RU2366120C1 - Lamp - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to energy-saving technologies, particularly for saving electrical energy, used for lighting highways, streets, facilities etc. The lamp contains light-emitting-diode groups, connected in series or parallel, or series-parallel, each of which is connected to a pulsed power supply with possibility of soft limiting the heating temperature of light-emitting-diodes, which are part of each of the said groups of light-emitting-diodes. The light-emitting-diodes are mounted on a printed circuit board with a substrate made from glass textolite or aluminium, which is attached to the housing of the lamp by forge rolling or pressing to the surface of the housing of the lamp with edging of the housing, which is made from metal, functioning as radiator housing. The pulsed power supply, mounted on the printed circuit board, contains an electronic self-repairing current protection device, full-wave rectifier, pulse converter for converting voltage to constant current for powering the light-emitting-diode groups. The said pulse converter includes a thermistor based temperature sensor, which heats due to convection currents of air inside the housing, a sensor for automatic on/off switching of the lamp at the onset of darkness/light, and a motion sensor which reacts to movement of objects in the lighting zone of the lamp. The motion sensor is based on CMOS matrices, CCD matrices or infrared rays and is connected to an alternating or direct current supply mains. The motion sensor is electrically connected to the sensor for automatic on/off switching of the lamp, with possibility of controlling operation of the latter.

EFFECT: wider functional capabilities, increased reliability when using the lamp with unstable mains, protection from external effects, improved heat-sinking and increased electricity saving.

8 cl, 1 dwg

Description

The technical field to which the invention relates.

The invention relates to the field of energy-saving technologies, in particular when saving energy used to illuminate highways, streets, roads, squares, bridges, tunnels, courtyards, warehouses, industries, etc.

The prior art.

A device is known for incorporating a light device with LEDs into an alternating current network, containing parallel-series LED circuits and an electronic converter of the supply network with a capacitive filter that are connected to an alternating current network (description of the invention to RF patent No. 2151473, IPC 7 H05B 37/00, F21S 4 / 00.1998, published 2000.06.20).

A lighting device or a light source based on the action of LEDs is known, comprising LEDs connected to a power supply unit that is connected to an alternating voltage power supply network, and a power converter capable of converting the incoming alternating current into direct current for LEDs (patent application No. 2005119149, IPC H05B 33/02, 2003, published 2006.01.20).

The closest analogue (prototype) of the claimed invention is a lamp containing LED groups connected in series or in parallel, or in series-parallel, each of which is connected to a switching power supply with the possibility of supplying stabilized current to the LEDs and with the possibility of smoothly limiting the heating temperature of the LEDs included each of these LED groups (application for invention No. 2006141582, IPC H05B 33/02, F21S 4/00, 2006, published 2007.12.20).

The disadvantages of the known technical solutions of both analog and prototype include the possibility of overheating of the LEDs during operation and their low operational reliability.

An object of the invention is the expansion of functionality, increasing reliability during operation of a lamp with unstable networks (power networks with frequent voltage drops), protection against external influences, improving heat dissipation and increasing energy savings.

The technical result that can be obtained by carrying out the present invention is to exclude the strobe effect during operation of the lamp, ensure stability of light intensity over the entire range of supply voltages, ensure resistance to vibrations, unauthorized influences, ensure stable operation in a wide range of operating temperatures and supply voltages , with a short time to exit to mode (no more than 1 second), a high level of protection against external influences.

The essence of the invention - a luminaire containing LED groups connected in series or in parallel, or in series-parallel, each of which is connected to a switching power supply with the possibility of smoothly limiting the heating temperature of the LEDs that are part of each of these LED groups, is that the LEDs mounted on a printed circuit board with a substrate of fiberglass or aluminum, which is mounted on the lamp housing by rolling or pressing it to the surface of the housing tilnik with bending the edges of the housing, while the housing of the lamp is made of metal, which also acts as a radiator, the switching power supply is mounted on a printed circuit board and contains an electronic self-healing current fuse, a half-wave rectifier, a pulse voltage-to-voltage converter for supplying LED groups, which includes includes a temperature sensor based on a thermistor that heats up due to convection air flows inside the housing, an automatic sensor turn on / off the lamp when dark-light and a motion sensor that responds to the movement of subjects in the lighting zone of the lamp, made on the basis of CMOS arrays, CCD arrays or infrared rays and connected to the mains AC or DC, the motion sensor is electrically connected with a sensor for automatically turning the lamp on and off, with the ability to control the operation of the latter.

As the material of the lamp housing, an aluminum alloy can be used.

The housing of the lamp can be made by extrusion.

LED groups can form blocks placed at an angle of 0-60 degrees with respect to each other.

LED groups can form blocks placed symmetrically with respect to the vertical axis.

LED groups can form blocks placed asymmetrically relative to the vertical axis.

The sensor on-off switch of the lamp can be made on the basis of a phototransistor.

The essence of the claimed invention is illustrated by the drawing, which shows a diagram of the lamp, where:

1 - case radiator,

2 - LED groups

3 - printed circuit boards with a substrate of fiberglass or aluminum,

4 - switching power supply mounted on a printed circuit board,

5 - temperature sensor based on a thermistor.

The lamp can be implemented with the implementation of this purpose as follows. The lamp contains a radiator housing 1, which is made by extrusion of an aluminum alloy, for example AD-31. The outer surface of the housing is used as the working surface of the radiator to remove heat from the LED groups 2. LED groups 2 are printed circuit boards 3 with a substrate of fiberglass or aluminum, which are the most technologically advanced in manufacturing and processing.

The main tasks of the radiator housing 1 are the effective heat removal from the LED groups 2 and protection against external influences. To effectively remove heat from the LED groups 2, the technology of rolling or pressing the printed circuit board 3 to the semicircular surface of the housing 1 was applied by bending the edges of the housing. This method of mounting the printed circuit boards 3 allows you to get the highest possible degree of heat transfer in contrast to the well-known methods of screwing or riveting. Due to the slight deformation of the printed circuit board 3 on the semicircular surface of the housing 1, there is a pressing against the central part of the semicircle and effective heat transfer.

One of the serious requirements of LED manufacturers to the modes of using LEDs is the maximum possible temperature level of their heating, which is limited. In the process of using the lamp, a situation may arise in which, in addition to heating from the LED blocks 2, other heat sources will also affect the lamp. It can be the sun or any electric heaters. To prevent overheating of the luminaire in such situations, a temperature limiting system is applied by reducing the current in LED groups 2 when a certain temperature is reached. The decrease in current and brightness occurs smoothly and "by eye" completely imperceptibly. The temperature sensor 5 is part of a switching power supply 4 mounted on a printed circuit board, and does not have direct contact with the case-radiator 1. The temperature sensor 5 is heated by convection flows inside the case 1. This method of temperature measurement is applied due to the large inertia of the case, t .to. air heating inside the case occurs with a slight delay.

To obtain high reliability during operation of the luminaire with unstable networks (power networks with frequent voltage drops), an electronic current self-healing fuse was used in the switching power supply 4. This fuse is triggered by short-term excesses of the input voltage, which can damage the lamp, or by overload in the LED circuits, and the next time it is turned on, the lamp will work again and no human intervention will be required.

In addition, the pulsed power supply 4 contains a half-wave rectifier and a pulsed voltage to voltage stabilizer for supplying LED groups 2, which includes the aforementioned temperature sensor 5. Pulse conversion is performed at frequencies from 20 to 300 kilohertz. The use of power supply 4 at such frequencies is due to obtaining higher efficiency with smaller block sizes.

To obtain high energy savings in the luminaire, at least one sensor for automatically turning the lamp on and off when dark is approaching light and at least one motion sensor responsive to the movement of a subject located in the lighting zone of the lamp, which are included in the composition of the voltage-to-stabilized current converter for powering the LED groups 2. The lamp’s automatic on-off sensor does not allow the lamp to shine during daylight hours. In the dark, when the automatic lamp on-off sensor allows the lamp to work, additional savings can be obtained from the motion sensor. The motion sensor can be made on the basis of CMOS matrices, CCD matrices or infrared rays. The motion sensor is connected to AC or DC power.

The lamp operates as follows. When the luminaire is connected to an AC mains supply, the input voltage is supplied to the input of a pulsed power supply unit 4, supplying respectively a group of LEDs 2. Then, the voltage is converted into a stabilized current through an electronic self-healing current fuse, a half-wave rectifier, and a pulsed voltage converter, and then the stabilized current is supplied to the group LEDs 2, providing their glow. Also, a switching power supply 4, mounted on a printed circuit board, contains a sensor for automatically turning on / off the lamp when darkness sets in, and a motion sensor that controls the brightness of the lamp. The sensor on-off lamp and the motion sensor work as follows. At night, until the motion sensor works, the lamp shines for 10-30% of the nominal brightness. When there is movement in the visibility range of the motion sensor, the sensor automatically turns the lamp on and off smoothly raises the brightness to 100%. Such an operation algorithm allows up to 90% energy savings.

Claims (7)

1. A luminaire containing LED groups connected in series or in parallel, or in series-parallel, each of which is connected to a switching power supply with the possibility of smoothly limiting the heating temperature of the LEDs that are part of each of these LED groups, characterized in that the LEDs are mounted on a printed circuit board with a substrate of fiberglass or aluminum, which is mounted on the lamp housing by rolling or pressing it to the semicircular surface of the housing with a bend of the housing rails, while the luminaire housing is also made of metal, which also acts as a radiator, the switching power supply is mounted on a printed circuit board and contains an electronic self-healing current fuse, a half-wave rectifier, a voltage-to-voltage stabilized pulse converter for supplying LED groups, which includes a temperature sensor based on a thermistor that heats up due to convection air flows inside the housing, an automatic on-off sensor I am a luminaire upon dark light, and a motion sensor that responds to the movement of subjects in the lighting zone of the lamp, made on the basis of CMOS arrays, CCD arrays or infrared rays and connected to an ac or dc mains supply, the motion sensor being electrically connected to sensor automatic on-off lamp, with the ability to control the operation of the latter. 2. The lamp according to claim 1, characterized in that an aluminum alloy is used as the material of the lamp housing. 3. The lamp according to claim 2, characterized in that the lamp housing is made by extrusion. 4. The lamp according to claim 1, characterized in that the LED groups form blocks placed at an angle of 0-60 ° with respect to each other. 5. The lamp according to claim 1, characterized in that the LED groups form blocks placed symmetrically with respect to the vertical axis. 6. The lamp according to claim 1, characterized in that the LED groups form blocks placed asymmetrically relative to the vertical axis. 7. The lamp according to claim 1, characterized in that the sensor for automatically turning on / off the lamp is based on a phototransistor.