RU207157U1 - Outdoor lighting network monitoring and control device - Google Patents

Abstract

The utility model relates to the field of electrical engineering and automation and can be used in devices for automatic control and management of street lighting in the form of a terminal located on street lighting poles. The required technical result, which consists in providing remote monitoring of the network and control of its switching elements, is achieved in a device containing a control unit in the form of a controller equipped with remote communication means, and is configured to monitor and control an outdoor lighting network containing three phase working conductors and one combined protective and zero working conductor, while the first input of the control unit is configured to be connected to the combined protective and zero working conductor through the first current measuring device in the main section of the outdoor lighting network, and the group of inputs is configured to connect through the first group of remotely controlled switching elements with the first group, a current measuring device designed to measure the current in each of the three phase working conductors in the main section of the outdoor lighting network, and the control unit is configured to provide a distance monitoring of the outdoor lighting network and control of its switching elements using means of remote communication via Wi-Fi / Bluetooth / HSPA / LTE / LTE Advanced / PLC, including registration of readings of current measuring devices and devices for phase-to-phase and phase-to-phase voltage measurement, processing of measurement results and generating on this basis control signals for switching elements. 6 c.p. f-ly, 1 dwg.

Description

The utility model relates to the field of electrical engineering and automation and can be used in devices for automatic control and management of street lighting in the form of a terminal located on street lighting poles.

Known road lighting control system [RU 2453761, C1, F21S 9/00, 06/20/2012], containing a section with N-number of LED lamps, controlled centrally from the control room by an astronomical clock, to the input of which a three-phase AC voltage is connected, a sensor illumination, the first, second and third switches, the first, second, third and fourth video cameras installed in pairs on the extreme supports of the illuminated area, a four-channel video motion detector, the first, second and third timers, a fog sensor and an ice sensor, while the first phase of the three-phase network is connected to the input of the light sensor, the output of which is connected to the input of the first switch, to the output of which, in turn, the first inputs of each of the N-LED lamps and the power inputs of the first, second, third and fourth video cameras are connected, the second power inputs of the video motion detector, the first, second and third timers, second and third switches, as well as f the power inputs of the fog sensor and ice sensor, the outputs of the first, second, third and fourth video cameras are connected respectively to the third, first, fifth and fourth inputs of the video detector, the output of which is connected to the first input of the first timer, the output of which is in turn connected to the first input of the second timer, and the output of the second timer is connected to the first input of the second switch, the second output of the second switch is connected to the first input of the third timer, the output of which is connected to the first input of the third switch, the third input of the second and third inputs of the third switches are connected respectively to the second and third phases of the supply section network, and the first output of the second and the output of the third switches are connected to the second and third inputs of each of the N-lamps, the fog sensor output is connected to the fourth inputs, and the ice sensor output is connected to the fifth inputs of the second and third switches, the zero terminals of the area lamps are connected to zero mains wire.

The disadvantage of the system is its high complexity.

There is also known a system for controlling the area lighting [RU 2427985, C1, H05B 37/02, 20.10.2010], containing two sections, each of which has a light source, as well as a control unit functionally connected to each light source, and the control unit is configured for two-way communication between the control unit and adjacent control units to provide energy-saving lighting.

The disadvantage of this technical solution is its narrow functionality.

In addition, a known lighting control system [RU 98315, U1, H05B 37/02, 10.10.2010] contains a controller with a real time clock, power modules with microcontrollers, and photosensors with microprocessors, while the controller and power modules contain transceivers for wireless communication.

The disadvantage of this technical solution is the relatively high complexity due to the need to use power modules with transceivers for wireless communication.

The closest technical solution to the proposed one is a system for monitoring and controlling street lighting by creating temporary zones dynamically changing over the area at the objects of area lighting [RU 112572, U1, Н05В 37/02, 10.01.2012], containing control units for lighting the area, including means for control and coordination of illumination and interconnected with each other and light sources through two-way communication, and the control units are combined into a single information and computing wireless network with a control center, which serves to transmit, collect, process, analyze and store information, and include the main nodes, functionally connected with each other and the control center, while the main unit contains equipment on the supports of light sources, including control subsystems, two-way communication, object monitoring, power supply, monitoring the performance of the unit equipment and emergency operation of the unit.

The disadvantage of the device is the inability to provide remote control of the lighting network and control of its switching elements. This narrows down the functionality of the system.

The task to be solved by the utility model is the creation of a multifunctional programmable device for monitoring and control of an outdoor lighting network that provides remote control and management using remote communication means, such as Wi-Fi / Bluetooth / HSPA / LTE / LTE Advanced / PLC, including also control the operation of luminaires, control of peripheral devices, registration of readings of measuring instruments for the functional characteristics of individual elements of the lighting network, processing of measurement results and generation of control signals on this basis.

The required technical result consists in providing remote monitoring of the network and control of its switching elements in order to significantly increase the reliability of lighting and simplify the removal of the lighting device from operation to perform repairs, eliminating, in particular, the need for physical switching of conductors.

The problem is solved, and the required technical result is achieved by the fact that the lighting support is equipped with a control unit, which is made in the form of a controller equipped with means of remote communication and made with the ability to monitor and control an outdoor lighting network containing three phase working conductors and one combined protective and zero a working conductor, while the first input of the control unit is configured to be connected to the combined protective and zero working conductor through the first current measuring device in the main section of the outdoor lighting network, and the group of inputs is configured to connect through the first group of remotely controlled switching elements with the first group current measuring devices designed to measure the current strength in each of the three phase working conductors in the main section of the outdoor lighting network, and the control unit is made with the possibility of remote connection with serially installed on one side of the main section of the outdoor lighting network of the second group of current measuring devices designed to measure the current in each of the three phase working conductors, the second group of remotely controlled switching elements for measuring current and voltage and the first device for phase and phase-to-phase voltage measurement, as well as with the possibility of remote connection of the second device for phase-to-phase and phase-to-phase voltage measurement installed in series on the other side of the main section of the outdoor lighting network, the third group of current measuring devices designed to measure the current in each of the three phase working conductors, the third group of remotely controlled switching elements and the third device for phase-to-phase and phase-to-phase voltage measurement, while the control unit is configured to provide remote control of the outdoor lighting network and control its switching elements using means remote communication via Wi-Fi / Bluetooth / HSPA / LTE / LTE Advanced / PLC, including registration of readings of current measuring devices and devices for phase-to-phase and phase-to-phase voltage measurement, processing of measurement results and generation on this basis of control signals for switching elements.

In addition, the required technical result is achieved by the fact that the control unit is configured to be placed in a protective hermetically sealed grounded cabinet.

In addition, the required technical result is achieved by the fact that the control unit is configured to be powered from the outdoor lighting network.

In addition, the required technical result is achieved by the fact that the control unit is configured to be powered from the technological power supply network.

In addition, the required technical result is achieved by the fact that the control unit is configured to be powered from an uninterruptible power supply.

In addition, the required technical result is achieved by the fact that a motion sensor and a light sensor, remotely connected to the control unit, are additionally installed on the lighting support, and a digital video camera can be used as a motion sensor and a light sensor, and the data obtained from sensors or a digital video camera, processed by the control unit and used to control the brightness of the luminaire and provide rational consumption of electrical energy by the luminaire and its savings.

In addition, the required technical result is achieved by the fact that an inertial module, remotely connected to the control unit, is additionally installed on the lighting support, the data from which is processed by the control unit and used to determine the position of the support in space, which ensures monitoring the state of the supports, reducing the search time in case of damage and increased safety of operation of lighting devices.

In addition, the required technical result is achieved by the fact that on the support of the lighting device additionally installed means for measuring the consumed current, switching elements and electrical ports for connecting consumers with voltage up to 12 V, remotely connected to the control unit, while the control unit provides data on power consumption and the possibility recharging / feeding consumers in accordance with the program set in the control unit.

In addition, the required technical result is achieved by the fact that a distributed lighting control system is used to monitor and control the outdoor lighting network, which contains a program for the formation of a directed light wave, expressed in directional sequential ignition and extinguishing of lamps with a frequency that provides an unambiguous visual interpretation of the direction of movement of such a wave. , which simplifies, if necessary, the process of evacuating people from places of general / mass congestion.

In addition, the required technical result is achieved by the fact that the means of remote communication installed in the control unit are used to provide authorized access to the global Internet.

The drawing shows a functional diagram of a device for monitoring and controlling outdoor lighting networks together with a luminaire, a lighting network and measuring instruments.

The device for monitoring and controlling outdoor lighting networks contains a control unit 1, which is made in the form of a control controller and is located on the lighting support 2 with a lamp 3 fixed on it, moreover, the control unit 1 is configured to monitor the state of the lamp 3 and monitor and control the outdoor network 4 lighting, containing three phase working conductors 5 and one combined protective and neutral working conductor 6.

In the device, the first input of the control unit 1 is made with the possibility of connecting with the combined protective and zero working conductor 6 through the first device 7 for measuring the current strength in the main section 8 of the outdoor lighting network, and the group of inputs is made with the possibility of connecting through the first group 9 of remotely controlled switching elements with the first group 10 is a current measuring device designed to measure the current in each of the three phase working conductors 5 in the main section of the outdoor lighting network.

In addition, the control unit 1 is made with the possibility of remote connection with sequentially installed on one side of the main section 8 of the outdoor lighting network of the second group 11 of current measuring devices designed to measure the current in each of the three phase working conductors 5, the second group 12 remotely controlled switching elements and the first device 13 for phase-to-phase and phase-to-phase voltage measurement, as well as with the possibility of remote connection in series on the other side of the main section 8 of the outdoor lighting network of the second device 14 phase-to-phase and phase-to-phase voltage measurement, the third group 15 of current measuring devices intended for measuring the current strength in each of the three phase working conductors 5, the third group 16 of remotely controlled switching elements and the third 17 device for phase-to-phase and phase-to-phase voltage measurement.

The device for monitoring and controlling outdoor lighting networks works as follows.

The device provides selective disconnection of the damaged phase in case of all types of short circuit (SC), overvoltages arising in the outdoor lighting network and in the supply wires of the luminaire, as well as selective disconnection of electrical installations (if they are connected to the outdoor lighting network) in case of insulation failure of electrical equipment or upon contact with live parts of the electrical installation. The device provides regulation of light intensity depending on natural light.

The control unit 1 provides remote control of the switching elements, as well as the registration of readings of current measuring devices and a phase-to-phase and phase-to-phase voltage measurement device, using means of remote communication via Wi-Fi / Bluetooth / HSPA / LTE / LTE Advanced / PLC. The control unit 1 through the second 12 and third 16 groups of remotely controlled switching elements provides localization of the damaged section of the outdoor lighting network, and through the first group 9 remotely controlled switching elements provides, if necessary, transferring the load of the luminaire 3 to another phase.

Thus, the device achieves the required technical result, which consists in providing remote control of the network and control of its switching elements using remote communication means via Wi-Fi / Bluetooth / HSPA / LTE / LTE Advanced / PLC, including recording the readings of current measuring devices and devices for phase-to-phase and phase-to-phase voltage measurement, processing of measurement results and generation on this basis of control signals for switching elements.

Claims (7)

1. A device for monitoring and controlling outdoor lighting networks, containing a control unit located on a lighting support with a luminaire attached to it, characterized in that the control unit is made in the form of a controller equipped with remote communication means and is configured to monitor and control the outdoor lighting network, containing three phase working conductors and one combined protective and zero working conductor, while the first input of the control unit is configured to be connected to the combined protective and zero working conductor through the first current measuring device in the main section of the outdoor lighting network, and the group of inputs is configured connection through the first group of remotely controlled switching elements with the first group a current measuring device designed to measure the current in each of the three phase working conductors in the main section of the outdoor lighting network, and the control unit is configured to distribute connection with the second group of current measuring devices installed in series on one side of the main section of the outdoor lighting network, designed to measure the current strength in each of the three phase working conductors, the second group of remotely controlled switching elements for measuring current and voltage and the first device of phase-by-phase and phase-to-phase voltage measurement, as well as with the possibility of remote connection sequentially installed on the other side of the main section of the outdoor lighting network of the second device for phase-to-phase and phase-to-phase voltage measurement, the third group of current measuring devices designed to measure the current in each of the three phase working conductors, the third a group of remotely controlled switching elements and a third device for phase-to-phase and phase-to-phase voltage measurement, while the control unit is configured to provide remote control of the outdoor lighting network and control it switching elements using means of remote communication via Wi-Fi / Bluetooth / HSPA / LTE / LTE Advanced / PLC, including registration of readings of current measuring devices and devices for phase-to-phase and phase-to-phase voltage measurement, processing of measurement results and generation on this basis of control signals for switching elements. 2. The device according to claim 1, characterized in that the control unit is designed to be powered from the outdoor lighting network, from the technological power supply network, from an uninterruptible power supply. 3. The device according to claim 1, characterized in that a motion sensor and a light sensor, remotely connected to the control unit, are additionally installed on the lighting support, and a digital video camera can be used as a motion sensor and video cameras are processed by the control unit and used to control the brightness of the luminaire, and provide rational consumption of electrical energy by the luminaire and its saving. 4. The device according to claim 1, characterized in that an inertial module, remotely connected to the control unit, is additionally installed on the lighting support, the data from which is processed by the control unit and used to determine the position of the support in space, which ensures monitoring of the condition of the supports, reducing the search time in in the event of their damage and increasing the safety of operation of lighting devices. 5. The device according to claim 1, characterized in that on the support of the lighting device additionally installed means for measuring the consumed current, switching elements and electrical ports for connecting consumers with voltage up to 12 V, remotely connected to the control unit, while the control unit provides data on power consumption and the possibility of recharging / feeding consumers in accordance with the program set in the control unit. 6. The device according to claim 1, characterized in that a distributed lighting control system is used to monitor and control the outdoor lighting network, which contains a program for the formation of a directed light wave, expressed in directional sequential ignition and extinguishing of lamps with a frequency that provides an unambiguous visual interpretation of the direction of movement such a wave, which simplifies, if necessary, the process of evacuating people from places of general / mass congestion. 7. The device according to claim 1, characterized in that the means of remote communication installed in the control unit are used to provide authorized access to the global Internet.

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