RU2452893C1 - Energy-saving lamp for outdoor lighting - Google Patents

Abstract

FIELD: electric engineering.

SUBSTANCE: controlled energy-saving lamp for outdoor lighting includes the first, the second and the third drivers of LEDs, LED unit and thermal relay. The first input of the first driver is connected to output of thermal relay to the input of which the first phase of three-phase network is connected; the first inputs of the second and the third drivers are connected to the second and the third phases of three-phase network respectively; the second inputs of the first, the second and the third drivers are connected to neutral wire of supply mains, and outputs (with equal signs) of all the three drivers are connected to each other and to similar poles of LED unit.

EFFECT: increasing energy saving during the control as part of existing automated outdoor lighting control systems; uniform illumination of roads, streets, parks and building territories when energy-saving and standby modes are switched over; providing stepped three-level switching ON and OFF of LED lamps in the evening and in the morning depending on decrease and increase in natural lighting; improving operating reliability of LED lamps; reducing costs for modernisation of existing lighting systems.

2 dwg

Description

The invention relates to electric lighting devices used in systems with centralized control of external lighting of roads, streets, parks, adjoining territories powered by a three-phase network and can be used in single-phase power networks with local control.

There are well-known street lighting fixtures of ZhKU, RKU models based on arc mercury lamps of the DRL, DNAT, DRI type, the electrical part of which is a ballast, connected to the phase voltage of a single-phase or three-phase network with a voltage of 380/220 V and supplying the lamp. Lighting control using such fixtures as part of automated systems for setting energy-saving and night modes is reduced to disabling / enabling individual phases from the control room automatically by an astronomical timer, photo relay, or operator.

The disadvantage of this control method is that from the night phase the luminaires remain powered through one or two in a line, which does not ensure uniformity of lighting, and switching the voltage to the line with a group of luminaires causes large current loads on the switching devices.

Energy-saving street lamps based on semiconductor light sources - bright LEDs are known, for example: the SSU model is manufactured by PROTON CJSC, DO-01, bargaining. brand "GALAD" - manufacturer - LZSI, "SUS-2", "TIS-U-40" - manufacturer of ZAO "SVETLANA-OPTOELECTRONIKA", consisting of a power source - a driver, which is an AC / DC - converter with an output current stabilizer, to the output of which a block of series-parallel-connected LEDs is connected.

Energy-saving luminaires are also known, for example, SIGMA, manufactured by Leuchten-Pasewalk, Germany, based on LEDs with a built-in light flux controller and controlled by radio or GSM channel. Such lamps are notable for their high cost and vulnerability, and are also not compatible with existing outdoor lighting control systems, which is why they are not used in street lighting systems in Russia.

The closest in technical essence of the invention, the prototype is an LED lamp, figure 1, containing a LED driver - an AC to DC converter with a current stabilizer and a block of series-parallel connected LEDs, while the driver input is connected to one of the phases of the supply voltage of a three-phase network AC - 220 V, and the output is to the LED block.

The specified lamp has the following disadvantages:

1) controlled street lighting lines with these LED lamps as part of automated systems in the same way as with lamps based on mercury lamps do not provide uniform street lighting, causing discomfort, energy-saving and standby, “night”, the modes are set by turning off the lamps through one or two in a line;

2) the transition to driver protection mode, due to exceeding the outside temperature, which is not predictable at present, leads to a complete shutdown of the lamp;

3) when the driver fails, having a lower reliability in comparison with the LED block, the lamp completely loses its functionality.

The invention solves the problem of energy saving, provides uniform lighting when the automated system switches to energy-saving or standby "night" modes, the possibility of three-stage control of the luminous flux of each lamp in the conditions of existing three-phase power supply systems, protection of drivers and LED block in case of exceeding the permissible outdoor temperature, two-stage redundancy luminous flux of the lamp in case of failure of one or two drivers, reducing consumption s for the modernization of existing systems, as the wiring diagram of street lighting lines in the conditions of existing automated outdoor lighting control systems does not change.

The problem is solved by three-level control of the luminous flux of each lamp included in the street lighting line, by switching each of the three phases of the network from a central or nodal control point in a three-phase network and disconnecting one phase when the permissible outdoor temperature is exceeded.

To solve this problem, a luminaire circuit containing a LED driver, to the input of which an AC phase voltage is connected, and an LED block is connected to the output, the second and third drivers and thermal relays are additionally introduced, while the power of each of the three drivers is three times less than driver power of the prototype, the first input of the first driver is connected to the output of the thermal relay, to the input of which the first phase of the three-phase network is connected, the first inputs of the second and third drivers are connected respectively to the second and third phases of phase-free network, the second inputs of the three drivers are connected to the neutral wire of the supply network, and the outputs of the three drivers of the same name are interconnected and connected to the same poles of the LED block.

These signs confirm the compliance of the proposed solutions to the inventive step.

In the graphic materials in figure 2 presents a block diagram of the proposed lamp.

The energy-saving controlled outdoor lighting lamp contains LED drivers 1, 2 and 3, LED block 4 and thermal relay 5, while the first input of driver 1 is connected to the output of thermal relay 5, and the input of thermal relay 5 is connected to the first phase of the three-phase network, the first inputs of drivers 2 and 3 are connected respectively to the second and third phases of a three-phase network, the second inputs of drivers 1, 2 and 3 are connected to the neutral wire of the supply network, and the outputs of drivers 1, 2 and 3 of the same name are connected to each other and to the same poles of the LED block 4.

Works energy-saving controlled lamp as follows.

When powering a group of streetlights from a three-phase network under the control of an automated system, at dusk, the voltage is supplied according to the program, in accordance with the astronomical time and the decrease in natural light in series: from the first phase - to the input of thermal relay 5, from the output of which - to the first input of the driver 1, from the second and third phases, respectively, to the first inputs of drivers 2 and 3. On the parallel-connected outputs of drivers 1, 2, and 3 with stabilization of the output current, the signal is summed over the current and fed to the todiodov 4, resulting in a three-level rise of current in the LED unit, respectively, and the light flux emitted by the lamp. The luminaires in the group are switched to the energy-saving and standby “night” modes by switching off the voltage in one or two phases, as in the existing automated street lighting control systems, but unlike the latter, the luminous flux of each in the luminaire group is subject to regulation, which ensures uniformity of lighting . In case of overheating of the luminaire due to exceeding the outdoor temperature, the thermal relay 5, having a trip setting lower than the thermal protection setting of the drivers 1,2 and 3, disconnects the voltage of the first phase, thereby reducing the power dissipated by the cooler of the LED unit 4. In the event of a thermal protection trip, one or two of the drivers 1, 2 or 3 from overheating or the failure of one or two of them, the remaining drivers provide power to the LED unit 4 at a reduced luminous flux, so the power backup mode is provided th. In the morning hours, at dawn, the voltage is turned off according to the program, in accordance with the astronomical time and increase in natural light in the reverse sequence of switching on.

Using the proposed invention allows to solve the problem of energy saving when managing as part of existing automated control systems for outdoor lighting, to ensure uniform illumination of roads, streets, parks and adjoining territories when switching to energy-saving and standby "night" modes, and also allows to provide a stepwise three-level on and off LED lamps in the evening and morning, depending on the decline and increase in natural light, solves the problem of improving the reliability of LED lamps by protecting the lamps from overheating when the temperature of the outside air deviates above the permissible level and redundancy in power supply in the event of one or two drivers being disconnected due to overheating or failure of the latter, while reducing the cost of upgrading existing lighting systems, since the wiring diagram of the power supply does not change.

Claims (1)

An energy-saving controlled outdoor lighting lamp containing a driver of LEDs with stabilization of the output current, to the input of which an AC phase voltage is connected, and an LED block is connected to the output, characterized in that the second and third LED drivers with stabilization of the output current and thermal relay are added to the circuit, the first input of the first driver is connected to the output of the thermal relay, to the input of which the first phase of the three-phase network is connected, the first inputs of the second and third drivers are connected with responsibly to the second and third phases of a three-phase network, the second inputs of the first, second and third drivers are connected to the neutral wire of the supply network, and the outputs of the three drivers of the same name are interconnected and connected to the same poles of the LED block.

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