RU159705U1 - LED LUMINAIRE FOR UNIQUE LIGHTING OF THE WORKING SURFACE OF THE HOUSE - Google Patents

Abstract

The invention relates to the field of lighting engineering, and, in particular, to lighting devices based on semiconductor light sources for stationary installation. In the proposed LED lamp containing the housing in the form of a light transmitting tube bulb, the LEDs inside the housing are placed on the edges of at least three rows of double-sided boards so that the maximum radiation patterns of the LEDs of each row are parallel to the plane of the board and are located at angles to its edge. The conclusions of the LEDs are soldered to the prepared tracks on both sides of the board, so that the maxima of the directivity pattern of the LEDs are parallel to the plane of the board (perpendicular to the normal to the plane of the board) and are located at angles to the edge of each lamp board. Double-sided LED boards form stiffeners and are fixed at an angle to each other in the grooves of the flanges located inside the light-transmitting tube bulb transversely to its axis. The flanges are pulled together with screws.

Description

LED lighting fixture. Known lamp for artificial lighting of premises and / or cages for poultry, including a housing in the form of a light-transmitting tube bulb placed inside it on elongated circuit boards, at least in two rows of LEDs, and the maximum radiation patterns of the LEDs of each row are angled to a friend, while on the inner surface of the light-transmitting tubular bulb there are opposed longitudinal grooves, and the elongated LED boards are in contact with the bases, the cat flanges ryh arranged in longitudinal grooves of the flask to be displaceable and subsequent fixation of the board. [Description of the invention to the patent of the Russian Federation No. 2453762 from 01.20.2011, Int. C1. F21V 8/00, A01G 9/20, A01K 31/00, publ. 06/20/2012]. Using this lamp allows you to implement a method of artificial lighting for keeping birds, when the space of the cage or the area of the room is lit evenly, without the formation of characteristic light and temperature spots. A large number of low power LEDs are used. A cheap lamp of the required luminous power does not use forced cooling, sealed for periodic treatment with detergents and disinfectants.

A known LED lighting device comprising a base with a profile fixed to it with heat-removing fins and circuit boards mounted on the outside of the profile with LED lines and an optically transparent cover, characterized in that the outside of the profile is made in the form of a half cylinder, and the shape of the light intensity curve of the lamp in the transverse plane is determined by a change in the number of circuit boards with LED lines, a change in their position on the outside of the profile, and a change in the number of diodes in rulers located on the cylindrical outer side of the profile parallel to the axis of symmetry. [Description of the invention to the patent of the Russian Federation No. 132859 of 04/12/2013, IPC F21L 17/00, publ. 09/27/2013].

The disadvantages of these fixtures include the following:

1) to improve the uniformity of illumination of a surface or space using a large number of low-power LEDs, it becomes necessary to adjust and fix the angle between the maxima of the directivity pattern of the LEDs also in the longitudinal direction of the lamp, which requires intermediate (for example, wedge-shaped) spacers for each LED. The manufacture of intermediate gaskets leads to a higher cost of construction.

2) for fixing and power supply of LEDs, a technological operation of drilling holes in the boards is necessary, which also leads to a rise in the cost of construction;

3) according to the patent of the Russian Federation No. 2453762 from 01/20/2011:

3.1) for fixing the elongated LED boards, at least two opposite longitudinal grooves are required on the inner surface of the light-transmitting tube bulb, the implementation of which also leads to an increase in the cost of the structure;

3.2) a further increase in the number of rows of LEDs (boards) of more than three significantly complicates the design of the lamp and thereby sharply limits the ability to control the uniformity of lighting in the transverse direction.

4) according to the patent of the Russian Federation No. 132859 of 04/12/2013:

4.1) a flat base and an optically transparent cover form a poorly streamlined (non-smooth) profile for periodic treatment with detergents and disinfectants;

4.2) the presence in the design of heat-removing fins and the power supply unnecessarily increase the size of the structure;

4.3) the ability to control the illumination in the longitudinal direction is limited.

The objective of the proposed technical solution is to create a linear LED lamp that provides increased uniformity of illumination of the horizontal working surface.

The technical effect of the proposed LED lamp is to provide increased uniformity of illumination of the working surface by creating new opportunities for adjusting the angle both between the double-sided boards in the transverse plane of the lamp, and between the normal to the board edge and the maxima of the radiation pattern of the LEDs. The technical result is the creation of a technologically advanced in manufacture, cheap and reliable operation lamp for uniform illumination of the working surface of the house, based on low-power LEDs.

New in the proposed device is the layout and fixation of LEDs on the circuit board. In this case, the maxima of the directivity pattern of the LEDs are parallel to the plane of the board (perpendicular to the normal to the plane of the board) and are located at angles to its edge. The arrangement of LEDs on the edge of the board (in contrast to the arrangement of LEDs on the plane of the board) contributes to a more compact arrangement of boards in the transverse plane. This allows you to increase their number in the transverse plane of the lamp by 2-3 times and, accordingly, increase the uniformity of illumination of the working surface.

The solution of the problem and the corresponding technical result are achieved by the fact that in the lamp (Fig. 1, Fig. 2) containing the housing 1 in the form of a light-transmitting tube bulb, the LEDs 2 inside the housing are located on the edges of the double-sided boards 3, the number of rows of which is at least least three. The conclusions of the LED 4 are soldered to the prepared tracks on both sides of the board 3, so that the maxima of the radiation pattern of the LEDs of each row are parallel to the plane P of the board and are located at angles to its edge (Fig. 2 shows the angles P measured from the perpendicular to the edge of the board). Double-sided LED boards form stiffening ribs and are fixed at an angle to each other in the grooves 5 of the flanges 6 located inside the light-transmitting tube bulb transversely to its axis. The flanges are pulled together by the shaft 7 using screws 8.

The lamp contains: light transmitting tube flask - 1; LEDs - 2 with conclusions 4, placed on the double-sided boards 3, forming stiffeners; grooves - 5; flanges - 6, made according to the internal form of a light transmitting tubular flask; rod - 7, tightening the flanges; screws - 8; end caps - 9 and 10; sealing gasket - 11; cable -12; hanging eye bolt - 13.

The lamp works as follows:

A voltage is applied to the mounting double-sided boards 3 through the cable 12, which ensures, within the angle a, the radiation of each LED 2 (α is the opening angle of the light flux of the LED), which is output through the light-transmitting tube bulb 1 in the directions corresponding to the location of the LEDs and circuit boards, with an intensity of corresponding to the number of LEDs on the double-sided circuit boards.

Claims (1)

A luminaire for uniform illumination of the working surface of the houses of the house, comprising a housing in the form of a light transmitting tube bulb, characterized in that the LEDs inside the housing are placed on the edges of at least three rows of double-sided boards so that the maximum radiation patterns of the LEDs of each row are parallel to the plane of the double-sided board and are located at angles to its edge, while the double-sided LED boards form stiffeners and are fixed at an angle to each other in the grooves of the flanges, located nnyh inside the tubular translucent bulb transversely to its axis.

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