UA116373U - LIGHTING DEVICE - Google Patents

Abstract

The lighting device comprises a housing made of aluminum alloy, a complex shape in the form of a radiator with fins-emitters of thermal energy, a light source in the form of LEDs placed on a common printed circuit board remotely from each other, a power supply of LEDs, at least one element of secondary optics in such a way that it hermetically closes at least one LED, the common printed circuit board is connected to the housing with the possibility of heat transfer between the common printed circuit board and the surface heat exchanger, protective end caps, one of which is equipped with a sealed socket, external harness - for conductors from the external power supply, and internal harnesses, the power supply of LEDs. A protective cover is mounted on the housing, and the means for connecting the housing and the cover is made in the form of a translational pair, and the first link of the translational pair is made on the surface of the housing, and the second link on the surface of the protective cover; to the outer surface of the cover is attached a fastening element in the form of a closed profile element, the means of connecting the cover and the fastening element is made in the form of a translational pair, and the first link of the translational pair is made on the surface of the protective cover. bracket support is due to the mounting screws; between the element of secondary optics and the housing of the lighting device is a sealing gasket.

Description

The utility model belongs to the field of electrical engineering, in particular to lighting equipment for outdoor use - to illuminators for stationary installation using long-term semiconductor light sources. A useful model can be used in the design and manufacture of LED illuminators with radiators as supporting bodies of illuminators.

A lighting device (ША 94169) is also known, which contains a basic LED module, made with the possibility of fixing on a separate support, and at least one additional LED module and a means of connecting the bodies of the mentioned modules to each other.

Module housings are made by the extrusion method and have internal and external cylindrical surfaces, and the means of connecting the housings is made in the form of a translational pair. At the same time, the first link of the translation pair is made on the surface of the body of the fixed module, and the second link is on the surface of the body of the additional module.

A well-known and closest in essence, for example, from publication A 85177 is an LED lamp containing a body made of aluminum alloy, a complex shape in the form of a radiator with heat energy emitting fins, the outer contour of the cross section of which is inscribed with radial elements in a circle of the appropriate diameter , a light source in the form of an LED line, a protective optically transparent screen, protective end caps, one of which is equipped with a hermetic connector, an external harness - for the current supply wires from the external electrical power supply network, and internal harnesses, a terminal block.

The case is made in the form of a segment, the radiating ribs on the outer surface are made in the form of dovetail-type fastening elements, which are placed evenly on the outer surface of the case, the case profile is made with an internal horizontal shelf in the lower part of the profile, which divides the internal space of the case into the upper (closed ) and the lower (open) part.

Such technical solutions have several disadvantages, which are related to: a decrease in the efficiency of the housing as a heat exchanger, due to the contamination of the radiator fins and, thus, a decrease in the durability and energy efficiency of LEDs; the possibility of icing and the formation of icicles in the winter season; insufficient manufacturability of the system for attaching the lamp to the support; the difficulty of installing secondary optics; the deterioration of the operating conditions of the driver (power supply unit) of the LED lamp due to the fact that the heat flows transferred directly from the LED boards to the housing are further transmitted to the driver of the lamps without any obstacles; insufficient energy saving due to the impossibility or difficulty of adjusting the light flow; impossibility of use for gas stations, etc. due to insufficient resistance to the evaporation of petroleum products; an insufficiently effective case cooling system due to the inability to direct the flow of the fluid along the edges of heat energy emitters or the use of printed circuit boards with unregulated placement of LEDs on their surface.

The purpose of the useful model is to: increase the efficiency of the housing as a heat exchanger; prevent icing and the formation of icicles in the winter season; to improve the manufacturability of the system of attaching the lamp to the support; simplify the installation of secondary optics; improve the operating conditions of the driver (power supply unit) of the LED lamp; increase energy efficiency; to enable use for gas stations, etc.; to increase the efficiency of the case cooling system.

The set tasks are solved by the following solutions: increasing the efficiency of the housing as a heat exchanger and making it possible to freeze and form icicles in the winter season can be achieved due to the fact that a protective cover is installed on the housing, and the means of connecting the housing and the cover is made in the form of a translational pair, and the first link of the translational pair is made on the surface of the case, and the second link - on the surface of the protective cover; it is possible to increase the manufacturability of the system of attaching the lamp to the support due to the fact that a fastening element in the form of a closed profile element is attached to the outer surface of the cover, the means of connecting the cover and the fastening element is made in the form of a translational pair, and the first link of the translational pair is made on the surface of the protective cover , and the second link is on the surface of the fastening element, and it is fixed on the support bracket by means of set screws; it is possible to simplify the installation of secondary optics due to the fact that a sealing gasket is installed between the element of secondary optics and the housing of the lighting device; it is possible to improve the operating conditions of the driver (power supply unit) of the LED lamp due to the fact that in the upper part of the protective cover on the inner surface and on the body, at least two pairs of vertical longitudinal grooves, having the shape of an open triangle, are placed 60 symmetrically relative to the longitudinal plane of the body and in these longitudinal grooves, at least one additional sliding plate is installed, made of a material with a thermal conductivity no less than the aluminum-based alloy on which the LED power supply unit is installed, and between this sliding plate and the groove made on the body, there is a layer of material of low thermal conductivity, and/or due to the fact that the protective cover has a horizontal shelf on which only the power supply unit or both the power supply unit and the control and switching unit are installed; energy saving can be increased due to the fact that the lamp is additionally equipped with a control unit with the functions of regulating the electric current and/or switching individual groups of LEDs, which are installed on a separate printed circuit board or on different ones, the control unit can be placed on an additional sliding plate installed in the longitudinal grooves made on the inner surface of the cover and on the body; make it possible to use for gas stations, etc. it is possible due to the installation of protective end caps on the layer of sealant and additional fixing with screws, while the sealant has resistance to normal atmospheric influences and additional resistance to oil vapors; it is possible to increase the efficiency of the case cooling system due to the fact that the fins-emitters of thermal energy are made with the possibility of the formation of fluid flows between them and along them, and/or the fact that the LEDs are evenly distributed over the common printed circuit board.

A useful model is explained by the following drawings, where fig. 1 shows the general view of the version of the lamp, where: 1 - body, 2 - protective end cover, C - protective cover, 4 - fastening element.

In fig. 2 shows a cross-section of a version of the lamp with a protective cover, which has a horizontal shelf 5 for installing only the power supply unit 6 or both the power supply unit and the control and switching unit (not shown on the drawing). A printed circuit board 8 with LEDs is installed on the base surface of the housing, which is covered by a secondary optics element 7. A sealing gasket 9 is installed between the secondary optics element and the housing of the lighting device.

In fig. It is shown that the LEDs 10 are evenly distributed over the common printed circuit board 8.

In fig. 4 shows the version of the lamp, where the power supply unit for LEDs is installed on an additional sliding plate 11.

Thus, the proposed design of the lighting device allows to increase the efficiency of the housing as a heat exchanger; to prevent icing and the formation of icicles in the winter season; to improve the manufacturability of the system of mounting the lamp on the support; simplify the installation of secondary optics; improve the operating conditions of the driver (power supply unit) of the LED lamp; increase energy efficiency; to enable use for gas stations, etc.; to increase the efficiency of the case cooling system.

Claims (9)

USEFUL MODEL FORMULA 1. A lighting device containing a housing made of aluminum alloy, a complex shape in the form of a radiator with fins emitting thermal energy, a light source in the form of LEDs placed on a common printed circuit board at a distance from each other, a power supply unit for LEDs, at least one element of the secondary optics, placed in such a way that it hermetically closes at least one LED, while the common printed circuit board is connected to the case with the possibility of heat transfer between the common printed circuit board and the surface heat exchanger, protective end caps, one of which is equipped with a hermetic connector, an external harness - for power supply wires from the external electrical power supply network and internal harnesses, a power supply unit for LEDs, which is distinguished by the fact that a protective cover is installed on the housing, and the means of connecting the housing and the cover is made in the form of a translational pair, and the first link of the translational pair is made on surface of the case, and the second lan ka - on the surface of the protective cover; a fastening element in the form of a closed profile element is attached to the outer surface of the cover, the means of connecting the cover and the fastening element is made in the form of a translational pair, and the first link of the translational pair is made on the surface of the protective cover, and the second link is on the surface of the fastening element, and the fastening on support brackets are due to the set screws; a sealing gasket is installed between the element of secondary optics and the housing of the lighting device. 2. The lighting device according to claim 1, which is characterized by the fact that in the upper part of the protective cover on the inner surface and on the body, at least two pairs of vertical longitudinal grooves are made, having the shape of an open triangle, placed symmetrically with respect to 60 of the longitudinal plane of the body, and in these at least one additional sliding plate is installed in the longitudinal grooves, made of a material with a thermal conductivity no less than the aluminum-based alloy on which the LED power supply unit is installed, and between this sliding plate and the groove made on the body, there is a layer of material of low thermal conductivity . 3. Lighting device according to any of claims 1, 2, which is characterized by the fact that a control unit with the functions of regulating the electric current and/or switching individual groups of LEDs installed on a separate printed circuit board or on different units is additionally added to the lamp control can be placed on an additional sliding plate installed in longitudinal grooves made on the inner surface of the cover and on the body. 4. The lighting device according to claim 1, which is characterized by the fact that the protective cover has a horizontal shelf on which only the power supply unit or both the power supply unit and the control and switching unit are installed. 5. The lighting device according to any of claims 1, 2, 3, 4, which is characterized by the fact that the protective end caps are installed on a layer of sealant and additionally fixed with screws, while the sealant has resistance to normal atmospheric influences and additional resistance to oil vapors . 6. The lighting device according to any of claims 1, 2, 3, 4, 5, which is characterized by the fact that the profile of the links of the translational pair is made in the form of a broken line. 7. Lighting device according to any of claims 1, 2, 3, 4, 5, which is characterized by the fact that the profile of the links of the translational pair is made in the form of open circles. 8. The lighting device according to any of claims 1, 2, 3, 4, 5, 6, 7, which is characterized by the fact that the heat energy emitting fins are made with the possibility of fluid flows between them and along them. 9. The lighting device according to any of claims 1, 2, 3, 4, 5, 6, 7, 8, which is characterized by the fact that the LEDs are evenly distributed over the common printed circuit board. e se dod s Y eh shu u y ssh i / Kr Zo y 4 Z zh y : y y eh m «ee. « She - posy Ka z y i; » i-y ee o bo V 7 fI Sh-x KOS i "vy Fig