RU107323U1 - LED MODULAR DEVICE - Google Patents

Abstract

 1. An LED device formed by a combination of LED sections, each of which contains a group of LEDs mounted on a circuit board, the sections being arranged so that their light-emitting surfaces are placed on the same side of the device, characterized in that the sections are installed sequentially at an angle to each other so that their light-emitting surfaces form the outer light-emitting surface of the device corresponding to part of the side surface of the convex polyhedron. ! 2. The device according to claim 1, characterized in that the sections have different lengths. ! 3. The device according to claim 1, characterized in that the LEDs located on different sections have different radiation patterns.

Description

The utility model relates to lighting engineering, namely, to LED modules, mainly used as part of LED outdoor lighting devices.

Currently, LED lighting devices are being actively developed - LED modules that can be used as part of outdoor lighting devices.

So, it is known LED modular device described in RU 84943, made in the form of an extended box-shaped body, which includes a group of LEDs mounted on a circuit board, placed in a single housing, closed with a cover with holes - reflectors for LEDs.

This device can be used as part of a multi-module outdoor lighting device.

However, the device under consideration provides for the creation of an almost parallel beam of light, which limits the area of the surface illuminated by it and does not always allow achieving the required lighting characteristics in different zones of the illuminated surface.

Known street LED modular device [CN 101105272], which is selected by the authors as the closest analogue.

The device in question includes a set of LED sections mounted on a common frame, each of which contains LEDs located on the circuit board. The sections are connected in such a way that their light-emitting surfaces are placed on the same side of the device and lie practically in the same plane.

This device due to the presence of several LED modular sections provides a significant amount of luminous flux.

However, the device in question, as well as the device described above, provides for the creation of an almost parallel beam of light, which limits the area of the illuminated surface and does not always allow achieving the required lighting characteristics in different zones of the illuminated surface.

The objective of the claimed utility model is the creation of an LED device that provides the ability to increase the area of the illuminated surface and achieve the required lighting characteristics in its different zones.

The essence of the utility model is that in an LED device formed by a combination of LED sections, each of which contains a group of LEDs mounted on a circuit board, while the sections are arranged so that their light-emitting surfaces are placed on the same side of the device, according to the useful section models are mounted sequentially at an angle to each other so that their light-emitting surfaces form the outer light-emitting surface of the device corresponding to the side part th surface convex polyhedron.

In the particular case of the implementation of the utility model sections have different lengths.

In the particular case of the utility model, the LEDs located on different sections have different radiation patterns.

The presence in the inventive LED modular device of several LED sections allows you to provide a significant amount of luminous flux.

Due to the fact that the LED sections in the inventive device are arranged at an angle to each other so that their light-emitting surfaces form the total light-emitting surface of the device, the shape of which corresponds to the shape of a part of the side surface of the convex polyhedron, the formation of the total diverging light beam is provided in the device. This leads to an increase in the area of the illuminated surface in which each of the sections illuminates a certain area. Choosing the number of sections, the angle between them, the number of LEDs in sections and the type of radiation patterns of LEDs in sections, it is possible to achieve the required lighting characteristics of the entire illuminated surface and its individual zones.

Thus, the technical result achieved by the implementation of the claimed utility model is the ability to increase the area of the illuminated surface and achieve the required lighting characteristics in its different zones.

In the case when the sections have different lengths, they illuminate areas of different sizes. The choice of section lengths provides an additional opportunity to achieve the required characteristics of illumination in different areas of the illuminated surface.

In the case when the LEDs located on different sections have different radiation patterns, there is an additional opportunity to achieve the required lighting characteristics in different areas of the illuminated surface.

Figure 1 presents a General view of the inventive device (side view); in Fig 2 - the same in a perspective view.

The device is formed by sequentially installed one-by-one box-shaped sections 1 located at angles a to each other.

The device, in particular, contains four sections 1, the angle α between adjacent sections 1 of the device, in particular, increases in height of the device in the direction from top to bottom, the length of sections 1, in particular, is selected such that the upper section 1 has the longest length, and the middle of the three lower sections 1 has a length exceeding the length of the other two lower sections 1 having the same length.

Each section 1 contains a housing 2, inside of which is mounted a group of LEDs 3 mounted on a circuit board (not shown in the drawings) (in the figure, one LED is indicated by 3). In this case, in each section 1, the LEDs 3 can be located on the same mounting plate to ensure the formation of an almost parallel beam of light or located on two mounting boards located with a small slope (of the order of 5 degrees) relative to each other to ensure the formation of a slightly divergent beam of light with the purpose of increasing the width of the surface of the illuminated surface.

The housing 2 of each section 1 is closed by a cover 4 (see Fig. 2, Fig. 1 shows a view of the device with the covers removed from the sections 1) made of transparent plexiglass, which ensures that the light emitted by the LEDs 3 through the cover 4 is practically lossless.

The light-emitting surfaces of 5 sections 1 are placed on the same side of the device and form the external light-emitting surface of the device corresponding to part of the outer side surface of the convex polyhedron.

Each two adjacent sections 1 are bonded to each other, in particular, using fastening U-shaped strips 6, covering the rear and side surfaces of the end sections of the respective sections 1.

The device, in particular, contains brackets 7 (figure 2), designed to fix the device on a support (not shown in the drawings).

The device operates as follows.

Before starting work, the device containing the sections 1 installed in the selected angular position is fixed, in particular, with the help of brackets 7, on a support, ensuring the given position of the device relative to the horizon.

When power is supplied to the device, the LEDs of 3 sections 1 emit light, providing illumination of the surface, the location and area of which are determined by the location of the device

Moreover, due to the angular position of the sections 1, the area of the surface illuminated by the device increases compared to the area that would be illuminated if the light-emitting surfaces of the sections 1 lay practically in the same plane. By choosing the number of sections 1, the number of LEDs 3 in sections 1, the angle α, as well as choosing the length of sections 1 and radiation patterns of LEDs 3 belonging to different sections 1, the required illumination characteristics are achieved in different zones of the illuminated surface.

So, the device, in the particular case of its implementation, presented in the drawings, provides the same illumination of the surface in its far and near zones.

Claims (3)

1. An LED device formed by a combination of LED sections, each of which contains a group of LEDs mounted on a circuit board, the sections being arranged so that their light-emitting surfaces are placed on the same side of the device, characterized in that the sections are installed sequentially at an angle to each other so that their light-emitting surfaces form the outer light-emitting surface of the device corresponding to part of the side surface of the convex polyhedron. 2. The device according to claim 1, characterized in that the sections have different lengths. 3. The device according to claim 1, characterized in that the LEDs located on different sections have different radiation patterns.