RU83314U1 - LAMP - Google Patents

Abstract

1. A lamp containing a housing and at least two matrixes of LEDs installed in it and a current source for supplying them, characterized in that its housing is simultaneously a housing-radiator-bracket, functionally consisting of a bracket, a compartment for a power source and a compartment in which the matrix of LEDs are placed, and the niche intended for placement and mounting of LED matrixes on it is profiled in the form of the letter “W” with the possibility of adjusting the angle of the opening of the profile by setting / not installing the corresponding variables wedges. ! 2. The lamp according to claim 1, characterized in that the reverse side of the niche for the matrix of LEDs is made with outgoing heat-dissipating ribs. ! 3. The lamp according to claim 1, characterized in that the extreme surface of the niche under the matrix of LEDs are mirrored. ! 4. The lamp according to claim 1, characterized in that the housing-radiator-bracket is made integral. ! 5. The lamp according to claim 1, characterized in that the housing-radiator-bracket is made of rigidly fastened elements: bracket, housing and radiator. ! 6. The lamp according to claim 1, characterized in that the housing-radiator-bracket is made of heat-conducting material. ! 7. The lamp according to claim 1, characterized in that it is installed on structural elements of supports, masts, walls, roofs and ceilings of buildings. ! 8. The lamp according to claim 1, characterized in that the matrix of LEDs are mounted on a radiator housing and (or) on removable wedges through a heat-conducting material. ! 9. The lamp according to claim 1, characterized in that the replaceable wedges are fixed to the housing-radiator-bracket through heat-conducting material. ! 10. The lamp according to claim 1, characterized in that the matrix of LEDs �

Description

Technical field

The utility model relates to the field of durable lighting devices and / or light sources using semiconductor devices (LEDs) as direct light sources as such, and a radiator case as its component part as a supporting element and can be used for street, industrial, domestic and architectural design lighting.

State of the art

A similar analogue of this utility model is known - a road lamp, (patent CN101082394, IPC F21S4 / 00; F21V23 / 00; F21W131 / 103), which is a type of street lamp in which it is used to improve heat dissipation and transfer it from light-emitting LEDs directly to the radiator case heat conducting silica gel.

The disadvantage of the analogue is the laboriousness of manufacturing the product, which is characteristic both for assembly operations and for the direct manufacture of components (the complexity of the design of the radiator case containing mounting bosses, as a result, increased requirements for the manufacture of the radiator case itself, or the compensation of errors and fitting already at assembly of products; the presence in the design of a large number of unique elements). The presence of a silica gel product, although it solves the problem of improved heat dissipation (in the absence of this in this design, the heat dissipation efficiency drops sharply and is generally doubtful, since the heat is transferred to the radiator case, firstly, through a series of elements making up the lamp, and secondly, it is realized only at the contact points of fastening nodes), however, it carries additional increased requirements for sealing the product and additional difficulties that arise not only during assembly of the product, but also during its operation.

An analogue is also known - a lamp used for street and industrial lighting, containing at least two LED arrays installed in the radiator casing, a feature of the casing, which is the use of its central section as functional and technological compartments, and at least , two peripheral - directly for the placement of light sources (RF patent No. 77022, F21S8 / 00; F21W131 / 00).

The disadvantage of this analogue is the additional consumption of material for the manufacture of both the upper and lower parts of the lamp, due to the spacing of niches under the matrix of LEDs on the periphery.

The disadvantages of both of the above analogues are their large dimensions in all 3 mutually perpendicular directions, which entails additional costs for their placement in warehouses, logistics, materials.

As the closest analogue of the same purpose is a lighting device, the base of the radiator case of which is profiled under light-emitting diodes in the form of the letter "V" (patent CN200982551, IPC F21S4 / 00; F21V17 / 00; F21Y101 / 02).

The disadvantages of the prototype are, firstly, its orientation on specialized light sources, and secondly, the loss of the effective dispersion area, with the specified location of the light sources.

In addition, a common drawback characteristic of all these samples is their binding to strictly defined components, in particular light sources, due to the receipt of a certain radiation pattern.

Utility Model Disclosure

The technical problem that the claimed utility model solves is to provide the required regulatory optical characteristics of the lighting device over a wide range, depending on operating conditions, while maintaining high levels of operational reliability and product life, as well as with minimal manufacturing and maintenance costs.

The technical result is achieved by the fact that additionally reflective surfaces are used; due to the effective heat sink, comfortable working conditions of light-emitting diodes are provided; the design of the lamp is simplified due to the minimum composition of components and their own design;

the design provides for the use of a number of components, depending on the required lighting parameters and the objectives pursued.

The essence of this utility model - a luminaire, the main element of which is a body-radiator-bracket, is that its niche, designed to accommodate and attach at least two matrixes of LEDs on it, is profiled in the form of the letter “W” with outgoing heat-dissipating ribs, it also provides for attaching to it (if necessary) replaceable wedges. The extreme surfaces of the niche are mirrored, for which a reflective coating is applied to them. The matrix of LEDs are mounted on the casing-radiator-bracket or on the wedges through heat-conducting material (for example, thermal grease), the wedges also fit on the case-radiator also through the heat-conducting material. The bracket of the radiator body, which can be manufactured with it as one piece, or separately followed by a rigid connection (for example, welding) provides fastening functions to structural elements, which can be used as console poles, ceiling or wall mounts. Between the bracket and the niche for the matrix of LEDs and (or) replaceable wedges there is a niche for the current source. As a current source, a two-channel source is used in the case of two matrices of LEDs, and a multi-channel source in case the number of matrices exceeds two. As LEDs, depending on the objectives pursued, their various types are used, differentiated by power, color, radiation patterns, etc.

The body-radiator-bracket of the lamp, as well as interchangeable wedges are made of heat-conducting material (for example, aluminum).

To protect against external influences, depending on the degree of protection, either a translucent material is used on its own with fastening to the edging of the lamp housing, or a translucent material together with a sealing gasket and a protective cover.

The technical solution with the claimed combination of essential features of the independent claim of the utility model formula is unknown from the prior art, which confirms its compliance with the patentability condition - novelty.

The essence of the utility model is illustrated by drawings, where:

figure 1 - lamp (top view);

figure 2 - lamp (bottom view);

figure 3 is a section aa in figure 2.

The lamp can be implemented with the implementation of its purpose as follows. The basis of the luminaire is the body-radiator-bracket 1 with ribs 8 is the basic single molding part functionally presented in the form of a bracket 2, a compartment for the power source (its niche 4 is indicated in the drawing) and directly the radiator case itself. However, it is possible to separately produce functional parts using appropriate technological processes followed by their rigid connection (for example, welding). In order to avoid clogging of the radiator, the fins 8 are made with a thickening to the root, which also facilitates the casting conditions of such a part, and in addition, at the place where the niches 3 under the matrix of LEDs 7 go into the niche 4 of the current source 10, tides 11 are provided.

The bracket 2 of the housing-radiator-bracket 1 is intended for fastening the lamp to the elements of the supporting structures (depending on the purpose of the lighting, lighting poles, wall or ceiling mounts are used; not shown in the drawing) and power supply wires (not shown in the drawing).

The matrix of LEDs 7 are mounted in niches 3 either individually or through interchangeable wedges 6. In this case, contact of the contacting surfaces occurs through heat-conducting material (for example, thermal grease). The connection of these parts is possible with screws, rivets, special hot melt adhesive. The presence and size of interchangeable wedges 6, type, power, number of light emitting diodes, as well as the dimensions of the section configuration in the form of the letter “W”, which determine the angular dimensions a, b, c, are determined on the basis of ensuring the desired strength and lighting pattern. For example, to obtain the required lighting conditions for highways and streets according to the requirements of GOST 17677-82, with a suspension height of 12 m typical poles, it is necessary to use 70 ° LEDs, and the angles a, b and c should be 140 °, 90 °, 110 °, respectively .

The current source 10 for the matrix of LEDs 7 is located in the niche 4 provided for it.

Translucent material 9 is used to seal the lamp. With increased requirements for the degree of protection of the luminaire, the translucent material is pressed along the contour to the casing-radiator-bracket 1 with a lid-edging (not shown in the drawing). In this case, the connection is realized through a sealing gasket (not shown in the drawing) and is carried out by screws or latches (not shown in the drawing).

The lamp operates as follows. When the luminaire is connected to the mains, the power source 10 supplies voltage to the matrix of LEDs 7. Heat is generated, which is dissipated mainly by the fins 8 of the casing-radiator-bracket 1 provided for these purposes. Depending on the lighting purpose and the required conditions, interchangeable wedges 6 may both present and absent. In addition, the matrix of LEDs 7 can be equipped with a different type and composition of light emitting diodes.

The described means and methods by which it is possible to realize a lamp with the implementation of the indicated purpose confirms the compliance of the claimed utility model with the patentability condition - industrial applicability.

Lamp

The list of positions of the elements of the drawings of the searchlight.

1 - housing-radiator-bracket;

2 - bracket of the case-radiator;

3 - a niche for a matrix of LEDs;

4 - a niche for a current source;

5 - reflective surface;

6 - replaceable wedge;

7 - matrix of LEDs;

8 - rib body-radiator;

9 - optically transparent material;

10 - current source;

11 - low tide.

Claims (19)

1. A lamp containing a housing and at least two matrixes of LEDs installed in it and a current source for supplying them, characterized in that its housing is simultaneously a housing-radiator-bracket, functionally consisting of a bracket, a compartment for a power source and a compartment in which the matrix of LEDs are placed, and the niche intended for placement and mounting of LED matrixes on it is profiled in the form of the letter “W” with the possibility of adjusting the angle of the opening of the profile by setting / not installing the corresponding variables wedges. 2. The lamp according to claim 1, characterized in that the reverse side of the niche for the matrix of LEDs is made with outgoing heat-dissipating ribs. 3. The lamp according to claim 1, characterized in that the extreme surface of the niche under the matrix of LEDs are mirrored. 4. The lamp according to claim 1, characterized in that the casing-radiator-bracket is monolithic. 5. The lamp according to claim 1, characterized in that the housing-radiator-bracket is made of rigidly fastened elements: bracket, housing and radiator. 6. The lamp according to claim 1, characterized in that the housing-radiator-bracket is made of heat-conducting material. 7. The lamp according to claim 1, characterized in that it is installed on structural elements of supports, masts, walls, roofs and ceilings of buildings. 8. The lamp according to claim 1, characterized in that the matrix of LEDs are mounted on a radiator housing and (or) on removable wedges through a heat-conducting material. 9. The lamp according to claim 1, characterized in that the replaceable wedges are fixed to the housing-radiator-bracket through heat-conducting material. 10. The lamp according to claim 1, characterized in that the matrix of LEDs are rigidly fixed to the casing-radiator and (or) on interchangeable wedges with screws. 11. The lamp according to claim 1, characterized in that the matrix of LEDs are rigidly fixed to the casing-radiator and (or) on removable wedges with rivets. 12. The lamp according to claim 1, characterized in that the matrix of LEDs are rigidly fixed to the casing-radiator and (or) on removable wedges through thermally conductive glue. 13. The lamp according to claim 1, characterized in that the bracket of the housing-radiator is made with it in one piece. 14. The lamp according to claim 1, characterized in that the bracket of the casing-radiator is manufactured separately with its subsequent rigid connection. 15. The lamp according to claim 1, characterized in that it provides fasteners to structural elements of the pillar console, or ceiling, or wall mount nodes. 16. The lamp according to claim 1, characterized in that between the bracket and a niche for the matrix of LEDs and (or) replaceable wedges there is a niche for a current source. 17. The lamp according to claim 1, characterized in that a two-channel source is used as a current source. 18. The lamp according to claim 1, characterized in that a multichannel source is used as a current source. 19. The lamp according to claim 1, characterized in that various types and the number of light emitting diodes are used as light sources.