KR100410829B1 - Laser Lighting Device for Directing Fire Evacuation Path - Google Patents

Abstract

The present invention relates to a laser induction lamp that can reliably guide the evacuation path even in the thick smoke in the event of a building fire,

The laser induction lamp according to the present invention includes a body having a transparent light transmitting portion, a laser light source installed in the body, and a direction of irradiation of a laser beam emitted from the laser light source and irradiated to the outside through the transparent light transmitting portion within a predetermined angle range. And a laser beam irradiation direction changing means for periodically changing in the control unit and a control means for driving the laser beam irradiation direction changing means in an emergency. The irradiation direction of the laser beam is periodically changed within a predetermined angle range. As a result, the gaze of the evacuator can be more effectively attracted, and the irradiation direction is changed in such a way that the laser beam spreads from the laser light source, so that the direction of the light source, that is, the evacuation path, is narrowed by the concentration. The direction can be easily understood.

Description

Laser Lighting Device for Laser Lighting Device for Directing Fire Evacuation Path

The present invention relates to a laser induction lamp, and more particularly, to a laser induction lamp that can reliably guide the evacuation path in the thick smoke in the event of a fire in the building.

In the event of a fire in a building, the fire alarm switch is operated manually or a sensor such as a heat sensor, a smoke sensor or an acoustic sensor activates the fire alarm, whereby people in the building are quickly evacuated to the outside of the building. Bars and evacuators will find exits and evacuate out of the building by looking at guide lights installed throughout the entrances and corridors of the building to guide the path to the emergency exits and stairs.

By the way, if a carpet or furniture is on fire and smoke starts to build up inside the building, the induction lamps installed near the corridor or emergency exit will be difficult to identify due to the heavy smoke, and evacuees may not be able to identify the front and breathing difficulties. In many cases, the victims of the fire accident have been found to be suffocating by the smoke rather than being directly killed by the fire. Being able to guide the way out quickly will minimize the number of victims of fire.

On the other hand, light emitted from a general electric light is non-coherent, that is, light having various frequencies and phases. The light emitted from a laser emits a frequency at a short distance and the intensity of light decreases as the distance increases. Since coherent light having the same phase and the same phase, it travels a long distance without spreading, and even if it passes through thick smoke, its path can be easily identified by scattering by smoke particles without losing its straightness.

Therefore, in recent years, attempts have been made to induce escapes in the event of fire by using laser light, but when the smoke is very dense, the length of the laser beam that enters the watch is limited, and the escape port is located on either side of the laser beam that enters the watch in a simple straight line. There is a problem that it is difficult to determine whether there is, and the configuration is complicated, which is not yet practical.

The present invention has been made to solve the above problems, by increasing the visibility of the laser beam and at the same time to accurately recognize the starting point to provide a laser induction lamp that can accurately and reliably guide the direction of the exit exit even in a continuous stream Its purpose is to.

Another object of the present invention is to provide a laser induction lamp that can minimize the damage to life due to fire by allowing the laser light to be applied to the induction lamp because the configuration is simple and low installation cost.

1 is a perspective view showing an embodiment of a laser induction lamp according to the present invention.

2 is a cross-sectional view showing another embodiment of a laser induction lamp according to the present invention.

3 is a cross-sectional view showing an embodiment in which a laser beam expanding means is provided in the light transmitting portion.

Fig. 4 is an operation explanatory diagram showing another embodiment of the laser beam irradiation direction changing means.

Fig. 5 is an operation explanatory diagram showing still another embodiment of the laser beam irradiation direction changing means.

Figure 6 is a view showing the installation state in the building of the laser induction lamp according to the invention.

7 is a view showing an embodiment in which the laser induction lamp of the present invention is installed in a fire alarm.

8 is a cross-sectional view showing an embodiment in which the laser induction lamp according to the present invention is configured to be portable.

<Description of Symbols for Main Parts of Drawings>

1: body 3: floodlight

4: laser light source 5: driving motor

11: diffuser plate for illumination 12: reflector plate

A laser induction lamp according to the present invention for achieving the above object, the body having a transparent light transmitting portion, a laser light source installed in the body, a laser beam emitted from the laser light source and irradiated to the outside through the transparent light transmitting portion And laser beam irradiation direction changing means for periodically changing the irradiation direction of the laser beam within a predetermined angle range, and control means for driving the laser beam irradiation direction changing means in an emergency. Originally, the human eye is more sensitive to the movement than the stationary bar. According to the present invention, when a fire is detected by a fire sensor installed in an emergency alarm system or an automatic fire extinguishing system or installed in itself, Alternatively, by manual operation, the laser light source that is normally turned off and the irradiation direction of the laser beam is periodically changed within a predetermined angle range can be more effectively attracted to the evacuator's line of sight, and furthermore, starting from the laser light source Since the irradiation direction is changed in such a way that the laser beam is spread, the direction of the light source, that is, the direction of the evacuation path can be easily understood even if the visible distance is narrowed by the concentration.

The laser beam irradiation direction changing means is preferably configured by combining the laser light source to be inclined at an angle to the rotational axis of the driving motor, and accordingly, the laser beam irradiation path can be conical trajectory without using a complicated mechanical configuration. The laser induction lamp with excellent visibility and excellent recognition of light source direction can be configured at low cost, so that the laser light induction lamp can be easily applied to existing induction lamp equipment.

In the laser induction lamp of the present application, it is also possible to provide an illumination device such as a fluorescent lamp so as to perform a guide role at night, but the laser beam can be obtained at low power using a laser diode, so that the laser beam is diffused in the body. An illumination diffuser plate for reflecting is provided, and an illumination reflector for reflecting the laser light source toward the diffuser plate side is provided at the front portion of the laser light source so that the laser beam is diffused through the reflector plate in the internal illumination diffuser in normal times, and in an emergency By using a solenoid or the like to be irradiated to the outside through the light-transmitting portion by deviating the illumination reflector from the path of the laser beam, it is possible to perform a nighttime guide role at ordinary power at low power without a separate lighting device.

In addition, it is possible to increase visibility by increasing the diameter of the beam by having a diverging lens for diverging the laser beam and a diverging lens for converging the divergent laser beam into parallel light again.

On the other hand, in the case of a large building fire, firefighters may also have difficulty in knowing their own access route, and the laser induction lamp of the present invention is formed in the form of a portable port, so that when the fire is extinguished, the laser induction lamp is switched on and thrown around the entrance route. In this case, since the laser beam is pointing upward of the entry path, the evacuation path to the outside in case of emergency can be easily confirmed.

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

1 is a perspective view showing an embodiment of the present invention, showing an embodiment in which the present invention is applied to the emergency exit indicator lights installed in the entrance or the hallway.

The body is composed of a main body 1 and a cover 2, the cover 1 is formed with a transparent light transmitting portion 3, the main body 1 is provided with a laser light source 4 composed of a laser diode or the like do.

The laser light source 4 is fixed to the end of the rotation shaft of the drive motor 5, the laser light source

As the beam axis of (4) is fixed to be inclined at a predetermined angle with respect to the rotation axis, the irradiation path of the laser beam in accordance with the rotation of the drive motor forms a long cone shape as shown in FIG.

In addition to the laser light source, the main body 1 includes a fluorescent lamp 6, a ballast 7, a control circuit board 8, and the like, and a fire detection sensor may be integrally installed.

In the laser induction lamp according to the embodiment of the present invention having such a configuration, only a fluorescent lamp is normally turned on, and a fire detection signal is controlled by a fire sensor installed in an emergency alarm facility or an automatic fire extinguishing facility or installed in itself. When input to the laser source, the laser light source is turned on by the control circuit and at the same time the driving motor is driven so that the irradiation direction of the laser beam is periodically changed within a predetermined angle range, so that the gaze of the evacuator can be more effectively turned off, and the thick smoke Even if the visible distance is narrowed, the direction of the light source, that is, the direction of the evacuation path, can be easily understood.

6 is a view showing that the laser induction light is installed on the emergency exit 33 and the side wall of the corridor. In the case of the induction light 31 installed above the emergency exit, a light transmitting part is installed on the front surface of the cover, and the side of the hall is installed. In this case, it is preferable to install a light-transmitting part on the side of the cover, and the installation position is set so that the evacuation path is located on the opposite side of the laser beam irradiation direction so as to guide the evacuator toward the narrower path width of the beam.

FIG. 2 is a view illustrating an embodiment in which a normal night light can be performed by a laser light source without installing a separate night light source in a laser induction lamp. The lighting diffuser plate diffuses and reflects a laser beam in the body 1. (11) is provided, and the reflecting plate 12 which reflects a laser beam toward the illumination diffuser plate 11 at the front part of the laser light source 4 is shown.

The reflecting plate 12 is coupled to the axis of the solenoid 13, and is located in front of the laser light source 4 so that the laser beam can be reflected toward the diffuser plate 11 for normal use, and the solenoid 13 is controlled by the controller in case of fire. As the excitation of the laser beam causes the laser beam to be irradiated to the outside through the light-transmitting unit 3, it is possible to perform a nighttime guide role at ordinary power without a separate lighting device.

It is preferable that the reflecting plate 12 and the lighting diffusion plate 11 are formed in a convex mirror shape, and in particular, the lighting diffusion plate 11 is preferably formed with a plurality of protrusions to diffuse light in any direction.

Fig. 3 shows an embodiment in which a diverging lens 15 for emitting a laser beam and a converging lens 16 for converging the emitted laser beam back into parallel light are provided inside the light transmitting portion, and the irradiation is performed by such a configuration. By increasing the diameter of the laser beam it is possible to increase the visibility.

4 and 5 are views showing another embodiment for changing the laser beam irradiation direction, Figure 4 is an embodiment for changing the laser beam irradiation direction by rotating the reflector 21 at a predetermined angle, Figure 5 is a side The examples in which the laser beam irradiation direction is changed by the elliptical reflector 25 provided with the reflecting surface are shown, respectively.

In the embodiment of Figure 4, the reflecting plate 21 is rotatably installed about the axis of rotation (21a) on the path of the laser beam in the body, the shaft of the solenoid 22 is coupled to the end of the reflecting plate 21 Therefore, as the solenoid 22 is excited or de-energized at a predetermined period, the reflecting plate 21 reciprocates within a predetermined angle range about the rotation axis 21a, and thus the irradiation direction of the laser beam is changed.

The solenoid is preferably rotatably installed in the body in order to change the linear motion of the solenoid into the rotational motion of the reflector, and of course, a guide groove and a guide pin may be installed at the coupling portion of the shaft of the reflector and the solenoid.

In the embodiment of Figure 5 the reflector 25 is rotated in one direction by the drive motor, the laser beam is changed in the irradiation direction of the two cycles per one rotation of the drive motor.

Figure 7 shows an embodiment in which the laser induction lamp of the present application is installed in a fire detector installed on the ceiling of the room, and installs a light emitting portion on the side of the fire detector body, even in a continuous stream by installing a fire detector so that the light emitting portion toward the entrance side An embodiment is provided so that the direction of the doorway can be indicated.

On the other hand, Figure 8 shows an embodiment consisting of a laser induction lamp portable, the body 1 is composed of an upper body (1a) and a lower body (1b) is screwed together,

The transparent light transmitting part 3 is formed in the upper body 1a, and the weight body in the lower body 1b.

41 is filled so that the light transmission part 3 can always face upwards, and the laser light source 4, the battery 42, and the switch 43 are fixedly installed, respectively.

O-rings 45 and 46 are installed at the coupling part of the upper body and the lower body and the operating part of the switch so that water sprayed for fire suppression does not enter the body.

In the case of a large building fire, firefighters may also have difficulty in knowing their own access route. As in this embodiment, a laser guide lamp is formed in the form of a portable port to turn on the switch 43 during the fire suppression to enter the entire access route. If it can be thrown in, the laser beam is pointing upward of the entry path, it is possible to easily check the escape route to the outside in case of emergency.

According to the laser induction lamp according to the present invention configured as described above, since the direction of irradiation of the laser beam is periodically changed within a predetermined angle range, the gaze of the evacuator can be more effectively focused and at the same time the visible distance is increased by the thick smoke. Even if it is narrowed, it is possible to easily determine the direction of the light source, it is possible to accurately and surely guide the direction of the exit.

In addition, the configuration is simple, the equipment cost is low, and can be easily installed in existing induction lamps, fire alarms, etc., it is possible to realistically enable the induction lamp using a laser light to minimize the damage to life due to fire.

Claims (7)

A body having a transparent light transmitting part and a laser light source installed in the body; and Laser beam irradiation direction changing means for periodically changing the irradiation direction of the laser beam emitted from the laser light source and irradiated to the outside through the transparent light transmitting portion periodically within a predetermined angle range, control for driving the laser beam irradiation direction changing means in an emergency In a laser induction lamp provided with means, An illuminating diffuser is provided in the body for diffusing and reflecting the laser beam, and an illuminating reflector for reflecting the laser light source toward the diffuser is provided in the front portion of the laser light source, and in case of an emergency, the illuminating diffuser is diverted from the path of the laser beam. Laser induction lamp comprising a solenoid for. The laser induction lamp of claim 1, wherein the laser beam irradiation direction changing means is formed by inclining the laser light source at a predetermined angle to the rotation axis of the driving motor. The method of claim 1, wherein the laser beam irradiation direction changing means includes a reflector having an asymmetrical cross section for reflecting a laser beam emitted from the laser light source to a side of the light-transmitting part by having a reflecting surface on a sidewall and rotating the reflector. Laser induction lamp comprising a drive motor. 2. The laser beam irradiation direction changing means according to claim 1, wherein the laser beam irradiation direction changing means comprises: a reflecting plate for reflecting the laser beam emitted from the laser light source toward the light transmitting portion, a rotating shaft rotatably supporting the reflecting plate, and one end of the reflecting plate. Composed of a solenoid to be coupled, wherein the control means is a laser induction lamp, characterized in that it comprises a timer for exciting the solede every predetermined period. delete 2. The laser induction lamp of claim 1, wherein the light transmitting part includes a diverging lens for emitting a laser beam, and a converging lens for converging the emitted laser beam to parallel light again. A substantially spherical body having a transparent light transmitting portion; and A laser light source installed in the body; and A battery installed in the body to supply power to a laser light source; and A switch for interrupting the power; and And a weight body provided on the opposite side of the light transmitting part so that the light transmitting part always faces upward.