RU2415335C2 - Led-based optical unit - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: proposed unit comprises mounting element, a panel, with its outer surface accommodating first and second LED groups mounted thereon. First group LEDs are secured on the panel so that their optical axes are oriented normally to panel surface, while second group LEDs are secured to the panel by appropriate retainers so that their optical axes in the panel lengthwise plane features angular displacement downward relative to optical axes of first group of LEDs.

EFFECT: simplified design, light beam propagation afar and downward relative LED location.

4 cl, 2 dwg

Description

The invention relates to lighting engineering, and in particular to LED optical units used as a light source in searchlight type lighting fixtures, used mainly for illuminating railway intersections.

Known are LED optical units used as light sources in projection-type lighting fixtures that contain LEDs fixed on the outer surface of the surround mounting element.

Thus, for example, an LED optical unit [RU 11298] is known, including an optical element and an LED assembly interacting with said optical element, which is fixed on the outer surface of a truncated mounting element having the shape of a truncated ball. The LEDs of the first group are located on a flat section of the outer surface of the mounting element, fixed in such a way that their optical axes are parallel and normal to the surface of the indicated section. The LEDs of the second group are fixed on the spherical surface of the mounting element, formed, in particular, by a set of parallel disk-shaped boards so that their optical axes pass through the light center of the considered optical system, and the radiating surfaces face the active surface of the optical element, made in particular , in the form of a parabolic reflector.

The optical unit in question is complex in design. In addition, the device under consideration provides unidirectional projection lighting, which may limit its use where, using unidirectional light radiation, the required illumination characteristics cannot be achieved.

Known LED optical unit [RU 2158876], which is selected by the authors as the closest analogue. The specified device includes an LED assembly fixed on the outer surface of a three-dimensional mounting element made in the form of a hollow convex truncated polyhedron inscribed in the surface of the ball so that its side faces are perpendicular to the straight lines emanating from the center of the ball. The specified polyhedron can be made, in particular, in the form of a set of hollow regular truncated pyramids conjugated by the bases inscribed in the curved surface of the ball zone. On a flat surface area of the polyhedron, a first group of LEDs is mounted, fixed in such a way that their optical axes are oriented parallel to each other and are normal to the surface of the area under consideration. One or more LEDs of the second group are mounted on each face of the polyhedron, fixed in such a way that their optical axes are perpendicular to the specified face and, accordingly, are oriented in space at an angle with respect to the spatial position of the optical axes of the LEDs of the first group.

The considered optical unit provides a circular radiation pattern of light radiation in a wide angular range.

However, this device due to the complex shape of the volumetric mounting element is complex in design.

In addition, using the device in question, which provides a circular radiation pattern, it is not always possible to achieve the required lighting characteristics. So, for example, this device is not applicable in the case when it is necessary that the light rays from a light source located above the illuminated area, propagate far and down relative to its location, which must be ensured, in particular, when illuminating railway intersections.

The task of the invention is to simplify the design of the device while ensuring the propagation of light rays into the distance and down relative to its location.

The essence of the claimed invention lies in the fact that in the LED optical unit, including the mounting element, on the outer surface of which there is a first group of LEDs mounted on the specified mounting element so that their optical axis are oriented parallel to each other, and the second group of LEDs fixed on the specified mounting element so that their optical axes are oriented in space at an angle with respect to the spatial position of the optical axes of the LEDs According to the invention, the mounting element is made in the form of a panel, the LEDs of the first group are fixed on the panel so that their optical axes are oriented normally to the surface of the panel, the LEDs of the second group are fixed on the panel using the LED position fixators mounted on it so that their the optical axes in the plane of the longitudinal section of the panel have an angular displacement downward relative to the position of the optical axes of the LEDs of the first group.

In the particular case of the invention, at least in part of the LEDs of the second group, the optical axes in the plane of the longitudinal section of the panel have a different angular displacement downward relative to the position of the optical axes of the LEDs of the first group.

In the particular case of the invention, at least a part of the LEDs of the second group are fixed on the panel with the help of the LED position fixators mounted on it so that their optical axes in the plane of the cross section of the panel have an angular offset relative to the position of the optical axes of the LEDs of the first group.

In the particular case of the invention, when the LED optical unit contains LEDs, the optical axis of which is offset in the plane of the cross section of the panel relative to the position of the optical axis of the LEDs of the first group, at least in some LEDs, the optical axis has a different angular offset in the plane of the cross section panels relative to the position of the optical axes of the LEDs of the first group.

The implementation in the inventive device of the mounting element, on which the LEDs of both groups are fixed, in the form of a panel helps to simplify the design of the inventive device and ensure its compactness.

Due to the presence in the inventive device of the LEDs of the first group fixed on the panel so that the light rays emitted by them propagate normally to the surface of the panel, the unidirectional propagation of these light rays into the distance relative to the location of the claimed device is ensured.

Due to the presence of the second group of LEDs in the inventive device, fixed to the panel by means of LED position fixators mounted on its surface in such a way that the light rays emitted by them in the plane of the longitudinal section of the panel have an angular downward displacement relative to the position of the optical axes of the LEDs of the first group, these rays down relative to the location of the claimed device.

Moreover, the type of radiation pattern of the inventive device in the plane of the longitudinal section of the panel (in the vertical plane) depends on the magnitude of the angular downward displacement of the light rays emitted by the second group of LEDs. Thus, in the inventive device, setting the magnitude of the specified angular displacement downward of the light rays, it is possible to obtain the angular distribution of light in the vertical plane, which most closely corresponds to the specified characteristics of the illumination.

Fixing the LEDs of the second group on the panel in the required position is achieved by placing the LEDs on the position indicators of the LEDs mounted on the surface of the panel, which can be used as simple structural parts.

So, for example, plates that are fastened in the lower part to the surface of the panel and mounted obliquely to its surface can be used as position indicators for the LEDs. In this case, the fixing of the LEDs of the second group in the required position is carried out by placing them on the mounting surface of the plates, which is selected as the surface normal to which has an angular downward displacement in the plane of the longitudinal section of the panel relative to the normal to the surface of the panel.

Prismatic holders can also be used as position indicators for LEDs, each of which has at least one mounting face that is inclined to the surface of the panel so that the normal to the surface of the specified face has an angular downward displacement in the plane of the longitudinal section of the panel relative to the normal to the surface of the panel. In this case, the fixing of the LEDs of the second group in the required position is carried out by placing them on the surface of the indicated mounting face of the prismatic holders.

Thus, the technical result achieved when using the inventive device is to simplify the design of the device while ensuring the propagation of light rays into the distance and down relative to its location.

In the case where at least a part of the LEDs of the second group, the optical axes in the plane of the longitudinal section of the panel have a different angular downward shift relative to the position of the optical axes of the LEDs of the first group, the range in which the angular light distribution of the inventive device can vary light in the vertical plane, depending on the selected values of the indicated angular displacements. Accordingly, the range is expanding in which the light characteristics of the claimed device can vary.

In the case when at least a part of the LEDs of the second group are fixed on the panel with the help of LED position fixators fixed on its surface in such a way that their optical axes relative to the position of the optical axes of the LEDs of the first group have an angular displacement in the plane of the panel cross-section (in horizontal planes), light rays emitted by these LEDs, which propagate downward in a vertical plane, have an additional lateral displacement in the horizontal plane, affecting e on the nature of the light distribution in the indicated plane. In particular, due to said lateral displacement, the light rays in the horizontal plane can form converging or diverging light beams defining the width of the illuminated lower zone.

In the case when at least a part of the LEDs of the second group the optical axes have a different angular offset in the plane of the cross section of the panel relative to the position of the optical axes of the LEDs of the first group, the range in which the angular light distribution of the light emitted by the claimed device can be changed in the horizontal plane, depending on the selected values of the indicated angular displacements. Thereby expanding the range in which the light characteristics of the claimed device can vary.

The required angular displacement of the optical axes of the second group of LEDs in two planes (vertical and horizontal) can be achieved by placing them on the fixtures, the mounting surface of which is inclined accordingly to the surface of the panel and at the same time has a corresponding angular displacement in the plane parallel to the front surface of the panel, relative to its longitudinal axis.

Thus, the claimed device allows using single LEDs fixed on the panel (regardless of the type of radiation patterns of their light radiation) to provide light propagation far and down relative to the location of the device and at the same time to obtain radiation patterns with different angular distribution of light in the vertical and horizontal planes.

Figure 1 presents a drawing of a General view of the inventive LED optical unit; figure 2 is the same in a perspective view.

The device comprises a panel 1, in particular made of aluminum and having, in particular, a rectangle elongated in the vertical plane. The device also contains LEDs 2 of the first group and LEDs 3 of the second group (in the drawing, the corresponding position indicates one LED in each group). Each LED 2 and 3, in particular, includes a light emitting crystal (not indicated) mounted on a heat sink plate base with contact pads (not indicated).

The LEDs 2 are mounted on the front surface of the panel 1 in its upper half in several parallel rows distributed over the indicated surface and fixed on it in such a way that their optical axes are oriented normally to the surface of the panel 1.

The LEDs 3 are placed in the lower half of the front surface of the panel 1. In this case, the device contains latches 4 of the LEDs mounted on the front surface of the panel 1 (two latches are indicated), on each of which one or more LEDs 3 are fixed.

The latches 4, in particular, are made in the form of flat plates fastened with their lower edge to the surface of the panel 1. The plates 4 are placed on both sides relative to the longitudinal axis of the panel 1 in several groups, located one below the other. In this case, the plates 4 are mounted obliquely with respect to the front surface of the panel 1 and have an angular displacement in a plane parallel to the front surface of the panel 1 relative to its longitudinal axis, which ensures, in particular, the lower edges of the plates 4 are oriented at an acute angle to the axis in the direction from above way down.

The plates 4 have a different angle of inclination relative to the front surface of the panel 1, in particular, the larger, the lower their location on the panel 1.

The plates 4 have an unequal angular displacement in the plane of the front surface of the panel 1 relative to its longitudinal axis, in particular, the lower their location on the panel 1, the less acute the angle of their lower edges are oriented towards the longitudinal axis of the plate 1 in a downward direction.

The LEDs 3 are placed on the lower (mounting) surface of the plates 4, the normal to which in the plane of the longitudinal section of panel 1 has an angular displacement downward relative to the normal to the front surface of the panel 1. In this case, the LEDs 3 are fixed so that their optical axes are located normal to the indicated surface plates 4.

The plates 4, on which the LEDs 3 are fixed, in particular, are placed in groups with a shift relative to each other along the height of the plate 1, which provides free exit of light rays emitted by these LEDs without intersecting them.

The plates 4 are formed, in particular, by cutting the material of the panel 1 along the contour corresponding to the side and upper sides of the formed plates, and bending the cut-out parts of the material of the panel 1 to the outside.

The device operates as follows.

When applying electrical power to the LEDs 2 and 3, they emit light rays. In this case, the LEDs 2 emit light rays oriented normally to the front surface of the panel 1, forming a parallel beam, and providing light propagation into the distance relative to the location of the LED optical unit. The LEDs 3, fixed by means of the plates 4 on the front surface of the panel 1 in the above manner, emit light rays having an angular downward displacement in the vertical plane relative to the rays emitted by the LEDs 2, and a lateral displacement in the horizontal plane, due to which a diverging light beam is formed, causing the exit of light rays outside the panel 1 in the specified plane. In this case, the light rays emitted by the LEDs 3 provide illumination of a zone located lower relative to the location of the claimed device, the dimensions and illumination characteristics of which are determined by the spatial position of the latches 4, on which the LEDs 3 are fixed.

Claims (4)

1. LED optical unit, comprising a mounting element, on the outer surface of which a first group of LEDs are mounted, fixed on the specified mounting element so that their optical axes are oriented parallel to each other, and a second group of LEDs, fixed on the specified mounting element so that their optical axes are oriented in space at an angle with respect to the spatial position of the optical axes of the LEDs of the first group, characterized in that the mounting element full in the form of a panel, the LEDs of the first group are mounted on the front surface of the panel in its upper half and fixed on the panel so that their optical axes are oriented normally to the surface of the panel, the LEDs of the second group are placed in the lower half of the front surface of the panel and fixed on the panel with LED position fixers mounted on it so that their optical axes in the plane of the longitudinal section of the panel have an angular downward displacement relative to the position of the optical axes of the LEDs iodine of the first group. 2. The LED optical unit according to claim 1, characterized in that at least for a part of the LEDs of the second group, the optical axes in the plane of the longitudinal section of the panel have a different angular downward displacement from the position of the optical axes of the LEDs of the first group. 3. The LED optical unit according to claim 1 or 2, characterized in that at least a portion of the LEDs of the second group are fixed to the panel with the help of LED position fixators mounted on it so that their optical axis in the plane of the panel cross section have an angular offset relative to the position of the optical axes of the LEDs of the first group. 4. The LED optical unit according to claim 3, characterized in that, at least for some of the LEDs, the optical axes have a different angular offset in the plane of the cross section of the panel relative to the position of the optical axes of the LEDs of the first group.

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