device 200 continuously detects the object 10 for a predetermined time, or for a predetermined time. When the object 10 is detected more than the number of times, the object 10 may be recognized.

For example, a flying object such as a bird is out of the monitoring area of the monitoring device 200 in an instant, so it is determined that the object 10 must be continuously detected for two seconds or more, or the flying object outside the monitoring area is again monitored. By using a point that is difficult to return to the surveillance region of, it is to use the method of recognizing the object 10 to be detected more than twice in 10 seconds. The setting time and the number of detections are items that can be preset by the operator.

When the monitoring device 200 determines that the object 10 exists in the monitoring area, the monitoring device 200 transmits a warning signal to the alarm device 100 and the operation server 300.

The monitoring device 200 may include a communication module for performing communication with the alarm device 100 and the operation server 300.

At this time, when performing the wired or wireless communication between the monitoring device 200 and the alarm device 100, and performing the wired communication, can be connected by an analog signal line, or use a serial communication method, and perform a wireless communication, Communication methods such as Bluetooth, Zigbee, Binary CDMA, and UWB, which are suitable for short-range communication, may be used.

The wired or wireless communication is performed between the monitoring device 200 and the operation server 300, and when the wired communication is performed, a PLC communication or an Ethernet-based local area network may be used, and when performing the wireless communication, Wi-Fi, Wibro , CDMA, HSDPA, and LTE can be used.

In addition, the surveillance apparatus 200 may transmit image information of the surveillance region to the operation server 300. When the object 10 is detected using the motion sensor, the image captured by the motion sensor may be transmitted to the operation server 300.

When the object 10 is detected using a laser sensor, the monitoring apparatus 200 should further include an image unit including a camera module.

The operating server 300 receives the warning signal from the monitoring device 200, and when the warning signal is received, outputs the warning message on the screen, and transmits the warning message to the mobile communication terminal of the administrator registered in the operation server 300 Alternatively, the warning mail may be transmitted to the mail address of the administrator registered in the operation server 300.

An administrator of the operation server 300 may monitor a transmission line to be monitored based on image information received from the monitoring apparatus 200. In addition, the monitoring device 200 may generate a control signal for generating a warning signal and transmit the generated control signal to the monitoring device 200 in case the object 200 is not detected.

When the monitoring device 200 receives a control signal including a command for generating a warning signal from the operation server 300, the monitoring device 200 generates a warning signal regardless of whether the object 10 is detected in the monitoring area. The generated warning signal is transmitted to the alarm device 100 and the operation server 300, the alarm device 100 may output an alarm sound or operate a warning light to notify the worker of a dangerous situation. This is to enable the alarm device 100 to operate even when the monitoring device 200 malfunctions or the monitoring device 200 malfunctions by generating a warning signal from the operation server 300.

2 is a block diagram of an alarm device according to an embodiment of the present invention. Referring to FIG. 2, the monitoring apparatus 200 may include an object detecting unit 210, a communication unit 220, a power supply unit 230, and a central processing unit 240. The surveillance apparatus 200 may further include a surveillance region setting unit 250, an imaging unit, and a reference setting unit 260.

The object detecting unit 210 detects an object around a transmission line. The object detecting unit 210 may be a omnidirectional sensor, and in order to detect an omnidirectional sensor, the object detecting unit 210 may be attached to a rotary motor.

The object detecting unit 210 may be a motion detection sensor or a laser sensor. When the object detection unit 210 is a motion detection sensor, the motion detection sensor may include a camera module, and may determine whether an object exists through image data captured by the camera module. The central processor 240 may detect the object 100 based on the change in the image frame of the image data photographed by the camera module of the motion detection sensor.

When the object detecting unit 210 is a laser sensor, the laser sensor radiates a laser to detect an object. The central processor 240 may determine the object 10 by sensing a signal reflected by the emitted laser. In addition, when the object detecting unit 210 is a laser sensor, the monitoring device 200 may further include a monitoring area setting unit 250. The monitoring angle, monitoring length and monitoring width can be set so that the monitoring object of the laser sensor can be limited to the transmission line through an external input.

FIG. 3A shows a monitoring area when the monitoring area is set with the monitoring angle and the monitoring length, and FIG. 3B shows the monitoring area when the monitoring area is set using the monitoring angle, the monitoring length and the monitoring width. When the monitoring width is used as the monitoring area setting factor, since the distance to be monitored varies according to the monitoring angle of the monitoring area, the central processing unit 240 calculates the longest distance according to the angle, and the detected object 10 is Make sure you are located at a distance shorter than the longest. For example, according to the angle in Figure 3b, since the monitoring distance is a and b its length is different, the longest distance according to the angle is calculated in advance in the central processing unit 240, to determine whether the object is within the longest distance in the angle The object 10 is detected.

The surveillance region setting may be input from the operation server 300, transmitted to the surveillance apparatus, or directly input through the surveillance apparatus. In order to input the monitoring area through the monitoring device, an input unit for the operator to input and a display unit for displaying the monitoring area setting screen should be further provided.

The central processing unit 240 may acquire information about the surveillance area from the surveillance area setting unit 250 and control the rotating motor to emit the laser only within the set angle range. In addition, by analyzing the arrival time of the wavelength reflected by the laser beam emitted by the laser sensor can determine whether the detected object is within the range of the monitoring area.

In addition, the surveillance region setting unit 250 may select a portion to be excluded from the surveillance region. In order to prevent the surveillance area from narrowing due to a fixed object, a part of the surveillance area to be excluded from the surveillance area is set, and the central processing unit 240 detects that the object detected from the excluded area is a hazardous object ( 10) so that it does not recognize.

By inputting the angular range and the length range of the part to be excluded from the surveillance area, the relevant area can be excluded from the surveillance area.

The central processing unit 240 may recognize the dangerous object 10 only when an object is detected in the surveillance area, and generate a warning signal when the dangerous object 10 is recognized.

The reference setting unit 260 sets the warning signal generation criteria to prevent the monitoring device 200 from malfunctioning due to flying objects such as birds and bugs. Warning signal generation criteria may be input from the operation server 300, transmitted to the monitoring device 200, or may be directly input through the monitoring device (200). The warning signal generation criterion may be when the object is continuously detected for a predetermined time or the object 10 is detected a predetermined number of times within a predetermined time. The reference setting unit 260 may set the continuous detection time of the object, specify a predetermined time, and set a predetermined number of times to be detected within the specified time.

The central processing unit 240 may generate a warning signal only when the detection of an object is continuously generated for a predetermined time or more than a predetermined number of times within a predetermined time, according to the setting value of the reference setting unit 260.

When the object detecting unit 210 is a laser sensor, the operation unit 300 may further include an image unit to provide image information on the surveillance environment. The imaging unit includes a camera module, and may photograph a portion set as a surveillance area, and the generated image information is transmitted to the operation server 300 so that an administrator of the operation server 300 may visually recognize the monitoring environment of the monitoring device. You can do that.

The communication unit 220 may include a first communication unit 221 connecting the alarm device 100 and the monitoring device 200 and a second communication unit 222 connecting the operation server 300 and the monitoring device 200. have.

The first communication unit 221 is for performing short-range communication between the monitoring device 200 and the alarm device 100. The central processing unit 240 may generate a warning signal and transmit the warning signal to the alarm device 100 through the first communication unit 221 to control the alarm device 100 to operate.

The second communication unit 222 is for performing communication between the monitoring device 200 and the operation server 300, the second communication unit 222 may perform wired or wireless communication. When the controller generates a warning signal, the warning signal is transmitted to the operation server 300 through the second communication unit 222. In addition, when the operation server 300 transmits a control signal for generating a warning signal to the monitoring device 200, the control unit receives the control signal from the second communication unit 222 so that the monitoring device 200 can generate a warning signal. can do.

The power supply unit 230 supplies power to operate each functional unit. The power supply unit 230 may be a rechargeable battery that may be charged, and may include an overdischarge detection circuit or an overcharge detection circuit capable of detecting overdischarge and overcharge of the power supply unit 230.

In addition, the power supply 230 may be charged by the solar panel. During the day, the solar panel absorbs sunlight, and the voltage applied from the solar panel is charged by the battery after the voltage is adjusted in the charging unit.

The central processing unit 240 interlocks and controls each functional unit. When the object 10 is detected or receives a control signal for generating a warning signal from the operation server 300, the central processing unit 240 generates a warning signal and generates an alarm device ( 100) send a warning signal.

4 is a flowchart of a transmission line monitoring method according to an embodiment of the present invention.

First, the monitoring area setting step (S401), the monitoring device 200 is to set the monitoring area to be monitored. The monitoring area may be set in combination with a monitoring angle and a monitoring length that the monitoring device 200 wants to monitor, and may be set by further combining the monitoring width.

At this time, even within the range set as the surveillance region, a part to be excluded from the surveillance region may be additionally set. When the part to be excluded is set, the remaining setting area except that part is determined as the surveillance area.

Surveillance area setting may be input by an external key operation of the monitoring apparatus 200 or by receiving a setting value from the operation server 300.

Object detection step (S402), the monitoring device 200 is a step for monitoring an object in close proximity to the transmission line to be monitored. When using a laser sensor, it is possible to emit a laser, the object can be detected through the reflection of the emitted laser.

In the detecting signal analysis step (S403), the monitoring apparatus 200 determines a distance of the detected object by analyzing a wavelength or time at which the laser beam is reflected.

The monitoring device 200 determines whether the detected object exists in the surveillance area from the detected object distance (S404). If the detected object does not exist in the surveillance area, it may be determined that the detected object is not the hazard object 10. If the detected object exists in the surveillance area, the detected object may be determined as the object 10 for the detected object. In operation S405, a warning signal is generated.

Warning signal transmission step (S406), the monitoring device 200 is a step of controlling the alarm device 100 to operate by transmitting the generated warning signal to the alarm device (100). When the alarm device 100 receives the warning signal, the alarm device may output an alarm sound for a predetermined time, or turn on a warning light to transmit a warning message to nearby workers.

In addition, the monitoring device 200 may transmit the generated warning signal to the operation server 300, the operation server 300 receiving the warning signal may output a warning message, or transmit a warning message to the administrator.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in the commonly used dictionaries should be construed as having meanings consistent with the meanings in the context of the related art, and are not construed in ideal or excessively formal meanings unless expressly defined in this application. Do not.

10: hazard object 100: alarm device
200: monitoring device 210: object monitoring unit
220: communication unit 230: power supply unit
240: central processing unit 250: surveillance area setting unit
260: reference setting unit 270: image unit
300: operation server

Claims (18)

A monitoring device for detecting an object in proximity to a transmission line to be monitored and generating a warning signal and image information of the transmission line;
An alarm device that outputs a warning message upon receiving the warning signal; And
Receiving the image information from the monitoring device, the operation server for monitoring the transmission line
Transmission line monitoring system comprising a.
The method of claim 1, wherein the monitoring device,
Transmission line monitoring system, characterized in that for emitting a laser, and detecting the object through the reflection of the laser.
The method of claim 1, wherein the monitoring device,
The transmission line monitoring system, characterized in that for generating the warning signal when the object is detected within the set monitoring area.
The method of claim 3, wherein the image information,
Transmission line monitoring system, characterized in that the image information for the surveillance area.
The method of claim 3, wherein the surveillance area,
Transmission line monitoring system, characterized in that the monitoring angle and the monitoring length is set.
The method of claim 3, wherein the surveillance area,
Transmission line monitoring system, characterized in that it further comprises a monitoring width.
The method of claim 1, wherein the warning message,
Transmission line monitoring system, characterized in that the output of the alarm sound or warning lights.
The method of claim 1,
The operation server generates a control signal for controlling the generation of the warning signal,
The monitoring device receiving the control signal is a transmission line monitoring system, characterized in that for generating the warning signal.
The method of claim 1, wherein the monitoring device,
Transmission line monitoring system, characterized in that for detecting the object based on the image information.
The method of claim 1, wherein the monitoring device,
The transmission line monitoring system, characterized in that for generating a warning signal when the object is detected for a predetermined time.
The method of claim 1, wherein the monitoring device,
And the warning signal is generated when the object is detected a predetermined number of times within a predetermined time.
The method of claim 1, wherein the monitoring device,
An object detecting unit detecting an object in proximity to a transmission line to be monitored;
A surveillance region setting unit storing a surveillance region for monitoring the transmission line;
A communication unit for performing data transmission and reception with the alarm device and the operation server; And
A central processing unit which receives a detection signal for the object output from the object detecting unit, determines whether the object exists in the surveillance area, and generates a warning signal
Transmission line monitoring system comprising a.
The method of claim 12, wherein the monitoring device,
And a reference setting unit for storing the generation criteria of the warning signal by the central processing unit.
Setting a surveillance region to be monitored by the surveillance apparatus;
Sensing an object in proximity to a transmission line to be monitored by the monitoring apparatus;
Determining, by the monitoring apparatus, whether the object exists in the surveillance region;
Generating, by the surveillance apparatus, a warning signal when the object exists in the surveillance region; And
Outputting a warning message by the alarm device receiving the warning signal;
Transmission line monitoring method comprising a.
15. The method of claim 14,
And the monitoring device emits a laser and detects the object through the reflection of the laser.
The method of claim 14, wherein the surveillance area,
Transmission line monitoring method, characterized in that the monitoring angle and the monitoring length is set.
The method of claim 16, wherein the surveillance area,
Transmission line monitoring method characterized in that it further comprises a monitoring width.
The method of claim 15, wherein the warning message,
Transmission line monitoring method characterized in that the output of the alarm sound or the warning lights.

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