RU2191949C2 - Illumination device - Google Patents

Abstract

FIELD: illumination engineering, namely light signal apparatuses, possibly in airdrome equipment for light marking out of landing field and also for light indication of high-altitude buildings. SUBSTANCE: device includes housing with protective light permeable hood and stand and light emitting unit connected with mains. Device also includes metallic spacer and pulse converter for securing it to housing and for electrically connecting it with power supply source respectively. Light emitting unit includes row of light emitting diodes connected in series. Each light emitting diode is connected to thyristor. Light emitting unit also includes pairs of connected in parallel capacitor and resistor in order to connect electrode of each thyristor with respective light emitting diode. EFFECT: enhanced reliability, improved effectiveness of device in condition of large vibration and large fluctuations of parameters of power supply source. 2 dwg

Description

 The invention relates to light-signaling equipment, in particular to low-intensity obstruction lights, and can be used in equipping airfields for lighting and light marking of landing strips, as well as for light designation of high-rise buildings and structures at night, to prevent the possibility of collision with them air transport funds.

 A known light device, which is part of low-intensity obstacle lights and contains a housing with a light-transmitting protective cap and a stand and a light-emitting element (see TU 16-535.086.81. Airfield lights, product ISHBP.676.631.004 TU. M., 1981, s .4; 19).

 An incandescent lamp serves as a light-emitting element in such a device, as a result of which it has a small service life, high energy consumption and is not efficient enough and reliable in operating conditions with a large difference in ambient temperature and in the presence of vibration. In addition, the life of this device is reduced due to the presence of current and voltage fluctuations in the supply network.

 Also, this device is time-consuming to maintain due to the need for a relatively frequent change of the light-emitting element, despite the fact that it can be located at the highest points of structures and often in places unfavorable to humans (for example, NPP pipes).

 The problem to which this invention is directed, is to improve the performance of the device through the use of LEDs as light-emitting elements.

Technical results in the implementation of the invention are:
- reduction in energy consumption;
- improving serviceability;
- increase the resource of work;
- protection against the influence of large fluctuations in voltage and current of the supply network;
- creating a directional stream of light without the use of additional optical lenses;
- increased performance in vibration.

 To solve this problem, a light device comprising a housing with a stand and a light-transmitting protective cap and a light emitting element connected to a current source and installed inside the housing is provided with a spacer and a pulse converter, by means of which the light emitting element is respectively installed in the housing and electrically connected to the current source, the light-emitting element consists of a chain of series-connected LEDs, thyristors, each of which is connected in parallel to the corresponding LED, and pairs of parallel-connected resistors and capacitors, through which the control electrode of each thyristor is connected to the input of the corresponding LED. Moreover, the LED chain is located in the form of a ring.

 The essence of the invention is the use in a light device of a light-emitting element in the form of an LED connected via thyristors, capacitors, resistors and a pulse converter to a current source.

 The invention is illustrated by drawings, where figure 1 shows a longitudinal section of the proposed device, figure 2 is a diagram of a light-emitting element.

 The device comprises a housing 1 with a transparent protective (glass or plastic) removable cap 2, a light-emitting element 3 mounted in the housing by means of a metal, for example cylindrical, spacer 4 and screw 5. The housing 1 is attached to a structure (not shown), which is not shown, which is not shown), which must be marked with pre-warning lights. Pulse converter (for a description of a pulse converter, see Sources of electrical power for electronic equipment: Handbook / Edited by G.S. Naivelt. M: Radio and Communications, 1985, part 3, pp. 300-403) 7, built-in, for example, inside the spacer 4, current leads 8 are connected to a power source (not shown), which may be a stationary power supply network or any other type of power source.

 The light emitting element 3 consists of a chain of series-connected LEDs 9 installed in the head 10 on the spacer 4, thyristors 11, each of which is connected in parallel with the corresponding LED, and paired in parallel connected resistors 12 and capacitors 13, through which the control electrode of each thyristor is connected to the input of the corresponding LED.

 When the device is operating, the LEDs 9, grouped, for example, in an annular fashion by supplying them with direct current from the network (or from any current source) through the pulse converter 7 emit light in a certain range (in a given solid angle). The converter provides rectification (when powered by AC power), and current stabilization (smoothing of peak current values or inrush current and voltage surges). Resistors 12 and capacitors 13 serve to protect against interference and the false opening of thyristors. Thyristors 11 ensure that circuit breaks are eliminated in the event of failure of one or more LEDs.

 Spacer 4, accumulating the heat dissipation of the LEDs, eliminates the icing of the cap and the reduction of light emission in the lower region of the operating temperature range (from -50 to +50), providing heating for the cap, and also provides the ability to mount the LEDs in groups of the necessary configuration.

 The use of LEDs instead of incandescent lamps increases the resource of the device by almost two orders of magnitude, and also increases the efficiency of the device in conditions of increased vibration.

Claims (1)

 A light device comprising a housing with a protective light-transmitting cap and a stand and a light emitting element mounted inside the housing and electrically connected to a current source, characterized in that it is provided with a metal spacer through which the light emitting element is installed in the housing, and a pulse converter through which the light emitting element connected to a current source, and the light emitting element consists of a chain of series-connected LEDs, the light emitting element is equipped with thyristors, which each of which is connected in parallel to the corresponding LED, and in pairs of parallel connected resistors and capacitors, through which the control electrode of each thyristor is connected to the corresponding LED, and the LED chain is located in the form of a ring.

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