RU115582U1 - ELECTRICAL TRANSMISSION REMOTE MONITORING DEVICE - Google Patents

Abstract

1. A device for remote monitoring of the state of an overhead power line wire, configured to be installed on an overhead power line wire and containing a wire temperature sensor and a wire current sensor, as well as a means of wireless data transmission to a ground terminal connected to an information processing unit, a power supply unit made in the form of a storage battery, which is charged from a solar battery module and / or from a power take-off device from a wire, characterized in that the charger is connected to an information processing unit that controls it. ! 2. The device according to claim 1, characterized in that an air temperature sensor is additionally introduced into it, connected to the information processing unit. ! 3. The device according to claim 1, characterized in that the air temperature sensor is located in physical proximity to the connection point of the device. ! 4. The device according to claim 1, wherein the information processing unit is configured to control the entire device. ! 5. The device according to claim 1, characterized in that the wire temperature sensor is located in a separate housing having a low thermal conductivity. ! 6. The device according to claim 1, characterized in that the wire temperature sensor is installed separately from the device body. ! 7. The device according to claim 1, characterized in that the wire current sensor is made on the Hall effect, which provides control of both alternating current and direct current. ! 8. The device according to claim 1, characterized in that the storage battery is connected to all units of the device.

Description

The inventive utility model relates to the electric power industry and can be used for real-time remote continuous monitoring of the condition of an overhead line wire, then overhead lines, power transmission, as well as a lightning protection cable, and control of their parameters.

Currently known devices used in systems for remote monitoring of the condition of the wire and / or control of its parameters in overhead power lines, [1], [2], [3].

A device [1] is known for monitoring electric power systems, comprising a housing provided with fastening means on a wire of a power transmission line and a power supply unit and a measuring and transmitting module located in the housing, consisting of a control unit, a unit for receiving and converting wire state signals, a communication and transmission unit data. In this case, the output of the unit for receiving and converting the state signals of the wire is connected to the input of the communication and data transmission unit. This device works as an autonomous element of a real-time overhead power line wire monitoring system, providing data transmission through the channels of a specialized technological information system created on the basis of the principles of high-frequency communication via overhead lines using high-voltage connection modules.

The disadvantage of the device [1] is that for its functioning in the monitoring system, it is additionally required to create specialized technological means of data transfer, which in turn have a low transmission rate. This disadvantage is due to the fact that the measuring element of the monitoring system located on the overhead line, as a stand-alone device, for the implementation of the communication functions with the collection point of the measured information, requires external means for implementing high-frequency communication with elements of high-voltage galvanic isolation with overhead potential. Data transmission over OHL wires is caused by a low transmission rate.

A device [2] is known for remote monitoring of the condition of an overhead power line wire, comprising a housing provided with fastening means on a power line wire and a power unit, a processing unit, to which a wire temperature sensor and wireless data transmission means are connected to the ground terminal, located in the housing. In this case, temperature control is carried out directly in the place of attachment of the housing to the overhead line.

The disadvantage of the device [2] is the influence on the reliability of measuring the temperature of the heat sink wire created by the device itself in the place of temperature control. This condition also leads to the inertia of the measuring system, which is not able to track rapid changes in the temperature of the wire.

A device [3] for remote monitoring of the condition of an overhead power line wire is provided, comprising a power supply unit, an ultrasonic or laser range finder, a means of wireless data transmission to a ground terminal, and a processing unit to which a wire temperature sensor, a current sensor, and an ice signaling device are connected. The device [3] is configured to be installed on the wire overhead power lines, while the temperature sensor of the wire is located directly in the place of attachment of the device to the wire. A measuring transformer is used as a wire current sensor, which makes it possible to control alternating current in the wire. This device [3] is the closest analogue prototype.

The disadvantage of the device [3], the prototype, is the low accuracy of measuring the temperature of the wire associated with the introduction of errors in the controlled value of the temperature of the heat sink created by the body of the device itself. This fact simultaneously leads to the inertia of the measuring system, which is not able to track fast changes in the temperature of the wire. The temperature control of the wire in the presented device does not take into account the influence of external temperature. Also, the use of a transformer as a current meter limits the measurement of direct currents used in ice melting systems.

The purpose of the claimed device is to eliminate these drawbacks, increasing the reliability and completeness of the control parameters of the state of the wire overhead power lines.

Common signs of the claimed utility model with the prototype are that the device, made with the possibility of its installation on the wire of an overhead power line, contains a wire current sensor and a wire temperature sensor, means for wireless data transmission to the ground terminal, which are connected to the information processing unit. The device comprises a power supply unit, made in the form of a rechargeable battery, the charge of which is carried out from the solar module and / or from the power take-off device from the overhead power line wire, through the charger.

This goal is achieved by the fact that the charger is connected to the information processing unit and the battery, which is connected with all units of the device. The information processing unit is configured to control the device as a whole. An air temperature sensor has been introduced, which is connected to the information processing unit. An air temperature sensor located in physical proximity to the connection point of the device allows a differentiated assessment of changes in the temperature of the wire due to the current in the wire: the working current and the ice melting current. The temperature sensor of the wire is placed in a separate housing made of a material having minimal thermal conductivity, installed separately from the device housing. The wire current sensor is implemented in the form of a magnetic circuit, through which a Hall sensor is installed.

Thus, the combination of well-known features with newly introduced features allows you to achieve a given technical result. The introduction of an air temperature sensor increases the reliability of control and eliminates errors due to the influence of changes in ambient temperature. The implementation of the temperature sensor of the wire in a separate housing and its installation location reduce the spurious effect of the heat sink on the housing of the device. The implementation of the Hall current sensor of the wire allows the monitoring of both alternating and direct current in the wire. The technical results obtained by introducing the above characteristics are aimed at obtaining a common result - increasing the reliability and completeness of monitoring the state parameters of the overhead power line wire.

The figure shows a structural diagram of the inventive device. The device for remote monitoring of the state of the overhead power line wire contains an information processing unit 1, a sample unit, to which a current sensor 2 of a wire DToka is connected, a temperature sensor of a wire 3 is a traffic accident, an air temperature sensor 4 is a DTV and a means of wireless data transmission to the ground terminal 5 is Wed.per. All components of the device are powered by a 6 - Acc. Battery, which is charged by a 7 - charger, a charging current generated by solar module 8 - MSB and / or a power take-off device from wire 9 - UOM.

The work of the proposed device.

When submitting a request from the ground terminal to control the parameters of the state of the overhead power line wire (wire temperature, air temperature and current in the wire), the signal is transmitted to the wireless data transfer means 5, it is detected and transmitted as a digital signal to the information processing unit 1. Processing unit Information 1 produces a sequential survey of current sensors 2 connected to it, wire temperature 3, air temperature 4. Receiving physical values of the monitored parameters from each sensor 2, 3 and 4, the information processing unit 1 generates a response digital package and transmits it through the means of wireless data transmission 5 to the ground terminal. To provide autonomous power to all elements of the device, the solar module 8 and / or the power take-off device from wire 9 generates a charging current for the battery 6. The magnitude of the charging current is regulated by the charger 7 connected to the information processing unit 1, depending on the current level charging the battery 6.

An example implementation of a utility model may be as follows:

Microchip PIC16F688 microcontroller is used in the information processing unit 1 as a microprocessor. The current sensor in wire 2 is made in the form of a magnetic circuit through which a Hall sensor, type SS49E, Honeywell connected through an operational amplifier, type AD8571 is installed , from Analog Devices, to the PIC16F688 microcontroller ADC manufactured by Microchip. The temperature sensor for wire 3 is structurally implemented in a heat-shielding housing that reduces the influence of ambient temperature on measurements and is based on a microcircuit TMP100NA, manufactured by Texas Instruments. The air temperature sensor 4 is structurally implemented in a protective casing that reduces the influence of precipitation and wind on measurements, and is based on the TMP100NA chip manufactured by Texas Instruments. The means of wireless data transmission 5 to the ground terminal is a communication modem, such as Spectrum 4330EM, manufactured by LLC Rateos, or GSM module MC55i, manufactured by Siemens, with a whip antenna in the frequency range 433.92 MHz or GSM standard, respectively. As battery 6, an A506 / 6.5 S battery, manufactured by Sonnenschein, was used.

Charger 7 is implemented on an LM1084IT-ADJ chip manufactured by National Semiconductor to provide a jet charging mode and on an IPS511G chip manufactured by International Rectifier to provide a direct charge mode. Solar Module 8 is an element of MSW 12-24, manufactured by Solur Wind. The power take-off device from wire 9 is implemented on the basis of a feed-through transformer, the primary winding of which is the OHL wire passing through it, and the secondary winding through the diode bridge is connected to the charging device 7.

Sources of information used:

1. RF patent for the invention "Device for monitoring electric power systems" No. 2143165, pr. 05.29.1998, IPC H02J 13/00, G01R 15/06.

2. RF patent for the invention "Device for remote monitoring of the state of the overhead power line wire" No. 2222858, pr. 31.10.2002, IPC H02J 13/00.

3. RF patent for utility model "Device for remote monitoring of the state of the overhead power line wire" No. 95913, pr. 24.03.2010, IPC H02G 7/16.

Claims (8)

1. The device for remote monitoring of the state of the wire overhead power line, made with the possibility of installing on the wire overhead power line and containing a temperature sensor wire and current sensor wires, as well as means for wireless data transmission to the ground terminal connected to the information processing unit, a power supply unit, made in in the form of a battery, the charge of which is carried out from the solar module and / or from the power take-off device from the wire, characterized in that the charge th device is connected to the information processing unit performing its control. 2. The device according to claim 1, characterized in that it additionally includes an air temperature sensor connected to the information processing unit. 3. The device according to claim 1, characterized in that the air temperature sensor is located in physical proximity to the connection point of the device. 4. The device according to claim 1, characterized in that the information processing unit is configured to control the entire device. 5. The device according to claim 1, characterized in that the temperature sensor of the wire is placed in a separate housing having low thermal conductivity. 6. The device according to claim 1, characterized in that the wire temperature sensor is installed separately from the device body. 7. The device according to claim 1, characterized in that the wire current sensor is made on the Hall effect, providing control of both alternating current and direct current. 8. The device according to claim 1, characterized in that the battery is connected to all blocks of the device.