KR20100021247A - Round shape sensor case with power transmission line - Google Patents

Abstract

PURPOSE: A spherical sensor case is provided to monitor a transmission line by receiving a signal from an external sensor through a zigbee module and transmitting the received data. CONSTITUTION: A spherical external case(100) is formed on a transmission line as a solar cell(102). One internal sensor(110) or more are included inside the external case. A data processor collects and processes the data from an internal sensor and an external sensor outside the external case. A communication unit(130) transmits the result of the data processor to an external collection unit. The diameter of the external box is between 30 and 40 cm. A storage battery(104) is installed inside the external case and stores the energy of the solar cell.

Description

Round shape sensor case with power transmission line

The present invention relates to a hemispherical coupling type transmission line mounting type spherical sensor that can be installed in the transmission line to monitor the operating state of the transmission line comprehensively regardless of the pressurized state of the transmission line and the power outage.

In general, in order to monitor a transmission line, a sensor is attached to a steel ball of a transmission tower to which a transmission line is connected.

However, the method of monitoring the transmission line by attaching the sensor to the steel ball, the sensor does not operate when the power outage of the transmission tower is a power outage, you need to install a separate wire to supply the sensor to the sensor.

In addition, since the sensor is attached to the steel ball of the transmission tower, only a specific part is being monitored, so comprehensive monitoring is difficult.

Therefore, for comprehensive monitoring, various sensors suitable for monitoring purposes should be installed in various places of the steel tower. However, the sensors and power lines interfere with the tower operator of the transmission tower as the sensors are attached to the steel balls separately for each function. There is a problem that causes an accident.

The present invention is to solve the inconvenience of the prior art by using a spherical sensor box of an integrated transmission line mounting a plurality of sensors having a variety of functions in the interior of the spherical enclosure (sensor box) to form a state of the transmission line An object of the present invention is to provide a hemispherical coupled transmission line mounting spherical sensor box that can be comprehensively measured.

In addition, the present invention is designed to be a sphere having a hemispherical coupling structure to be easily mounted on the transmission line, by installing a solar cell on the surface of the sphere made of a sphere hemisphere that can always operate without a separate power device even if the transmission line is outage It is an object to provide a spherical sensor box for a combined transmission line.

In order to achieve the above object, the hemispherical coupling type transmission line mounting spherical sensor box of the present invention incorporates a sensor having various functions therein, and integrates the data collected by the sensor and the data collected through wireless communication to collect an external collecting device. Can be sent to.

The present invention relates to a spherical spherical coupled transmission line mounting spherical sensor box is mounted on the transmission line, including a spherical enclosure formed of solar cells, and includes one or more internal sensors included in the enclosure. And, it includes a data processing device for collecting and processing data from the internal sensor and the external sensor existing outside the enclosure, it is preferable to include a communication unit for transmitting the results of the data processing device to the external collection device.

In the present invention, the diameter of the enclosure is preferably 30 cm or more and 40 cm or less.

In the present invention, it is preferable that the enclosure has a hemispherical coupling structure.

In the present invention, it is preferable to further include a storage battery, a voltage conversion circuit and a stabilization circuit for storing energy of the solar cell inside the enclosure.

In the present invention, it is preferable that the communication unit is a Zigbee module, a broadband LAN and a D-TRS.

According to the present invention, since the sensor box is formed in a spherical shape, and the outside is formed of a solar cell, there is an effect of continuously operating even without a separate power supply even in a power failure environment due to a ceasefire.

In addition, it is provided with a plurality of sensors inside, there is an effect that can monitor the transmission line integrated by receiving a signal of the external sensor through the Zigbee module, and integrates and transmits the data received through each sensor.

In addition, the problem that is attached to the steel ball of the conventional transmission tower according to the installation on the transmission line, that is, the effect that can prevent the risk of accidents in the installation of the wire for power supply or obstruction during the check-in work of the tower worker There is.

In addition, since the sensor box is formed by the hemispherical coupling type structure, it is easy to remove the installation work when installing or dismantling the transmission line, thereby saving the installation cost and time.

Preferred embodiments of the present invention will be described with reference to the accompanying drawings. In adding reference numerals to components of the following drawings, it is determined that the same components have the same reference numerals as much as possible even if displayed on different drawings, and it is determined that they may unnecessarily obscure the subject matter of the present invention. Detailed descriptions of well-known functions and configurations will be omitted.

Figure 1a is a block diagram showing a spherical sensor box according to an embodiment of the present invention.

Referring to FIG. 1A, an enclosure 100, an internal sensor 110, a data processing device 120, and a communication unit 130 are included.

Enclosure 100 is a plurality of solar cells 102 are formed in a spherical shape, the size is not limited, but may be formed with a diameter of 30cm ~ 40cm.

As the enclosure 100 is formed into a sphere and the solar cell is attached to the surface of the sphere, the maximum area and the optimal photon incident angle are maintained regardless of the positional movement of the sun. Can be maintained (see FIG. 1B).

That is, by maintaining the maximum area according to the movement of the position of the sun, even if the position of the sun can be formed so that the solar cell 102 receives the largest amount of solar radiation, the solar cell 102 is shown in Figures 1b to 1c It can be seen that the angle of sun reception varies depending on the position of the sphere to which it is attached.

In addition, as the solar cell 102 is used, electric power supplied from the outside that is connected to the transmission line (not shown) is unnecessary, and thus, the wire that has been obstructed when the worker takes the task between the enclosure 100 and the transmission line. This eliminates the risk of an accident and enables operation at all times regardless of power outages on the transmission line.

In addition, by converting the energy according to the amount of sunshine received using the solar cell 102 into electrical energy and storing it in the storage battery 104 therein, the spherical sensor box may be operated at all times regardless of the presence of the sun.

Although not shown in FIG. 1A, a voltage conversion circuit and a stabilization circuit are formed inside the enclosure 110 to impact the entire power of the sensor box according to the power change of the energy stored in the solar cell 102 and the energy stored in the storage cell 104. It can be stabilized so that it does not appear.

The voltage conversion and stabilization circuit for supplying electricity to the electronic circuit constantly stabilizes electricity fluctuating according to the incident amount and angle of incidence of sunlight, and converts electricity into low voltage and constant voltage to operate electronic devices of the electronic circuit. At the same time, the battery may be charged with electricity to supply electricity charged to the battery during a power failure (see FIG. 1D).

The internal sensor 110 is formed inside the enclosure 100, and the camera sensor 112, the current sensor 114, the wind direction / wind speed / tilt monitoring sensor 116, the line temperature sensor 118, etc. May be composed of various sensors, and thus may form and use a 1: N sensor network, and the location of each internal sensor 110 may refer to FIG. 1E.

The camera sensor 112 may monitor the environment around the pylon to monitor the fire around the pylon and the presence or absence of contact in proximity to the pylon.

The current sensor 114 may detect a fault current flowing in the transmission line to detect the direction of the accident and transmit information on the location of the accident to an external data collection device.

The wind direction / wind speed sensor of the wind direction / wind speed / tilt monitoring sensor 116 detects the strength and direction of the wind applied to the pylon and the transmission line, and measures the influence of the wind on the transmission line, and the tilt sensor is connected to the transmission line. Measure the slope of the wire to monitor its safety

The line temperature sensor 118 measures and monitors the temperature of the transmission line wire to prevent an accident caused by the temperature rise in advance.

The data processing apparatus 120 may be formed of a microprocessor and may integrate the data of the plurality of internal sensors 110 and the data of the external sensors collected through the communication unit 130 into one and transmit them to the external collection apparatus.

The communication unit 130 forms a network with a sensor or other old sensor box existing outside the old sensor box, receives a transmission data signal, integrates the data in the data processing apparatus 120, and integrates the integrated data (signal) to the outside. Can be sent wirelessly to the collection device.

The communication unit 130 is composed of a Zigbee module 132, a broadband LAN (WLAN) and a D-TRS 134, the Zigbee module 132 receives data from an external sensor, and a wide area LAN (WLAN). (Not shown) may perform wireless communication by forming a network with an external data collection device and transmitting and receiving data between the old sensor box.

In addition, the D-TRS 134 may enable communication with a user using an old sensor box and a ground user, for example, a D-TRS-based PDA terminal.

Figure 1f is a view showing a state in which the spherical sensor box is mounted on the transmission line according to an embodiment of the present invention, a plurality of solar cells 102 are formed in a spherical shape of the enclosure 100 is divided into hemispheres transmission line inside Installation grooves can be made so that the furnace 140 can be installed and filled in the transmission line 140.

And, it is not limited, but may include a fixing part 150 for fixing the transmission line 140 and the enclosure 100 as shown in the drawing.

As described above, it has been described with reference to a preferred embodiment of the present invention, but those skilled in the art various modifications and changes of the present invention without departing from the spirit and scope of the invention described in the claims below I can understand that you can.

Figure 1a to 1c, Figure 1e to Figure 1f is a block diagram showing a spherical spherical coupled mounting type transmission line spherical sensor box according to an embodiment of the present invention.

Figure 1d is a diagram showing the voltage conversion and stabilization circuit inside the spherical spherical coupling type transmission line spherical sensor box according to an embodiment of the present invention.

             <Explanation of symbols for the main parts of the drawings>

100: enclosure 102: solar cell

104: storage battery 110: internal sensor

112: camera sensor 114: current sensor

116: wind direction / wind speed / tilt sensor 118: track temperature sensor

120: data processing device 130: communication unit

132: Zigbee module 134: D-TRS

140: transmission line 150: fixed part

Claims (5)

A spherical enclosure formed on a transmission line and formed of a solar cell; One or more internal sensors contained within the enclosure; A data processing device collecting and processing data from the internal sensor and an external sensor existing outside the enclosure; And Transmission line mounting spherical sensor box including a communication unit for transmitting the results of the data processing device to an external collection device. The spherical sensor box according to claim 1, wherein the diameter of the enclosure is 30 cm or more and 40 cm or less. The spherical sensor box according to claim 1, further comprising a storage battery for storing energy of a solar cell in the enclosure. The spherical sensor box according to claim 1, further comprising a storage battery, a voltage conversion circuit, and a stabilization circuit for storing energy of the solar cell inside the enclosure. The spherical spherical coupled transmission line mounting type sensor box according to claim 1, wherein the communication unit is composed of a Zigbee module, a broadband LAN, or a D-TRS.

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