KR20140032567A - System of monitoring transmission line - Google Patents

Abstract

A transmission line monitoring system includes: a plurality of transmission line monitoring devices attached to a transmission line to generate a monitoring data which is to indicate the state fo the transmission line; and an access point receiving the monitoring data via wireless network among at least one of the transmission line monitoring devices and transmitting the monitoring data to a monitoring server via wire newwork. [Reference numerals] (111,112,113) Transmission line monitoring system; (120) Wireless network; (130) Access point; (140) Wired network; (150) Transmission line monitoring server; (160) Mobile communication network

Description

Transmission line monitoring system {SYSTEM OF MONITORING TRANSMISSION LINE}

The present invention relates to a transmission line monitoring technology, and more particularly, from at least one of the plurality of transmission line monitoring devices and the plurality of transmission line monitoring devices attached to the transmission line to generate monitoring data indicating the status of the transmission line. Receiving the monitoring data via a wireless network, and a transmission line monitoring system that can monitor the status of the transmission line including an access point (Access Point) for transmitting the monitoring data to the transmission line monitoring server via a wired network. .

The maximum current allowance may be determined by the temperature, humidity, and the like of the transmission line. Here, since the amount of power that can be transmitted is determined according to the maximum current allowable amount of the transmission line, it is possible to reduce the cost by monitoring the state of the transmission line to transmit the optimal current size.

Korean Patent Laid-Open Publication No. 10-2011-0043059 relates to a transmission line environmental monitoring technology. More specifically, a sensor control unit for monitoring data of a sensor unit and a data communication unit for selecting and transmitting data according to a type of a communication modem are separated. It is equipped with a control unit (microprocessor) to control each of the power consumption, and to improve the accuracy of the sensor data by separating the current measuring unit and the voltage acquisition unit of the current sensor for measuring the current of the transmission line with an insulating layer The present invention relates to a transmission line environmental monitoring system.

Korean Patent Laid-Open No. 10-2012-0008306 relates to a transmission line monitoring technology. More specifically, a safety attachment device of a transmission line monitoring sensor is installed with a transmission line monitoring sensor detecting a change in the surrounding environment. The center hole is formed to be mounted on the power transmission line, and it is located in the center frame inside the spherical frame and the spherical frame configured to open and close around the hinge, and is formed in the power transmission line by forming an empty space filled with air therein. By including a tube support for pressurizing the transmission line to maintain the installed state of the old frame, the transmission line monitoring sensor can be easily and stably attached to the transmission line, without destroying the transmission line in the live state of the transmission line. Regarding safety devices for installing transmission line monitoring sensors that can be attached as closely as possible .

The prior art provides a sensor for monitoring a transmission line or a technology that can be securely attached to the transmission line.

On the other hand, the monitoring device for monitoring the state of the transmission line is unable to stably transmit the state of the transmission line according to the electromagnetic interference, the installation location, the weather conditions. Here, the prior arts do not provide a technology capable of stably transmitting the state of the transmission line measured by the monitoring apparatus of the transmission line even in an unstable network state.

Korean Patent Publication No. 10-2011-0043059 Korean Patent Publication No. 10-2012-0008306

The present invention receives the monitoring data through a wireless network from at least one of the plurality of transmission line monitoring devices and the plurality of transmission line monitoring devices attached to a transmission line for generating monitoring data indicating the state of the transmission line, a wired network It is to provide a transmission line monitoring system that can monitor the status of the transmission line, including an access point for transmitting the monitoring data to the transmission line monitoring server through.

According to the present invention, a plurality of transmission line monitoring devices include a short range communication module, whereby the transmission line monitoring device which is not connected to an access point via the short range communication module transmits monitoring data to the access point via another transmission line monitoring device. To provide a transmission line monitoring system.

According to the present invention, if all of the plurality of transmission line monitoring apparatuses are disconnected from the access point for more than a preset time, the transmission line capable of transmitting monitoring data directly to the transmission line monitoring server through the mobile communication module without passing through the access point. To provide a monitoring system.

In embodiments, a transmission line monitoring system may be attached to a transmission line via a wireless network from at least one of the plurality of transmission line monitoring devices and the plurality of transmission line monitoring devices for generating monitoring data indicating a condition of the transmission line. And an access point for receiving the monitoring data and transmitting the monitoring data to the transmission line monitoring server through a wired network.

In one embodiment, the plurality of transmission line monitoring devices includes a short range communication module capable of wirelessly communicating in a specific range, and may be interconnected through the short range communication module.

In one embodiment, the short-range communication module may correspond to a wireless mesh network module that can receive data from an external device and transmit the received data to another external device.

In one embodiment, the plurality of transmission line monitoring devices may transmit and receive monitoring data collected by each of the plurality of transmission line monitoring devices through the short-range communication module.

In one embodiment, the transmission line monitoring device not connected to the access point may transmit the monitoring data to the access point via another transmission line monitoring device connected to the access point through the short range communication module.

In one embodiment, the plurality of transmission line monitoring devices may include a mobile communication module capable of transmitting the monitoring data to the transmission line monitoring server through a mobile communication network.

In example embodiments, when the plurality of transmission line monitoring apparatuses are disconnected from the access point for more than a preset time, the plurality of transmission line monitoring apparatuses may monitor the monitoring data through the mobile communication module. The transmission line can be sent to the monitoring server.

The transmission line monitoring system according to an embodiment of the present invention is a wireless network from a plurality of transmission line monitoring devices and at least one of the plurality of transmission line monitoring devices attached to the transmission line to generate the monitoring data indicating the status of the transmission line. Receiving the monitoring data through, and can monitor the status of the transmission line including an access point (Access Point) for transmitting the monitoring data to the transmission line monitoring server through a wired network.

In a transmission line monitoring system according to an exemplary embodiment of the present invention, a plurality of transmission line monitoring apparatuses include a short range communication module, so that a transmission line monitoring device that is not connected to an access point through the short range communication module may have another transmission line monitoring device. Monitoring data may be transmitted to the access point via.

In the transmission line monitoring system according to an embodiment of the present invention, when all of the plurality of transmission line monitoring apparatuses are disconnected from the access point for more than a preset time, the transmission line monitoring is performed through the mobile communication module without passing through the access point. Monitoring data can be sent directly to the server.

1 is a view for explaining a transmission line monitoring system of the present invention.
2 is a view for explaining the flow of monitoring data performed in the power device monitoring system according to an embodiment of the present invention.
3 is a view illustrating a flow of monitoring data performed in a power device monitoring system according to another embodiment of the present invention.
4 is a diagram representing an example of a power device monitoring system according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

1 is a view for explaining a transmission line monitoring system of the present invention.

Referring to FIG. 1, the transmission line monitoring system 100 includes a plurality of transmission line monitoring devices 111 to 113, a wireless network 120, an access point 130, a wired network 140, and a transmission line monitoring server. 150 and the mobile communication network 160.

In FIG. 1, the transmission line monitoring system 100 is represented as including three transmission line monitoring devices 111 to 113, but this is merely an example. On the other hand, these examples are not intended to limit the scope of the present invention. That is, the transmission line monitoring system 100 may include N transmission line monitoring devices (N is a natural number of two or more).

Each of the plurality of transmission line monitoring devices 111 to 113 is attached to the transmission line to generate monitoring data indicating the state of the transmission line. Here, each of the plurality of transmission line monitoring devices 111 to 113 includes the same configuration device. Hereinafter, the transmission line monitoring device 111 which is one of the plurality of transmission line monitoring devices 111 to 113 will be described. That is, since the plurality of transmission line monitoring devices 111 to 113 perform the same function by including the same configuration device, the description of the transmission line monitoring device 111 is provided to the remaining transmission line monitoring devices 112 and 113. It can also be applied.

More specifically, the transmission line monitoring device 111 is attached to the transmission line. Here, the transmission line monitoring device 111 may generate monitoring data indicating the state of the transmission line.

For example, the transmission line monitoring device 111 may measure the temperature of the transmission line and generate data corresponding to [20 degrees] as monitoring data. Here, the transmission line monitoring device 111 may be generated by including the measurement time in the monitoring data.

For another example, the transmission line monitoring device 111 may measure the instantaneous current amount of the transmission line and generate data corresponding to [10A] as monitoring data. Here, the transmission line monitoring device 111 may generate data corresponding to a plurality of states of the transmission line, that is, temperature and instantaneous current amount as monitoring data.

That is, the transmission line monitoring device 111 may include a state measurement module that may measure the state of the transmission line, and may generate monitoring data through the state measurement module.

In one embodiment, the plurality of transmission line monitoring devices 111 to 113 may be interconnected through the wireless network 120. Here, the wireless network may correspond to a wireless mesh network.

More specifically, the transmission line monitoring device 111 may include a short range communication module capable of wirelessly communicating within a specific range. Here, the transmission line monitoring device 111 may be connected to other transmission line monitoring devices 112 and 113 through a short range communication module.

In one embodiment, the short range communication module may correspond to a wireless mesh network module capable of receiving data from an external device and transmitting the received data to another external device.

More specifically, the plurality of transmission line monitoring devices 111 to 113 may be interconnected through a wireless mesh communication network. Here, each of the plurality of transmission line monitoring apparatuses 111 to 113 may receive monitoring data of another transmission line monitoring apparatus and transmit the received monitoring data to another transmission line monitoring apparatus. That is, each of the plurality of transmission line monitoring apparatuses 111 to 113 may serve as a router.

The access point 130 receives monitoring data through the wireless network 120 from at least one of the plurality of transmission line monitoring devices 111 to 113. Here, the access point 130 may transmit the monitoring data to the transmission line monitoring server 150 through the wired network 140.

More specifically, the access point 130 may be connected to the plurality of transmission line monitoring devices 111 to 113 through the wireless network 120. Here, since the wireless network 120 is limited in a certain range of distance, the access point 130 may be connected to the at least one plurality of transmission line monitoring devices 111 to 113 through the wireless network 120.

Here, the transmission line monitoring device (for example, 113) not connected to the access point 130 is another transmission line monitoring device connected to the access point 130 through a short range communication module (for example, a WIFI MESH module). Monitoring data may be transmitted to the access point 130 via (eg, 112 and 113).

That is, even if the transmission line monitoring apparatus is not connected to the access point 130, the transmission line monitoring apparatus may transmit the monitoring data to the access point 130 through another transmission line monitoring apparatus serving as a router.

The access point 130 may transmit the received monitoring data to the transmission line monitoring server 150 through the wired network 140.

In one embodiment, wired network 140 may correspond to an optical cable. That is, the access point 130 reliably receives the monitoring data from the plurality of transmission line monitoring devices 111 to 113 through the wireless mesh communication module, and processes the received monitoring data into data suitable for the wired network 140. Then, it can be transmitted to the transmission line monitoring server 150 through the optical cable 140.

In one embodiment, each of the plurality of transmission line monitoring devices 111 to 113 may include a mobile communication module capable of transmitting monitoring data to the transmission line monitoring server 150 through the mobile communication network 160. .

In one embodiment, the mobile communication network 160 may correspond to a 3G (Generation), 4G (Generation) network. That is, the mobile communication network 160 may correspond to a network capable of transmitting and receiving data using a frequency used in mobile communication.

Here, when each of the plurality of transmission line monitoring apparatuses 111 to 113 exceeds the preset time and all of the plurality of transmission line monitoring apparatuses 111 to 113 are disconnected from the access point 130, the mobile communication is performed. Monitoring data may be transmitted to the transmission line monitoring server 150 through the module.

That is, when the wireless network 120 is stable, each of the plurality of transmission line monitoring devices 111 to 113 transmits monitoring data to the access point 130. Here, when the specific transmission line monitoring device (for example, 113) is disconnected from the wireless network with the access point 130, the monitoring data is transmitted to the access point (via the other transmission line monitoring devices 111 and 112). 130).

If all of the plurality of transmission line monitoring devices 111 to 113 are disconnected from the access point 130 for more than a preset time (for example, 5 seconds preset by an administrator), the plurality of transmission line monitoring lines Each of the monitoring devices 111 to 113 may transmit monitoring data to the transmission line monitoring server 150 in any network connection situation by transmitting the monitoring data to the transmission line monitoring server 150 through the mobile communication module. .

The transmission line monitoring server 150 may receive monitoring data from the access point 130 through a wired network or may receive monitoring data from a plurality of transmission line monitoring devices 111 to 113 through a mobile communication network.

That is, the transmission line monitoring server 150 corresponds to a computing device capable of receiving monitoring data. For example, the transmission line monitoring server 150 may correspond to a desktop, a laptop, a smart phone, or a tablet personal computer. Here, the transmission line monitoring server 150 may be managed by the transmission line monitoring company.

2 is a view for explaining the flow of monitoring data performed in the power device monitoring system according to an embodiment of the present invention.

In FIG. 2, the plurality of transmission line monitoring devices 111 to 113 may be interconnected through a wireless mesh communication network. Here, each of the plurality of transmission line monitoring apparatuses 111 to 113 may receive monitoring data of another transmission line monitoring apparatus and transmit the received monitoring data to another transmission line monitoring apparatus. That is, each of the plurality of transmission line monitoring apparatuses 111 to 113 may serve as a router.

The access point 130 receives monitoring data through the wireless network 120 from at least one of the plurality of transmission line monitoring devices 111 to 113. Here, the access point 130 may transmit the monitoring data to the transmission line monitoring server 150 through the wired network 140.

Since the wireless network 120 is limited in a certain distance range, the access point 130 may be connected to the at least one plurality of transmission line monitoring devices 111 to 113 through the wireless network 120.

The transmission line monitoring device (for example, 113) not connected to the access point 130 is connected to another transmission line monitoring device (for example, the local area communication module (for example, the WIFI MESH module)). For example, monitoring data can be transmitted to the access point 130 via 112 and 113.

That is, even if the transmission line monitoring apparatus is not connected to the access point 130, the transmission line monitoring apparatus may transmit the monitoring data to the access point 130 through another transmission line monitoring apparatus serving as a router.

The access point 130 may transmit the received monitoring data to the transmission line monitoring server 150 through the wired network 140.

3 is a view illustrating a flow of monitoring data performed in a power device monitoring system according to another embodiment of the present invention.

In FIG. 3, each of the plurality of transmission line monitoring devices 111 to 113 may include a mobile communication module capable of transmitting monitoring data to the transmission line monitoring server 150 through the mobile communication network 160.

In one embodiment, the mobile communication network 160 may correspond to a 3G (Generation), 4G (Generation) network. That is, the mobile communication network 160 may correspond to a network capable of transmitting and receiving data using a frequency used in mobile communication.

Here, when each of the plurality of transmission line monitoring apparatuses 111 to 113 exceeds the preset time and all of the plurality of transmission line monitoring apparatuses 111 to 113 are disconnected from the access point 130, the mobile communication is performed. Monitoring data may be transmitted to the transmission line monitoring server 150 through the module.

That is, when the wireless network 120 is stable, each of the plurality of transmission line monitoring devices 111 to 113 transmits monitoring data to the access point 130.

Here, when all of the plurality of transmission line monitoring devices 111 to 113 are disconnected from the access point 130 for more than a preset time (for example, 5 seconds preset by an administrator), the plurality of transmission lines Each of the furnace monitoring devices 111 to 113 transmits the monitoring data to the transmission line monitoring server 150 through the mobile communication module, thereby transmitting the monitoring data to the transmission line monitoring server 150 in any network connection situation. have.

4 is a diagram representing an example of a power device monitoring system according to an embodiment of the present invention. 4 is a diagram illustrating a structure in which a plurality of transmission line monitoring apparatuses 110, a wireless network 120, an access point 130, and a wired network 140 are installed in a transmission line.

On the other hand, these examples are not intended to limit the scope of the invention. That is, even if attached to the actual transmission line compared to FIG. 4 in a different shape, if it is within the range that satisfies each configuration and connection to the transmission line monitoring system 110 described in FIGS. Should be interpreted as

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention as defined by the following claims It can be understood that

110: transmission line monitoring device 120: wireless network
130: access point 140: wired network
150: transmission line monitoring server 160: mobile communication network

Claims (7)

A plurality of transmission line monitoring devices attached to the transmission line to generate monitoring data indicating the state of the transmission line; and
An access point for receiving the monitoring data from at least one of the plurality of transmission line monitoring devices through a wireless network and transmitting the monitoring data to a transmission line monitoring server through a wired network;
Transmission line monitoring system comprising a.
According to claim 1, wherein the plurality of power line monitoring devices
And a short range communication module capable of wirelessly communicating within a specific range, wherein the transmission line monitoring system is interconnected through the short range communication module.
The method of claim 2, wherein the short-range communication module
Transmission line monitoring system, characterized in that it corresponds to a wireless mesh communication (Wifi Mesh Network) module that can receive data from an external device, and transmit the received data to another external device.
The apparatus of claim 2, wherein the plurality of power line monitoring devices
Transmission line monitoring system, characterized in that via the short-range communication module can transmit and receive the monitoring data collected by each of the plurality of transmission line monitoring devices.
5. The method of claim 4,
A transmission line monitoring apparatus not connected to the access point transmits the monitoring data to the access point via another transmission line monitoring apparatus connected to the access point through the short range communication module.
According to claim 1, wherein the plurality of power line monitoring devices
And a mobile communication module capable of transmitting the monitoring data to the transmission line monitoring server through a mobile communication network.
The apparatus of claim 6, wherein the plurality of power line monitoring devices
When all of the plurality of transmission line monitoring apparatuses are disconnected from the access point in excess of a preset time, the transmission line is characterized in that for transmitting the monitoring data to the transmission line monitoring server through the mobile communication module. Monitoring system.

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