RU123111U1 - PEDESTRIAN JOURNEY LIGHTING SYSTEM (DEVICE IN GENERAL), LED LUMINAIRY (PART OF THE WHOLE) - Google Patents

Abstract

1. A pedestrian crossing lighting system containing a lighting device, a means for installing a lighting device made in the form of two supports located on opposite sides of the road and a double cable located in the pedestrian crossing zone above the traffic lanes, a lighting device control unit, a power supply characterized in that the lighting device consists of at least one LED lamp with a protruding multilens, fixed on a double cable and located above the traffic lane. The pedestrian crossing lighting system according to claim 1, characterized in that it can be additionally equipped with a pedestrian crossing illumination sensor. The pedestrian crossing lighting system according to claim 1, characterized in that it can be additionally equipped with a traffic light and a luminous sign "Transition". The pedestrian crossing lighting system according to claim 1, characterized in that the motion sensor is a device capable of recording the movement of a pedestrian at a distance and sending a signal to the control unit to turn on the signal lighting elements. The pedestrian crossing lighting system according to claim 1, characterized in that an electrical network and / or a solar battery and / or a wind generator and / or a device capable of generating or storing electrical energy can be used as a power source. The pedestrian crossing lighting system according to claim 1, characterized in that the control unit can be a microprocessor, or a relay, or a controller, or a device that allows you to close and / or open an electrical

Description

A group of utility models relates to the technique of operating roads, in particular to technical means of organizing traffic, as well as to the field of lighting. The utility model relates to the field of traffic equipment and can be used to reduce the likelihood of cars colliding with a person in a pedestrian crossing zone.

A group of utility models can be used for outdoor lighting of streets and roads, both in large cities and in areas remote from cities and settlements with developed urban infrastructure. For small settlements, in particular, the design of outdoor energy-saving road lighting of regional road infrastructure, which is characterized by intermittent or rare movements of wheeled vehicles, is considered.

Currently, there is an acute problem of ensuring the safety of pedestrians, especially at night, on the carriageway of urban roads, on highways and newly laid transport highways in connection with the annually increasing flow of vehicles, modernization of the country's transport network.

From the prior art it is known "Device outdoor energy-saving outdoor lighting" (patent for utility model of the Russian Federation No. 988228, published 10.10.2010). An outdoor energy-saving road lighting device comprises external lighting poles located remotely relative to each other along the vehicle direction of travel, communicated with a centralized power supply line through the switching unit at dusk and is equipped with motion sensors.

A disadvantage of the known device is that this device is not intended to ensure the safety of pedestrians, because not equipped with equipment purposefully illuminating a pedestrian crossing.

It is known "Device for lighting road markings" (RF patent for utility model No. 92869, published on 04/10/2010). A device for illuminating a road marking includes light sources placed in a housing enclosed at the bottom and equipped with light shapers to illuminate road marking elements, an ambient light sensor, at least one motion sensor, an electrical power supply and a controller.

The known device is intended for dynamic lighting of road markings. The disadvantage of this device is lighting only road markings, and the lack of lighting adjacent to the markings of the road.

It is known “Device for signaling light of a pedestrian crossing” (RF patent for utility model No. 101048, published January 10, 2011), which contains an element of signal lighting made in the form of a searchlight, a motion sensor, a power source, a control unit for the specified searchlight and motion sensor, and a crossbar located in the pedestrian crossing area above the lanes of vehicles.

A disadvantage of the known device selected as a prototype is that this device contains one spotlight that illuminates the pedestrian crossing and not a large space of the road adjacent to the pedestrian crossing zone. The searchlight cannot create the effect of the visual sensation of a “zebra in the sky”, which consists in creating a light effect above the pedestrian crossing, repeating the “zebra” stripes, which increases the informativeness and recognition of the pedestrian crossing in the dark.

The task to which the claimed technical solution is directed is to create a device that can automatically inform drivers about the presence of pedestrians in the pedestrian crossing zone, and pedestrians about cars approaching, to illuminate the pedestrian crossing at night and in conditions of insufficient visibility during fog and rain using additional light effect "zebra in the sky." The proposed technical solution will reduce the number of traffic accidents involving pedestrians in the pedestrian crossing zone and increase the safety of road users.

An optical light effect called “zebra in the sky” is obtained by using the proposed lighting and visualization system and uses the technique of creating in the field of visibility above the road a light display located at regular intervals and symmetrically with respect to traffic lanes, which creates associations with the zebra painted on asphalt " In the future, with the successful implementation of the patent, the effect of “zebra in the sky” will be as steadily associated with a pedestrian crossing, as well as the “zebra” painted on the road surface. An additional advantage is the visibility of the pedestrian crossing zone at distances of at least 200 meters in the dark. The effect of the “strip” is ensured by the use of a lens in the LED lamp, which protrudes 3-5 mm behind the lamp housing and gives side illumination in the form of a “strip”.

In the implementation of the utility model, the problem is solved by achieving a technical result, which consists in increasing the information content of the pedestrian crossing, increasing the intensity of lighting in the dark, reducing energy consumption.

The specified technical result is achieved by the fact that the lighting system of the pedestrian crossing contains a lighting device consisting of one or more LED lamps (6) having from 3 to 6 LEDs with a total power of 5-9 W, which gives illumination of the pedestrian crossing in 2 times greater than the norms of any given class of roads (A, B or C). The multi-lens of the luminaire protrudes by 3-5 mm behind the housing of the luminaire, which makes it possible to ensure visibility of the burning luminaire at a distance of up to 500 m (on an unlit road - up to 1000 m, in the city - 200-300 m). The luminaires are mounted on a double cable (2) attached to the support (1), their operation is provided by the control and power unit (7), and the dispatcher turns it on and off, or by motion sensors for pedestrians (3) and cars (4) and a pedestrian illumination sensor transition (5).

The inventive device can be equipped with a traffic light (10) and a luminous sign "Transition" (8) and is located in the area of the road marking (11).

The motion sensor (for pedestrians or cars) is a device that can remotely record the movement of a pedestrian and send a signal to the control unit to turn on the light.

An electric network and / or a solar battery (9) and / or a wind generator and / or other device capable of generating or storing electric energy can be used as a power source.

The control unit (7) may be a microprocessor, or a relay, or a controller, or a device that allows you to close and / or open the electrical network.

The means for installing LED lamps, motion sensors and a control unit for lamps and a motion sensor is made in the form of two vertical supports (1) located on opposite sides of the road and a double cable or crossbar (2), stretched between them.

An increase in information content and an increase in the intensity of illumination of a pedestrian crossing at night with minimal energy costs is achieved by the presence of LED energy-saving lamps providing a high degree of illumination located on a double cable above the lanes of vehicles in the pedestrian crossing zone. Reducing energy consumption is achieved by the design of the LED lamp used, the presence of a power source, a control unit, a motion sensor, which includes elements of signal lighting when a pedestrian or car falls into the coverage area of this sensor, as well as a light sensor of the crosswalk.

The inventive utility model is illustrated by drawings:

Figure 1 - General view of the lighting system of the pedestrian crossing

Figure 2 is a front view of the lighting system of the pedestrian crossing

Figure 3 - creating the effect of "zebra in the sky"

The glow from the “side” LEDs is visible above the entire transition (both above the “oncoming” lane and above the lane along which the approaching vehicle is traveling).

The lighting system (CO) can be carried out in two versions as follows.

1 work option.

CO turns on / off at a given time by a signal from the dispatcher (or a radio signal, or over cable networks, or a time relay). СО is equipped with a control unit that allows you to remotely control the on and off power supply, various external lighting control systems.

2 option work.

CO is turned on / off by motion sensors either when passing vehicles or when a pedestrian passes.

LED lamp (part of the whole)

The prior art known "Lighting device" (patent for the invention of the Russian Federation No. 2399835, published 09/20/20109).

The lighting device comprises a housing having the shape of a pentagonal or hexagonal prism, side walls made of LED boards, and perforations made on the end walls, the dimensions and configuration of the holes being made under conditions of optimal convection exchange of air heated inside the housing with the surrounding space, as well as optically transparent cap, which is hermetically attached with a design clearance to the housing outside the housing, forming an external prism so that the outside air does not get inside the outside prisms. Moreover, the cap is fixed on one of the end walls and its edges are inserted into the grooves of the second end wall. Also on the body is a mount to the support.

A disadvantage of the known luminaire with respect to the claimed device is that this luminaire has a bulky and heavy construction of the luminaire, is attached to the support only rigidly on the console, which does not provide uniform illumination of the earth's surface, and the lighting level decreases with distance from the support, no complete sealing of the luminaire, and the optical cap does not provide illumination of a certain (predetermined) area (ie there is a “loss” of light due to illumination of unnecessary surface areas and nearby Metov).

The prior art "Street LED lamp" (patent for utility model of the Russian Federation No. 83587, published June 10, 2009).

The lamp is mounted on a support and contains a housing with a light source installed inside the housing, and a power supply, while the entire surface of the housing is a cooling radiator made in the form of fins mounted on three sides around the perimeter of the housing. The light source is made in the form of an LED module in which light-emitting elements are combined in at least four parallel lines of series-connected heavy-duty LEDs.

A disadvantage of the known luminaire selected as a prototype is that this luminaire has a bulky and heavy construction, the ability to attach to the support is only rigidly on the console, which does not provide uniform illumination of the earth's surface, and the lighting level decreases with distance from the support. The optical cap does not provide illumination of a specific (predetermined) area (ie there is a “loss” of light due to illumination of unnecessary surface areas and nearby objects). The product is complicated and expensive to manufacture.

The task underlying this utility model is to create an LED luminaire with low power consumption and increased lighting parameters, a simple design, universal in installation methods, with improved conditions for cooling the light source.

The technical result achieved by the implementation of this utility model is to improve the cooling conditions of light sources (LEDs) and expand the functionality and consumer qualities, due to the possibility of using heavy-duty LEDs with a total power of 5-9 W, which gives the illumination of the pedestrian crossing 2 times greater than the norms of any given class of roads (A, B or C). The multi-lens of the luminaire protrudes by 3-5 mm behind the housing of the luminaire, which makes it possible to ensure visibility of the burning luminaire at a distance of up to 500 m (on an unlit road - up to 1000 m, in the city - 200-300 m).

The task underlying this utility model, with the achievement of the claimed technical result, is solved by the fact that in the LED lamp mounted on the carriageway on two parallel cables, which reduces the total weight of the structure and its price, containing a housing with a light source installed inside housing and power supply, the entire surface of the housing is a cooling radiator. The light source is made in the form of a block of LEDs or an LED module, consisting of a line of 3 to 6 heavy-duty LEDs connected in series, which are closed by a multi-lens protruding 3-5 mm behind the lamp housing.

The inventive utility model "LED lamp" is illustrated by the drawings:

Figure 4 is a General view of the LED lamp from the bottom (option 1 mounting to the cable from the bottom);

Figure 5 is a General view of the LED lamp from above (option 1 mounting to the cable from below);

6 is a General view of the LED lamp from the bottom (option 1 mounting to the pipe);

7 is a General view of the LED lamp from above (option 1 mounting to the pipe);

Fig - a General view of the LED lamp from the bottom (option 2 mounting to the cable from above);

Fig.9 is a General view of the LED lamp from the side (option 2 mounting to the cable from above)

12 - lamp housing,

13 - LED block with a lens

14 - cable channel

15 - LED indicator side

16 - fasteners

The LED lamp is made in two versions of the housing and three options for mounting the lamp to the support.

The first embodiment of the LED lamp (Figs. 4-7) comprises a lamp housing (12), fastening elements (16) of the housing on a support (to the cable from below and to the pipe), a block of LEDs with a lens (13), a cable channel (14 ), LED indicator side (15).

The luminaire body is a radiator made of aluminum by injection molding or stamping and made in the form of a box with slots on the side surfaces to increase cooling and four rectangular mounting pads, as well as the top cover. The lower surface of the housing is flat and designed to install an LED module with a lens. In addition, the lamp housing is a power element of the design of the LED lamp and has fastening elements either in the form of four brackets (Figs. 4-5) for mounting it to a double cable from below, or in the form of a single clamp (Figs. 6-7) for its installation to a rigid pipe

The second embodiment of the LED lamp (Figs. 8-9) comprises a lamp housing (12), fastening elements (16) of the housing on a support (to the cable from below), a LED block with a lens (13), a cable channel (14), an indicator LED lateral (15).

The luminaire housing is a radiator made of aluminum by injection molding or stamping and is made in the form of a closed box and a lower cover having side cooling fins. The lower surface of the housing cover is made flat and is designed to install an LED module with a lens. In addition, the housing of the lamp is a power element of the design of the LED lamp and has fastening elements in the form of four clamps (Fig.8-9) for its installation on the ropes from above.

The cable channel is designed for hermetically supplying the cable from the power supply to the lamp. The luminaire can be additionally equipped with an LED side indicator, designed to further enhance the effect of “zebras in the sky” on sections of roads with poor visibility.

Claims (14)

1. A pedestrian crossing lighting system comprising a lighting device, means for installing a lighting device made in the form of two poles located on opposite sides of the road and a double cable located in the pedestrian crossing area above the lanes of vehicles, a lighting device control unit, a power supply characterized in that the lighting device consists of at least one LED lamp with a protruding multi-lens mounted on a double cable and located nnogo over the strip traffic. 2. The pedestrian crossing lighting system according to claim 1, characterized in that it can be additionally equipped with a pedestrian crossing light sensor. 3. The lighting system of the pedestrian crossing according to claim 1, characterized in that it can be additionally equipped with a traffic light and a luminous sign "Crossing". 4. The lighting system of the pedestrian crossing according to claim 1, characterized in that the motion sensor is a device capable of remotely detecting the movement of a pedestrian and signaling the control unit to turn on the elements of signal lighting. 5. The pedestrian crossing lighting system according to claim 1, characterized in that an electric network and / or a solar battery and / or a wind generator and / or a device capable of generating or storing electric energy can be used as a power source. 6. The lighting system of the pedestrian crossing according to claim 1, characterized in that the control unit can be a microprocessor, or a relay, or a controller, or a device that allows you to close and / or open the electric network after a certain period of time. 7. LED lamp, consisting of a housing, housing fasteners, LED block with multi-lens, cable channel, characterized in that the housing is made in the form of a box with slots on the side surfaces, the multi-lens protrudes 3-5 mm behind the lamp housing, LED block consists of a line of 3 to 6 heavy-duty LEDs connected in series. 8. The LED lamp according to claim 7, characterized in that it can be additionally equipped with a side indicator LED. 9. The LED lamp according to claim 7, characterized in that the fastening elements are made either in the form of four brackets for mounting it to a double cable from below, or in the form of a single clamp for mounting it to a rigid pipe. 10. The LED lamp according to claim 7, characterized in that the total power of the LEDs is from 5 to 9 watts. 11. LED lamp, consisting of a housing, housing mounting elements, a LED block with a multi-lens, cable channel, characterized in that the housing is made in the form of a closed box and a lower cover having side cooling fins, the multi-lens protrudes by 3-5 mm behind the housing luminaire, the LED block consists of a line of 3 to 6 heavy-duty LEDs connected in series. 12. The LED lamp according to claim 11, characterized in that it can be additionally equipped with a side indicator LED. 13. The LED lamp according to claim 11, characterized in that the fastening elements are made in the form of four clamps for mounting it to cables. 14. The LED lamp according to claim 11, characterized in that the power of the LEDs is from 5 to 9 watts.