RU179983U1 - The lamp for illumination of road crosswalks - Google Patents

Abstract

The invention relates to lighting equipment and can be used to illuminate pedestrian crossings. A lamp for illuminating pedestrian crossings contains a supporting frame enclosed in a decorative casing, inside of which independent directional light sources are connected, connected via an electronic control unit to an external current source. Independent directional light sources are attached to the sides of the supporting frame with the possibility of rotation around the transverse axis of the mount and fixing them in a predetermined angular position, with each light source containing an individual heat sink, to which a flat surface is attached an optical concave-convex collecting lens forming with a flat surface a radiator cavity, and an LED cluster located in the central part of this strip is used as a directional light source tee. A through hole is provided along the axis of the body of the heat sink radiator, through which an electric wire is passed connecting the terminals of the LED cluster with the control electronic unit. The angle of illumination for each LED cluster is selected so that the illumination of the roadway along the entire transition line is predominantly 4 Lux. The technical result from the use of the claimed utility model is that the design of the lamp in comparison with its closest analogs can significantly increase its energy efficiency, since the entire luminous flux emitted by the lamp is distributed almost evenly across the entire field of the pedestrian crossing. 1 s.p. f-ly, 4 ill.

Description

The utility model relates to lighting technology and can be used to illuminate pedestrian crossings.

A lighting device is known, comprising a base with a stand, a housing attached to the stand, in which directional and decorative lighting modules are placed, wherein the lighting device is mounted to the stand with the possibility of rotation relative to the longitudinal axis of the stand, while the lighting device includes a processor for controlling light exiting directional lighting module and light exiting from the general lighting module. The microprocessor is used to control all individual light sources in order to create the corresponding lighting effect in the room (RF Patent No. 2536814. IPC F21S 8/00. Publ. 27.12.2014 Bull. No. 36).

The well-known technical solution is a specialized small-sized table lamp, which is designed to create a favorable working environment on the desktop and in the apartment. It is not possible to use the design of the lamp to illuminate the pedestrian crossings.

The closest in technical essence to the claimed object is a lamp, including a lighting unit and a lamp for illuminating the road and / or street, containing a decorative rectangular vertical housing with a heat sink, on a flat surface of which are placed in separate rows separate modules of light sources equipped with individual reflectors, which are placed horizontally and parallel to each other in the housing, while the light sources in each module are placed at different distances from fuses, in order to ensure the necessary characteristics of the luminous flux from the lamp for streets and / or roads (RF Patent No. 2513865 IPC F21S 8/08, (2006.01). Published on 04/27/2013, Bull. No. 23. PROTOTYPE).

The disadvantages of the known lamp include the complexity of the design, due to the presence of a large number of reflectors and light sources. In addition, this device is designed exclusively for lighting significant areas of roads and streets. Using this device to illuminate pedestrian crossings will lead to a sharp increase in energy costs, since the light spot will always go beyond the width of the lighting band, limited to 8-9 m.

Based on the foregoing, the technical result of the claimed technical solution is to reduce energy costs for lighting road pedestrian crossings and simplify the design of the lamp.

The technical result is achieved by the fact that in a known luminaire containing a supporting frame enclosed in a decorative casing in the form of a rectangular frame, inside which independent directional light sources are connected, connected via an electronic control unit to an external current source, according to the claimed utility model, independent directional light sources are attached to the sides of the supporting frame with the possibility of rotation around the transverse axis of the mount and fixing them in a given angular position, while The light source contains an individual heat sink that has an optical concave-convex collecting lens attached to its flat surface, which forms a cavity with a flat surface of the radiator. An LED cluster located in the central part of this cavity is used as a directional light source, along the body axis a heat sink is provided with a through hole through which an electric wire is passed connecting the terminals of the LED cluster with the control elec the unit.

The technical result is also achieved by the fact that the luminous flux power and the angle of illumination for each LED cluster are selected so that the light spot does not go beyond the width of the lighting strip of the road crossing, while the illumination of the roadway along the entire transition line should be mainly 4 Lux.

The figures schematically show:

FIG. 1 - profile projection of the lamp;

FIG. 2 - view of the lamp from below;

FIG. 3 is a front view of an independent directional light source;

FIG. 4 is a top view of an independent directional light source.

The lamp for illuminating pedestrian crossings (Fig. 1, Fig. 2) contains a supporting frame 2 enclosed in a decorative casing 1, made in the form of a rectangular frame. Independent directional light sources 3 are placed inside the supporting frame 2, which are connected to an external current source through a control electronic unit 4 (the current source is not shown in the figures). Independent directional light sources 3 are attached to the sidewalls 5 of the supporting frame 2 with the possibility of rotation around the transverse axis of the mount, and fixing them in a predetermined angular position using the fixing screws 6. The supporting frame 2 of the lamp contains a bracket 7, for mounting it to the road post, standing at pedestrian crossing (pillar is not shown in the figures). Moreover, each independent directional light source 3 (Fig. 3, Fig. 4) contains a heat-radiating fin radiator 8, to the flat surface of which an optical concave-convex collecting lens 9 is attached, forming a cavity 10 with it. The collecting lens 9 is attached to the flat surface of the heat-removing the radiator 8 by means of a clamping flange 11, equipped with screws 12. Between the clamping flange 11 and the collecting lens 9 is placed a rubber sealing ring 13, preventing moisture from entering the cavity 10.

As a directional light source, an LED cluster 14 is used, which is located in the central part of the cavity 10, and a through hole 15 is provided along the axis of the body of the heat sink 8, through which an electric wire 16 is connected, connecting the terminals of the LED cluster 14 to the control electronic unit 4. In the claimed the technical solution uses asymmetric optical lenses with angular radiation of 60, 90 and 120 degrees. The presence of such lenses, as well as the ability to adjust the tilt of the luminaire itself and independent sources of directional light relative to the horizon, allows you to create uniform illumination over the entire section of the road crosswalk.

To ensure normal conditions for the functioning of the lamp in the zone of the road crosswalk, lighting poles with a height of at least 6 meters are installed on both sides of the roadway. Pedestrian crossing signs, pedestrian detectors or pedestrian call buttons, LED lamps with a directional diagram of the light to the transition and, if necessary, elements of an autonomous power system (solar panels and batteries (poles, signs, detectors and other elements mentioned above on figures are not shown, because they are well-known).

The lamp in the composition of the above system works as follows. A pedestrian preparing to cross in low light conditions independently through a call button or automatically activates the system with pedestrian detectors. At the same time, the flashing lights of the pedestrian crossing sign are turned on, as well as lamps illuminating the pedestrian crossing zone on the roadway. Turning on occurs simultaneously on both racks. The luminaires operate for the limited time necessary for a pedestrian to cross the road, and then lighting and lighting are reduced by 50%. The system can be powered either directly from the 220 V AC network, or from the power of outdoor street lamps, or from an autonomous power system consisting of a solar panel and a storage battery.

The use of a luminaire as part of a traffic light equipped with a motion sensor allows you to turn on the lighting and the traffic light indication mode only when a pedestrian appears in the pedestrian crossing zone. Thanks to this approach, the blinding effect of the driver’s addiction to constantly flashing traffic lights is eliminated and the driver’s vigilance is significantly increased when the system is activated.

The technical result from the use of the claimed utility model is that the design of the lamp in comparison with its closest analogs can significantly increase its energy efficiency, since the entire light flux emitted by the lamp is distributed almost uniformly throughout the field of the pedestrian road crossing, without going beyond it, providing Thus, the necessary illumination of the road crossing field at the required level of 20 Lux. The luminaire has a rather simplified design, which incorporates the most modern technologies: LED clusters, an electronic unit (controller), modern materials, as well as glass and acrylic optical lenses, which are cheap in production.

Currently, design documentation for the lamp has been developed and a prototype has been made, which is undergoing preliminary tests.

Claims (2)

1. A lamp for illumination of road pedestrian crossings, containing a supporting frame enclosed in a decorative casing in the form of a rectangular frame, inside which independent directional light sources are connected, connected via an electronic control unit to an external current source, characterized in that the independent directional light sources are attached to the sides of the supporting frame with the possibility of rotation around the transverse axis of the mount and fixing them in a given angular position, with each light source sod It holds an individual heat sink radiator, to the flat surface of which an optical concave-convex collecting lens is attached, forming a cavity with a flat surface of the radiator, and an LED cluster located in the central part of this cavity is used as a directional light source, while the axis of the heat sink radiator is provided a through hole through which an electric wire is passed connecting the terminals of the LED cluster with the control electronic unit. 2. A luminaire for illuminating pedestrian crossings according to claim 1, characterized in that the light output and the angle of illumination for each LED cluster are selected so that the light spot does not go beyond the width of the lighting strip of the road crossing, while the illumination of the roadway the entire transition line should be predominantly 4 Lux.

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