RU77022U1 - LAMP - Google Patents

Abstract

The utility model relates to lighting devices and / or light sources and can be used for street, industrial lighting. The lamp housing consists of interconnected upper (1) and lower (2) parts. The upper part (1) of the housing is internally divided into the central (3) and at least two peripheral sections (4, 5) adjacent to it, in which the matrix of LEDs (6, 7) are located. The central section (3) is divided into a functional compartment (8), in which the power supply unit (10) of the LED matrices is located, and a technological compartment (9), in which there are elements for attaching the lamp to the support and connecting the wires of the supply network. In the lower part (2) of the housing, in the areas where the LED arrays are located (6, 7), windows (12, 13) are made of optically transparent material. The upper part of the body is made of heat-conducting material.

Effect: thermal stabilization of the operating mode of the matrix of LEDs due to their effective heat removal.

Description

The utility model relates to lighting devices and / or light sources and can be used for street, industrial lighting.

An analogue of the claimed utility model is a technical solution of the same purpose - a lighting device, the housing of which is divided into several functionally independent sections (application for invention No. 2002107789, IPC7 F21S 8/00, published 2004.02.20).

However, the known technical solution is aimed at solving the problem of the orientation of the light source in a given direction and the problems of supplying electric power to a moving light source. The heat removal from the light source is not solved in the technical solution, and therefore it is impossible to create high power luminaires.

The closest analogue to the same purpose as the claimed utility model is a technical solution of the same purpose - a lamp containing, installed in the housing, at least two LED arrays that are connected to the power supply (RF patent No. 2313199, IPC F21S 4 / 00; H05B 33/02).

The disadvantages of the known technical solutions, both analog and prototype, include the possibility of overheating of the LED sections during operation at elevated ambient temperatures, which reduces the lamp life

The problem to which the invention is directed, is to increase the life of the lamp with its operational reliability.

The technical result that can be obtained by implementing the utility model is the thermal stabilization of the operation mode of the LED sections due to their effective heat removal.

The essence of the utility model is a luminaire containing, comprising, installed in the housing, at least two matrixes of LEDs that are connected to the power supply unit, that the housing consists of interconnected upper and lower parts, while the upper part of the housing divided internally into the central and adjacent at least two peripheral sections in which the matrix of LEDs are located, the central section is divided into a functional compartment in which the power supply unit of the matrix of LEDs is located, and esky compartment, in which there are elements of fastening the lamp to the support and connecting the power wires

network, in the lower part of the housing, in the areas of the matrix LEDs, made of windows of optically transparent material, the upper part of the housing is made of heat-conducting material.

The outer surfaces of the peripheral sections are ribbed, with the possibility of increasing their surface area to remove heat from the matrices of LEDs,

The upper part of the body is embossed.

The upper part of the body is made monolithic.

The upper part of the housing is made up of rigidly interconnected central and peripheral sections.

A hatch is installed in the lower part of the housing, in the area of the technological compartment, with the possibility of quick access to it

The upper and lower parts of the housing are interconnected by bolts, with the possibility of ensuring its tightness.

The upper and lower parts of the housing are interconnected by latches, with the possibility of ensuring its tightness.

An aluminum alloy is used as the heat-conducting material of the upper part of the housing.

The power supply contains a common power supply for the matrix LEDs.

The power supply contains power supplies for each of the matrix LEDs.

The matrix LEDs are rigidly fixed in the peripheral sections of the upper part of the housing.

The matrix LEDs are rigidly fixed in the peripheral sections by means of thermally conductive glue.

The matrix LEDs are rigidly fixed in the peripheral sections with screws.

The matrix LEDs are rigidly fixed in the peripheral sections with rivets.

The pillar console was used as a support.

The ceiling mount was used as a support.

A wall mount was used as a support.

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 in the drawing, where:

figure 1 - lamp, top view;

figure 2 is the same side view;

figure 3 is the same, bottom view.

Figure 4 - the upper part of the housing, a bottom view.

The lamp can be implemented with the implementation of this purpose as follows. The lamp housing consists of the upper part 1 and the lower part 2. The upper part 1 of the housing is embossed in the form of a divided central section 3 and adjacent two peripheral sections 4 and 5. In this case, the peripheral sections in the upper part 2 of the housing can be made, at least two, and maybe more. In the peripheral sections 4 and 5, the matrices of LEDs 6 and 7 are located and rigidly fixed. The matrix of LEDs 6 and 7 are rigidly fixed in the peripheral sections 4 and 5 using thermally conductive glue. It is possible to rigidly mount the matrix of LEDs 6 and 7 in the peripheral sections 4 and 5, for example, using screws or rivets.

The central section 3 is divided into a functional compartment 8 and a technological compartment 9. A power supply 10 is installed in the functional compartment 8, to which the matrix of LEDs 6 and 7 are connected. The power supply 10 contains a common power supply (not shown) for the matrix of LEDs 6 and 7 It is possible to carry out a power supply unit containing power sources for each of the matrixes of LEDs 6 and 7. The technological compartment 9 is designed to accommodate the fastening elements of the lamp to the support (not shown in the drawing) and connect the power supply wires (in black hedgehog not shown).

The outer surfaces of the peripheral sections 4 and 5, which are components of the outer surface of the upper part 1 of the housing, are ribbed 11 to increase their heat sink surface, and serves to ensure effective heat removal from the matrices of LEDs 6 and 7. The arrangement of the matrices of LEDs 6 and 7 in the peripheral sections 4 and 5 due to the need and the possibility of increasing the area of their heat-removing surfaces, necessary for efficient cooling of the matrix of LEDs 6 and 7. A similar arrangement of the matrix of LEDs 6 and 7 Peripheral sections 1 and 2, the upper portion 1 provides a lamp housing having an effective cooling capacity and manufacturability.

The upper part 1 of the housing is made of a heat-conducting material, for example, aluminum alloy and is used as a cooling radiator. The upper part 1 of the housing is made in the form of a single part and is made by casting. It is possible to manufacture the upper part 1 of the body by stamping. The upper part 1 of the housing can be made of rigidly interconnected central sections 3 and peripheral sections 4 and 5, for example by welding.

The lower part 2 of the housing serves for its sealing and contains windows 12 and 13 of optically transparent material, which are located in the area of the matrix

LEDs 6 and 7. In the zone of the central section 3, under the technological compartment 9, a removable hatch 14 is installed for quick access to the technological compartment 9, for performing operations on fastening the lamp to the cantilever pillar support (not shown in the drawing) and connecting to the electric wires of the supply network.

The lower part 2 of the housing can be made of any material that meets the specified design and technological requirements, for example, of plastic or metal.

The upper part 1 and the lower part 2 of the lamp housing are tightly interconnected by bolts (not shown in the drawings), providing reliable protection of the internal components of the housing from adverse atmospheric influences. Perhaps their connection latches.

A lamp for street lighting is described. The lamp can also be used for industrial lighting, for example, inside a workshop, etc. lighting. Depending on the conditions of use of the lamp, various supports are used, for street lighting - a cantilever support with a pillar, for industrial lighting, wall support or ceiling support options are possible.

The lamp operates as follows. When the luminaire is connected to the mains supply, voltage is supplied to the power supply unit 10 and from its output to the matrix of LEDs 6 and 7 connected to it. During the operation of the lamp, the matrix of LEDs 6 and 7 generate heat, which is removed through the heat-conducting material of the upper part 1 of the housing. The efficiency of heat removal from the matrices of LEDs 6 and 7 is increased due to the developed cooling surfaces of the peripheral sections 4 and 5, made by ribbed 11, which provides thermal stabilization of the operating mode of the matrices of LEDs 6 and 7 and, as a result, increases the life of the lamp with its operational reliability.

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 lamp.

1 - upper part of the body

2 - lower part of the housing

3 - central section

4 - peripheral section

5 - peripheral section

6 - matrix of LEDs

7 - matrix of LEDs

8 - functional compartment

9 - technological compartment 10-power supply

11 - ribbed surface

12 - window

13 - window

14 - removable hatch.

Claims (18)

1. A lamp containing at least two matrixes of LEDs installed in the housing, which are connected to the power supply, characterized in that the housing consists of interconnected upper and lower parts, while the upper part of the housing is divided internally into a central and adjacent there are at least two peripheral sections in which the matrix of LEDs are located, the central section is divided into a functional compartment in which the power supply of the matrix of LEDs is located, and a technological compartment in which the elements are located s attachment fixture to a support and connection wires mains, at the bottom of the housing in the location zones LED matrices, window formed of an optically transparent material, the upper part of the housing made of thermally conductive material. 2. The lamp according to claim 1, characterized in that the outer surfaces of the peripheral sections are ribbed with the possibility of increasing their surface area to remove heat from the LED matrices. 3. The lamp according to claim 1, characterized in that the upper part of the housing is embossed. 4. The lamp according to claim 1, characterized in that the upper part of the housing is made integral. 5. The lamp according to claim 1, characterized in that the upper part of the housing is made up of a composite of central and peripheral sections rigidly interconnected. 6. The lamp according to claim 1, characterized in that in the lower part of the housing, in the area of the technological compartment, a hatch is installed with the possibility of quick access to it. 7. The lamp according to claim 1, characterized in that the upper and lower parts of the housing are interconnected by bolts with the possibility of ensuring its tightness. 8. The lamp according to claim 1, characterized in that the upper and lower parts of the housing are interconnected by latches with the possibility of ensuring its tightness. 9. The lamp according to claim 1, characterized in that an aluminum alloy is used as the heat-conducting material of the upper part of the housing. 10. The lamp according to claim 1, characterized in that the power supply contains a common power source for the matrix of LEDs. 11. The lamp according to claim 1, characterized in that the power supply contains power sources for each of the matrix LEDs. 12. The lamp according to claim 1, characterized in that the matrix of LEDs are rigidly fixed in the peripheral sections of the upper part of the housing. 13. The lamp according to claim 12, characterized in that the matrix of LEDs are rigidly fixed in the peripheral sections by means of thermally conductive glue. 14. The lamp according to claim 12, characterized in that the matrix of LEDs are rigidly fixed in the peripheral sections with screws. 15. The lamp according to claim 12, characterized in that the matrix of LEDs are rigidly fixed in the peripheral sections with rivets. 16. The lamp according to claim 1, characterized in that the pillar console is used as a support. 17. The lamp according to claim 1, characterized in that the ceiling mount is used as a support. 18. The lamp according to claim 1, characterized in that a wall mount is used as a support.