RU104808U1 - INTELLIGENT LIGHTING SYSTEM AND LIGHT INTELLECTUAL LIGHTING SYSTEM - Google Patents

Abstract

 1. Intelligent lighting system (ISO), comprising a power supply network, at least one lamp with electronic controlled ballast and a control module with motion and light sensors for generating and transmitting control signals to an electronic controlled ballast of the lamp, characterized in that it is additionally equipped remote control system settings of the control module, while the last and electronic ballast are made with the possibility of communication via power lines of PLC technology. ! 2. ISO according to claim 1, characterized in that the remote configuration system includes external devices for transmitting signals of the working settings of the luminous flux of the lamp, made with the possibility of control based on wireless protocols via infrared channels and / or via wired TCP / IP protocol LAN Ethernet and / or wireless Wi-Fi. ! 3. A luminaire of an intelligent lighting system, including an electronic controlled ballast for converting AC voltage to a light source voltage, characterized in that it further comprises a decoding unit for control commands received via a PLC technology power line, and a microprocessor controller for the algorithmic processing of control signals and generation control pulses for the key of the regulator of the output voltage of the lamp in the range 0-260 V with a current of 350-700 mA. ! 4. The lamp according to claim 5, characterized in that the light source is solid-state.

Description

The utility model relates to energy-saving lighting systems and can be used to organize controlled lighting in the premises of a building or structure.

Known resource and energy-saving lighting system containing a power source and fixtures, which include a lighting device connected to a power source through a voltage converter of the source to the voltage of the lighting device, as well as a control circuit of the converter, while the converter of the source voltage to the lighting voltage the device is made controllable with the ability to control the power of the lighting device, the control circuit of the converter is made with ozhnostyu realization of energy-saving control algorithm, and the power source is in the form of a network converter AC voltage to a DC voltage network. The control circuit includes a motion sensor and a timer. (Description to patent RU 80087 U1, IPC H05B 37/02 (2006.01), published January 20, 2009)

Known energy-saving lighting system, which contains a motion sensor and an electronic controlled ballast to which a fluorescent lamp is connected, while the motion sensor is configured to interact with an electronic controlled ballast through a control channel and includes a sensitive element of the motion sensor, a sensitive element of the natural light sensor, outputs which are connected to the main timer, and the output sensor of the motion sensor, while the motion sensor is connected to analogs the input (1-10 V) of the electronic controlled ballast by means of a converter for the output signal of the motion sensor, which by its contacts shunts the port (1-10 V) of the electronic controlled ballast (description of patent RU 93612 U1, IPC H05B 41/00 (2006.01), published 04/27/2010).

In known lighting systems, energy can be saved by automatically turning on / off all or selected fixtures during the day per hour when the building or area nearby is empty or when the room is adequately lit with bright daylight. At the same time, the automation of the tuning process is based on an astronomical clock.

A disadvantage of the known lighting systems is the lack of flexibility in controlling the settings of the fixtures.

A known lamp is an energy-saving lighting system, including a light source in the form of a lamp and an electronically controlled ballast for converting AC voltage to a light source supply voltage (description of patent RU 93612 U1, IPC H05B 41/00 (2006.01), published on April 27, 2010).

A disadvantage of the known lamp is the limited ability to control power.

The objective of the utility model is the development of an energy-saving lighting system and a luminaire for it based on sensor networks and intelligent sensors, increasing the lighting efficiency of buildings and structures, as well as reducing energy losses and equipment costs in power networks.

The technical result of using the utility model is to simplify and increase the flexibility of controlling the operating modes of electrical appliances in the lighting system.

The technical result is achieved by the fact that the intelligent lighting system (ISO), including a power supply network, at least one lamp with electronic controlled ballast and a control module with motion and light sensors for generating and transmitting control signals to an electronic controlled ballast of the lamp, it is additionally equipped remote control system settings of the control module, while the last and electronic ballast are made with the possibility of communication via power lines of PLC technology.

The remote configuration system may include external devices for transmitting signals of the working settings of the luminous flux of the lamp and operating modes, made with the possibility of control based on wireless communication channels via infrared (UC) communication channels and / or TCPLR LAN wired LAN Ethernet or wireless Wi-Fi.

The technical result is achieved by the fact that the luminaire of an intelligent lighting system, including an electronic controlled ballast for converting AC voltage to the power supply of the light source, further comprises a decoding unit for control commands received via the PLC technology power line, and a microprocessor controller for the algorithmic processing of control signals and generation control pulses for the key of the regulator of the output voltage of the lamp in the range 0-260 V with a current of 350-700 mA.

The light source may be solid state.

The essence of the technical solution for constructing ISO consists in controlling lighting over 220 V, 50 Hz power networks using PLC technology, as well as transmitting control commands in the infrared range and via LAN LAN or wireless Wi-Fi via TCPLR protocol of a local area network.

Figure 1 presents a schematic representation of the ISO premises of the building; figure 2 - the control module for the formation and transmission of control signals to an electronic controlled ballast of the lamp; figure 3 - lamp ISO.

The intelligent lighting system of the premises of building 1 contains a power network 2, luminaires 3 with electronically controlled ballast 4, a control module 5 and a remote control system for the latter. The control module 5 includes a light and motion sensor 6, an IR command receiver 7, a local computer network cable input 8, and also a control command generation and transmission unit via a PLC technology power line (not shown) to an electronic controlled ballast 4 of the lamp 3.

In rooms where it is planned to turn on the fixtures 3 after the movement, and this movement may occur outside the range of the motion sensor 6-4 ... 5 m around the control module 5, one or more additional external motion sensors 9 can be connected to the latter. This there may be ordinary security sensors.

The remote configuration system includes a local TCP / IP network, wired LAN Ethernet 10 and / or wireless Wi-Fi, and external devices for transmitting signals for working settings of the luminous flux of the lamp, as well as operating modes - an IR remote control 11 and / or a personal computer 12 with installed on it with an Internet browser (MS Internet Explorer, Opera, Fire Fox, Chrome, etc.) that supports the JavaScript language and the organization of a WEB connection. The type of IP address for the web interface of the control module is static.

As the IR remote control 11, any remote control of household appliances (from televisions, music centers, air conditioners, etc.) of the IR wavelength range can be selected and programmed by the user. An IR remote control is required for the room, which can also perform its direct functions within the boundaries of the room.

In the room, the control module 5 is placed in such a way as to ensure the "visibility" of its IR receiver 7 for the IR remote control 10 from all points.

ISO luminaires 3 include a power supply unit 13, which converts AC voltage of 220 V, 50 Hz into a stabilized constant voltage in the range 0-260 V with a current of 350-700 mA and an electronic controlled ballast 4, containing a decoding unit for control commands of the control module 5, adopted on the power line of PLC technology, a microprocessor controller for the algorithmic processing of control signals and the formation of control pulses for the key of the regulator of the output voltage (not shown) of the light source 14.

The light source 14 can be solid state, for example, in the form of lamps based on LEDs of the CLN6A series.

If there are several phases in the power network and if there are lamps in the room that are not connected to the same phase as the control module 5, then interfacial capacitors (not shown) are installed between the neutral and phase wires of the power line (phase) of the control module 5 and the line power (phase) of the lamp (s).

The on and off control of the fixtures, the brightness adjustment, as well as the operation mode of the fixtures 3 ISO is carried out by the user from the IR remote control 11 of the remote control and / or via the WEB interface of the personal computer 12.

When using the infrared communication channel, the signal is received by the IR receiver 7 of the control module 5 and is sent as a command via a 220 V network to an electronic controlled ballast 4, which processes it. The path of the control signals when using the WEB-interface is similar.

ISO can operate in one of four modes - manual, manual with motion sensor, automatic and automatic with motion sensor. For each of the ISO fixtures, the mode can be set individually or for all at once.

In manual mode, the luminaire power is set using the IPDU or via the WEB interface and the settings are saved in the non-volatile memory of the luminaire. When the lighting is switched on with a room switch, the lamps turn on at a given power.

In manual with a motion sensor - the operation is similar to the previous mode, but the lamps turn on only when the motion sensor is triggered, remain on for a specified timeout, and then turn off. When the lighting is turned on with a room switch, the lamps turn on at a given power, remain on for a specified timeout, and then turn off until the motion sensor is triggered.

In automatic mode, the power value for each of the luminaires is set during programming and stored in non-volatile memory.

In automatic mode with a motion sensor - the operation is similar to the previous mode, but the lamps turn on at the power calculated by the illumination only when the motion sensor is triggered, remain on for a specified timeout, and then turn off. When the lighting is turned on by a room switch, the lamps turn on at a given power, remain on for a specified timeout, and then turn off.

The claimed group of utility models allows you to organize controlled lighting in the premises of a building or structure with the following tasks:

- automatic on / off lighting upon the presence / absence of people in the room; the time intervals of the delay timer for switching off the illumination from the motion sensor can be set by the user during operation or correspond to the configuration of the manufacturer;

- automatic adjustment of the luminous flux level of the lamp depending on the level of illumination in the room; the dependence of the luminous flux of the lamp on the level of illumination of the room can be set by the user during operation or correspond to the configuration of the manufacturer;

- configuration of system settings and remote control of the luminous flux level of both all room fixtures and each of the fixtures individually, using an infrared remote control, or via a local computer network using TCP / IP protocol (wired LAN Ethernet and / or wireless Wi -Fi) using a personal computer;

- saving configuration settings of the intelligent power system in non-volatile memory;

- stabilization of the supply current of the LED lines with the required direct voltage drop on each of the LEDs of the lamp in the working range of the input voltage of the mains 220 V 50 Hz.

Claims (4)

1. Intelligent lighting system (ISO), comprising a power supply network, at least one lamp with electronic controlled ballast and a control module with motion and light sensors for generating and transmitting control signals to an electronic controlled ballast of the lamp, characterized in that it is additionally equipped remote control system settings of the control module, while the last and electronic ballast are made with the possibility of communication via power lines of PLC technology. 2. ISO according to claim 1, characterized in that the remote configuration system includes external devices for transmitting signals of the working settings of the luminous flux of the lamp, made with the possibility of control based on wireless protocols via infrared channels and / or via wired TCP / IP protocol LAN Ethernet and / or wireless Wi-Fi. 3. A luminaire of an intelligent lighting system, including an electronic controlled ballast for converting AC voltage to a light source voltage, characterized in that it further comprises a decoding unit for control commands received via a PLC technology power line, and a microprocessor controller for the algorithmic processing of control signals and generation control pulses for the key of the regulator of the output voltage of the lamp in the range 0-260 V with a current of 350-700 mA. 4. The lamp according to claim 5, characterized in that the light source is solid-state.