PL67284Y1 - Collimator for lighting systems with light emitting diodes - Google Patents

Description

2 PL 67 284 Υ1

Pattern description

The utility model concerns a collimator for lighting systems with light-emitting diodes, in particular intended for use in outdoor lighting lamp housings. From the Polish application for a utility model with publication number PL119064U, a lens for lighting systems with light emitting diodes is known, which directs the light beam and has the shape of a dome with four cuts and two cutouts. The dome transforms into two rounded pyramids in which cut-outs are made and the tops were cut to obtain the cut surface. Round pyramids act as mirrors. The base of the dome turns into a low cuboid in which four through holes were cut, used for assembly, and its corners were rounded. Inside the dome, a saddle-shaped cutout is visible, in which the light source is placed, the saddle cutout is formed by the internal walls and the vault.

Moreover, it is known, for example, from the Polish application description with publication number PL364289A, for a housing of a lighting element used to shield the signaling diode. The housing of the light element is a light transmitting module positioned above the light element and wedging in the resilient projections of the body. The module is hollow on the inside, thanks to which the light passing through it refracts.

Furthermore, Chinese patent specification CN102080805A discloses an optical system for light-emitting diodes, comprising at least two rows of individual lenses arranged next to each other in a row, each with an elongated, cushion-shaped convex surface and two prisms completely reflecting light rays. The system allows the refraction and reflection of light rays, enabling them to be directed in all directions, within the angular range from 0 ° to 180 °.

The purpose of the utility model is to develop a collimator design for lighting systems with light emitting diodes, which will allow to focus the light rays emitted by the light diode to exclusively illuminate a selected surface, for example a street or a sidewalk.

The utility model relates to a collimator in the form of a monolithic plastic element having a recess for a light diode made in the base of the collimator, and in which the outer side of the collimator has the outline of a convex rounded surface. The essence of the utility model is that the recess for the LED is limited by two side bases located transversely to the longitudinal axis of the collimator, while the recess along the collimator axis runs along the contour of a rounded groove, preferably with an arcuate cross-section, which then becomes part of the expanding funnel such that the recess surface constitutes a refractive surface for the light rays of the diode to be placed in the recess. On each side of the recess along the axis of the collimator, an additional recess is made, each of which is limited from the side of the recess for the light-emitting diode by a concave surface inclined obliquely to the base of the collimator, which extends from the base of the collimator and is in the form of a part of the expanding funnel so that the concave surfaces are reflection surfaces of the light rays of the diode intended to be placed in the recess for the light-emitting diode. In a preferred embodiment, the surfaces of the auxiliary recess situated on the funnel side of the LED recess are inclined with respect to the plane of the perpendicular longitudinal axis of the collimator at an angle of 35 ° at the base of the collimator and an angle of 26 ° at the bottom of the additional cavity. In a further preferred embodiment, the surfaces of the additional recess situated on the side of the groove for the light-emitting diode are inclined with respect to the plane perpendicular to the longitudinal axis of the collimator at an angle of 44 °.

Moreover, it is expedient for the outer surface of the collimator to follow a portion of the surface of a cylindrical element with an oval base.

A collimator for lighting systems with light-emitting diodes allows for the full use of light rays emitted by light-emitting diodes and the desired orientation of these light rays.

The collimator is shown in more detail in the description below and in the attached drawing, in which Fig. 1 illustrates a longitudinal section through the collimator through its longitudinal axis. Fig. 2 - view of the collimator base, Fig. 3 - cross-section through the collimator through a recess on the LED, Fig. 4 - schematic longitudinal section through the collimator with the course of the light rays emitted by a light-emitting diode placed in the collimator cavity, fig. 5 - schematic

Claims (2)

3 PL 67 284 Υ1 cross-section through a collimator with the course of the light rays emitted by a light-emitting diode placed in the recess of the collimator, and Fig. 6 - a view of the exterior of a panel formed by several collimators arranged next to each other. The collimator 1 (Fig. 1, Fig. 2, Fig. 3) is in the form of a monolithic plastic element, for example made of polymethyl methacrylate (PMMA), in which a recess 5 is made for the LED 2 in the base 3 of the collimator 1. Outer side 4 the collimator 1 has the outline of a convex rounded surface. The recess 5 for the light-emitting diode 2 is limited by two side bases 6 situated transversely to the longitudinal axis 0 'of the collimator 1. The recess 5 along the axis 0' of the collimator 1 runs along the contour of a rounded groove 7, preferably with an arcuate cross-section, which then becomes part of the widening funnel 8 so that the surface 9 of the recess 5 constitutes a refractive surface for the light rays emitted by the diode 2 to be placed in the recess 5. An additional recess 10, 10 'is made on each side of the recess 5 along the axis 0' of the collimator 1. Each additional recess 10, 10 'is limited from the side of the recess 5 for the LED 2 by a surface 11, 11' inclined obliquely to the base 3 of the collimator 1, which extends from the base 3 of the collimator 1 and is in the form of a part of an expanding funnel, so that the surfaces 11 11 'are the reflection surfaces of the light rays of the diode 2 to be placed in the recess 5. The surfaces 11' of the additional recess 10 'situated on the side of the funnel 8 of the recess 5 for light diode 2 are inclined with respect to the plane of the perpendicular longitudinal axis 0' of the collimator 1 under an angle of 35 ° at the base 3 of the collimator 1 and an angle of 26 ° at the bottom of the additional cavity 10 ', while the surfaces 11 of the additional cavity 10 located on the side of the groove 7 of the recess 5 are inclined with respect to the plane perpendicular to the longitudinal axis 0' of the collimator 1 at an angle 44 °. The outer surface 4 of the collimator 1 runs along a portion of the surface of a cylindrical element with an oval base. The base 3 of the collimator 1 may optionally be provided with retainers 13 (Fig. 3) to assist in mounting the collimator 1 on the lamp mounting plate. Figures 4 and 5 show schematically the course of the light rays emitted by the light-emitting diode 2 placed in the recess 5 of the collimator 1. The surface 9 and the base surfaces 6 of the recess 5 are the input surfaces for the light rays emitted by the diode 2 which refract these light rays. The light penetrates the material of the collimator 1 and a part of the light rays, the original direction of which does not allow for their proper use, are reflected by the surfaces 11, 11 'of additional cavities 10, 10'. The outer surface 4 of the collimator 1 is the exit surface of the light rays, refracting light towards the illuminated surface. Fig. 6 shows a perspective view of a panel 12 formed by several collimators 1 positioned side by side. Each collimator 1 is designed to accommodate one diode 2, and the collimators 1 can be connected in any configurations in columns and rows to form panels 12. Protective claims 1. Collimator for lighting systems with light diodes, in the form of a monolithic plastic element, comprising a recess for the light diode made in the base of the collimator, and the outer side of the collimator has the outline of a convex rounded surface, characterized in that the recess (5) for the light diode is limited by two side bases (6) transversely to the longitudinal axis (0 ') of the collimator ( 1), the recess (5) along the axis (0 ') of the collimator (1) running along the contour of a rounded groove (7), preferably with an arcuate cross-section, then passing into a part of the widening funnel (8) so that the surface (9 ) the recess (5) is the refractive surface for the light rays of the diode (2) to be placed in this recess (5), and on each side the selected and (5) along the axis (0 ') of the collimator (1) an additional recess (10, 10') is made, each of which is limited from the side of the recess (5) for the diode (2) by the inclined obliquely to the base (3) of the collimator (1) a surface (11, 11 ') that extends from the base (3) of the collimator (1) and is in the form of part of an expanding funnel, so that the surfaces (11, 11') are the reflection surfaces of the light rays of the diode (2) intended for placed in the recess (5). 2. Collimator according to claim 3. The recess as claimed in claim 1, characterized in that the recesses (10 ') located on the side of the funnel (8) for the diode (2) that form the surfaces (1T) are inclined in relation to