RU71032U1 - LED LAMP (OPTIONS) - Google Patents

Abstract

The proposed utility model relates to lighting engineering, in particular to lighting fixtures, and is intended primarily for use in household and industrial lighting fixtures of wide application. The problem solved by the proposed utility model is to increase the operational characteristics of the LED lamp. The technical result when using it is to simplify the design and assembly while maintaining the technical parameters (luminous flux, service life, etc.). The specified technical result is achieved by the fact that in the LED lamp containing the LED emitter module, a radiator, a housing inside which along the lamp axis there is a voltage conversion and current reference board connected to the LED emitter module, and the base, according to the first embodiment of the utility model, the radiator is made in the form of a washer with holes located between the LED emitter module and the housing. According to the second embodiment of the utility model, the radiator is made in the form of a washer with holes, and the lamp cavity is filled with a heat-conducting electrical insulating compound. In special cases, the radiator washer can be made metal with an insulating coating applied to the outer surface, the outer surface of the washer can be ribbed, a metal layer can be applied to the surface of the LED emitter module connected to the radiator, the housing can be made of electrically insulating heat-conducting material, and the base is made in the form of a standard lamp base. In addition, in the design of the first embodiment, the housing can be mounted on the ribbed surface of the washer with the formation of holes, and the housing is also provided with holes. High performance characteristics of both versions of the proposed LED lamp are provided by both the simplicity and reliability of the manufacture of elements and assembly of the structure, and the preservation of its technical parameters over a long service life, which is largely determined by heat removal from the LED emitter module. In the proposed design options, heat is removed through an enlarged surface of the radiator, the cavity of the housing, either ventilated through openings, or filled with a compound with increased thermal conductivity, a longitudinal location of the voltage conversion board and current setpoint, etc.

Description

The proposed utility model relates to lighting engineering, in particular to lighting fixtures, and is intended primarily for use in household and industrial lighting fixtures of wide application.

A longer-life electric incandescent lamp is known, comprising a filament body in a glass bottle, a metal base and a rectifier diode located inside the base, which has ventilation holes in the base metal sleeve to protect it from overheating by circulating air between the internal volume of the base and the surrounding atmosphere (see Patent of the Russian Federation for invention No. 2284072, IPC Н01К 5/00 (2006.01), publ. 2006.09.20). However, such lamps are energy-intensive, have large dimensions, are short-lived and get very hot, which causes various inconveniences during their operation.

A known LED lamp containing LED light sources, a hollow cylindrical body and a contact system consisting of a cartridge and a cap of dielectric material with a lateral contact surface, inside of which are electrical leads made by a flexible insulated wire, and light source control elements (see US Pat. RF invention No. 2297082, IPC H01R 33/22 (2006.01), publ. 2007.04.10). However, this design has a weak heat sink, and with an increase in power to standard values of the luminous flux of lighting devices, degradation and its failure are possible.

The LED lamp closest in technical essence to both versions is known, which contains an LED module placed in a glass bulb, a metal radiator made in the form of fins mounted on a cylindrical base filled with heat-conducting material, a housing attached to the bulb, inside which a control board is installed, and a base ( see Z. USA No. 2006/0198147, NKI 362/294, publ. 2006.07.09). However, this design is inconvenient in operation, since it does not have high impact resistance, and if the integrity of the bulb is violated, it can cause bodily harm, and also requires careful disposal.

The problem solved by the proposed utility model is to increase the operational characteristics of the LED lamp. The technical result when using it is to simplify the design and assembly while maintaining the technical parameters (luminous flux, service life, etc.).

The specified technical result is achieved by the fact that in the LED lamp containing the LED emitter module, a radiator, a housing inside which along the lamp axis there is a voltage conversion and current reference board connected to the LED emitter module, and the base, according to the first embodiment of the utility model, the radiator is made in the form of a washer with holes located between the LED emitter module and the housing. In particular cases of the first embodiment, the radiator washer can be made of metal with an insulating coating applied to the outer surface, the outer surface of the washer can be made ribbed, the housing can be mounted on the ribbed surface of the washer with holes, the surface of the LED emitter module connected to the radiator can a metal layer is applied, the housing can be made of insulating heat-conducting material and provided with holes, and the base is made in the form of a standard lamp base.

According to the second embodiment of the utility model, the radiator is made in the form of a washer with holes, and the lamp cavity is filled with a heat-conducting electrical insulating compound. In particular cases of the second embodiment, the radiator washer can be made of metal with an insulating coating applied to the outer surface, the outer surface of the washer can be ribbed, a metal layer can be applied to the surface of the LED emitter module connected to the radiator, the housing can be made of electrically insulating heat-conducting material and the base is made in the form of a standard lamp base.

The design of the radiator in the form of a washer with holes provides sufficient heat dissipation from the LED emitter module when using the LED lamp in household and industrial lighting fixtures with standard luminous flux values (for example, an equivalent 100 W incandescent lamp), and the insulating coating applied to its outer surface provides additional protection for consumers on electrical safety during operation. Moreover, in special cases of the first embodiment, additional heat removal is provided through the holes between the ribbed surface of the radiator washer and the inside of the case and through the holes in the case. In the second option

execution - by filling the cavity of the lamp with a heat-conducting electrical insulating compound.

The execution of the outer surface of the ribbed washer increases the area of the cooled surface, which contributes to the additional heat removal from the radiator and the preservation of the lamp performance while increasing the light output of the LEDs. Also, an additional effect of heat removal is achieved in the manufacture of a body of insulating heat-conducting material and the location of the voltage conversion board and setting the current along the axis of the lamp. In this case, the deposition of a metal layer on the connecting surface of the LED emitter module provides high thermal conductivity and maximum heat dissipation from the LEDs.

The voltage conversion and current setting board is designed to convert standard network voltage values to a safe value and set the operating currents of the LEDs, while ensuring electrical safety conditions on the LED emitter module.

The essence of the utility model is illustrated by the drawings: in Fig. 1, a diagram of the LED lamp according to embodiment 1 is presented; Fig. 2 is a diagram of the LED lamp in embodiment 2.

The LED lamp contains a LED emitter module 1, a radiator attached to it, made in the form of a washer 2, on which the housing 3 is fixed, holes 4 are made in the washer 2. A metal layer 5 is applied to the surface of the LED emitter 1 connected to the radiator 2. In the housing 3 a voltage converting and current setting board 6 is installed along the lamp axis, connected to the LED emitter module 1. Base 7 is connected to the housing 3. In the first embodiment of the utility model (Fig. 1), in special cases, the radial washer 2 the torus can be made metal with an insulating coating applied to the outer surface, the outer surface of the washer 2 can be ribbed, and the ribs 8 can be of various shapes: acute-angled, wavy, semi-cylindrical, etc., and the housing 3, made of electrically insulating heat-conducting material, can be provided with holes 9. The housing can be mounted on the ribbed surface of the washer 2 can be made with the formation of holes 10 between the hollows of the ribs and the inner surface of the housing for additional ventilation.

In the second embodiment of the utility model, also comprising a LED emitter module 1, a radiator made in the form of washers 2 provided with holes 4, on which a housing 3 is mounted with a conversion board 6 installed inside it

voltage and current settings, and the cap 7, the lamp cavity is filled with a heat-conducting electrical insulating compound 11. In this case, in particular cases of the second embodiment, the radiator washer 2 can also be made of metal with an insulating coating applied to the outer surface, the outer surface of the washer 2 can be ribbed with different shape of the ribs 8, and the housing 3, it is advisable to make from an insulating heat-conducting material. If necessary, in both versions of the socle 7 can be of various types used in lighting devices, for example, standard lamp.

When the LED lamp is turned on, the proposed design options ensure reliable and stable operation of the device, primarily by providing heat dissipation from the LED emitter module either by ventilation through openings, or through a heat-conducting compound.

As the module of the LED emitter 1, it is advisable to choose modern designs with high impact resistance using polymer sealing on a ceramic, metal or electrical insulating base, and it is advisable to apply a metal coating on the base of the LED emitter module, for example, copper,> 50 μm thick, and then to it attach a radiator. The radiator can be either ceramic or metal, for example, aluminum, made by injection molding, as an electrical insulating coating, paint is applied to its outer surface.

The shape of the holes in the radiator washer can be different, for example, round with the same or different diameter along its length, or arbitrary shape, and corresponds to the configuration of the LEDs in module 1. The degree of filling of the lamp cavity with a heat-conducting compound can be different. These parameters vary depending on the specified weight and other consumer characteristics of the device based on specific lamp applications.

The voltage conversion and current setting board 6 is a printed circuit board with undervoltage and current setting circuits for the LEDs mounted on the housing 3 and electrically connected to the LED emitter module 1 and the contacts of the base 7, for example, using wires. The housing 3 is made of electrically insulating heat-conducting material, for example, polycarbonate with heat-conducting additives, the connection of the housing and the base is made by standard technologies, for example, by means of a press fitting.

High performance characteristics of both variants of the proposed LED lamp are provided by both simplicity and reliability of manufacture

structural elements and assembly, as well as maintaining its technical parameters for a long service life, which is largely determined by heat removal from the LED emitter module 1. In the proposed design options, heat is removed through an enlarged surface of the radiator, the cavity of the housing, or ventilated through openings, or filled with a compound with increased thermal conductivity, for example, a heat-conducting dielectric casting compound (TU RB 14576608.003-96), a longitudinal arrangement of boards voltage conversion and current job.

Thus, the claimed utility model solves the problem of improving the operational characteristics of the LED lamp and simplifies the design and assembly while maintaining the necessary technical parameters.

Claims (25)

1. An LED lamp comprising a LED emitter module, a radiator connected to it, made in the form of washers equipped with holes, a housing fixed to the washer, inside of which a voltage conversion and current reference board connected to the LED emitter module and connected to the housing is installed along the lamp axis basement. 2. The LED lamp according to claim 1, characterized in that the radiator washer is made of metal with an insulating coating applied to its outer surface. 3. The LED lamp according to claim 1 or 2, characterized in that the outer surface of the washer is ribbed. 4. The LED lamp according to claim 3, characterized in that the housing is mounted on the ribbed surface of the washer with the formation of holes. 5. The LED lamp according to claim 1, or 2, or 4, characterized in that a metal layer is applied to the surface of the LED emitter module connected to the radiator. 6. The LED lamp according to claim 3, characterized in that a metal layer is applied to the surface of the LED emitter module connecting to the radiator. 7. The LED lamp according to claim 1, or 2, or 4, or 6, characterized in that the housing is made of electrically insulating heat-conducting material and provided with holes. 8. The LED lamp according to claim 3, characterized in that the housing is made of electrically insulating heat-conducting material and provided with holes. 9. The LED lamp according to claim 5, characterized in that the housing is made of electrically insulating heat-conducting material and provided with holes. 10. The LED lamp according to claim 1, or 2, or 4, or 6, or 8, or 9, characterized in that the base is made in the form of a standard lamp base. 11. The LED lamp according to claim 3, characterized in that the base is made in the form of a standard lamp base. 12. The LED lamp according to claim 5, characterized in that the base is made in the form of a standard lamp base. 13. The LED lamp according to claim 7, characterized in that the base is made in the form of a standard lamp base. 14. An LED lamp comprising a LED emitter module, a radiator connected to it, made in the form of washers equipped with holes, a housing fixed to the washer, inside of which a voltage conversion and current reference board connected to the LED emitter module and connected to the housing is installed along the lamp axis base, and the cavity of the lamp is filled with a heat-conducting electrical insulating compound. 15. The LED lamp according to 14, characterized in that the radiator washer is made of metal with an insulating coating applied to its outer surface. 16. The LED lamp according to claim 14 or 15, characterized in that the outer surface of the washer is ribbed. 17. The LED lamp according to claim 14 or 15, characterized in that a metal layer is applied to the surface of the LED emitter module connected to the radiator. 18. The LED lamp according to claim 16, characterized in that a metal layer is applied to the surface of the LED emitter module connecting to the radiator. 19. The LED lamp according to 14, or 15, or 18, characterized in that the housing is made of insulating heat-conducting material. 20. The LED lamp according to clause 16, wherein the housing is made of electrically insulating heat-conducting material. 21. The LED lamp according to claim 17, characterized in that the housing is made of electrically insulating heat-conducting material. 22. The LED lamp according to 14, or 15 or 18, or 20, or 21, characterized in that the base is made in the form of a standard lamp base. 23. The LED lamp according to clause 16, wherein the base is made in the form of a standard lamp base. 24. The LED lamp according to claim 17, wherein the base is made in the form of a standard lamp base. 25. The LED lamp according to claim 19, characterized in that the base is made in the form of a standard lamp base.