JP2012227085A - Marker lamp system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a marker lamp system capable of easily securing a power supply route to an electric appliance separate from that to a light source of the system, and performing independent driving control of the appliance.SOLUTION: The marker lamp system 11 is provided with marker lamps 12, and an insulating transformer 14 as well as a power supply device 15 arranged in a hand hole 18. Each marker lamp 12 is equipped with a light source 30 and a lighting circuit 32 for lighting up the light source 30 as well as an electric appliance 33. The insulating transformer 14 converts a primary-side power source from a constant current control device 13 into a secondary-side power source to supply to the lighting circuit 32 of the marker lamp 12. The power supply device 15 supplies power to the electric appliance 33 of the marker lamp 12.

Description

  Embodiments of the present invention relate to a marker lamp system that uses a marker lamp having an electric device together with a light source and a lighting circuit.

  2. Description of the Related Art Conventionally, at airports, a plurality of beacon lights are installed on a runway, a taxiway, a runway, and the like, and a beacon light system that guides an aircraft by lighting control of these beacon lights is used.

  In this marker lamp system, a constant current power source from a constant current control device is supplied to a plurality of isolation transformers, and each isolation transformer converts a high-voltage primary power source into a low-voltage secondary power source and further converts it into a plurality of marker lamps. Supply. Each insulation transformer is arranged in a hand hole installed on the side of a runway, a taxiway, a running road, and the like. The constant current control device and the hand hole and between the hand hole and the indicator light are connected by piping, and the electric wire connecting the constant current control device and the insulating transformer and the insulating transformer and the indicator light are connected to these piping. Wires are wired.

  In addition to the light source and the lighting circuit that turns on the light source, an electric device may be disposed in the marker lamp. For example, if snow accumulates at the light exit from which the light from the marker lamp is emitted, the visibility of the marker lamp is lowered. Therefore, a heater for melting the snow accumulated at the light exit may be provided. Conventionally, the power source of this heater uses the same secondary power source of an insulating transformer as the power source of the light source.

JP 2004-308296 A

  However, since the power source of the heater arranged in the marker lamp is shared with the power source of the light source, the heater always generates heat when the power source of the light source is supplied, and independent drive control of the heater is difficult.

  A problem to be solved by the present invention is a marker lamp system that can easily secure a power supply path to an electric device separated from a power supply path to a light source of the marker lamp, and that enables independent drive control of the electric device. Is to provide.

  The marker lamp system of the embodiment includes a marker lamp, an insulating transformer and a power supply device arranged in the hand hole. The marker lamp includes a light source and a lighting circuit that turns on the light source, and also includes an electrical device. The insulation transformer converts the primary side power source from the constant current control device into the secondary side power source and supplies it to the lighting circuit of the marker lamp. The power supply device supplies power to the electric device of the marker lamp.

  According to the present invention, the power supply device is disposed in the hand hole together with the insulating transformer, and power is supplied from the power supply device to the electric device of the marker lamp. It can be expected that the power supply path can be easily secured, and independent drive control of the electrical equipment can be realized.

It is a block diagram of the marker lamp system which shows one Embodiment.

  Hereinafter, an embodiment will be described with reference to FIG.

  The marker lamp system 11 of the present embodiment is an aerial marker lamp system that controls lighting of a plurality of marker lamps 12 installed on a runway, a taxiway, a traveling path, or the like of an airport.

  The marker lamp system 11 includes a constant current control device 13, an insulation transformer 14, a power supply device 15, and a plurality of marker lamps 12. The constant current control device 13 is disposed in a power supply station 17 installed adjacent to the airport. The insulation transformer 14 and the power supply device 15 are arranged together in a hand hole 18 installed on the side of an airport runway, a taxiway, a runway, and the like. The marker lamp 12 is embedded in a road surface 19 such as an airport runway, taxiway, and traveling road. The power station 17 and the hand hole 18 are connected by a piping 20 for wiring, and a plurality of indicator lamps 12 are sequentially connected by a piping 21 for wiring from the hand hole 18.

  The marker lamp 12 includes a base 24 embedded in the road surface 19, a mounting depth adjusting spacer 25 attached to the base 24, a horizontal axis adjusting adjusting ring 26 attached to the spacer 25, and A lamp 27 attached to the adjustment ring 26 is provided. On the upper surface of the lamp body 27, a light emission port 29 for emitting light is formed. In the lamp body 27, the light emitting device 29 faces the light emitting port 29 as a light source 30, and a semiconductor light emitting device 30 a such as an LED element or an EL device, and light emitted from the semiconductor light emitting device 30 a is projected from the light emitting port 29 to the outside. A lens 31 is disposed, and a lighting circuit 32 for lighting the semiconductor light emitting element 30a is disposed.

  The marker lamp 12 includes a snow melting heater 33a as an electric device 33. The heater 33a may be arranged in the base 24 as shown in FIG. 1 to heat the lamp body 27 from the outside, or may be arranged in the lamp body 27 to heat the lamp body 27 from the inside. It may be. When the heater 33a is disposed in the lamp body 27, the snow melting in the vicinity of the light exit port 29 can be efficiently performed by disposing the heater 33a in the vicinity of the light exit port 29.

  The constant current control device 13 is connected to the primary side of the insulating transformer 14 in the handhole 18 by a primary side wire 36 wired to the pipe 20 and supplies an AC constant current power source to the insulating transformer 14.

  The insulation transformer 14 is a rubber-coated insulation transformer coated with rubber, and the primary side electric wire 36 from the constant current control device 13 is connected to the primary side, and the secondary side to the indicator lamp 12 is connected to the secondary side. An electric wire 37 is connected. The insulation transformer 14 converts a high-voltage primary power source from the constant current control device 13 supplied to the primary side into a low-voltage secondary power source and supplies it to the lighting circuit 32 of the marker lamp 12. The secondary electric wires 37 are wired in order in the base 24 of each marker lamp 12 through the pipe 21 and connected to the lighting circuit 32 in each marker lamp 12.

  In addition, the power supply 15 receives the supply of commercial AC power 40 from the power supply station 17 through the power line 38 wired to the pipe 20, and each heater power set so that the heater 33a generates heat with a predetermined power Supply to heater 33a of lamp 12. Heater power from the power supply device 15 is supplied to the heaters 33a of the respective marker lamps 12 through the power supply line 39. The power supply line 39 is wired in order in the base 24 of each marker lamp 12 through the pipe 21, and is connected to the heater 33a in each marker lamp 12.

  In the marker lamp system 11 configured in this way, the AC constant current power is supplied from the constant current control device 13 of the power supply station 17 to the insulation transformer 14, and the insulation transformer 14 is supplied from the constant current control device 13. The high-voltage primary power source is converted into a low-voltage secondary power source and supplied to the lighting circuit 32 of each marker lamp 12. The semiconductor light emitting element 30a is turned on by the lighting circuit 32 of each marker lamp 12 supplied with power, and the light generated by the semiconductor light emitting element 30a is emitted from the light emission port 29 of the lamp body 27 to the outside by the lens 31.

  Further, during snowfall, commercial AC power is supplied from the power station building 17 to the power supply device 15, and heater power is supplied from the power supply device 15 to the heaters 33 a of the marker lamps 12. The heater 33a of each of the marker lamps 12 supplied with power generates heat, heats the lamp body 27, and melts snow falling on the light exit port 29. In particular, by arranging the heater 33a in the vicinity of the light exit port 29, snow melting on the light exit port 29 can be efficiently performed. Due to the snow melting on the light exit port 29, the visibility of the light emitted from the light exit port 29 can be secured.

  Further, when it is not during snowfall, the commercial AC power supply 40 from the power station building 17 to the power supply device 15 is stopped.

  According to the marker lamp system 11 of the present embodiment, the power supply device 15 is disposed together with the insulating transformer 14 in the hand hole 18, and the marker lamp 12 is supplied with the heater power from the power supply device 15 to the heater 33a of the marker lamp 12. The power supply path to the heater 33a separated from the power supply path to the semiconductor light emitting element 30a can be easily secured, and independent drive control of the heater 33a can be performed.

  In particular, by arranging the power supply device 15 together with the insulation transformer 14 in the hand hole 18, the power supply device 15 is connected to each marker lamp 12 together with the secondary-side electric wire 37 that is connected from the insulation transformer 14 to each marker lamp 12 through the pipe 21. The feeder line 39 can be wired. Note that the power supply line 38 connecting the power supply station 17 and the power supply device 15 may also be wired to the pipe 20 together with the primary side electric wire 36. In this way, by using the existing handhole 18 and pipe 21 (pipe 20), the sign lamp 12 equipped with the heater 33a can be easily installed without digging up the road surface 19 of the airport. Can do.

  In addition, since the power supply path to the heater 33a can be secured separately from the power supply path to the semiconductor light emitting element 30a of the marker lamp 12, the heater 33a can be independently driven and controlled, and the heater 33a is only required when it is snowing. Can be controlled.

  The power supply device 15 may be provided with a control function for connecting a sensor for detecting snowfall or outside air temperature and automatically driving and controlling the heater 33a in accordance with the detection of the sensor. In this case, the control unit of the power supply device 15 can turn on and off the heater 33a and appropriately control the heat generation amount of the heater 33a according to the amount of snowfall and the outside air temperature.

  The electric device 33 included in the marker lamp 12 is not limited to the heater 33a, and may be a blower that blows away and removes snow, sand, or the like accumulated on the light exit port 29 by blowing air to the light exit port 29.

  As mentioned above, although some embodiment of this invention was described, these embodiment is shown as an example and is not intending limiting the range of invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

11 Marking light system
12 Indicator light
13 Constant current controller
14 Isolation transformer
15 Power supply
18 Handhole
30 Light source
32 lighting circuit
33 Electrical equipment

Claims (1)

A marker lamp having a light source and a lighting circuit for lighting the light source and having an electric device;
An isolation transformer disposed in the handhole and converting the primary power source from the constant current control device to the secondary power source and supplying it to the lighting circuit of the marker lamp;
A power supply that is placed in the hand hole and supplies power to the electrical equipment of the beacon lamp;
A sign lamp system characterized by comprising:

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