KR20120088371A - Lighting apparatus for evacuation guidance - Google Patents

Abstract

PURPOSE: A lighting apparatus for emergency evacuation guidance is provided to use a pipe type LED leading light with high visibility and low power consumption to easily distinguish the leading light. CONSTITUTION: A commercial power supply part(30) is inputted the commercial power supply from a common power supplier. An emergency generator(25) supplies the power supply by using oil fuel and the other power. A solar cell part(10) converts a light energy to an electrical energy. A battery(20) stores the converted electrical energy. A leading light includes a leading light(90) installed on an underground passage and a leading light(91) installed on a tunnel. A power switching part(40) selects one of the battery, the emergency generator and the commercial power supply part. A power detector(50) senses the power failure of the commercial power supply part. A main controller(70) controls the power switching part.

Description

Lighting device for emergency evacuation guidance {LIGHTING APPARATUS FOR EVACUATION GUIDANCE}

The present invention relates to an emergency evacuation induction lighting apparatus, and more particularly to an emergency evacuation induction lighting apparatus for guiding people to a safe place in the event of an emergency such as a fire in a subway tunnel or underpass.

Induction lamps installed in underground passages and subway passages are installed to guide people to safe places such as evacuation ports in the event of a fire and a bad view.

Commercial AC power is used as a power source of the induction lamp. In addition, a system is known in which an induction lamp is turned on by switching to a storage battery in an emergency in which commercial AC power is cut off.

However, such a conventional induction light system cannot distinguish light irradiated from a fluorescent lamp when smoke is generated by a fire or the like in an underground shopping mall, a subway passage, or the like, and there is a fear that it cannot be guided appropriately by an induction light. In other words, when smoke is filled in a closed space such as an underground shopping mall or a tunnel, light of a conventional induction light is scattered by the smoke, making it difficult to visually check. As a result, the induction light cannot be accurately identified, so it is difficult to evacuate to the evacuation port quickly. There was a problem.

On the other hand, in order to increase visibility, the luminescence brightness may be increased by increasing the wattage of the induction lamp, but in this case, the power consumption increases, and thus there is an inadequate problem when the induction lamp is turned on by battery power.

The present invention is to overcome the above-mentioned conventional problems, using a pipe-type LED induction lamp with low power consumption and high visibility, so that the induction lamp can be easily identified even in a smoke-filled situation in an emergency, and the solar cell It is an object of the present invention to provide an emergency evacuation induction lighting device to replenish its own power by using a wealth.

In addition, the present invention has another object to guide people to quickly recognize the emergency situation through the color change, flashing and relay operation of the induction lamp in the event of an emergency such as a fire in the subway tunnel or underpass.

Emergency evacuation induction lighting apparatus according to the present invention for achieving the above object, a commercial power supply; Solar cell unit for converting light energy into electrical energy; A power storage unit for storing the electrical energy converted by the solar cell unit; A power switching unit connected to the commercial power unit and the power storage unit to select a supply power; An induction lamp connected to the power switching unit; A power detector detecting power abnormality of the commercial power unit; A main control unit controlling the power supply of the commercial power supply unit, controlling the power switching unit according to a power abnormality signal detected by the power detection unit, and outputting a lighting control signal; And a lighting controller for changing a lighting state of the induction lamp according to a lighting control signal output from the main controller.

An emergency generator may be further connected to the power switching unit.

The induction lamp may be composed of a plurality of LEDs in a line array, and the induction lamp is preferably a small lamp connected in series.

The solar cell unit may be formed on an upper portion of the canopy of the inlet of the underpass provided with a buffer means.

The lighting control unit may control the selection and blinking of the lighting color of the induction lamp.

The lighting control unit may control the direction and the period in the blinking of the induction lamp.

In addition, the present invention further includes a fire detection unit, and the main control unit may further output a lighting control signal according to the fire occurrence signal detected from the fire detection unit.

The induction lamp includes a plurality of color LEDs, and the plurality of color LEDs are preferably pipe-type LED induction lamps embedded in a line shape in a polycarbonate pipe.

According to the emergency evacuation induction lighting apparatus according to the present invention configured as described above, by using a pipe-type LED induction lamp with low power consumption and high visibility, it is possible to easily identify the induction lamp even in a situation full of smoke in an emergency. , It is effective to replenish its own power using the solar cell unit.

In addition, the present invention has an effect that can quickly recognize the emergency situation to people through the color change, flashing and relay operation of the induction lamp in the case of an emergency such as a fire in the subway tunnel or underground, and can quickly guide to a safe place.

1 is a block diagram showing an embodiment of an emergency evacuation induction lighting apparatus according to the present invention.
Figure 2 is a perspective view showing the installation state of the solar cell unit according to the present invention.
3 and 4 is a view showing the induction lamp installed in the underpass according to the present invention.
5 is a view showing an induction lamp installed in the tunnel according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing an embodiment of an emergency evacuation induction lighting apparatus according to the present invention.

As shown, the present invention is a solar cell unit 10, power storage unit 20, emergency generator 25, commercial power supply unit 30, power switching unit 40, power detection unit 50, fire detection unit 60, the main control unit 70, the lighting control unit 80, the color changing unit 81, the flashing drive unit 82, the relay drive unit 83, induction lamps 90, 91 and a plurality of LEDs 92 Equipped.

The commercial power supply unit 30 receives commercial power from an ordinary power supply.

The emergency generator 25 may supply power using ordinary petroleum fuel and other electric power as an emergency power generator.

The solar cell unit 10 converts light energy into electrical energy, and the power storage unit 20 stores the electrical energy converted by the solar cell unit 10.

The induction lamp includes an induction light 90 installed in an underpass and an induction light 91 installed in a tunnel, and includes a plurality of LEDs 92 arranged in a line. More specifically, each induction lamp 90, 91 is preferably a pipe-shaped LED induction lamp in which a plurality of the color LEDs 92 are embedded in a polycarbonate pipe.

As another example, the induction lamps 90 and 91 of the present invention may be applied to a side light optical fiber in which light is uniformly emitted from the side along the optical fiber. The pre-illumination optical fiber is an optical fiber that transmits light for illumination, not an optical signal for data communication, and a core made of high-purity acrylic resin (Poly methy1 methacrylate) and a special fluorine polymer (F-PMMA): It consists of a clad layer of fluorinated poly methy1 methacrylate).

The power switching unit 40 selects any one of the power storage unit 20, the emergency generator 25 and the commercial power supply unit 30 to supply to the induction lamp (90, 91).

The power detection unit 50 detects a power abnormality of the commercial power supply unit 30.

The power detector 50 may detect a normal current or voltage and detect an abnormality when it is out of a predetermined range by comparing with a reference value.

The main control unit 70 selects a power source of the commercial power supply unit 30 by operating the power switching unit 40, and when the power abnormality is detected by the power detection unit 50, the power storage unit 20 or One of the emergency generators 25 selects a power source and outputs a lighting control signal accordingly.

The lighting controller 80 changes the lighting color or the blinking state of the induction lamps 90 and 91 according to the lighting control signal output from the main controller 70.

That is, when normal power is input from the commercial power supply unit 30, for example, a green LED may be turned on, and when a power abnormality is detected, the red LED may be turned on.

The lighting controller 80 may change the lighting color of the induction lamp 90 installed in the underpass and simultaneously guide the exit direction to evacuators of the underpass by sequentially blinking the plurality of LEDs 92.

In addition, the lighting control unit 80 may change the lighting color of the induction light 91 installed in the tunnel and at the same time blink a plurality of LEDs 92 to inform the subway occupant passing through the tunnel 5 the power abnormal state. .

To this end, the lighting controller 80 may include a color changing unit 81, a flashing driver 82, and a relay driver 83.

In addition, the present invention may further include a fire detection unit 60. Therefore, the main controller 70 changes the lighting color, blinks or sequentially blinks by the lighting controller 80 when a power abnormality is detected from the power detector 50 and a fire is detected from the fire detector 60. To perform the operation.

Accordingly, a malfunction of the power detection unit 50 can be prevented, and more accurate detection of a power abnormality and a fire disaster is possible.

2 is a perspective view showing an installation state of a solar cell unit according to the present invention.

As shown, an underpass 1, a pillar 2 extending above the underpass 1, a frame 3 formed on the top of the pillar 2, and the pillar 2 and It has a canopy 5 composed of glasses 4 interposed between the frames 3.

The solar cell unit 10 of the present invention is preferably formed in the upper portion of the canopy of the underpass entrance (1).

In addition, a buffer means is provided between the upper end of the pillar 2 and the frame 3 to prevent breakage of the solar cell unit 10 from shock or vibration.

Specifically, the buffer means is formed between the support rod 7 is formed on the upper end of the pillar 2 and the canopy frame 3 is fitted, and the support rod 7 on both sides of the canopy frame 3 to provide a buffering force. It provides a spring (7) (9) and a fixing piece (6) for fixing the upper end of the support rod (7).

3 and 4 is a view showing the induction light installed in the underpass according to the present invention, as shown in the guide light 90 of the present invention in the longitudinal direction on the bottom surface or wall surface (about 30cm height from the floor) inside the underpass. It may be extended.

The induction light 90 formed as described above may change the lighting color by, for example, the lighting control unit 80 from green to red. At the same time, by sequentially blinking the plurality of LEDs 92 to be moved toward the exit direction, the evacuator of the underpass can be guided to the exit direction to evacuate quickly.

FIG. 5 is a view illustrating an induction lamp installed in a tunnel according to the present invention. As illustrated, the induction lamp 91 of the present invention may be formed to extend in a longitudinal direction on a wall surface or a ceiling surface inside the tunnel 5.

The induction lamp 91 formed as described above may change the lighting color of the lighting controller 80 from green to red, for example. At the same time, by blinking the plurality of LEDs 92 can be informed in advance of an alarm such as a power failure state or a fire state to the subway driver or occupant entering the station through the tunnel (5).

Therefore, according to the present invention, using a pipe-type LED induction lamp with low power consumption and high visibility, the induction lamps 90 and 91 can be easily identified even in a situation where smoke is filled in an emergency, and the solar cell unit 10 or the emergency generator 25 can be used to supplement the reserve power.

In addition, by changing the color of the induction lamp 90, 91, flashing and relay operation in case of an emergency such as a fire in the subway tunnel or underpass, the emergency situation can be immediately recognized by people and guided to a safe place quickly.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

1: underpass entrance 2: pillar
3: frame 4: glass
5: tunnel 10: solar cell unit
20: power storage unit 30: commercial power supply
40: power switching unit 50: power detection unit
60: fire detection unit 70: main control unit
80: lighting controller 81: color changing unit
82: flashing drive 83: relay drive
90: underpass guide light 91: tunnel guide light
92: LED

Claims (9)

Commercial power unit;
Solar cell unit for converting light energy into electrical energy;
A power storage unit for storing the electrical energy converted by the solar cell unit;
A power switching unit connected to the commercial power unit and the power storage unit to select a supply power;
An induction lamp connected to the power switching unit;
A power detector detecting power abnormality of the commercial power unit;
A main control unit controlling the power supply of the commercial power supply unit, controlling the power switching unit according to a power abnormality signal detected by the power detection unit, and outputting a lighting control signal; And
And a lighting control unit for changing a lighting state of the induction lamp according to a lighting control signal output from the main controller. The method of claim 1,
Emergency evacuation induction lighting apparatus characterized in that the emergency generator is further connected to the power switching unit. The method of claim 1,
The induction lamp is an emergency evacuation induction lighting apparatus, characterized in that consisting of a plurality of LEDs in a line arrangement. The method of claim 1,
The induction lamp is an emergency evacuation induction lighting apparatus, characterized in that the series of small lamps connected. The method of claim 1,
The solar cell unit is an emergency evacuation induction lighting apparatus, characterized in that formed on top of the canopy of the entrance of the underpass provided with a buffer means. The method according to claim 1, wherein
The lighting control unit is an emergency evacuation induction lighting device, characterized in that for controlling the selection and blinking of the lighting color of the induction lamp. The method according to claim 6,
The lighting control unit is an emergency evacuation induction lighting apparatus, characterized in that for controlling the direction and the period of the flashing of the induction light. The method of claim 1,
Further comprising a fire detector,
The main controller further outputs a lighting control signal according to the fire occurrence signal detected from the fire detection unit. The method of claim 3, wherein
The induction lamp includes a plurality of color LED, the plurality of color LED is an emergency evacuation induction lighting device, characterized in that the pipe-type LED induction light embedded in a line shape in the polycarbonate pipe.

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