KR101504287B1 - Exit sign - Google Patents

Abstract

The present invention relates to an exit sign. The exit sign according to the present invention includes an exit sign body (100) which includes an inner space and a display unit (110) on the front side thereof, a multiplexing complex sensing device (200), a refuge manual control device (300) which analyzes a code number received from the multiplexing complex sensing device (200) and applies a signal to a searchlight device, a protection cover, a monitoring device, and a manual displaying device, the manual displaying device (400) which displays a refuge exit pictogram and a refuge exit direction on the display unit (110), the searchlight device (500), a power supply management unit (600), and the monitoring device (700). The present invention induces the evacuation of people to a safe and quick path in the generation of a disaster situation and prevents misrecognition and malfunction.

Description

Guide light {EXIT SIGN}

More particularly, the present invention relates to an induction lamp, which is installed in an internal passage or an emergency exit of a department store, a subway, a public institution, or a building where a large number of people come and goes, It is about a strong guidance light that guards people to escape on a safer and faster path, as well as security of misrecognition and malfunction.

Generally, a guide light is a kind of evacuation facility. It is installed to guide an emergency exit even in case of emergency such as a fire or an earthquake. Emergency lighting must be installed in a building or facility that many people use.

Up until now, the emergency light has been developed focusing on visibility, low-power operation, and convenience of installation, and it has not been considered whether the most basic function of the guide light, that is, it can accurately indicate the safe passage.

In other words, when an emergency occurs in a large building or a subway, the emergency guide light should guide the emergency exit quickly and safely by avoiding the dangerous area. However, since the conventional guide light displays the emergency exit in a fixed direction, It may not work.

As a simple example, even if a fire occurs in the vicinity of an emergency exit, a conventional emergency exit light will indicate that the emergency exit that the user is guiding continues to the emergency exit surrounded by the flame even though it is a dangerous area. It is necessary to provide an emergency guidance light which can be guided in the optimum direction in the event of a disaster.

In addition, such a guide light is insufficient in securing the visibility because the display of the guide light is blocked by the smoke caused by the fire and its illumination is weak, and the guide light at an important point on the evacuation route is broken due to heat due to fire or physical cause There is a problem that it is difficult to set the evacuation direction.

On the other hand, in case of a disaster, it is possible to consider directing the direction of each emergency guiding light by confirming the fact and location of the disaster when the central control manager guides the evacuation route avoiding the place. However, this method always has to wait for the manager in case of an emergency, and it can cause a big loss of life and property by mistake of the manager.

Also, it takes a lot of time and human resources to check the sensors and devices to prepare for disaster, and it is not easy to systematically manage them. In addition, the role of the disaster detector among the disaster prevention devices is most important, and it is anxious whether the detector is operating correctly or whether the error is caused by a failure or breakage due to fire.

In addition, in case of a disaster in a complex facility, the evacuee desperately needs comprehensive information on the disaster, which in most cases is indicative of an evacuation route and indicates where the exit is from the current location. There is a problem in that it is impossible to provide a real-time part of a disaster, although it may be difficult to recognize because the light can come out when a real situation occurs.

Korean Patent Registration No. 0754799 (entitled "Judo") has been registered. Korean Patent Publication No. 0765396 (titled "Guidance Light") has been registered.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the related art, and it is an object of the present invention to provide an emergency evacuation lighting system, The evacuation manual (disaster type, evacuation direction, evacuation method, evacuation distance, evacuation distance, evacuation exit, voice guidance, etc.) is also automatically applied in real time so that the evacuation manual changed evacuates through the display device, In addition to protecting against the breakdown and failure of the installed multifunctional composite sensing device, it also ensures that misdirection is caused by misidentification and malfunction of the detector, and confirms the operation status of the guide light normally and monitors the evacuation situation screen The purpose of the evacuation of human life is to be able to evacuate more safely and quickly. .

In order to achieve the above object, according to the present invention, there is provided an illumination device comprising: an illumination unit body having an inner space and having a display unit on a front surface; A multiplexed compound sensing device provided in each of the internal space and the external sensing zone of the guide light body to detect various disaster factors such as smoke, gas, and temperature / humidity at the time of an emergency and transmit the generated code number to the evacuation manual control device ; An evacuation manual control device for analyzing the code number received from the multiplexed compound sensing device and classifying the interpreted code according to codes to apply a signal to the searchlight device, the protection device unit, the monitoring device, and the manual display device in real time; A manual display device for receiving a signal from the evacuation manual control device and expressing an evacuation guidance pictogram and an evacuation guidance direction on a display unit; A searchlight device which receives a signal from the evacuation manual control device and irradiates light in the same direction as the evacuation direction direction displayed in the manual display device; A power management unit for supplying emergency power from an external source through a non-static voltage supply unit and a battery when an emergency occurs; And a monitoring device for confirming the state of the evacuation manual control device, the multiplexed compound sensing device, and the searchlight device, and for viewing the evacuation state of the large pizza as an image.

The present invention is capable of detecting disasters such as fire, explosion, and gas leak in a high-level and deep-layered room due to a complex multi-winding machine installed in the inside of the guide lamp and the monitoring area, And the guide light is protected from breakage and failure by fire.

In addition, the evacuation manual which guides the evacuation is applied to all kinds of complicated various disasters, so that the number of disasters, the place of occurrence of the disaster, the location of the emergency exit in the disaster site, the method of evacuation, the direction of evacuation, , Evacuation guidance, evacuation distance, current location, emergency evacuation guidance, etc., can be guided by applying real-time disaster situations according to the first to nth evacuation manuals, .

In addition, the illumination of the searchlight is automatically illuminated in the same direction as the direction of evacuation of the guide light, so that the large pizzas that are separated by a certain distance or more from the guide light can be easily recognized and evacuated more quickly.

In addition, it is possible to monitor the presence or absence of the operation of the guide light at normal times, to monitor the evacuation screen in real time when an emergency occurs, and to transmit characters or images to the management server and the portable device Therefore, evacuation of human life can be induced more safely and quickly even in a complex disaster situation.

1 is a block diagram of an induction lamp according to the present invention;
2 is a front view of the guide light according to the present invention;
3 shows a state in which the light of the searchlight device is irradiated and the IP camera is moved in the same direction as the evacuation direction of the guide light according to the present invention,
(a) shows a state of use in which the searchlight device light is irradiated in the same direction along the evacuation direction indicated on the left side, and the IP camera is driven.
(b) shows the state in which the light of the searchlight device is irradiated in the same direction along the evacuation direction indicated on the right side and the IP camera is driven.
(c) is the state of use in which the light of the searchlight device is illuminated in the same direction along the evacuation direction indicated by the diagonal line and the IP camera is driven.
4 is a front view showing a multiplexed compound sensing apparatus of an induction lamp according to the present invention.
FIG. 5 is a block diagram of a multiplexed compound sensing apparatus according to the present invention. FIG.
6 is a block diagram of an evacuation manual control device for an induction lamp according to the present invention.
FIG. 7 is a block diagram of a searchlight device of an instruction lamp according to the present invention; FIG.
FIG. 8A is a perspective view of the protective device unit of the guide lamp according to the present invention in a state in which it is normally lifted. FIG.
FIG. 8B is a perspective view of the protective device unit of the guide lamp according to the present invention in a state in which a disaster occurs. FIG.

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

In the following description of the present invention, 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.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

As shown in FIGS. 1 and 2, the present invention includes a guide light main body 100 having an inner space and a display unit 110 on a front surface thereof; A plurality of emergency numbers of smoke, gas, and temperature / humidity at the time of an emergency in each of the internal space and the external detection area of the guide light main body 100, and transmitting the generated code numbers to the evacuation manual control device A complex sensing device 200; An evacuation manual control unit for analyzing the code number received from the multiplexed compound sensing apparatus 200 and classifying the interpreted code according to the code to apply a signal to the searchlight device, the protective cover, the monitoring device, and the manual display device 400 in real- Device 300; A manual display device 400 receiving a signal from the evacuation manual control device 300 and displaying the evacuation guidance pictogram and the evacuation guidance on the display part 110; A searchlight device 500 that receives a signal from the evacuation manual control device 300 and automatically illuminates the evacuation guidance direction in the same direction as the evacuation guidance direction displayed by the evacuation manual display device; A power management unit 600 for supplying emergency power from an external source through a non-electrostatic voltage supply unit and a battery when an emergency occurs while supplying commercial power from outside; And a monitoring device 700 for checking the state of the evacuation manual control device 300, the multiplexed compound sensing device 200 and the searchlight device 500 and viewing the evacuation state of the large pizza as an image.

The multiplexed compound sensing apparatus 200 includes smoke detection means 210 for detecting smoke in the vicinity of an emergency, gas sensing means 220 for sensing gas, temperature / humidity sensing means for sensing temperature / humidity, The evacuation manual control unit 300 is provided with a sensing unit 230. The evacuation manual control unit 300 transmits signals sensed by the smoke sensing unit 210, the gas sensing unit 220, and the ON / And a second communication module 240a (240b).

The smoke detection means 210 is provided with a plurality of first, second, third and fourth smoke detection sensors 211, 212, 213 and 214, respectively. At this time, Second and third smoke detection sensors 211, 212 and 213 are sensors under detection and the fourth detection sensor 214 is a sensor in a standby mode and the first, second and third smoke detection sensors 211 ) 212 or 213, an error occurs, the fourth smoke detection sensor 214 is converted into the detection mode and replaced.

The gas sensing means 220 is provided with a plurality of first, second, third and fourth gas sensing sensors 221, 222, 223 and 224, The third gas sensing sensors 221, 222 and 223 are sensors in the sensing mode and the fourth gas sensing sensor 224 is a sensor in the standby mode. The first, second, and third gas sensing sensors 221, (222) and (223), the fourth gas sensor 224 is converted into a sensing mode and replaced.

Also, the temperature / humidity sensing unit 230 includes a plurality of first, second, third, and fourth temperature / humidity sensors 231, 232, 233, and 234, Humidity sensor 233 are sensors in the sensing mode and the fourth ON / humidity sensor 234 is a sensor in the standby mode and the first and second ON / 2, and the third on / humidity sensor 231, 232, or 233 generates an error, the fourth on / humidity sensor 234 is converted into a sensing mode and replaced.

In addition, the smoke sensing means 210, the gas sensing means 220 and the ON / humidity sensing means 230 are respectively connected to the sensor control circuits 250a, 250b and 250c The sensed data sensed by the sensing sensors is sent to the first communication module 240a or the second communication module 240b via the switch control unit 270. At this time, And the sensor control circuit connected to the sensor control circuit is abnormal.

For example, as shown in FIG. 5, the sensor control circuit 250a applied to the present invention may include first and second smoke detection sensors 211 When the sensing data value of the third smoke detection sensor 213 is 10, a plurality of sensing values of 1 are used as final sensing values, and when a plurality of sensed sensing values are greater than zero When the difference between the sensing values is within the error range, the plurality of sensing values are determined as sensed values. When the plurality of sensing values are zero, the plurality of zero values are temporarily held at the determined value It is determined as a decision value by referring to the value through the waiting sensor.

That is, when the sensing data value of the first and second smoke detection sensors 211 and 212 is 0, the sensing data value of the third smoke detection sensor 213 is within the error range of 0 In case of exceeding, the value is not determined as 0 (zero) value but is held. The standby sensor is additionally made into the sensing mode, and receives the value. In this case, the additional sensing value is within the error range of 0 The stored zero value is sent to the sensing value of the sensor. When the additional sensing value is within the error range of the sensing value of the third smoke sensing sensor 213, it is determined that the sensors of the first and second smoke sensing sensors 211 and 212 are not sensible, The first smoke detection sensor 211 and the second smoke detection sensor 213 are determined as the value of the third smoke detection sensor 213. When the additional sensing value exceeds the error range of the sensing value of the third smoke detection sensor 213, The sensing values of the third smoke sensor 213 and the fourth smoke sensor 214 are in a state in which no sensing value is inputted and when the two comparison values are within the error range, It is determined that the average value of the third smoke detection sensor 213 and the fourth smoke detection sensor 214 is not determined and is sent to the next step.

Also, even if the sensing values of the first, second, and third smoke detection sensors 211, 212, and 213 are outside the error ranges, the standby sensor is converted to the sensing mode, A value in the error range of the data value is sent as the sensing value.

Also, the communication module of the detector is multiplexed by the first and second communication modules 240a and 240b, and one of the communication modules is selected to perform transmission and reception while the remaining one communication module is in the standby state, When the module is abnormal, the waiting communication module responds to the running communication module.

As described above, the multiplexed composite sensor is constructed in the disaster monitoring area and the guide light main body 100 of the present invention, so that the evacuation can be guided to a more accurate and safe place than the existing one based on the sensor value will be.

5, each of the control circuits 250a, 250b and 250c is connected to the first and second communication modules 240a and 240b, and a control processor and a switch unit for controlling the first and second communication modules 240a and 240b A switch control control unit 270 is provided.

The control processor of the switch control control unit 270 periodically transmits the normal operation states of the first and second communication modules 240a and 240b connected to the respective control circuits 250a 250b and 250c And when the control circuit or the communication module having the abnormal value is detected, the control circuit and the communication module are switched to the standby control circuit and the communication module so that the control circuit and the communication module can serve as the normal control circuit and the communication module.

That is, in the embodiment, when the executing control circuit 250a is an abnormal connection value, the switch control control unit 270 is replaced with the waiting control circuit 260a. At this time, the connection value of the standby control circuit 250a The control circuits 250a and 250b are sequentially replaced with the standby control circuits 250b and 250c.

The gas sensing means 220 and the on / humidity sensing means 230 are the same as the smoke sensing means 210 described above.

In addition, the evacuation manual control device 300 checks the disaster situation sensed through the multiplexed compound sensing device 200 and compares the type of the disaster, the size of the disaster, and the occurrence location of the disaster, And a disaster classification processor 310 for grasping the current state of the disaster in real time and applying a signal to the switch processor 320 set according to the number of disaster situations.

At this time, the disaster classification processor 310 detects the magnitude and the occurrence position of the fire, the occurrence position of the fire when the fire is sensed through the multiplexed compound sensing apparatus 200 provided in the inside and the outside detection area of the guide light body 100, A disaster classification processor 310 that is set according to the number of cases of a disaster situation based on signal values such as a type of a gas and a river, Time switch processor 320. The real-time switch processor 320 can be classified according to the number of channels.

6, the first to nth evacuation manual files 330 include first to nth evacuation manual files 330 corresponding to the disaster classification codes by the disaster classification processor 310 according to the number of cases of the disaster state, A manual file is prepared in advance as a display, an image, an audio guide, a character, a pictogram (an arrow, a human figure, etc.) Identifies the disaster classification code received by the user terminal 310, designates a code of the corresponding evacuation manual, and applies the code to the manual display device 400 in real time.

Also, the switch processor 320 real-time selects the evacuation direction based on the total value obtained by digitizing the disaster situation by the first exit, the connection passage to the n-th exit, and the connection passage, and outputs the signal to the evacuation manual And can be adjusted and applied to the control device 300. More specifically, as shown in FIG. 6, the first to nth evacuation manual files (the location of the disaster, the size of the disaster, the type of the disaster, and the like) input to the switch processor 320 are calculated One of the first to nth evacuation manual files is selected as the first evacuation manual file and the signal value of each signal value which is the same or closest to the signal value applied by the disaster classification processor 310 is selected as the manual emergence device 400), or an emergency broadcast and an image are displayed.

In addition, the searchlight device 500 is irradiated with light from the illumination device 520 in the same direction as the evacuation guidance direction, which is displayed through the manual display device 400. At this time, The change automatically changes the position according to the evacuation direction and irradiates the light in the same direction as the evacuation direction.

More specifically, when the evacuation direction of the manual display device 400 is expressed in the right exit direction from the position of the guide light 10, the irradiation direction of the searchlight device 500 is driven to a certain point on the right side The moving distance of the X axis and the moving distance of the Y axis at the initial reference point of the driving motor of the X axis driving unit 521 and the Y axis driving unit 522 are inputted to the coordinate control 510 in advance. As described above, the moving distance between the X axis and the Y axis is previously determined so that the evacuation direction of the evacuation manual file and the irradiation direction of the illumination device 520 of the searchlight apparatus 500 are previously determined. Axis driving motor and the Y-axis driving motor are operated in a range in which the signal from the switch processor 320 is received, and the evacuation direction according to the real-time disaster situation coincides with the illuminating direction of the illuminating device 520 .

The monitoring device 700 transmits a signal when the disaster classification processor 310, the manual display device 400 and the IP camera 710 normally operate to the management server 900, And transmits information on the current status of the disaster and the current status of evacuation through the guidance light to the management server 900 at the time of occurrence.

Particularly, the IP camera 710 of the monitoring apparatus 700 is installed on one axis of the illuminating device 520 and controls the illumination of the illumination device 520 and the illumination of the X-axis driving unit 521, Y-axis driving unit 522 A screen in which the person is evacuated in the direction in which the guide light is guided in operation is displayed and displayed on the display unit 110 through the manual display device 400 so that the user in the current position can see the display unit 110, I look forward to seeing evacuation of the person leading in the direction of guiding and help to evacuate.

The management server 900 receives information on all the devices associated with the monitoring device 700 and transmits the voice broadcasting and evacuation guidance to the manual display device 400 through the monitoring device 700 In case of a disaster, it is necessary to provide information of disaster occurrence location and disaster information of a preset disaster manager to a mobile device or a computer through a text or video screen Is preferable.

That is, the present invention can actively guide disaster information, disaster evacuation method, and evacuation direction according to real-time situations such as exit and passage when an emergency occurs due to fire or gas.

8A and 8B, a protective device unit 800 having a cover 810 slidable upward / downward is provided on the upper part of the guide lamp body 100. At this time, 810 is automatically slid downward when the ambient temperature rises above the set temperature due to fire, protects the exterior of the main body 100 and protects the outside of the main body 100,

The front surface of the protective cover 810 may be made of a material having high transparency so that a pictogram or an image displayed on the display unit 110 inducing evacuation can be seen.

The technical idea of the inventive lighting device is that the same results can be repeatedly practiced. Particularly, by implementing the present invention as described above, it is possible to contribute to industrial development by promoting technological development, and it is worth protecting.

10 - Guide light 100 - Guide light main body
110 - Display 200 - Multiplexed composite sensing device
210 - Temperature sensing means 220 - Gas sensing means
230 - On / Humidity sensing means 300 - Evacuation manual control device
400 - Manual display device 500 - Searchlight device
600 - Power management unit 700 - Monitoring device
800 - Protective device unit 900 - Management server

Claims (9)

The present invention provides a guidance light including a multiplexed composite sensing apparatus for sensing various disaster factors such as an induction lamp body, smoke, gas, and temperature / humidity, a power management unit for supplying power, a monitoring apparatus, An evacuation manual control device 300 for analyzing code numbers and classifying the interpreted codes according to codes, and applying signals to a searchlight device, a protection device unit, a monitoring device, and a manual display device in real time;
A manual display device 400 receiving a signal from the evacuation manual control device 300 and displaying the evacuation guidance pictogram and evacuation guidance direction on the display part 110;
And a monitoring searchlight device (500) illuminating illumination light in the same direction as the evacuation guidance direction displayed on the manual display device and automatically changing in the same direction when the evacuation guidance direction is changed to illuminate the illumination light Wherein the guide light is characterized by comprising:
The method according to claim 1,
The multiplexed compound sensing apparatus 200 includes smoke sensing means 210 for sensing smoke in the vicinity of an emergency, gas sensing means 220 for sensing gas, temperature / humidity sensing means for sensing temperature / humidity, (230), and is provided with a sensor control circuit in operation, a sensor circuit in standby, and a switch control control circuit,
The first and second communication modules 240a and 240b transmit and receive the signals sensed by the smoke sensing means 210, the gas sensing means 220 and the temperature / humidity sensing means 230 to the evacuation manual control device 300 240b). ≪ / RTI >
The method according to claim 1,
The evacuation manual control device 300 confirms the disaster situation sensed through the multiplexed compound sensing apparatus 200 and compares the type of the disaster, the size of the disaster, and the occurrence location of the disaster, A disaster classification processor 310 for grasping the current situation in real time and applying a signal to the switch processor 320 set according to the number of disaster situations,
The first to nth evacuation manuals corresponding to the disaster classification by the disaster classification processor 310 according to the number of cases in the disaster situation are produced by display, video, voice guidance, text, pictogram, The first to nth evacuation manual files 330 for categorizing and categorizing the evacuation manual files and executing the corresponding files when a signal is received by the switch processor 320,
And a switch processor 320 for selecting the first to nth evacuation manual files 330 in real time according to the signal received from the disaster classification processor 310 and applying the selected signals to the manual display device 400. [ Guide light.
The method according to claim 1,
The monitoring device 700 checks a disaster situation and an evacuation situation in real time in the event of an emergency through the IP camera 710 provided in the guide light main body 100, To the management server (900).
The method according to claim 1,
The protective cover unit 810 includes a protective cover 810 slidably moved up and down on the upper side of the guide light body 100. The protective cover 810 is heated to a predetermined temperature or higher It is automatically slid downward to cover and protect the outside of the guide light main body 100. When the temperature of the guide light main body 100 is lowered to the set temperature, the guide light is slid to the upper part and restored to its original state. 3. The method of claim 2,
The smoke detection means 210 includes a plurality of first, second, third and fourth smoke detection sensors 211, 212, 213 and 214,
The first, second and third smoke detection sensors 211, 212 and 213 are sensors in the sensing mode and the fourth smoke detection sensor 214 is a sensor in the standby mode. When any one of the three smoke detection sensors 211, 212, and 213 generates an error, the fourth smoke detection sensor 214 is converted to the detection mode and replaced.
3. The method of claim 2,
The gas sensing means 220 includes a plurality of first, second, third, and fourth gas sensing sensors 221, 222, 223, and 224,
The first, second, and third gas sensing sensors 221, 222, and 223 are sensors in the sensing mode, and the fourth gas sensing sensor 224 is a sensor in the standby mode. 3 gas detection sensors 221, 222, and 223 generates an error, the fourth gas detection sensor 224 is converted into a detection mode and replaced.
3. The method of claim 2,
The temperature / humidity sensing unit 230 includes a plurality of first, second, third, and fourth temperature / humidity sensors 231, 232, 233, and 234,
The first, second, and third ON / humidity sensors 231, 232, and 233 are sensors in the sensing mode, and the fourth ON / humidity sensor 234 is a sensor in the standby mode. Humidity sensor 233 is converted into a detection mode and replaced if any one of the first, second, and third temperature / humidity sensors 231, 232, and 233 fails. .
3. The method of claim 2,
The multiplexed composite sensing apparatus 200 is provided with a sensor control circuit, a communication module, a standby sensor control circuit, a communication module, and a switch control control unit, A waiting sensor control circuit or a standby communication module.

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