RU119166U1 - LED LAMP - Google Patents

Abstract

1. LED lamp containing a LED module made in the form of a base with LEDs fixed on it, a diffuser having the shape of a part of a spherical body, a body having the shape of a body of revolution with a radiator with longitudinal ribs placed inside it, a power supply connected to the LED module, as well as a plinth, characterized in that the case is made of dielectric plastic with an additional cavity in the center and with longitudinal ribs and alternating windows between them on the lateral surface, and with a gap between the longitudinal ribs and an additional cavity, in which a radiator with longitudinal ribs corresponding windows of the longitudinal edges of the body, and the power supply is installed in the additional cavity of the body. ! 2. The LED lamp according to claim 1, characterized in that the body is made in the upper, lower and intermediate parts in the form of three truncated cones with a sequential increase in height from bottom to top, the intermediate part has a concave generatrix of the lateral surface, and the upper part has a convex generatrix of the lateral surface , smoothly passing into the spherical part of the diffuser. ! 3. The LED lamp of claim 1, wherein the diffuser is fitted with interference on the top of the radiator. ! 4. The light-emitting diode lamp according to claim 1, characterized in that between the housing and the diffuser there is an insert-rim made in the form of a ring with a protruding surface. ! 5. The LED lamp according to claim 1, characterized in that the diffuser is made of plastic close in optical characteristics to glass, for example, polycarbonate. ! 6. LED lamp according to claim 1, characterized in that the diffuser is made

Description

The utility model relates to the field of lighting, in particular, to lighting devices and is intended for use in household and industrial lighting fixtures for a wide range of purposes.

A known LED lamp containing a base, a transition element rigidly fastened to it, a radiator mounted on it and an LED light source, which is a board on which the LEDs are connected to the power supply. The radiator is made in the form of a glass with a round base and a cylindrical part, the outer surface of which is ribbed around the entire circumference, and a board with LEDs and a reflex hood in the form of a truncated cone are installed on the outer side of the radiator base (patent RU No. 101269, IPC H01L 33/00, published on January 10, 2011)

The disadvantage of LED lamps is the complexity of the design of the radiator and the need for additional mounting of the radiator to the transition element.

Known LED lamp containing a module of the LED emitter, including a printed circuit board with LEDs, a radiator made in the form of a washer on which a hollow cylindrical body is mounted. A voltage conversion and current setting board is installed in the case, connected to the LED emitter module. A base is attached to the housing. The outer surface of the radiator washer is ribbed, and the ribs can be made of various shapes: (acute-angled, wavy, semi-cylindrical, etc.). (Patent RU No. 71032, IPC H01L 33/00, published 02/20/2008)

The disadvantage of LED lamps is the complex design of the radiator, which requires injection molding from an aluminum alloy, with the need to apply an insulating coating to the outer surface, which leads to an increase in its cost.

Known LED lamp containing a housing-radiator, with external radial-longitudinal ribs forming a lamp circuit, mounted on it from one end of the LED modules and a power supply from the other end. The radiator case is formed by a hollow body of revolution and is equipped with inner radial-longitudinal ribs with windows between them in its upper part and an annular platform at the end of the outer radial-longitudinal ribs in its lower part, on which LED modules are fitted with an interference fit (patent RU No. 2418345 , IPC H01L 33/00, H01L 27/15, published 05/10/2011).

The disadvantage of LED lamps is the complex design of the radiator housing, which requires expensive, multi-level and complex manufacturing by injection molding from an aluminum alloy, which leads to an increase in the cost of LED lamps. The large dimensions and weight of the radiator do not allow the installation of these LED lamps in luminaires without reinforced mounting.

The closest in technical essence to the proposed utility model is an LED lamp containing an LED module made in the form of a base with single LEDs mounted on it, a radiator, a voltage converter, a current supply device made in the form of a base, and the base of the LED module is located on top of the radiator and the voltage converter is electrically connected respectively to the base of the LED module and to the base. The radiator is made in the form of an extended hollow body equipped with ribs located on its outer side surface, the voltage transducer is placed in the cavity of the radiator, the base is fastened to the radiator. The outer side surface of the radiator is covered with a casing, (patent RU No. 108693, IPC H01L 33/00, published September 20, 2011).

The disadvantage of LED lamps is also the complex design of the radiator, which requires an expensive, multi-level and complex manufacture by injection molding from an aluminum alloy. With this version of the LED lamp, additional electrical insulation of the power supply is necessary, as well as the presence of an additional transition element for attaching the base to the radiator, which complicates the design of the LED lamp as a whole and leads to an increase in its cost.

The objective of the claimed utility model is to simplify the design and reduce the cost of manufacturing a light-emitting diode lamp while maintaining the technical parameters.

The essence of the utility model is that the LED lamp contains an LED module made in the form of a base with LEDs mounted on it, a diffuser having the shape of a part of a spherical body, a body having the shape of a body of revolution with a radiator with longitudinal ribs placed inside it, a power supply, connected to the LED module as well as the base.

The housing is made of dielectric plastic with an additional cavity in the center and with longitudinal ribs and alternating windows between them on the side surface. Between the longitudinal ribs of the casing and the additional cavity there is a gap in which a radiator with longitudinal ribs is placed, mating windows of the longitudinal ribs of the casing. The power supply is installed in an additional cavity of the housing

The housing is made in the upper, lower and intermediate parts in the form of three truncated cones with a successive increase in height from bottom to top, the intermediate part has a concave generatrix of the side surface, and the upper part has a convex generatrix of the side surface that smoothly passes into the spherical part of the diffuser

The diffuser is fitted with an interference fit on the top of the radiator.

Between the body and the diffuser there is an insert rim made in the form of a ring with a protruding surface.

The diffuser is made of plastic, close in optical characteristics to glass, for example, polycarbonate.

The diffuser is made matte.

The radiator is made of aluminum, or light aluminum alloys, or ceramics.

The housing is made of electrically insulating heat-conducting material.

The execution of the casing from dielectric plastic with longitudinal ribs and alternating windows between them on the side surface and with an additional cavity in the center and with a gap between the longitudinal ribs of the housing and the outer wall of the additional cavity allows you to install a radiator with longitudinal ribs in the gap, mating windows of the longitudinal ribs of the housing. This leads to the absence of the need to mount the radiator to the housing, which greatly simplifies the design, facilitates the assembly process and reduces the cost of the LED lamp.

Due to the fact that the housing has an additional cavity in the center having dielectric walls, there is no need to conduct additional insulation of the power supply, which simplifies the design and assembly of the product, and as a result, reduces the cost.

The implementation of the radiator with longitudinal ribs, the response windows of the longitudinal ribs of the housing allows you to simplify its design with the possibility of its production by extrusion, which eliminates additional mechanical processing, which significantly reduces the cost of its manufacture and reduces the cost of the LED lamp.

Due to the fact that the housing is made of dielectric plastic with the possibility of injection molding, the manufacturing technology is greatly simplified, which reduces the cost of the LED lamp.

Due to the fact that the housing is made of dielectric plastic, the base is immediately attached to the housing, eliminating the need for adapter inserts and, as a result, simplifying the design and reducing the cost of manufacturing an LED lamp.

The invention is illustrated by drawings, where:

Fig 1 is a General view with exploded parts

figure 2 is a General view in section

The LED lamp contains an LED module, including a base 1, on which the LEDs are placed 2. The base 1 of the LED module is made in the form of a printed circuit board.

The base 1 of the LED module is located on top of the radiator 3 with longitudinal ribs and fixed on it with an interference fit (not shown in the drawing).

The housing 4 has the shape of a body of revolution with longitudinal ribs 5 and alternating windows 6 between them on the side surface (not shown). Case 4 contains an additional cavity 7 in the center. There is a gap between the longitudinal ribs and the additional cavity.

A power supply unit 8 is placed in an additional cavity 7 of the housing 4, which is electrically connected, respectively, with the LEDs 2 of the LED module and with the base 9. The power supply unit 8 provides rectification and stabilization of the current supplied from the power source. The base 9 is attached to the lower part of the housing 4.

The radiator 3 is made with longitudinal ribs corresponding to the windows of the longitudinal ribs of the housing 4. The radiator 3 is inserted into the gap between the ribs 5 of the housing 4 and the additional cavity 7, so that the ribs of the radiator 3 are located in the windows 6 of the housing 4.

On top of the LED module, a diffuser 10 having the shape of a part of a spherical body is mounted on the radiator 3.

In the upper part between the body 4 and the diffuser 10, a rim insert 11 is installed, made in the form of a ring with a surface for applying the logo.

The device operates as follows.

Connect the LED lamp to a power source. In particular, the lamp base 9 is mounted in a cartridge connected to a standard power supply network.

When connecting the LED lamp to a power source, in particular, to a standard electrical network, an electric current flows through its electric circuit, including LEDs 2 of the LED module. When current flows through the light emitting crystals, the LEDs 2 emit light. Light radiation is output from the device through the diffuser 10, which performs light-emitting and protective functions, ensuring uniformity of radiation in a wide angular range.

Due to the fact that the case is made of dielectric plastic, and the radiator can be made of aluminum, or light aluminum alloys, or ceramics, it becomes possible to change the colors of both dielectric plastic and radiator, which makes it possible to easily change the product design. Original case shape, ring arrangement , the rim of the insert with a protruding surface with the possibility of applying a logo on it and the use of effective materials, improve the aesthetic perception of the lamp, increase the consumer attractiveness They also provide informational distinctiveness of the LED lamp from other similar lamps.

The lamp is light, inexpensive to manufacture and can be widely used in household and industrial lighting fixtures for a wide range of purposes.

Claims (8)

1. The LED lamp containing the LED module, made in the form of a base with LEDs mounted on it, a diffuser having the shape of a part of a spherical body, a housing having the shape of a body of revolution with a radiator with longitudinal ribs located inside it, a power supply connected to the LED module, and a base, characterized in that the housing is made of dielectric plastic with an additional cavity in the center and with longitudinal ribs and alternating windows between them on the side surface, and with a gap between longitudinal ribs and an additional cavity in which a radiator with longitudinal ribs is placed, mating windows of the longitudinal ribs of the housing, and the power supply is installed in the additional cavity of the housing. 2. The LED lamp according to claim 1, characterized in that the housing is made in the upper, lower and intermediate parts in the form of three truncated cones with a successive increase in height from bottom to top, the intermediate part has a concave generatrix of the side surface, and the upper part has a convex generatrix of the side surface smoothly passing into the spherical part of the diffuser. 3. The LED lamp according to claim 1, characterized in that the diffuser is installed with an interference fit on the upper part of the radiator. 4. The LED lamp according to claim 1, characterized in that between the body and the diffuser there is an insert rim made in the form of a ring with a protruding surface. 5. The LED lamp according to claim 1, characterized in that the diffuser is made of plastic, similar in optical characteristics to glass, for example, polycarbonate. 6. The LED lamp according to claim 1, characterized in that the diffuser is made matte. 7. The LED lamp according to claim 1, characterized in that the radiator is made of aluminum, or light aluminum alloys, or ceramics. 8. The LED lamp according to claim 1, characterized in that the housing is made of electrically insulating heat-conducting material.