RU112339U1 - LAMP - Google Patents

Abstract

1. A luminaire containing at least one light module, including LEDs in a body having a ribbed shape, a window made of a light-transmitting material and a power supply unit are made in the body, characterized in that the light modules are installed with their ends in flat bearing sidewalls of a straight or curved contour, with the possibility of obtaining a predetermined luminous intensity curve of the luminaire by orienting the optical axes of the light modules at predetermined angles relative to each other, the light modules are connected to one or more power supplies installed on the sidewalls. ! 2. A lamp according to claim 1, characterized in that the light module comprises one or more rows of LEDs in a housing. ! 3. The lamp according to claim 1, characterized in that the power supply units are provided with covers installed on the sidewalls. ! 4. A lamp according to claim 1, wherein the body of the light module is made of a heat-conducting material. ! 5. A luminaire according to claim 1, characterized in that the luminaire is provided with a bracket for attachment to a supporting support, for example to a ceiling. ! 6. A lamp according to claim 1, characterized in that the LEDs are provided with secondary optics. ! 7. A lamp according to claim 6, characterized in that collimators or reflectors are used as secondary optics.

Description

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

For an analogue of the claimed utility model, a technical solution of the same purpose was adopted - optical modules with LEDs mounted on a flat board and fixed in a predetermined position (RF patent No. 2202731 for the invention “LED lighting device”, IPC ⁷ F21V 5/00, G08G 1/095 )

The closest analogue (prototype) of the same purpose as the claimed utility model is a technical solution - a USS 150 lamp by Focus company, containing at least one light module, including LEDs in a housing in which a window is made of translucent material and power supply unit (“Powerful LED lighting” www.ledsvet.ru)

The disadvantages of the known technical solutions, both analog and prototype, is the impossibility of obtaining various curves of light intensity (KSS) that determine the area of illumination since LEDs are installed in one plane.

The task to which this utility model is directed is the possibility of obtaining a luminaire with the required area of illumination of the working surface by forming the necessary type of CSS.

The technical result that can be obtained by implementing the utility model consists in the possibility of obtaining the necessary type of light intensity curve (LSS) of the luminaire by orienting the optical axes of the light models at given angles relative to each other.

The essence of the luminaire containing at least one light module, including the LEDs in the housing having a ribbed shape, a window made of translucent material and a power supply unit is made in the housing, that the light modules end faces are installed in the flat supporting sides of a straight-line curved contours, with the possibility of obtaining a given curve of the luminous intensity of the lamp by orienting the optical axes of the light modules at predetermined angles relative to each other, the light modules are connected to one or more their power supply units installed on the sidewalls

The solution of the task is facilitated by the signs characterizing the utility model in particular cases of its implementation or use.

The light module contains one or more rows of LEDs in the housing.

Power supplies are equipped with covers mounted on the sidewalls.

The housing of the light module is made of heat-conducting material.

The luminaire is equipped with a bracket for fastening to a supporting support, for example to the ceiling.

LEDs are equipped with secondary optics.

As secondary optics, collimators or reflectors are used.

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 2 - General view of the lamp

figure 3 is a side view of the lamp with a straight sidewall;

figure 4 is a side view of the lamp with a curved sidewall.

The lamp can be implemented with the implementation of this purpose as follows. The luminaire consists of light modules (not indicated in the drawing), each of which contains LEDs 1, located in the housing 2 in a row. Possible arrangement of LEDs 1 in several rows. The LEDs 1 are equipped with secondary optics, for example, in the form of collimators (not shown in the drawing). It is possible to use reflectors as secondary optics. The housing 2 of each light module is made with a ribbed surface to increase its heat-dissipating surface, while part of the housing 2 is made with a window 3 of translucent material. The housing 2 is made of heat-conducting material. The length of the housing 2 is proportional to the number of LEDs installed in it 1. The light modules are fixed by the ends of the housings 2 on two flat bearing sides 4 of a rectilinear shape. Flat bearing sidewalls 4 can be made with curved contours (Fig 3). The end light modules are installed in the flat bearing sides of 4 rectilinear or curved contours, with the possibility of obtaining a given luminous intensity curve of the lamp by orienting the optical axes of the light modules at preset angles from 1 to 179 and from 181 to 359, i.e. different from 0 ° and 180 ° relative to each other. LEDs 1 of the light modules are connected to power supplies 5. It is possible to connect each light module to an individual power supply (not shown in the drawing). To protect against external influences, the power supplies 5 are covered with covers 6. The lamp for attaching it to the supporting surface is equipped with a bracket 7. Depending on the conditions of use of the lamp, various supports are used, for street lighting - a cantilever support with a pole, for industrial lighting, wall support options are possible or ceiling mount.

The lamp operates as follows. The voltage of the supply network is supplied to the power supply 5, to the outputs of which the LEDs 1 of the light modules are connected. The luminous flux of the light modules passing through the windows 3, being summed up on the working surface, forms its illumination in accordance with the given KSS of the lamp. During operation of the LEDs 1, heat is released that is dissipated into the environment through the ribbed surfaces of the housing 2 of the light modules. The lamp can be used for street or industrial lighting, for example, inside a workshop or the like.

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.

Claims (7)

1. A luminaire comprising at least one light module, including LEDs in a housing having a ribbed shape, a window made of translucent material and a power supply unit, characterized in that the light modules end faces are installed in the flat supporting sides of a rectilinear or curved contour, with the possibility of obtaining a given curve of the luminous intensity of the lamp by orienting the optical axes of the light modules at predetermined angles relative to each other, the light modules are connected to one or more s power installed on the sidewalls. 2. The lamp according to claim 1, characterized in that the light module contains one or more rows of LEDs in the housing. 3. The lamp according to claim 1, characterized in that the power supplies are provided with covers mounted on the sidewalls. 4. The lamp according to claim 1, characterized in that the housing of the light module is made of heat-conducting material. 5. The lamp according to claim 1, characterized in that the lamp is equipped with a bracket for mounting to a bearing support, for example to the ceiling. 6. The lamp according to claim 1, characterized in that the LEDs are equipped with secondary optics. 7. The lamp according to claim 6, characterized in that collimators or reflectors are used as secondary optics.