RU82081U1 - LED LAMP - Google Patents

Abstract

1. LED lamp, containing a housing connected to a standard base, made in the form of a four-sided glass, placed in a protective optically transparent cap, made with the condition of air in and out of it, the sides of the glass are sections of LEDs, in which a zener diode is connected in parallel to each LED , with the placement inside the glass of the mains choke and the power supply unit, consisting of a current converter and a stabilizer, holes are made in the lower and upper parts of the case, providing effective cooling of LEDs and other elements of the device, thanks to the air draft in the glass due to the air heated in it. ! 2. The lamp according to claim 1, characterized in that the glass is triangular. ! 3. The lamp according to claim 1, characterized in that the glass is hexagonal.

Description

1. The technical field

The utility model relates to lighting engineering, namely, devices for lighting rooms, such as reading rooms, libraries, etc., as well as for street lighting.

2. The level of technology

A device for incorporating a light device with LEDs into an alternating current network comprising at least one electric incandescent lamp with a diode bridge, an electronic converter of the supply network, including a rectifying diode bridge, a ballast thermistor, a capacitive filter, and parallel-serial chains of LEDs connected to an alternating network is known current in series with an electric incandescent lamp (RU 2151473, CL. H05V 37/00, 2000).

A disadvantage of the known device is the possible high-voltage surges on the rectifier and capacitive filter, which adversely affects the reliability of their work, in particular, their service life.

The closest analogue of the claimed proposal adopted as a prototype is an LED illuminator containing a step-down voltage converter, which is connected to at least one LED through a rectifier diode bridge and an element for controlling the energy supply, and in parallel with the rectifier diode bridge and LED they include a capacitive filter, with

this step-down voltage Converter is made of parallel-connected at least one shunt resistor and at least one capacitor, as well as at least one current-limiting resistor (RU No. 22329619. Cl .: Н05В 37/02, 2006 .).

The disadvantage of the prototype is the insufficient cooling of the LEDs and other elements heated by electric current.

3. Disclosure of utility model

The objective of the utility model is to increase the reliability of the luminaire, in particular to increase its life, reduce power consumption from a stationary AC network, as well as uniform and high-quality lighting of the area around the luminaire.

The fulfillment of this task is ensured by the fact that the LED lamp contains a housing connected to a standard base, made in the form of a tetrahedral cup, placed in a protective optically transparent cap, made with the condition of air entering and leaving it, and the edges of which are LED sections, in which each zener diode is connected in parallel with a zener diode, with a power supply unit consisting of a line reactor and a current converter located in the lower and upper parts of the housing inside the glass Execute the hole to ensure effective cooling of the LEDs and other elements of the device due to air drawn in the glass due to a heating of the air therein.

The glass is trihedral.

The glass is made hexagonal.

4. Implementation of a utility model

The utility model is illustrated by drawings, in which Fig. 1 is a structural diagram, and Fig. 2 is an electrical diagram of the claimed lamp, including the following positions: 1 - a housing attached to a standard socle 2, 3 - a tetrahedral glass, the faces of which are sections of 4 LEDs, 5 - power supply unit, including

a network choke 6 and a block 7, consisting of a current stabilizer and a rectifier, 8 - an LED, 9 - a zener diode, 10 and 11 - holes, respectively, in the upper and lower parts of the housing 1. The glass 3 can be trihedral or hex. LEDs 8 are mounted on sections of LEDs 4 with their emitting part outside the cup 3, which ensures uniform and high-quality illumination of the area around the lamp.

A standard base 2 with an input of power supply, which ensures the operation of a line reactor 6 with a current converter 7 of the power supply 5 inside the housing 1, having the shape of a tetrahedral cup 3, the walls of which are sections 4 of the LEDs 8, each of which has a zener diode connected in parallel 9. The glass 3 is placed into a protective optically transparent cap, made in a known manner with the condition of entry and exit of air outside through the openings 10 and 11 of the cup 3, with the passage of air inside the cap, for example, through tubes passed Erez base and dome ceiling (to avoid dust inside the cap).

The device operates as follows.

A working lamp illuminates the surroundings around it. In this case, the LEDs 8, the line reactor 6 and the current transducer 7 of the power supply 5 heat the air inside the housing 1, the base 2 and the glass 3 with LED sections 4, creating a traction that allows cold air to be drawn into the glass 3 through the openings 11 of the housing 1 with the release of warm air from the glass 3 through the holes 10, providing cooling of the LED sections 4. In the event of failure of any LED 8, the electric circuit is not broken and the lamp continues to work, thanks to the parallel-connected zener diodes 9.

Unlike the prototype, the cooling of the LEDs in which is based only on air convention, in the claimed proposal, the effective cooling of the LEDs is provided by air draft, which significantly increases the reliability of the LEDs (glow quality and durability).

Claims (3)

1. LED lamp, containing a housing connected to a standard base, made in the form of a tetrahedral cup, placed in a protective optically transparent cap made with the condition of air entering and exiting from it, the sides of the cup are LED sections in which a zener diode is connected in parallel to each LED , with the placement of a line reactor and a power supply unit inside the glass, consisting of a current converter and a stabilizer, holes are made in the lower and upper parts of the housing that ensure cient cooling of the LEDs and other elements of the device due to air drawn in the glass due to a heating of the air therein. 2. The lamp according to claim 1, characterized in that the glass is trihedral. 3. The lamp according to claim 1, characterized in that the glass is made hexagonal.