KR101485115B1 - Intelligence laser exit guidance light - Google Patents

Abstract

The present invention relates to an intelligence laser exit guidance light. The intelligence laser exit guidance light includes a controller. The controller controls a laser emitting device to emit a laser to display the exit direction of an exit path when a guidance display control signal is provided from a central management server, controls the driving of a driving motor to rotate a direction display member to display and change an avoidance direction corresponding to an avoidance display control signal when the avoidance display control signal is provided from the central management server, periodically receives a fire detection signal and a smoke detection signal respectively sensed through a fire detection sensor and a smoke detection sensor, and transmits them to the central management server.

Description

{INTELLIGENCE LASER EXIT GUIDANCE LIGHT}

The present invention relates to an intelligent laser guide lamp capable of guiding the evacuation path so that it can be quickly evacuated to an emergency exit in an emergency such as a fire or the like.

As is well known, buildings such as buildings, commercial facilities, public facilities, subways, and multi-use facilities of a certain scale or above are required to have a guide light for quickly evacuating people to an emergency exit in case of an emergency such as fire or power outage .

Most of these guiding lights are installed so that the lighting is maintained for a certain period of time even if the building is temporarily shut down due to a fire or a power failure, so that people who want to evacuate can easily find the exit.

Fluorescent lamps and LEDs are used to illuminate the guide lamps. Fluorescent lamps and LED lights become weaker as the distance gets farther, and scattered to smoke and dust. There is a problem that it is difficult to exert its function due to a shortened visible distance.

In order to solve such a problem, in recent years, even if the intensity of light does not weaken and the long distance is straightened and the smoke passes through the smoke, the straightness is not lost, A laser guide light using a laser beam is being developed.

Such a laser beam is strong in straightness and excellent in transparency even in dark smoke, so that it can be recognized quickly even at a long distance. However, since it is not possible to know in which direction the evacuees should recognize the laser beam to be irradiated, A projection panel is provided on the front surface of the laser guide lamp so as to be projected with symbols or characters guiding the evacuation direction so that the evacuation path can be recognized on the surface or the wall surface.

However, in the case of the conventional laser guide light as described above, since it is displayed in one direction to induce people who want to evacuate only by the evacuation route guided to the exit, Even when the smoke is full, there is a problem that it is displayed only at the corresponding point, which causes more human casualties.

Open Patent Publication No. 10-2011-0059161 (published on June 26, 2011) "Intelligent Evacuation Laser Induction System"

The present invention relates to an intelligent laser guiding method and a method of guiding the direction of an intelligent laser guiding light according to evasion path information provided when a fire occurs on the evacuation path or when smoke exceeding the life damage standard value is displayed while the evacuation path is displayed using the intelligent laser guiding light By adjusting the avoidance path, it is possible to provide an intelligent laser guide light which can intelligently adjust the evacuation path to minimize the damage of the person.

The objects of the embodiments of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description .

According to an embodiment of the present invention, there is provided a portable information terminal, comprising: a case having an opening formed in an end face thereof facing downward in a state of being inserted into a ceiling; a storage battery provided inside the case to supply power to an intelligent laser guide light during an emergency; And a laser irradiator for irradiating a laser in a downward direction on the ceiling, and a laser irradiator, and a laser beam irradiating unit for irradiating a laser beam on an extended end portion of the drive shaft A driving motor, a laser irradiator coupling member, a laser irradiator, and a direction indicating member are housed in the casing, A transparent dome member coupled to one end of the case, A fire detection sensor for transmitting a fire detection signal sensed through temperature sensing; a smoke detection sensor for sensing a smoke detection signal transmitted through smoke generation; A sensor, and a wireless communication module, and is provided inside the case, and controls the laser irradiator to irradiate a laser to indicate a direction of evacuation of the evacuation path when an induction indication control signal is provided from the central management server, The drive control unit drives and controls the drive motor so that the direction display member can be rotated so as to switch to and display the avoidance direction corresponding to the avoidance display control signal when the avoidance display control signal is provided from the central management server, A smoke detection signal and a smoke detection signal respectively sensed by a smoke detection sensor And an intelligent laser guide light including an intelligent laser guide light provided to the central management server and transmitted to the central management server.

According to the present invention, the display direction of the intelligent laser guide lamp is adjusted to the avoidance path in accordance with the avoidance path information provided when a fire occurs on the evacuation path or a smoke exceeding the life damage reference value is displayed during the display of the laser guide light when a fire occurs , Intelligent evacuation routes can be adjusted to minimize personal injury.

Further, the present invention provides avoidance path information provided when a fire occurs on the evacuation path or when smoke exceeding the life damage standard value is generated, and adjusts the display direction of the intelligent laser guide light according to the avoidance path information by an avoidance path It is possible to safely evacuate to an emergency exit or to move to a safe place, which can further reduce the damage of additional casualties.

1 is a configuration diagram of an evacuation route guidance system according to an embodiment of the present invention;
2 is a view illustrating an intelligent laser guide light according to an embodiment of the present invention;
FIG. 3 is a view showing a combined state of the intelligent laser guide light according to the embodiment of the present invention,
FIGS. 4A and 4B illustrate display of an induction indicator of an intelligent laser guide lamp by adjusting an avoidance path according to an embodiment of the present invention. FIG.

Advantages and features of embodiments of the present invention and methods of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions in the embodiments of the present invention, which may vary depending on the intention of the user, the intention or the custom of the operator. Therefore, the definition should be based on the contents throughout this specification.

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

1 is a configuration diagram of an evacuation route guidance system according to an embodiment of the present invention.

1, the evacuation route guidance system according to the embodiment of the present invention may include a central management server 100, a management information database 110, a plurality of laser guide lights 200 / 1-200 / n, have.

The central management server 100 is a server that performs overall management such as electricity, communication, air conditioning and the like of the building, and communicates with a plurality of intelligent laser guide lights (200 / 1-200 / n) And provides an induced display control signal to perform an induced display to guide the path. Here, a plurality of intelligent laser guide lights (200 / 1-200 / 2) are extracted from the management information database 110 to extract the evacuation path information (for example, the inside view of the building, the exit position, n to provide guidance display control signals corresponding to the evacuation directions so that guidance marks for guiding the evacuation paths can be respectively performed according to the evacuation direction.

In addition, the central management server 100 periodically (e.g., 1 minute, 3 minutes, etc.) from each of the plurality of intelligent laser guide lights 200 / 1-200 / n while performing guidance display for guiding the evacuation route A smoke detection signal, and a smoke detection signal, and determines whether or not the escapee can move through the escape route according to the reference temperature information and the reference smoke amount information stored in the management information database 110. Here, the reference temperature information is reference information (which can be set according to the installation position of the fire detection sensor) for determining whether or not heat is generated to the extent that a fire occurs in the evacuation route and can not move, and the reference smoke amount information Quot; refers to reference information (a reference value for a person's life) for judging whether or not there is smoke that can not be moved due to a smoke in the evacuation route.

When the escapee can not move through the escape route, the central management server 100 determines the escape route with reference to the escape route information, and then transmits the guidance information to the plurality of intelligent laser guide lights 200 / 1 to 200 / n, respectively, so as to perform guidance display on the avoidance path. Here, in the management information database 110, evacuation route information (for example, building internal view, emergency exit location, evacuation direction, etc.), reference temperature information, and reference smoke amount information are stored in a database and stored And can be extracted and provided to the central management server 100.

The plurality of intelligent laser guide lights 200/1 to 200 / n are provided to the central management server 100 in such a manner that when the guidance display control signal for inducing and displaying the evacuation path is provided through wireless communication, (For example, a symbol such as an arrow or a character such as a evacuation route, an emergency exit, etc.). Such markings can be displayed on the evacuation route at required locations such as the floor, side, and so on.

On the other hand, when a plurality of intelligent laser guide lights 200/1 to 200 / n are provided with an avoidance display control signal for inductive display of the avoidance path from the central management server 100 through wireless communication, (For example, symbols such as arrows or characters such as escape routes and emergency exits) by using a laser. The detailed configuration of the plurality of intelligent laser guide lights 200 / 1-200 / n will be described later.

Accordingly, by adjusting the display direction of the intelligent laser guide light to the avoidance path according to the avoidance path information provided when a fire occurs on the evacuation path or smoke exceeding the life damage reference value is displayed during the display of the laser guide light when a fire occurs, , It is possible to minimize the casualty damage by adjusting the evacuation route.

Next, in the evacuation route guidance system having the above-described configuration, when a fire occurs on the evacuation route during the display of the laser guide light when a fire occurs, or smoke exceeding the life damage reference value is generated, A laser guide light capable of adjusting the direction indication of the guide light by the avoidance path will be described.

FIG. 2 is a view showing an intelligent laser guide light according to an embodiment of the present invention, and FIG. 3 is a view illustrating an assembled state of an intelligent laser guide light according to an embodiment of the present invention. Here, the electrical configuration of the intelligent laser guide lamp is not described below because it can be sufficiently changed in design in a conventional general electric configuration.

2 and 3, an intelligent laser guide lamp 200 according to an embodiment of the present invention includes a case 201, a controller 202, a storage battery 203, a drive motor 204, a laser irradiator coupling member 205 A laser irradiator 206, a direction indicating member 207, a first sealing member 208, a transparent dome member 209, a second sealing member 210, a bracket 211, a fire detection sensor 212, A smoke detection sensor 213, and the like.

The case 201 is provided with a space for installing other constituent parts therein. The case 201 is inserted into a ceiling for displaying a laser on a floor surface or a side surface, and an opening 201a is formed on one end face .

The controller 202 is installed inside the case 201 and performs overall operation control of the intelligent laser guide lamp 200 including the wireless communication module. The controller 202 controls wireless communication with the central management server 100, And a communication module for controlling the driving motor 204 so that the evacuation direction and the laser display direction are the same while controlling to emit a laser beam to indicate the evacuation direction of the evacuation path when the guidance display control signal is provided from the central management server 100. [ Respectively. Here, the laser display direction can be displayed in various directions according to the rotation of the direction display member 207, and the initial display direction is set in the same direction as the display direction of the evacuation path provided from the central management server 100 .

When the escape display control signal is provided from the central management server 100 while displaying the evacuation direction of the escape route, the controller 202 controls the drive motor 204 . Here, the controller 202 controls the laser irradiator 206 so that the laser is irradiated at a corresponding point switched to the avoidance direction in a manner such as flashing, so that the changed direction can be easily recognized and the user can change the evacuation path to the avoidance path .

When a fire occurs in a state that the controller 202 is electrically connected to the fire detection sensor 212 and the smoke detection sensor 213, the controller 202 detects a fire detection signal sensed by the fire detection sensor 212 and the smoke detection sensor 213, (For example, one minute, three minutes, or the like), and transmit the detected smoke detection signal to the central management server 100 through wireless communication.

The battery 203 is installed inside the case 201 to supply electric power to the intelligent laser guide light 200 in case of an emergency and stores power supplied at normal times and supplies power to the intelligent laser guide light 200 .

The drive motor 204 is electrically connected to the controller 202 and the battery 203 while the motor body 204a is inserted into the through portion 203a of the battery 203. The drive shaft 204b is electrically connected to the controller 202 The direction indicator member 207 is provided at the extended end of the drive shaft 204b so as to penetrate through the laser beam applying member 205 and extend to one end of the motor body 204a and the first coupling nut 204c and the second coupling And is fixedly installed through the nut 204d.

The outer circumferential surface of the drive shaft 204b of the portion where the first engaging nut 204c and the second engaging nut 204d are engaged is formed with a threaded portion 204c, Respectively.

The laser irradiator coupling member 205 includes a circuit board to stably fix the laser beam 206, and the laser beam 206 is arranged in the laser irradiation direction including a plurality of laser diodes. The laser irradiator coupling member 205 and the laser irradiator 206 can irradiate the laser in the laser irradiation direction under the control of the controller 202. [ The laser irradiator 206 is generally composed of a laser medium, an excitation medium, a resonator, etc., and a helium-neon laser, an argon laser, a CO2 laser or the like may be used depending on the type of the laser medium and the excitation medium.

The direction indicating member 207 is fixedly coupled to the extended end portion of the driving shaft 204b constituting the driving motor 204 and is capable of displaying a direction such as a symbol such as an arrow or an evacuation route or an emergency exit , And in the case of the arrow, the arrow head portion can be displayed in the direction of the evacuation path.

The first sealing member 208 is disposed between the case 201 and the transparent dome member 209 and is formed of an elastic material including at least one of elastic plastic, rubber, styrofoam, So as not to be easily damaged.

The transparent dome member 209 includes a controller 202, a storage battery 203, a drive motor 204, a laser irradiator coupling member 205, a laser irradiator 206, a direction indicating member 207 and a first sealing member 208 Is fitted to one end of the case 201 in a state of being housed therein and is provided so as to cover the opening 201a of the case 201. [

The transparent dome member 209 may be made of a material such as tempered glass or reinforced plastic and may have a strong strength and may have a uniform thickness so as not to be refracted or diffused beyond a reference value when the laser beam is transmitted.

The second sealing member 210 is formed of an elastic material including at least one of elastic plastic, rubber, styrofoam, and silicon, and is connected to the transparent dome member 209 and the bracket 211, So as not to be easily damaged.

The first sealing member 208 and the second sealing member 210 as described above may be all installed as needed, but either one of them may be installed or none of them may be installed.

The bracket 211 can be fixedly mounted on the surface of the ceiling through a fixing screw 211a in a state of holding the edge portion of the transparent dome member 209 in close contact.

The fire detection sensor 212 detects the fire occurrence through the temperature sensing according to the control of the controller 202 and transmits the fire detection signal to the controller 202. The fire detection sensor 212 detects the occurrence of a fire periodically (for example, Minute, etc.), and can transmit the fire detection signal to the controller 202 continuously.

The smoke detection sensor 213 senses the generation of smoke according to the control of the controller 202 and transmits the smoke detection signal to the controller 202. When the fire is generated, the smoke detection sensor 213 periodically (for example, 1 minute, 3 minutes, etc.) The smoke detection signal can be continuously transmitted to the controller 202 by detecting smoke occurrence.

Therefore, according to the present invention, the display direction of the intelligent laser guide lamp is adjusted by the avoidance path in accordance with the avoidance path information provided when a fire occurs on the evacuation path or a smoke exceeding the life damage reference value is displayed during the display of the laser guide light when a fire occurs Thus, it is possible to intelligently adjust the evacuation route to minimize the damage to persons.

Further, the present invention provides avoidance path information provided when a fire occurs on the evacuation path or when smoke exceeding the life damage standard value is generated, and adjusts the display direction of the intelligent laser guide light according to the avoidance path information by an avoidance path It is possible to safely evacuate to an emergency exit or to move to a safe place, which can further reduce the damage of additional casualties.

Next, in the evacuation route guiding system having the above-described configuration, when a fire occurs on the evacuation route during the display of the intelligent laser guide light when a fire occurs by using a laser guide light, The adjustment of the direction indication of the intelligent laser guide light by the avoidance path according to the avoidance path information will be described.

FIGS. 4A and 4B are views illustrating an indication of an induction indicator of an intelligent laser guide lamp by adjusting an avoidance path according to an embodiment of the present invention. FIG. Here, the intelligent laser guide light is not shown, and only the display method thereof will be shown.

Referring to FIGS. 4A and 4B, as shown in FIG. 4A, during the display of an intelligent laser guide light when a fire occurs, a fire occurs on the evacuation path or smoke exceeding the life damage threshold The display direction of the intelligent laser guide light is adjusted to the avoidance path in accordance with the provided avoidance path information, so that the damage to the person can be minimized by intelligently adjusting the evacuation path.

Here, in the case of the intelligent laser guide light installed at the point where the evacuation direction is changed from the evacuation path of the intelligent laser guide light, the intelligent laser guide light at the changed point is changed to the illumination method in which the blinking is done, It is possible to further reduce human injury. Of course, the intelligent laser guiding light can implement various irradiation methods such as irradiating a stronger laser beam at all changed points or adjusting the driving motor to shake the direction indicating member.

Further, the present invention provides avoidance path information provided when a fire occurs on the evacuation path or when smoke exceeding the life damage standard value is generated, and adjusts the display direction of the intelligent laser guide light according to the avoidance path information by an avoidance path It is possible to safely evacuate to an emergency exit or to move to a safe place, which can further reduce the damage of additional casualties.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be readily apparent that such substitutions, modifications, and alterations are possible.

100: central management server 110: management information database
200: intelligent laser guide lamp 201: case
202: Controller 203:
204: driving motor 205: laser irradiator coupling member
206: laser irradiator 207: direction indicator member
208: first sealing member 209: transparent dome member
210: second sealing member 211: bracket
212: fire detection sensor 213: smoke detection sensor

Claims (4)

A case in which an opening is formed at one end surface facing the lower side in a state in which it is inserted into the ceiling,
A battery provided inside the case and supplying power to the intelligent laser guide light in an emergency,
A drive motor in which a drive shaft is extended to one end of the motor body in a state of being inserted into a through portion of the battery,
A laser irradiator coupling member and a laser irradiator for irradiating a laser in a downward direction from the ceiling,
A direction indicating member fixedly coupled to an extended end portion of the drive shaft to indicate a direction of evacuation,
A transparent dome member made of tempered glass or reinforced plastic and coupled to one end of the case in a state in which the battery, the driving motor, the laser irradiator coupling member, the laser irradiator, and the direction indicating member are housed in the case;
A bracket fixed to the surface of the ceiling in a state of closely supporting an edge portion of the transparent dome member;
A fire detection sensor for transmitting a sensed fire detection signal through temperature sensing,
A smoke detection sensor for transmitting a smoke detection signal sensed through smoke generation,
And a controller for controlling the laser irradiator to emit a laser beam to indicate a direction of evacuation of the evacuation path when the guidance display control signal is provided from the central management server, The control unit controls the drive motor to rotate the direction indicating member so as to switch to and display the avoidance direction corresponding to the avoidance display control signal when the avoidance display control signal is provided from the smoke detection sensor and the smoke detection sensor, And a controller for periodically receiving the fire detection signal and the smoke detection signal sensed by the controller and transmitting the smoke detection signal and the smoke detection signal to the central management server
An intelligent laser guide light.
The method according to claim 1,
A first sealing member coupled between the case and the transparent dome member by an elastic material,
A second sealing member coupled between the transparent dome member and the bracket by an elastic material,
Further comprising an intelligent laser guide light.
3. The method of claim 2,
Wherein the elastic material comprises at least one of elastic plastic, rubber, styrofoam, and silicone.
4. The method according to any one of claims 1 to 3,
Wherein the laser irradiator is flickered at a point where the direction indication is changed under the control of the controller.

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