RU174500U1 - ARTIFICIAL LIGHTING DEVICE - Google Patents

Abstract

The utility model relates to lighting technology and can be used to provide reliable and economical lighting of artificial objects of railway transport. The device contains light sources installed on the object, a control unit and power sources. The light sources are made in the form of lighting devices, each of which includes LED modules installed in a single housing with different light fluxes, electric voltage converters located inside the housing or on the housing, and connectors for connecting power supplies, LED modules are made with different power, and case - with the ability to adjust the angle of inclination to the surface of the lighting, the first voltage converter is connected between the first connector and the power input the first LED module, the second voltage converter is an electric current between the second connector and the power input of the second LED module. Corresponding sources of direct and / or alternating voltage are connected to the connectors of lighting devices through the control unit. The technical result consists in increasing the reliability of working and backup lighting in accordance with the required standards. 6 c.p. f-ly, 2 ill.

Description

The utility model relates to lighting technology and can be used to provide reliable and economical lighting of artificial objects of railway transport, for example, railway bridge crossings, tunnels, underpasses, etc., in various climatic conditions.

A lighting control device is known, comprising an ambient light sensor, an ambient light sensor, a controller, batteries, an inverter, emergency lights for floors, additional lighting lamps, and a motion and volume sensor, the output of the solar battery being connected to the first input of the controller, and the output of an external sensor the illumination is connected to the second input of the controller, the output of the internal light sensor is connected to the third input of the controller, the input / output of the battery is connected to output / input of the controller and the first input of the inverter, the second output of the controller is connected to the second input of the inverter, the first output of the inverter is connected on each floor with the first input of the standby lamp and the input of the motion and volume sensor, the output of which is connected to the first input of the additional lighting lamp, second inputs all lamps are connected to the second output of the inverter, the third input of the inverter is connected to the output of the switch, the first input of which is connected to the first output of the controller, and the second input of the switch is connected to the power supply network I (RU 2394401 C1, Н05В 37/02, 09/10/2010).

The known lighting control device provides two lighting modes.

However, this device is a complex technical complex and requires constant highly qualified service. In addition, the use of lamps as light sources leads to a significant consumption of electricity.

The closest analogue is the lighting system in the transport tunnel, containing luminous elements located along the tunnel, which are used as LEDs connected to a power source, which are divided into two groups, the first is connected to a constant power source, the second group of LEDs are placed between the LEDs of the first group, connected to the mini-wind turbines and installed from them in the direction of movement of the vehicle, while the mini-wind turbines are connected to batteries that are black of the switch associated with the second group of LEDs, and the LEDs are all rotary reflector, the reflected light from which, in operation, is directed along the transport movement (RU 2464492 C1, F21V 21/00, 20.10.2012 g).

A disadvantage of the known system is that the radiation intensity of the tunnel lighting depends on the speed of the vehicle. In addition, the use of batteries as a power source requires regular monitoring of performance due to their use in the open air in various climatic conditions.

The technical result of the device is to increase the reliability of lighting an artificial object with the ability to provide the desired level of illumination of the object.

The technical result is achieved by the fact that the lighting device of an artificial object, containing light sources installed on the object, a power source and a control unit, each light source includes LED modules installed in a single housing with different light fluxes, as well as electric voltage converters, the output of each of which connected to the input of the corresponding LED module, and the input to the output of the control unit, the input connected to the power source, while the LED modules made with different light fluxes, the housing of each light source - with the ability to adjust the angle of inclination to the surface of the lighting, the power source is in the form of an alternating voltage source.

To increase the reliability of the device, it additionally includes a second power source in the form of a battery with a charge controller, the input / output of which is connected to the output / input of the control unit.

In one embodiment, the control unit may be in the form of a switch.

In another embodiment, the control unit can be made in the form of a programmable device that allows you to automate the lighting process.

For ease of operation, the outputs of the light source converters are connected to the output of the control unit via a corresponding connector.

To ensure the reliability of the device, the casing of each light source is sealed and equipped with means for heat removal.

For ease of operation, the housing of each light source is equipped with a mount.

A connector for connecting the control unit to the light source converters can be placed inside its housing or on its housing.

The essence of the proposed utility model is illustrated by the drawings in FIG. 1-2.

In FIG. 1 shows a schematic illustration of an embodiment of a lighting device for an artificial object — a lighting device for a railway tunnel; FIG. 2 is a structural diagram of a light source.

The lighting device of the railway tunnel contains light sources 1 mounted along the tunnel, power sources 2 and 3, and a control unit 4. The power source 2 is an alternating voltage network. Source 3 is an autonomous power source - a rechargeable battery with a charge controller, the input / output of which is connected to the output / input of the control unit 4, the input connected to the output of source 2. Source 3 is installed in a separate cabinet.

Each light source 1 contains LED modules 6 and 7 installed in the housing 5 with different light fluxes and converters 8 and 9 (drivers) of voltage to electric current, connectors 10 and 11 are placed on the housing 5. The output of the converter 8 is connected to the power input of the LED module 6 , and the input through connector 10 to the output of the control unit 4. The output of the converter 9 is connected to the power input of the LED module 7, and the input through the connector 11 to the output of the control unit 4.

At the same time, the housing 5 of the light sources is configured to adjust the angle of inclination to the lighting surface and is equipped with cooling fins and a mount (not shown in the drawing).

LED module 6 has a large luminous flux and acts as a light source 1 for working lighting (SRO 6), and LED module 7 has a smaller luminous flux and acts as a light source 1 for backup (emergency or standby) lighting (SAO 7).

The luminous flux of the LED modules 6 and 7 is selected in accordance with the established standards for the main and backup lighting of the railway tunnel.

In this case, the angle of inclination of the housing 5 is set so that the light flux of the LED modules 6 and 7 does not have a glaring effect for drivers and railway workers and does not affect the perception by the drivers of signal lights and light signals.

The lighting device of the railway tunnel operates as follows.

The source of light 1 backup (emergency) lighting - LED module CAO 7 operates continuously from source 1 - AC voltage. In the event of a power failure in the alternating voltage network, the control unit 4 connects the converter 9 to the source 3, which allows for constant backup lighting of the tunnel in accordance with the established lighting standards.

When performing work in the tunnel, the control unit 4 connects the converter 8 of the LED CPO 6 module to the AC voltage network. The converter 8 converts the alternating voltage into current to turn on the LEDs of the CPO 6 module. At the same time, the CAO 6 and CPO 7 modules operate simultaneously, which makes it possible to increase the power of the lighting device and provide the required lighting standards when performing work in the tunnel.

In this case, in the case of a discharge of the battery capacity, the charge controller generates a corresponding signal and transmits it to the control unit 4, which charges the battery from the AC mains.

When illuminating the railway bridge, the LED module СРО 7 of the backup (standby) lighting is connected to the AC mains only in the dark with the help of the control unit 4. In the event of a power failure in the alternating voltage network during the operation of the LED backup lighting CPO 7 module, in the same way, using the control unit 4, the converter 9 of the LED emergency lighting module is connected to the battery, thereby ensuring the operating mode of the emergency lighting.

When performing work on a railway bridge, in addition, using the control unit 4, a LED module CAO 6 for working lighting is connected to an alternating voltage network, thereby increasing the power of the lighting device and providing the required lighting standards.

Thus, the proposed utility model provides reliable working and backup (standby) lighting with a level of illumination in accordance with established standards.

Claims (6)

1. The lighting device of an artificial object, containing light sources installed on the object, a power source and a control unit, characterized in that each light source includes LED modules installed in a single housing with different light fluxes, as well as electric voltage converters, each of which output connected to the input of the corresponding LED module, and the input to the output of the control unit, the input connected to the power source, while the LED modules are made with different E light fluxes, each housing a light source - with the possibility of adjusting the angle of inclination to the surface illumination, a power source - as an alternating voltage source. 2. The device according to p. 1, characterized in that a second power source is introduced in the form of a battery with a charge controller, the input / output of which is connected to the output / input of the control unit, 3. The device according to claim 2, characterized in that the outputs of the light source converters are connected to the output of the control unit by means of a corresponding connector. 4. The device according to any one of paragraphs. 1, 2 or 3, characterized in that the control unit is made in the form of a switch. 5. The device according to any one of paragraphs. 1, 2 or 3, characterized in that the control unit is designed as a programmable device. 6. The device according to any one of paragraphs. 1, 2 or 3, characterized in that the housing of each lighting device is equipped with means for removing heat.

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