RU2605237C1 - Control device, illumination control system and method - Google Patents

Abstract

FIELD: lighting.

SUBSTANCE: group of inventions relates to control systems field, specifically to system of interconnected controlled light sources, and can be used for establishing lighting of warehouses, rooms and open spaces. In control device, lighting system and lighting system controlling method lighting system represents software-hardware system, containing, at least, one control device, at least, two terminal devices functionally related to it, with light sources connected to them, containing routers, made with possibility to include information sources to generate control signals into illumination system, and control device enables control over lighting system in compliance with loaded illumination system operation plan and generating recommendations to user in order to reduce power consumption. At that, method of lighting system controlling provides loading or generation of lighting system operation plans, and illumination level adjustment is carried out by changing number of switched on light sources, besides, smooth mode switching is carried out by serial switching on of required number of light sources with controlled switching on delay time.

EFFECT: technical result is creation of lighting system, as well as such system controlling device and method, providing possibility of territories or facilities long-term illumination plans setting, and their execution in absence of terminal devices communication with control device, as well as gathering of statistical information and system rearrangement for varying tasks, wherein all terminal devices feature identical device with simple control of light sources by means of switching on/switching off.

27 cl, 1 dwg

Description

The group of inventions relates to the field of control systems, namely to a system of interconnected adjustable light sources, and can be used to organize lighting of warehouses, industrial and commercial premises and open spaces.

A known lighting system and its control method according to the patent of the Russian Federation No. 2530310 (published on January 20, 2015), which contains light sources for general lighting, as well as light sources for local lighting, designed to illuminate a predefined area, such as a workplace, for example , with variable brightness. Many presence sensors are provided for detecting presence in a number of areas of presence. Light sources for general lighting and light sources for local lighting are controlled by presence sensors. Each presence sensor is configured to wirelessly communicate with other sensors. In this case, after the presence detection, in one zone, the presence detection sensors activate at least one light source for general lighting and send a control signal to other presence sensors to activate other light sources for general lighting, and the brightness of the group of light sources for local lighting illuminating the occupied area is set at a level higher than the brightness of the remaining light sources for local lighting.

The disadvantages of the lighting system are the need for organizing the operation of the system with a large number of presence sensors, the inconvenience of tuning, since tuning or rebuilding the system requires reconfiguration of the sensors, that is, work is required at the height of the illuminators (and this is usually 10-15 meters in real industrial lighting systems) , as well as limited application, since the system does not provide for the possibility of setting long-term lighting plans, collecting statistics and rebuilding the system to change ongoing tasks. The operation of the system is based solely on, interconnected, presence sensors, and when the sensor fails, the system’s performance is lost. The lighting system uses light sources with adjustable brightness, which leads to an increase in the cost of the lighting system.

The technical result, to which the invention is directed, is to save energy by creating a lighting system, as well as a control device and a control method for such a system, providing the ability to set long-term lighting plans for territories or premises, and their implementation in the absence of communication between terminal devices and a control device, as well as collecting statistical information and restructuring the system for changing tasks, and all terminal devices are characterized by the same device PTO with simple control of light sources connected to them by switching on / off.

The technical result is achieved in a lighting system, which is a hardware-software complex containing at least one control device, at least two terminal devices, and at least one light source switched by it is connected to each terminal device wherein, in the terminal device, an arrangement is provided comprising a switching unit (on / off) of the light source power supply network, a signal encryption and decryption function block, a memory function block and, and a functional unit of a wireless network router that provides communication between terminal devices with routers of neighboring terminal devices and through them with a control device of the lighting system, as well as a functional unit for measuring currents and voltages of light sources. The terminal device is configured to transmit status information connected to it by at least one light source to the control device and other terminal devices. Due to the functional memory unit, the terminal device is configured to store downloadable information about the operating plan of the terminal device and light sources, as well as to collect and store information about the operating parameters of the light sources switched by the terminal device. The terminal device is capable of executing commands according to the operating plan of the terminal device by switching (turning on / off) the power supply of at least one light source, including when the control device is disconnected or out of order. The terminal device is also configured to, in the event of failure of any or all of the functional blocks contained therein, ensure a constant connection of the light source to the power network. The encryption / decryption functional unit is configured to provide independent operation of the terminal devices of adjacent lighting systems organized in a similar manner. The lighting system is made with an excessive number of initially turned off light sources in order to compensate for the decrease in illumination during the degradation of light sources by the end of their life.

The lighting system may also contain information sources for generating control signals, which can be used as light sensors and / or motion sensors, and / or sensors of noise, and / or presence, and other types of sensors. The lighting system is configured to remotely connect to a system of terminal devices and to remotely configure information sources for generating control signals, as well as to exchange data between terminal devices received from information sources for generating control signals.

The lighting system, if it is necessary to expand or change the requirements for the lighting system, can be supplemented with terminal devices and / or information sources for generating control signals.

The technical result is also achieved using the control device of the lighting system, where an arrangement is provided that contains a functional unit for generating control signals for terminal devices, a functional unit for collecting information from terminal devices, a functional unit for analyzing information received from terminal devices, a functional unit for generating plans for the operation of the lighting system , functional memory unit, functional interface unit for entering lighting system work plans, functional a signal encryption and decryption unit, a functional unit of a transceiver device, providing wireless exchange of information of the control device with the routers of the terminal devices, providing the transmission of work plans of the system and terminal devices to the terminal devices remote from the control device. The control device is configured to issue control signals to terminal devices and collect information from terminal devices. The control device is configured to download control plans and obtain information about the status of the lighting system.

An arrangement may also be provided in the control device, which also contains a functional unit for collecting and analyzing information from information sources for generating control signals, provided that they are present in the system, as well as a functional unit for configuring information sources for generating control signals and a functional interface unit for setting sources information for generating control signals.

The control device can be made in the form of a separate module or a module that is built into the information source for generating control signals, which can be used as a light sensor or a motion sensor.

The technical result is also achieved in the method of controlling the lighting system, in which the user remotely connects information sources to the lighting system for generating control signals to terminal devices and remotely configures these sources using the interface to configure information sources for generating control signals, downloads, including remote access mode, using the interface to enter the lighting system work plans, the lighting system work plan into the control device lighting, and the control device collects information from terminal devices, collects information from information sources connected to the lighting system for generating control signals, determines the correspondence of information received from the lighting system elements to the loaded control plan, generates control signals for terminal devices according to the loaded system work plan, encrypts control signals, sends to the terminal devices the work plan of each specific terminal device using m routers of terminal devices, and each terminal device decrypts the incoming control signals, loads the operating plan of this terminal device, corresponding to the general plan of operation of the lighting system, into the functional block of the terminal device, switches the light source / sources of the terminal device in accordance with the plan of operation of the terminal device. In the method, when the light sources are degraded by the end of their service life, the control device connects previously installed excessively turned off light sources to compensate for the decrease in illumination. In the method, the control device controls the level of illumination by changing the number of turned on light sources. In the method for reducing inrush currents and the total load on the electric network, the control device performs a mode of smooth inclusion of lighting by sequentially turning on the required number of light sources with an adjustable turn-on delay time. In the method, the control device analyzes and accumulates information received from terminal devices and, if there are information sources in the lighting system for generating control signals, information received from these sources, and also performs statistical processing of the accumulated information. Based on the obtained statistical data on energy consumption, on the number of hours worked by the lighting system elements, on the number of failures of the lighting system elements, on the operability of the lighting system, in the method, the control device or user changes the lighting system operation plan in order to more efficiently use electricity when a specific plan is implemented lighting system work. In the method, based on the analysis of statistical information, the control device predicts energy consumption, the amount of necessary maintenance of light sources and terminal devices, and evaluates the results for various plans of the lighting system. In the method, the control device gives recommendations to the user based on the analysis of statistical information and forecasting for specific plans of the system, taking into account the individual requirements of the user. In the method, the user enters the lighting system work plan templates for various tasks, including for architectural lighting, for street lighting, for industrial lighting, for lighting warehouses, for lighting parking lots, for lighting office premises, for lighting commercial premises, for lighting corridors, for emergency lighting. In the method, the user selects one of the templates of the lighting system work plans or forms, using the interface for entering lighting system work plans, a work plan for user conditions. In the event of emergency situations in the lighting system, the control device generates an alarm notification signal and includes a custom emergency plan for the lighting system.

Figure 1 shows a diagram of an implementation of a lighting system. P - user, 1 - control device, 2.1, 2.2 ... .2.N - terminal devices, 3 - light source, 4 - switching functional block, 5 - encryption and decryption functional block, 6 - memory functional block, 7 - functional block wireless network router, 8 - functional block for generating control signals for terminal devices, 9 - functional block for collecting information from terminal devices, 10 - functional block for analyzing information received from terminal devices, 11 - functional block for generating work plans with lighting systems, 12 — memory functional block, 13 — interface functional block for inputting lighting system work plans, 14 — signal encryption and decryption functional block, 15 transceiver device functional block, 16 — information collection and analysis function block from information sources for generating signals control, 17 - a functional unit for setting up information sources for generating control signals, 18 - a functional block of an interface for setting up information sources for generating a signal ov control, 19 - light sensor, 20 - motion sensor.

The invention can be implemented as follows. The lighting system contains a control device 1, terminal devices 2, and at least one light source 3 is connected to each terminal device 2, while terminal device 2 contains a functional block for switching (on / off) the power supply network of light source 4, functional a signal encryption / decryption unit 5, a memory function block 6, a function block of a wireless network router 7, providing communication between terminal devices 2 and routers 7 of neighboring terminal devices 2 and through them ravlyaetsya lighting apparatus 1, a functional block of the current and voltage measurements 8 connected to the terminal device 2 light sources 3. The lighting system is provided with an excess amount of light sources 3 to compensate for ambient light reduction when the light source 3 to the degradation of the end of their service life. The control device 1 of the lighting system contains a functional unit for generating control signals for terminal devices 9, a functional unit for collecting information from terminal devices 10, a functional unit for analyzing information received from terminal devices 11, a functional unit for generating work plans for the lighting system 12, a functional memory unit 13, functional interface unit for inputting lighting system work plans 14, signal encryption / decryption functional block 15, transceiver functional block th device 16, a functional block 17 for collecting and analyzing information from information sources for generating the control signals, the functional block 18 configuration information sources for generating the control signals, functional interface unit 19 for setting information sources for generating the control signals. The lighting system also includes a light sensor 20 and a motion sensor 21. The control device 1 is integrated in the housing of the light sensor 20.

User P remotely connects the light sensor 20 to terminal 2.2, and the motion sensor 21 to terminal 2.N and remotely sets these sensors using interface 19, downloads, in remote access mode, using interface 14, the lighting system work plan to the control device 1, and the control device 1 collects information from terminal devices 2.1, 2.2, ... 2.N, collects information from the light sensor 20 and the motion sensor 21, determines the correspondence of information received from elements of the lighting system to the current control plan, generates control signals for the terminal devices 2.1, 2.2, ... 2.N according to the loaded system work plan, encrypts the control signals, sends the work plan of each specific terminal device to the terminal devices 2.1, 2.2, ... 2.N using routers 7 terminal devices 2.1, 2.2, ... 2.N, and each terminal device decrypts the incoming control signals, loads the operating plan of this terminal device, corresponding to the general plan of operation of the lighting system, commu It turns on (or turns off) the light source 3 of the terminal device in accordance with the work plan of the terminal device. When the light sources 3 are degraded by the end of their service life, the control device 1 connects the previously installed redundant terminal devices from 2.1, 2.2, ... 2.N, which include the light sources 3 contained in them to compensate for the decrease in illumination. The control device 1 adjusts the level of illumination by changing the number of switched on light sources 3. To reduce the starting currents and the overall load on the electric network, the control device 1 performs a mode of smooth inclusion of lighting by sequentially turning on the required number of light sources 3 with an adjustable turn-on delay time. The control device 1 analyzes, accumulates and carries out statistical processing of information received from terminal devices 2.1, 2.2, ... 2.N, from the light sensor 20 and from the motion sensor 21. Based on the obtained statistical data on energy consumption, on the operating time of the number of hours by system elements lighting, on the number of failures of elements of the lighting system, on the operability of the lighting system, control device 1 or user P changes the plan of the lighting system in order to more efficiently use ektroenergii in carrying out a concrete plan of the lighting system. Based on the analysis of statistical information, the control device 1 predicts energy consumption, the amount of maintenance required for light sources 3 and terminal devices 2, and evaluates the results for various lighting system work plans. The control device 1 gives recommendations to the user P based on the results of the analysis of statistical information and forecasting for specific plans of the system, taking into account the individual requirements of the user. The user P enters the lighting system work plan templates into the control device 1 and selects one of the lighting system work plan templates or forms, using the interface 14, a work plan for user conditions. When emergency situations occur in the lighting system, the control device 1 generates an alert signal about the accident and includes a custom emergency plan for the lighting system.

Thus, a technical result is achieved, a lighting system is created, as well as a device and a control method for such a system, providing the ability to set long-term lighting plans for territories or premises, as well as collecting statistical information and rebuilding the system for changing tasks, and all terminal devices are characterized by the same device with simple control of light sources by turning on / off.

Claims (26)

1. The lighting system, which is a software and hardware complex, containing at least one control device, at least two terminal devices, each of which is connected to at least one light source, and in each terminal device is provided an arrangement comprising a light source power supply network switching function block, a signal encryption and decryption function block, a memory function block and a wireless router function block, and a function block er of currents and voltages of light sources, each terminal device being capable of transmitting information about the state of at least one light source connected to it to a control device, with the ability to store downloadable information about the operating plan of the terminal device, as well as the ability to collect and storing information about the operating parameters of the light sources switched by the terminal device, in addition, the terminal device is configured to execute commands according to the window work plan target device, by switching (turning on / off) the power supply of at least one light source, including when the control device is disconnected or malfunctioning, and in the event of failure of any or all of the functional blocks contained in the terminal device , with the possibility of ensuring a constant connection of the light source to the power supply. 2. The lighting system according to claim 1, characterized in that the encryption and decryption functional unit is configured to provide independent operation of terminal devices from control devices of other lighting systems. 3. The lighting system according to claim 1, characterized in that it is made with an excessive number of light sources. 4. The lighting system according to claim 1, characterized in that it contains information sources for generating control signals. 5. The lighting system according to claim 4, characterized in that the information sources for generating control signals are light sensors and / or motion sensors, and / or noise sensors, and / or presence sensors. 6. The lighting system according to claim 1, characterized in that it is configured to remotely connect to the system of terminal devices. 7. The lighting system according to claim 4, characterized in that it is configured to remotely configure information sources for generating control signals. 8. The lighting system according to claim 1, characterized in that it is configured to connect additional terminal devices to the system. 9. The lighting system according to claim 4, characterized in that it is configured to connect additional information sources to the system for generating control signals. 10. The control device of the lighting system, functionally connected to control the lighting system, which is a software and hardware complex containing at least one control device, at least two functionally associated with it terminal devices containing routers, configured to turn on the composition of the lighting system of information sources for generating control signals, characterized in that it contains a functional unit for generating control signals for the window devices, a function block for collecting information from terminal devices, a function block for analyzing information received from terminal devices, a function block for generating lighting system work plans, a memory function block, an interface functional block for entering lighting system work plans, a signal encryption and decryption function block, a functional block of the transceiver device, configured to provide wireless exchange of information of the control device from the routing tori of terminal devices, providing the transfer of work plans of the system and terminal devices to terminal devices remote from the control device, and the control device is configured to issue control signals to terminal devices and collect information from terminal devices, as well as configured to download control plans and receive information about the state of the lighting system. 11. The control device according to claim 10, characterized in that it contains a functional unit for collecting and analyzing information from information sources for generating control signals, contains a functional unit for configuring information sources for generating control signals, and also contains a functional block for the interface for setting information sources for formation of control signals. 12. The control device according to claim 11, characterized in that it is made in the form of a module built into the information source for generating control signals. 13. A method for controlling a lighting system, which is a software and hardware complex, containing at least one control device, at least two terminal devices functionally connected with it, containing routers, configured to include information sources in the lighting system for generating control signals, characterized in that the user loads the operating plan of the lighting system using the interface into the control device of the lighting system, and the control device your collects information from terminal devices, collects information from information sources connected to the lighting system for generating control signals, determines the correspondence of information received from lighting system elements to the loaded control plan, generates control signals for terminal devices according to the loaded system work plan, encrypts control signals and sends to the terminal devices the work plan of each specific terminal device using the routers of the terminal devices st, and each terminal device decrypts the incoming control signals, loads into the functional block of the terminal device the work plan of this terminal device, corresponding to the general plan of the lighting system, commutes the light source / sources of the terminal device in accordance with the plan of the terminal device, while level adjustment illumination is carried out by changing the number of switched on light sources, in addition, the mode of smooth inclusion of lighting by means of of turning on the required number of light sources with an adjustable turn-on delay time. 14. The method of controlling the lighting system according to item 13, characterized in that when the light sources are degraded by the end of their service life, the control device connects the previously connected excessively turned off light sources. 15. The method of controlling the lighting system according to item 13, wherein the control device analyzes and accumulates information received from the terminal devices, and also performs statistical processing of the accumulated information. 16. The method of controlling the lighting system according to claim 15, characterized in that, based on the obtained statistical data, the control device automatically changes the lighting system operation plan in order to more efficiently use electricity when the lighting system operation plan is implemented. 17. The method of controlling the lighting system according to clause 15, characterized in that, on the basis of the obtained statistical data, the user changes the operating plan of the lighting system in order to more efficiently use electricity when fulfilling the lighting system work plan. 18. The method of controlling the lighting system according to claim 15, characterized in that, based on the analysis of statistical information, the control device predicts energy consumption, the amount of maintenance required for light sources and terminal devices and evaluates the results for various lighting system work plans. 19. The method of controlling the lighting system according to claim 18, characterized in that the control device gives recommendations to the user based on the analysis of statistical information and forecasting for specific plans of the system, taking into account the individual requirements of the user. 20. The method of controlling the lighting system according to item 13, characterized in that the user enters the lighting system work plan templates into the control device. 21. The method of controlling the lighting system according to claim 20, characterized in that the user selects one of the entered templates for the plans of the lighting system. 22. The method of controlling the lighting system according to item 13, wherein the user forms, using the interface for entering plans for the operation of the lighting system, a work plan for user conditions. 23. The lighting system control method according to claim 13, characterized in that, in the event of an emergency in the lighting system, or in the power supply of the lighting sources, the control device generates an alarm notification signal and includes a custom emergency plan for the lighting system. 24. The lighting system control method according to claim 13, characterized in that the user connects information sources to the lighting system for generating control signals to terminal devices and remotely configures these sources using an interface for configuring information sources for generating control signals. 25. The method of controlling the lighting system according to paragraph 24, wherein the control device analyzes and accumulates information received from information sources for generating control signals, and also performs statistical processing of the accumulated information. 26. The lighting system control method according to claim 25, characterized in that, based on the analysis of statistical information, the control device predicts energy consumption, the amount of maintenance required for light sources and terminal devices, and evaluates the results for various lighting system operation plans.
The method of controlling the lighting system according to claim 26, characterized in that the control device gives recommendations to the user based on the analysis of statistical information and forecasting for specific plans of the system, taking into account the individual requirements of the user.

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