RU84943U1 - LIGHTING MODULAR DEVICE - Google Patents

Abstract

1. A lighting modular device comprising at least two light-emitting modules installed with the possibility of rotation on a common base, in which LEDs are used as light sources, characterized in that each module is made in the form of a box-shaped body, the base is made in the form of a support frame of an element on which a series of rod holders are mounted, each light-emitting module is connected to one of the rod holders with the possibility of rotation relative to the longitudinal axis of the rod holder. ! 2. The lighting modular device according to claim 1, characterized in that it comprises means for attaching to the bracket connected to the supporting frame element. ! 3. The lighting modular device according to claim 1, characterized in that the supporting frame element is made in the form of an arched strip.

Description

The utility model relates to lighting technology, namely, to outdoor lighting devices, mainly to devices for lighting roads.

At present, outdoor lighting devices in which LEDs are used as light sources are becoming more widely used.

Thus, it is known a device for lighting roads [CN 101101106], containing two rigidly mounted and mounted at an angle to each other LED modular sections. In this case, the light-emitting surface of the device is formed by the light-emitting surfaces of the indicated sections, and their mutual angular position determines the radiation pattern of the device.

The specified device due to the presence of several LED modular sections provides a significant amount of luminous flux. However, the device in question does not provide for the possibility of changing the spatial position of the indicated sections and, as a result, the possibility of changing the radiation pattern of light radiation, as a result of which it is not always possible to achieve that the light characteristics of the device in question correspond to specific lighting requirements in the installation zone.

Known lighting modular device [US 2008123057], selected as the closest analogue. This device contains a common base, made in the form of a rectangular panel, and mounted on it light-emitting modules distributed over the surface of the base. Each module includes an LED light source associated with a collimator. Moreover, each module is mounted with the possibility of rotation relative to the base in and / or counterclockwise, as well as with the possibility of changing the angular position of the optical axis of the module relative to the surface of the base.

In this device, by changing the spatial position of the individual modules, it is possible to change the radiation pattern of light radiation depending on the given requirements. However, to achieve a given radiation pattern in the device under consideration, it is necessary that each unit module is oriented in a certain way with respect to other modules and with respect to a common base, which complicates the process of setting the required spatial position of the light-emitting modules. In addition, due to the implementation of the considered device in the form of a set of light-emitting modules distributed over the surface of the panel base, the compactness of the device design is reduced.

The objective of the claimed utility model is to simplify the process of setting the required spatial position of the light emitting modules, as well as increasing the compactness of the device design.

The essence of the claimed utility model lies in the fact that in a lighting modular device containing at least two light-emitting modules mounted with the possibility of rotation on a common base, in which LEDs are used as light sources, according to the utility model, each module is made in the form of a box-shaped body , the base is made in the form of a supporting frame element on which a series of rod holders is mounted, each light-emitting module is connected to one of the rod holders with the possibility of the gate relative to the longitudinal axis of the rod holder.

In the particular case of performing a utility model, the device comprises means for attaching to the bracket connected to the supporting frame element.

In the particular case of the utility model, the supporting frame element is made in the form of an arched bar.

The presence in the inventive lighting device of several LED light-emitting modules mounted on a common basis with the possibility of their rotation, provides significant luminous flux with the possibility of changing the radiation pattern depending on the position of each of the modules.

The implementation of the inventive device in the form of a series of box-shaped light-emitting modules mounted on a supporting frame element using rod holders, provides a simple and compact design. In this case, by simple operations of rotation of each individual light emitting module around the longitudinal axis of the corresponding rod holder at one angle or another, the spatial position of the light emitting modules is achieved, providing a given radiation pattern of the claimed device.

Thus, the technical result achieved by using the claimed utility model is to simplify the process of setting the required spatial position of the light-emitting modules and increase the compactness of the device design.

In the case of the presence in the device of a means of attachment to the bracket connected to the supporting frame element, it is possible to install the inventive device on an external support, in particular, on a bracket mounted on a street lamp post.

In the case of the support of the frame element in the form of an arched strip, the rod holders installed on it with light-emitting modules are located along a line that is part of the circumference, and it is possible to form a wider radiation pattern with smaller dimensions of the support frame element.

Figure 1 presents a drawing of a General view of the inventive device (front view); figure 2 presents a General view of the inventive device (rear view); figure 3 presents a General view of the inventive device in a perspective view.

The lighting modular device comprises light emitting modules 1 made in the form of box bodies, in each of which LEDs are used as light sources 2. Light emitting modules 1 are made, in particular, in the form of long box bodies including a mounting plate with LEDs (not shown in the drawings ) placed in a housing having a metal base 3 with heat-removing ribs (Fig. 2) and a lid made of a polymeric material in which cone-shaped recesses are made - reflectors 4, in which scheny LEDs 2 (1, 3). On one of the end walls of the light emitting modules 1, a node 5 for inputting the power cable of the LEDs 2 is mounted.

The device also comprises a supporting frame element 6, made, in particular, in the form of an arched strip having a curved side surface (figure 3). A number of rod holders 7 are mounted on said supporting frame element 6. The rod holders 7, in particular, are mounted on the upper surface of the supporting frame element 6 and are oriented vertically with respect to said surface. Each light emitting module 1 is connected to one of the rod holders 7 with the possibility of rotation relative to the longitudinal axis of the rod holder 7.

To enable this rotation, each rod holder can be mounted on a supporting frame element with the possibility of its rotation in the attachment unit when it is rigidly fastened to the corresponding light-emitting module, or each light-emitting module can be mounted pivotally on the corresponding rod holder when each rod holder is rigidly fixed in the assembly its attachment to the supporting frame element.

In particular, one of the end sections of each rod holder 7 is rigidly fixed in the supporting frame element 6, while each light-emitting module 1 is pivotally mounted on the corresponding rod holder 7 using clamp connections 8 (Fig. 2).

The device also includes a means 9 of fastening to the tubular bracket 10 connected to the supporting frame element 6. The means 9, in particular, include two plates 11 having the shape of a circular sector, as well as a rectangular plate 12 on which the plates 11 of one of its lateral edges are fixed, installed parallel to each other. In this case, the plates 11 are placed on the plate 12 so that the parts of their surface located at the apex extend beyond the plate 12. In each plate 11 there are made through holes 13 located at the periphery (Fig. 3), as well as a through hole located at the apex (not indicated in the drawings). In each plate 11 there is a step cutout located at the apex (not indicated in the drawings), the shape of which is consistent with the shape of the step surface, which is formed by the lateral (convex) and lower faces of the supporting frame element 6. The plates 11 are arranged so that the edges of the stepped cut adjacent to the surface of the supporting frame element 6 and are rigidly connected to it along the specified edges. In the bracket 10 there is an upper and lower pair of through holes (not shown in the drawing), the distance between which is coordinated with the radial distance of the holes 13 in the plates 11 from the hole located at their top. The plates 11 cover the bracket 10 on both sides and are fastened to the latter by means of a bolt 14 passed through the through holes made in the plates 11 at their top and through the upper pair of through holes in the bracket 10, as well as by a bolt 15 passed through which or a pair of through holes 13 located respectively to each other in the plates 11 and through a lower pair of through holes in the bracket 10. In this case, by installing a bolt 15 in different holes 13 respectively located on the plates 11, different e the angular position of the light emitting modules relative to the horizon, which expands the possibilities for varying the characteristics of the illumination achieved using the inventive device.

The device operates as follows.

Before starting work, each light emitting module 1 is rotated around a respective rod holder 7 by a certain angle and fixed in the selected position. The inventive device is mounted on the bracket 10 and secured in a position selected relative to the horizon with the help of bolts 14 and 15. The angles of rotation of the light emitting modules 1 and the position of the bolt 15 are set based on the light characteristics that the inventive device must provide at the place of installation.

When power is supplied to the device, the LEDs 2 of the light emitting modules 1 emit light exiting through the openings 4. This provides illumination in the area determined by the location of the device.

Claims (3)

1. A lighting modular device comprising at least two light-emitting modules installed with the possibility of rotation on a common base, in which LEDs are used as light sources, characterized in that each module is made in the form of a box-shaped body, the base is made in the form of a support frame of an element on which a series of rod holders are mounted, each light-emitting module is connected to one of the rod holders with the possibility of rotation relative to the longitudinal axis of the rod holder. 2. The lighting modular device according to claim 1, characterized in that it comprises means for attaching to the bracket connected to the supporting frame element. 3. The lighting modular device according to claim 1, characterized in that the supporting frame element is made in the form of an arched strip.