KR101019084B1 - Portable Lantern Reactive to Biological Information - Google Patents

Abstract

The present invention relates to a bio-information-responsive portable lighting that can be used in an emergency such as a fire, the portable lighting of the present invention, a heart rate measurement sensor that can measure the heartbeat of the rescued subject, a temperature sensor for measuring the body temperature A biometric information sensor module including at least one of which measures a state of the rescued person; And a wireless communication module for transmitting the measured value of the biometric information sensor module to the control center, wherein the biometric information sensor module and the wireless communication module operate when the portable light is detached.

According to the present invention, by receiving the heart rate, body temperature, movement, etc. of the rescue target person from the portable light, grasping the emergency situation of the rescue person in the event of a fire to rescue the rescuer in the most urgent state first, the portable light lamp Easily track the location of the effect is that it is easy to rescue the rescued.

Emergency, Fire, Lighting, Location Tracking, Evacuation, Biometrics, Sensor

Description

Portable Lantern Reactive to Biological Information

The present invention relates to a bio-information-responsive portable light that can be used in an emergency such as a fire, and more particularly, to grasp the degree of emergency situation of a rescued person by using a heart rate sensor, a body temperature sensor, a motion sensor, and the like during a fire. And a bioinformation-responsive portable light that induces the rescue of the rescued persons in the most urgent state or to evacuate to a safe area.

In still another aspect, the present invention provides a technique such as triangulation method using a wireless access point (WAP) of a wireless network using a bioinformation-responsive portable light having a wireless communication function, or a holder having a wireless communication function. Through the emergency portable lighting system for efficiently estimating the position of the portable lighting at the fire site through.

In general, commercial buildings or public places used by many people such as homes, restaurants, underground shopping malls, subways, etc., are equipped with emergency lights or induction lamps so that users can quickly escape or evacuate in case of emergency such as fire. However, in the case of the emergency light or induction lamp as described above, since a general fire is used, most of the power is cut off in the actual fire state, thereby making it difficult to perform a practical function.

In consideration of this, in many places of the room, the battery is usually charged through a general power supply, and in the event of a fire, a portable light that can be operated by a charged battery can be easily used in case of emergency. To make it work.

As shown in FIG. 5, a conventional portable portable lamp includes a cradle 502 fixed to a wall of an interior, and a lamp 501 having a conventional configuration accommodated in the cradle. The cradle 502 includes a warning light 505 and an alarm speaker 506 that operate by detecting a fire detection sensor 503 and a fire detection sensor 503 for detecting a fire, and the lamp 501 in an emergency The hammer 507 and the glass cutting tool 508 is integrally provided to be used. Such a prior art can grasp the position of the portable light through the warning light and the alarm speaker provided in the holder by the sensor in the event of fire, but the rescue targets must determine the evacuation path and location on their own, so it is not practically helpful at the fire site. Is the reality.

In recent years, with the development of IT technology, attempts to effectively evacuate rescuers in emergency situations such as fires by combining an emergency portable lighting set and wireless communication have continued.

As an example, Korean Patent No. 082741 relates to a set of wireless intelligent fire detection portable lights equipped with a wireless communication function, and automatically detects a fire occurrence and uses a wireless communication method including a Zigbee communication method to surround a fire place. The present invention discloses the use of a voice message to inform the position of a set of intelligent fire protection lamps using voice messages to enable rapid contrast and initial suppression of fire.

However, such a prior art cannot actively cope with a fire intensification or a change in the direction of development of the fire, and when a large number of rescuers are scattered on each floor of a building, the most at risk should be rescued first. The disadvantage is that you can't figure out the state.

Therefore, by using the location tracking technology and the sensor technology using the wireless communication technology that has been recently developed, it is possible to efficiently rescue the most urgent rescued people by evaluating the health status of the rescued people and effectively evacuate according to the direction of the fire. It is necessary to have a solution.

The present invention is to solve the problems of the prior art, and to cope with the emergency situation by embedding a wireless communication function to efficiently search for the location of the rescued persons, a bio-information-responsive portable lighting that can check the health status of the rescued persons I would like to present.

The bioinformation-responsive portable lighting lamp of the present invention estimates the location of the rescued person through organic cooperation with a control center using known wireless communication, for example, wireless communication such as WLAN, WiBro, and ZigBee. In addition, the rescuer selects and rescues an emergency rescuer by checking the health status of the rescued person.

In addition, the bio-information-responsive portable lighting lamp of the present invention provides a voice communication function using wireless communication, and provides a function such as a known radio, so that the state of the fire site is transmitted to the control center by voice and an effective evacuation from the control center. You are provided a path.

In addition, the bio-information-responsive portable lighting of the present invention includes a sensor such as a gas sensor, a smoke sensor, a temperature sensor, and transmits the state of the fire site to the control center, thereby comprehensively recognizing the fire site at the control center, and an effective structure. Ensure that methods or evacuation plans are established.

As described above, the present invention provides a bio-information-responsive portable light with a built-in wireless communication function to cope with an emergency, estimates the location of the rescued person through organic cooperation with the control center, and provides health such as heart rate of the rescued person. Check the status so that emergency rescuers can be selected and rescued. In addition, the bio-information-responsive portable light of the present invention provides a voice communication function, to transmit the status of the fire site to the control center and to receive an effective evacuation route from the control center. In addition, the lighting of the present invention includes a sensor such as a gas sensor, a smoke sensor, a temperature sensor, and transmits the state of the fire site to the control center, so that the control center comprehensively recognizes the fire site and finds an effective rescue method or evacuation plan. To establish.

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

Biometric information responsive portable lighting system of the present invention is intelligent, has a number of functions to effectively cope with emergencies such as fire, and can be composed of bio information responsive portable lighting, cradle, wireless access point, control center. .

1 exemplarily shows an appearance of a portable emergency light of the present invention.

Biometric information responsive portable lighting of the present invention is a biometric information sensor module including a heart rate sensor 102, a body temperature sensor 103, a motion detection sensor 101 for detecting the degree of movement of the rescue target ( 105).

The heart rate measurement sensor 102 uses a flow of electricity as a well-known technique. When the object is gripped by separating the positive and negative electrodes and constructing two electrodes, the positive and negative electrodes The heart rate can be predicted by detecting the heart rate signal by analyzing the current flow between the minus poles. In addition, the body temperature measuring sensor 103 may be a semiconductor sensor, thermistor, or the like as a contact type temperature sensor as a known sensor. Motion detection sensor 102 for detecting the movement of the bio-information-responsive portable lighting lamp includes an acceleration sensor for detecting the displacement generated by the movement built in the bio-information-responsive portable lighting lamp to detect the displacement amount of the portable lighting; And / or a geomagnetic sensor that is mounted in the portable light to detect an orientation change generated according to a movement and detects an orientation change of the emergency light, wherein the sensor changes according to the movement of the bio-informative portable light. By analyzing the output value of the position measurement data can be formed.

However, the present invention is not related to the sensor technology itself, and heart rate measurement, temperature measurement, and moving distance measurement using the sensor technology as a technology for applying the sensor are known technologies, which are only known to those skilled in the art. The description of the specific configuration is omitted.

Referring to Figure 1, the bio-information responsive portable light 100 is a biometric sensor module including a motion sensor 101, the electrode portion of the heart rate sensor 102, the pad of the body temperature measurement sensor 103 104, a wireless communication module 106 for wireless communication.

The bio-information-responsive portable light may include a multi-sensor module 107 including a smoke sensor, a gas sensor, a temperature sensor, an illuminance sensor, a humidity sensor, and the like, in addition to these components. It may further include a speaker and microphone 108, a keypad and a display unit for voice communication.

The bio-information-responsive portable light is attached to a cradle fixed to a wall, and is freely attached and detached as necessary. The cradle includes a warning light and an alarm speaker and starts operation by an alarm switch when a fire occurs, or by a fire detection signal of the multi sensor module. The fire detection signal of the multi-sensor module may control the operation of the beacon and the alarm speaker through wired or wireless communication when the biometric information-reactive portable light is attached to the holder. It can be used to control the operation of the warning light and alarm speaker. The control of the biometric information responsive portable lamp and the cradle is collectively controlled by the respective controller.

2 illustrates the configuration of a biometric information responsive portable lighting lamp in detail.

The biometric information responsive portable light 200 includes a biometric information sensor module including a heart rate sensor 211, a body temperature sensor 212, a motion sensor 213, and the like. , At least one of the information on the moving distance of the rescued by the motion sensor is transmitted to the control center through the wireless communication module 206, it is used to determine the emergency situation of the rescued.

The control center may generate a structure ranking list using at least one of a movement per unit time, a heart rate, and a body temperature based on the received measured value. For example, the structure priority list may be generated in the order of the shortest moving distance per unit time or the order of the fastest heart rate.

The bio-information-responsive portable light may include a multi-sensor module 201 including a smoke sensor, a gas sensor, a temperature sense, an illuminance sense, a humidity sense, and the like, for detecting a state of a fire site. The measured sensor value is transmitted to the control center through the wireless communication module 206, and used to determine whether a fire has occurred, the fire progress situation, the emergency of the rescue target, and can be used to change the generated rescue rank list. have.

The wireless communication module 206 transmits the values measured by the heart rate measurement sensor, the body temperature measurement sensor, the motion detection sensor, and the sensors of the multi sensor module to the control center 209 or from the control center 209. Can receive the signal and notify the rescued person. The communication with the control center is made through a cradle 208 having a wireless communication function or an access point 207 for wireless communication.

The bio-information-responsive portable lighting may include a keypad 203 and a display unit 202. The keypad 203 may receive a wireless communication module 206 by inputting an emergency situation, a fire situation, etc. by a rescue person. The control unit 209 may transmit the information to the control center 209, and the display unit 202 may recognize the information received by the control center 209, for example, a lifesaving plan, an effective evacuation route, and a direction for predicting the fire progress. Can be displayed. In addition, the generated structure rank list may be changed using this information.

The bio-information-responsive portable lamp includes a speaker 204 and a microphone 205 and obtains information on fire and rescue conditions through a voice call with the control center 209 using the built-in wireless communication module 206. Can be. In addition, it is possible to provide a voice call with the rescue targets having other bio-information-responsive portable lighting lamp 214, the voice call using the wireless communication may be provided in the form of a conventional radio.

The bio-information-responsive portable lamp is an emergency tool included in a normal emergency lamp in the body of the lamp, and may include a glass cutter and / or a hammer for cutting or breaking a large door or door in an emergency.

FIG. 3 shows the configuration of the communication network of the biometric information responsive portable lamps 301 and 302 and the control center 309.

The communication network may be configured by cradles 306, 307 and 308 having a wireless communication function or wireless access points 303, 304 and 305 for wireless communication such as general Internet, Internet phone and mobile communication phone. Therefore, wireless communication is applied between the bioinformation-responsive portable lighting lamps 301 and 302 and the cradles 306, 307 and 308 or the bioinformation-responsive portable lighting lamps 301 and 302 in case of a fire, and the cradles 306, 307 and 308 or the wireless access points 303, 304 and 305. ) And the control center 309 may be a wired communication network or a wireless communication network according to the configuration of the network. In addition, the control center 309 may transmit the occurrence of an emergency, such as a fire, to the fire station to the Internet, wired or wireless telephone network as an alarm.

The biometric information responsive portable lamps 301 and 302, the cradles 306, 307 and 308, and the biometric information responsive portable lamps 301 and 302 are each assigned an IP address or a unique identification number which plays the same role. Distinguished by numbers, the control center 309 can manage the location information for the cradle and the wireless access point by database.

The cradles 306, 307, 308 and the biometric information responsive portable lamps 301 and 302 combine their own identification numbers with a signal with or without a unique identification number received from each biometric information responsive portable lamp to the control center. Transmitting and receiving a signal including an identification number of each of the biometric information responsive portable lamps from the control center 309 and inserting or not inserting a unique identification number thereof. 302).

The bio-information-responsive portable lamps 301 and 302 output audio signals from the received signals to the speaker, and display them on the display unit in the case of a signal that can be displayed on the display unit, for example, graphics, video signals or text information. In addition, the rescue target can be alerted to alarms through alarms.

As another embodiment of the present invention, the position of the biometric information responsive portable light may be estimated using the unique identification number of the holder or the wireless access point.

Based on the unique identification number and location information of the cradle or the wireless access point, the control center may estimate that the location of the biometric information responsive portable light is within the wireless communication range of the cradle or the wireless access point.

As another embodiment of the present invention, three or more cradles or wireless access points may be used to accurately estimate the position of the biometric information-responsive portable lighting lamp.

For example, in FIG. 3, the three cradles 306, 307, 308 or the wireless access points 303, 304, 305 measure the strength of the radio signal through wireless communication with a biometric information-enabled portable lighting lamp (eg, 302) within the wireless communication range. The control center 309 transmits the control information to the control center 309, and the control center may calculate the position of the bioinformation-responsive portable light by using triangulation.

Figure 4 is an application example for estimating the position of the bio-information responsive portable light. When the rescued person 400 holding the biometric information-reactive portable light passes through the corridor, the cradle or wireless access point 401 to 406 installed in each room may be configured as the biometric information-reactive portable light of the rescued person 400. Through wireless communication, the strength of the received radio signal is measured and transmitted to the control station, and the control station performs a triangulation method using the strength of the received radio signal and the location of the station or the wireless access point to perform the triangulation of the rescued person 400. The location can be estimated. However, in order to use the triangulation method, a cradle or wireless access point of an appropriate position should be selected, and cradles or wireless access points of reference numerals 403,404 and 405 may be selected in the example of FIG. 4. Ideally, the three cradles or wireless access point would be in a 120-degree position.

The triangulation method is a well-known technique, and the present invention is not applied to the triangulation method itself, but corresponds to an application of a known triangulation method. Therefore, specific calculation methods or implementation methods are omitted.

When a plurality of cradles or wireless access points transmit the intensity of the radio signal for the corresponding bioinformation portable portable lamp, the control center may calculate the position of the bioinformation portable portable lamp using the plurality of radio signal intensities. In order to optimize the calculation amount, an appropriate number of radio signal strength values may be extracted to calculate the location of the bioinformation portable portable lamp.

As another embodiment of the present invention, the position of the biometric information responsive portable light may be estimated using the GPS module. The GPS module embedded in the biometric information responsive portable light can estimate the position by transmitting the measured GPS information to the control center. However, there is a disadvantage in that it can be used only in an area capable of transmitting satellite signals.

As described above, the invention related to the bioinformation-responsive portable lighting of the present invention has been described an invention for grasping the degree, emergency state and location of the emergency situation of rescued persons in case of fire. The bioinformation-responsive portable lighting lamp of the present invention may include an additional configuration for preparing in an emergency state of a fire lamp.

As an embodiment, when the holder is attached to the bio-information-responsive portable light, the cradle may charge the battery built in the portable light by using a wired or wireless connection. The configuration for the above charging uses a known charging technique.

In another embodiment, the cradle includes an outlet for receiving external power, and includes a beacon and an alarm speaker for a fire alarm alarm, and the beacon and the alarm speaker are configured to be operated by detaching an alarm button or a portable light of the cradle. Can be. In addition, the warning light and the alarm speaker can be further configured to stop the operation by the mounting of the alarm stop button or portable light of the cradle.

As another embodiment, the bioinformation-responsive portable lamp may include a plurality of LEDs, and the LEDs may include a charge level of the battery, whether or not wireless communication is possible, gas pollution information by the sensor measurement of the multi-sensor module, and smoke. The degree of occurrence, the degree of humidity and the like can be configured.

As another embodiment, it may be configured to include a hammer and a glass cutter to cope with the dangerous situation during evacuation.

While the embodiments of the bioinformation-responsive portable lighting system of the present invention and the configuration of the cradle, the bioinformation-responsive portable lighting system including the bioinformation-responsive portable lighting lamp and the cradle, and the control center have been described, In the case of the appearance of the portable light and the type of sensor, the type of alarm, and other communication methods can be modified in a variety of forms, those of ordinary skill in the art various modifications without departing from the claims of the present invention Modifications may be made.

1 is an illustration of a biometric information responsive portable light. The above illustration is only an example, and modifications belonging to the general technical category of those skilled in the art are possible.

Figure 2 shows the structure of the bio-information-responsive portable lamp and the cradle.

Figure 3 shows the communication configuration between the biometric information responsive portable light, the cradle or wireless access point, the control center.

4 is an exemplary diagram for estimating the position of the biometric information-responsive portable lamp using triangulation and the like.

5 is an exemplary view of a conventional portable lamp.

Claims (22)

In the bioinformation responsive portable lighting system, which consists of a holder fixed to a wall of a room and a removable portable lighting, The portable lighting lamp, A biometric information sensor module having at least one of a heart rate measuring sensor capable of measuring a heartbeat of the rescued subject and a temperature sensor for measuring body temperature; And a wireless communication module for transmitting the measured value of the biometric information sensor module to a control center. The biometric information sensor module and the wireless communication module are biometric information responsive portable light system, characterized in that to operate when the removable light. The method of claim 1, The portable lamp further includes a motion sensor for detecting the movement distance per unit time of the rescued person, Biometric information responsive portable lighting system, characterized in that for transmitting the movement distance per unit time measured by the motion sensor to the control center via the wireless communication module. The method of claim 2, The control center is a bio-information-responsive portable lighting system, characterized in that for generating a fire priority list in the order of the short distance traveled per unit time and / or the order of the heart rate is fast The method of claim 1, The cradle is Transmitting data including its own identification number and the measurement received from the wireless communication module to the control center, transmitting the signal received from the control center to the lamp, The control center estimates the location of the rescued person using the unique identification number, biometric information responsive portable lighting system The method of claim 4, wherein The portable light has a unique identification number, The cradle is biometric information responsive portable light system, characterized in that for transmitting the data including the unique identification number of the portable light to the control center. According to claim 1, It comprises a plurality of cradles for measuring the intensity of the radio signal received from the portable light through the wireless communication with the portable light and transmits to the control center, The control center estimates the location of the rescue target by using the strength of the radio signal received from the portable lamp and the positions of the plurality of cradles. The method of claim 1, The portable light lamp includes a GPS module, and the biometric information responsive portable light system, characterized in that for transmitting the position information measured by the GPS module to the control center. The method of claim 1, The portable light includes a speaker and a microphone for a voice call, and uses the wireless communication module to provide a voice call with the control center and / or other portable light nearby. The method of claim 1, The portable lighting lamp, A key input unit for inputting information on a fire state and transmitting the information to the control center; Biometric information responsive portable lighting system comprising a display unit for receiving and displaying the evacuation route and behavior tips from the control center The method of claim 1, The portable lighting lamp, Biometric information responsive portable lighting system comprising a multi-sensor module comprising at least one of a smoke sensor, a gas sensor, a temperature sensor, a humidity sensor, an illumination sensor for detecting a fire condition The method of claim 1, The cradle includes an outlet for receiving external power, a fire alarm alarm light and an alarm speaker, and the beacon and the alarm speaker operate by detaching the alarm button of the cradle or the portable light. Responsive Portable Lighting System The method of claim 11, The warning light and the alarm speaker is bio-information-responsive portable lighting system, characterized in that the operation is stopped by the mounting of the alarm stop button or the portable light of the cradle. The method of claim 1, The cradle is a bio-information-responsive portable lighting system comprising a means for charging a battery for supplying power to the portable lighting by using a wired connection or a wireless connection. The method of claim 1, The portable light lamp is a bio-information-responsive portable light system, characterized in that it has a hammer and a glass cutter to cope with a dangerous situation during evacuation The method according to any one of claims 1 to 14, The wireless communication module of the portable lamp is a non-biological information responsive portable lamp system, characterized in that using at least one communication method of WiBro, WCDMA, WLAN, Zigbee. 15. The wireless access point according to any one of claims 1 to 14, wherein the cradle is a wireless access point for providing a service of at least one of an internet phone, a wireless phone, a mobile communication, a personal mobile communication, and a wireless LAN. Biometric information responsive portable lighting system further comprising the function of In the bio-information-responsive portable light that can be attached to the holder, The lamp includes a biometric information sensor module having at least one of a heart rate measuring sensor capable of measuring a heartbeat of a rescued subject and a temperature sensor for measuring body temperature; A motion sensor for detecting a positional movement of a rescue subject per unit time; It includes a wireless communication module for transmitting the measurement values of the biometric information sensor module and the motion detection sensor to the control center, The biometric information sensor module, the motion detection sensor, and the wireless communication module operate when the portable lamp is detached. The method of claim 17, The bio-information-responsive portable light and the cradle each have a unique identification number assigned specifically, The cradle transmits data including the unique identification number and the measured value to a control center, The control center uses the unique identification number to identify the movement path of the rescue target biometric information responsive portable light lamp The method of claim 17, The biometric information responsive portable lighting device includes a GPS module and transmits the location information measured by the GPS module to a control center. The method of claim 17, The bioinformation responsive portable light includes a speaker and a microphone for voice communication, and provides a voice call with a control center and / or another portable light by using a built-in wireless communication module. Portable lighting The method of claim 17, The bio-information-responsive portable lighting includes a key input unit for inputting information on a fire state and transmitting the information to the control center; Biometric information responsive portable lighting lamp comprising a display unit for receiving and displaying the evacuation route and behavior tips from the control center The method according to any one of claims 17 to 21, The bio-information-responsive portable lighting includes a multi-sensor module including at least one of a smoke sensor, a gas sensor, a temperature sensor, a humidity sensor, and an illumination sensor for detecting a fire state.

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