CN107560672B - Intelligent prompter, method and system thereof - Google Patents

Abstract

The invention belongs to the field of electronic information prompt, and particularly discloses an intelligent prompter, an intelligent prompter method and an intelligent prompter system, wherein the intelligent prompter comprises a data acquisition module, an information processing module and a prompting module which are communicated through data lines; the data acquisition module comprises a plurality of vibration sensors for detecting earthquakes, the information processing module comprises a processor, and the prompting module comprises a display. The data acquisition module of the intelligent prompter comprises a plurality of vibration sensors, detection errors caused by the fact that a single sensor is touched by mistake are avoided through the plurality of vibration sensors, and when an earthquake happens, all the vibration sensors vibrate, so that detection is accurate; a processor connected with the vibration sensor can process vibration data information transmitted by the vibration sensor, and then the information of the occurrence of earthquake is displayed through a display, so that people are guided to evacuate and save oneself accurately.

Description

Intelligent prompter, method and system thereof

Technical Field

The invention belongs to the field of electronic information prompt, and particularly relates to an intelligent prompter, a method and a system thereof.

Background

Modern people mostly live in relatively crowded spaces, and once an earthquake occurs, casualties are likely to occur. The evacuation and guided self-rescue cannot be accurately and clearly performed only by the safety exit prompt board. Although the electronic prompt board is provided, most of the electronic prompt boards are single in function and cannot be intelligently controlled according to real-time conditions.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides an intelligent prompter, a method and a system thereof, which are used for prompting people according to actual earthquake and fire situations.

The invention is realized by the following technical scheme:

the intelligent prompter is characterized by comprising a data acquisition module, an information processing module and a prompting module which are communicated through a data line; the data acquisition module comprises a plurality of vibration sensors for detecting earthquakes, the information processing module comprises a processor, and the prompting module comprises a display.

The data acquisition module also comprises a flame sensor, a temperature sensor and a smoke sensor.

The data acquisition module further comprises a camera and a sound sensor, and the prompting module further comprises a loudspeaker.

The information processing module is also connected with an emergency power supply module, and an emergency lamp is arranged in the emergency power supply module.

The prompt module further comprises an indicator light and an indicator arrow.

The information processing module is also connected with a first communication module, one end of the first communication module is connected with the information processing module through an interface, the other end of the first communication module is connected with a USB flash disk or a computer, and the first communication module comprises a USB connection module; the information processing module is also connected with a data storage module.

The information processing module is also connected with an alarm module.

An intelligent prompt system comprises a plurality of intelligent prompters and a control center server; the intelligent prompter also comprises a second communication module and a third communication module, wherein a plurality of intelligent prompters are connected through the second communication module, and each intelligent prompter is connected with the control center server through the third communication module; the second communication module and the third communication module both comprise a Wifi communication module or a Zigbee communication module.

The information processing module is also connected with an alarm module and a first communication module, one end of the first communication module is connected with the information processing module in an interface way, the other end of the first communication module is connected with the control center server, the data acquisition module further comprises a camera, and the prompting module further comprises a loudspeaker.

The application method of the intelligent prompter is characterized by comprising the following steps of:

step 1), self-checking the equipment connection state, and checking all equipment types connected currently;

step 2), the information processing module receives that all data acquired by the vibration sensors which can work normally generate vibration signals, so that the prompt module carries out earthquake prompt, and the display carries out earthquake display; if only part of vibration sensors which can work normally generate vibration signals, the prompt module is not enabled to prompt earthquake.

The step 2) is characterized in that the information processing module is also connected with a flame sensor, a temperature sensor and a plurality of smoke sensors; when the information processing module receives flame information of the flame sensor and simultaneously receives temperature information acquired by the temperature sensor to exceed a preset value, the prompting module carries out fire prompting; when the information processing module receives that all the smoke sensors detect that the current smoke concentration exceeds a preset value, a fire prompt is sent out, and otherwise, the fire prompt is not sent out.

Compared with the prior art, the invention has the following beneficial technical effects:

the data acquisition module of the intelligent prompter comprises a plurality of vibration sensors, detection errors caused by the fact that a single sensor is touched by mistake are avoided through the plurality of vibration sensors, and when an earthquake happens, all the vibration sensors vibrate, so that detection is accurate; a processor connected with the vibration sensor can process vibration data information transmitted by the vibration sensor, and then the information of the occurrence of earthquake is displayed through a display, so that people are guided to evacuate and save oneself accurately.

Further, the data acquisition module of the invention also comprises a flame sensor, a temperature sensor and a smoke sensor. The flame sensor, the temperature sensor and the smoke sensor can detect fire disaster detection, and when the fire disaster occurs, the fire disaster detection and prompt can be timely conducted, and people can be timely guided to evacuate for self rescue.

Further, the data acquisition module further comprises a camera and a sound sensor, and the prompting module further comprises a loudspeaker. The camera can shoot the image before the prompter, and sound sensor can gather the sound before the prompter, and the suggestion module still includes that the speaker can use sound to indicate current personnel, finally evacuates stranded crowd, protection crowd life and property safety.

Furthermore, the information processing module is also connected with an emergency power supply module, and an emergency lamp is arranged in the emergency power supply module. The emergency power supply module can timely start the standby power supply when the external power supply fails, so that the normal operation of the prompter is ensured; the emergency light can illuminate.

Furthermore, the prompting module of the invention also comprises a prompting lamp and a prompting arrow, wherein the prompting lamp can prompt the current crowd in the modes of normal lighting, flashing, combination change and the like, and the prompting arrow indicates the position of the safety exit through the direction of the arrow to guide people to evacuate.

Further, the information processing module is also connected with a first communication module, one end of the first communication module is connected with the information processing module, and the other end of the first communication module is connected with a USB flash disk or a computer; the information processing module is also connected with a data storage module. The first communication module can store the data in the USB flash disk into the prompter; the computer can transmit earthquake or other early warning information on the Internet to the processor, and the processed information prompts people through the prompting module. The information processing module is also connected with a data storage module, and the data storage module can store information acquired by the prompter, instructions sent by the controller and system setting information on one hand.

Furthermore, the information processing module is also connected with an alarm module, and the alarm module can alarm dangerous situations in time, so that larger losses are avoided.

Furthermore, the invention also provides an intelligent prompt system comprising the intelligent prompts, which comprises a plurality of intelligent prompts and a control center server, wherein the intelligent prompts are mutually communicated, each intelligent prompt is communicated with the control center server for networking, so that real-time conditions of more places can be detected, a feasible scheme for solving the problems is provided, an evacuation route is provided, and crowd safety is better protected.

Further, the information processing module is also connected with an alarm module and a third communication module, one end of the third communication module is connected with the information processing module in an interface way, the other end of the third communication module is connected with the control center server, the data acquisition module also comprises a flame sensor, a temperature sensor, a smoke sensor and a camera, and the prompt module also comprises a loudspeaker. When an earthquake, fire or control center server sends out emergency evacuation, the display screen prompts an escape route by using arrows, a self-rescue method by using words, and a self-rescue method by using voice prompts by using a loudspeaker, the control center server can calculate the optimal escape time and route, ensure the minimum casualties, confirm the place and intensity of the occurrence of the earthquake by using a third communication module, and eliminate the extremely panic emotion of people. The control center server communicates with personnel nearby the prompter through a camera or a loudspeaker of the prompter, and can perform self-rescue work after earthquake, and an alarm module can also alarm to the control center. The prompter can communicate with the control center server and receive the instruction of the control center server, and if the communication is not smooth, the prompter autonomously judges the state and automatically sends out the prompt.

Furthermore, the invention also provides an intelligent prompting method for accurately and effectively detecting the earthquake and prompting the earthquake information.

Furthermore, the intelligent prompting method can also detect and prompt fire disaster, and protect personnel safety.

Drawings

FIG. 1 is a schematic diagram of the structure of an intelligent prompter device of the present invention;

FIG. 2 is a flow chart illustrating the operation of the intelligent prompter of the present invention;

FIG. 3 is a flow chart of a method for monitoring and prompting an intelligent prompter in real time according to the present invention;

fig. 4 is a schematic structural diagram of the intelligent prompt system of the present invention.

In the figure: 101 is a prompt module, 102 is an information processing module, 103 is a data acquisition module, 104 is a display, 105 is a prompt lamp, 106 is a loudspeaker, 107 is a prompt arrow, 108 is a first communication module, 109 is an alarm module, 110 is a second communication module, 111 is an emergency power supply module, and 112 is a third communication module; 113 is an auxiliary button, 114 is a temperature sensor, 115 is a vibration sensor, 116 is a camera, 117 is a smoke sensor, 118 is a sound sensor, 119 is a flame sensor, 201 is a first intelligent prompter, 202 is a second intelligent prompter, 203 is a control center server, 204 is a mobile terminal, and 205 is the internet of things.

Detailed Description

The invention will now be described in further detail with reference to the accompanying drawings, which illustrate but do not limit the invention.

Referring to fig. 1-4, an intelligent prompter is characterized by comprising a data acquisition module 103, an information processing module 102 and a prompting module 101, which are communicated through a data line; the data acquisition module 103 includes a number of shock sensors 115 for detecting earthquakes, the information processing module 102 includes a processor, and the prompting module 101 includes a display 104. The processor analyzes all the data and gives related instructions for driving other components to work; the display screen displays the contents such as time, temperature, humidity, safety exit, information to be prompted, advertisements and the like.

The data acquisition module 103 also includes a flame sensor 119, a temperature sensor 114, and a smoke sensor 117. Flame sensor 119 may determine whether a flame is being generated and smoke sensor 117 and flame sensor 119 in combination may detect whether a fire or smoke event is occurring.

The data acquisition module 103 further comprises a camera 116 and a sound sensor 118, and the prompting module 101 further comprises a speaker 106. The speaker 106 plays sound. The sound sensor 118 collects sounds of the surrounding environment to determine whether the surrounding environment is noisy, and can communicate with real audio in combination with the speaker.

The information processing module 102 is also connected with an emergency power supply module 111, and an emergency lamp is arranged in the emergency power supply module. The emergency lamp is mainly used for lighting when an external power supply fails, and the power supply module supplies power, so that system setting can be performed through the 113 auxiliary button.

The prompt module 101 also includes an indicator light 105, and an indicator arrow 107. The prompting lamp prompts related information such as safety exit, safety attention, smoking-free and the like in a normal-lighting, flashing, combination change and the like mode. The prompt arrow indicates the position of the safety exit through the direction of the arrow, and guides people to evacuate.

The information processing module 102 is further connected with a first communication module 108, one end of the first communication module 108 is connected with the information processing module 102 in an interface manner, the other end of the first communication module 108 is connected with a USB flash disk or a computer, and the first communication module 108 comprises a USB connection module; the information processing module 102 is also connected with a data storage module 113. The first communication module 108 is also connected to a usb disk or a computer.

The information processing module 102 is also connected with an alarm module 109. The alarm module 109 mainly comprises an alarm button and an analysis system, and can call the communication module and the information prompt module to alarm.

The prompt system comprises a plurality of intelligent prompters and a control center server; the intelligent prompter further comprises a second communication module 110 and a third communication module 112, wherein a plurality of intelligent prompters are connected through the second communication module 110, and each intelligent prompter is connected with the control center server 203 through the third communication module 112; the second communication module 110 and the third communication module 112 each include a Wifi communication module or a Zigbee communication module.

The information processing module 102 is further connected with an alarm module 109 and a first communication module 108, one end of the first communication module 108 is connected with the information processing module 102 in an interface manner, the other end of the first communication module 108 is connected with a control center server, the data acquisition module 103 further comprises a camera 116, and the prompt module 101 further comprises a loudspeaker 106.

The application method of the intelligent prompter is characterized by comprising the following steps:

step 1, self-checking the connection state of equipment, and checking all equipment types connected currently;

step 2, when the information processing module 102 receives that all the data collected by the vibration sensors 115 which can work normally have vibration signals, the prompt module 101 carries out earthquake prompt, and the display 104 carries out earthquake display; if only a portion of the normally functioning shock sensors 115 are present with shock signals, the prompt module 101 is not enabled to provide a seismic prompt.

In the step 2, the information processing module 102 is further connected with a flame sensor 119, a temperature sensor 114 and a plurality of smoke sensors 117; when the information processing module 102 receives the flame information of the flame sensor 119 and simultaneously receives the temperature information acquired by the temperature sensor 114 to exceed a preset value, the prompting module 101 prompts a fire; the information processing module 102 issues a fire cue when it receives that all smoke sensors 117 detect that the current smoke concentration exceeds a preset value, and does not issue a fire cue otherwise.

The earthquake judging method comprises the following steps: detecting earthquakes through the vibration sensors, and when a plurality of vibration sensors detect vibration at the same time, indicating that the earthquakes occur, collecting signals of the occurrence of the earthquakes through a network by the control center server; and in the off-line mode, the vibration condition during the earthquake can be compared with pre-stored data to preliminarily judge the occurrence state of the earthquake.

The fire and smoking judging method comprises the following steps: when the flame sensor collects flame information and the feedback temperature of the temperature sensor is too high, the situation that a fire disaster occurs in the place is indicated; when the smoke concentration is too high and the temperature is normal, the smoke sensors are used for indicating nearby fires; when a small number of sensors collect smoke signals and the temperature is normal, the possibility of smoking in the area is high.

The noisy judgment method comprises the following steps: when the sound sensor of a few prompters detects that the volume is too high, the sound sensor indicates that a person is noisy, and the sound source is not far away from the prompter with the strongest sound signal. If a plurality of prompters detect high-decibel sound signals, surrounding environment is noisy, and fireworks and crackers can be set off. And according to long-time sound collection, confirming the noise condition (such as the road side traffic sound) of the position, and judging whether new noise is generated.

The method for judging the emergency situation comprises the following steps: when someone touches the alarm device or detects the occurrence of an emergency, the camera is quickly called to determine and the information is reported to the corresponding department. The control center calculates the optimal escape route of each floor and the exit, and then sends the instruction to the corresponding prompter. The prompter sends information such as escape route and notice through the way such as display screen, voice and warning light. The prompter feeds back the real-time status to the control center so as to adjust the scheme at any time.

Fig. 2 is a main operation flow chart of the intelligent prompter in normal operation. After the system is started, the system enters a self-checking mode to judge whether the system has faults or not. If some of the elements fail or default, the functions involved in the sensor are skipped and other functions can still be used. The system can be automatically set through self-checking, and can be set in other modes.

The power management system is also provided with a standby power supply, and can be used continuously after the power of the household illumination is cut off. When the power is cut off, the standby power supply is started and part of functions are closed, so that electric energy is saved, and when the external power supply is recovered, the standby power supply is charged, and the external power supply is utilized to work normally.

The system can monitor information such as earthquake, fire disaster, noise and the like of the position in real time, and the communication module and the control center server perform data communication to ensure the accuracy of information acquisition. If the data communication is successful, the control center sends an instruction through analysis to prompt corresponding information by the prompter. If the communication fails, an offline mode is started, the prompter intelligently compares the acquired data with the pre-stored data, confirms the real-time state of the environment, and then prompts information. All the information is recorded in the storage module, and the stored information is sent to the control center or the Internet of things after communication is recovered.

The information prompt is mainly realized through a display screen, a loudspeaker, a prompt arrow and a prompt lamp, the specific content of the information prompt is arranged in the prompt device in advance, other content can be sent in real time through a control center, and the information prompt can also be set through a mobile phone APP.

And after the prompt information is sent, feeding back information to the control center, and then carrying out other operations. And after other operations are completed, performing power management, and entering the next cycle by the whole system. The system can collect data in real time for intelligent prompt, and can prompt according to instructions of the control center.

The real-time monitoring and prompting method. After confirming to monitor in real time, the intelligent prompter confirms the system setting and self function configuration condition after status self-checking, and judges whether information acquisition and prompt are needed. If the sensor has a default, the program automatically skips when running to the command, and the next action is judged.

When the prompter works normally, whether an earthquake occurs is judged, and when the earthquake occurs, an earthquake mode is entered. In the earthquake mode, the display screen prompts the escape route by an arrow and prompts the earthquake self-rescue method by voice and characters. The prompt can be communicated with a control center in time, so that the optimal escape time and route are calculated, and the minimum casualties are ensured; the place and intensity of the earthquake are confirmed through communication, so that the extremely panic emotion of people is eliminated. The control center communicates with personnel nearby the prompter through a camera and a microphone of the prompter, and can also communicate with the control center in an alarm mode after the self-rescue work is performed. The prompter can be communicated with the control center and receive the instruction of the control center, and if the communication is not smooth, the prompter enters an offline mode, and the prompter autonomously judges the state and automatically sends out the prompt.

If the earthquake is not sent or the earthquake is slowed down, judging whether fire disaster occurs. If the fire disaster is judged to occur, the fire disaster mode is entered, and if the fire disaster does not occur, whether a person alarms is judged. And prompting the fire disaster self-rescue common sense under the fire disaster mode, and communicating with a control center to judge the specific fire disaster position and the fire disaster. Through calculation, escape paths of people at different stair openings are optimized, evacuation and guidance are performed in modes of prompting arrows, voices, characters and the like, and the occurrence of trampling accidents is reduced. And after the fire disaster occurs, the fire disaster information is timely sent to the control center, and if the control center cannot receive the reply, the control center alarms in other modes, such as automatic 119 call making alarm. Fire and alarm conditions can still be detected in the earthquake mode, and because the fire occurs after the earthquake, something can easily happen.

The probability of earthquake and fire is small, and the probability of someone asking for help or alarming in emergency is large. When someone alarms, the system enters a help seeking mode, and the system communicates with a control center through voice and a camera in the mode so as to be timely helped. If the communication with the control center is impossible, the alarm call can be automatically dialed 110 by continuously pressing the alarm button for a plurality of times.

The prompter has a standby power supply, and detects the occurrence of earthquakes, fires and alarms in real time, because the monitoring cost is relatively low, the equipment power is low or the household power can still work for a long time after power failure. And judging whether the power is cut or not, and entering a power cut mode if the power is cut. In the power failure mode, besides the emergency condition, the emergency lamp is turned on, and the power failure reason and the expected incoming call time (which needs to be communicated with the control center) are played through the voice. When the household power is cut off, the program in the power cut mode runs to the time, and then the program runs according to the sequence of whether earthquake occurs, whether fire disaster occurs or not and whether alarm occurs or not. To save power, it is default that at low battery, smoking, noisy, drinking, etc. behavior is not monitored unless system settings are additionally made.

When the noisy behavior is judged to occur, the noise mode is entered, and if the noise is not present, whether the next behavior occurs is judged. In the crowd mode, the prompter gives information which is not noisy through the prompting lamp and the display screen, and the prompting is kept quiet.

And (5) intelligently prompting the communication of the system. The first intelligent prompter 201 may work alone, or may form an intelligent prompter system together with a plurality of intelligent prompters and the control center server 203, which share one control center server 20. The prompter and the control center server 203, the first intelligent prompter 201 and the second intelligent prompter 202 can communicate with each other to transmit related instructions, the state of the position and information feedback. The prompter can be directly connected to the internet of things, or can be analyzed by the control center and then connected to the internet of things 205. The control center server 203 may also communicate with mobile terminals 204.

The control center server 203 can communicate with the prompter in any mode, can make reasonable judgment according to actual conditions, sends a prompt to the prompter, and sends a corresponding prompt after the prompter receives the instruction. The prompter can store information in real time and send the information to the control center, and even if the information is still recorded in the memory in an offline mode, the information is sent to the control center after the communication is normal. Remote control over the control center and the intelligent prompter is realized through the app, and the content such as a prompting method, a discrimination strategy, a priority order and the like is set.

The above is only for illustrating the technical idea of the present invention, and the protection scope of the present invention is not limited by this, and any modification made on the basis of the technical scheme according to the technical idea of the present invention falls within the protection scope of the claims of the present invention.

Claims (6)

1. The using method of the intelligent prompter is characterized in that the intelligent prompter comprises a data acquisition module (103), an information processing module (102) and a prompting module (101) which are communicated through a data line; the data acquisition module (103) comprises a plurality of vibration sensors (115) for detecting earthquakes, the information processing module (102) comprises a processor, and the prompting module (101) comprises a display (104); the data acquisition module (103) further comprises a flame sensor (119), a temperature sensor (114) and a smoke sensor (117); the method comprises the following steps:

step 1), self-checking the equipment connection state, and checking all equipment types connected currently;

step 2), when the information processing module (102) receives all data acquired by the vibration sensors (115) which can work normally, vibration signals appear, the prompt module (101) carries out earthquake prompt, and the display (104) carries out earthquake display; if only part of vibration sensors (115) which can work normally generate vibration signals, the prompt module (101) is not enabled to prompt earthquake;

the step 2), the information processing module (102) is also connected with a flame sensor (119), a temperature sensor (114) and a plurality of smoke sensors (117); when the information processing module (102) receives flame information of the flame sensor (119) and simultaneously receives temperature information acquired by the temperature sensor (114) to exceed a preset value, the prompting module (101) prompts fire; when the information processing module (102) receives that all the smoke sensors (117) detect that the current smoke concentration exceeds a preset value, a fire prompt is sent out, otherwise, the fire prompt is not sent out;

the data acquisition module (103) further comprises a camera (116) and a sound sensor (118), and the prompt module (101) further comprises a loudspeaker (106);

the information processing module (102) is also connected with a first communication module (108), one end of the first communication module (108) is connected with the information processing module (102), the other end of the first communication module is connected with a USB flash disk or a computer, and the first communication module (108) comprises a USB connection module; the information processing module (102) is also connected with a data storage module (113).

2. The use method of the intelligent prompter according to claim 1, wherein the information processing module (102) is further connected with an emergency power supply module (111), and an emergency lamp is arranged in the emergency power supply module (111).

3. The method of claim 1, wherein the prompt module (101) further comprises a prompt light (105), and a prompt arrow (107).

4. The use method of the intelligent prompter according to claim 1, wherein the information processing module (102) is further connected with an alarm module (109).

5. An intelligent prompting system for implementing the use method of the intelligent prompter according to any one of claims 1-4, characterized in that it comprises a plurality of intelligent prompters and a control center server (203); the intelligent prompters also comprise a second communication module (110) and a third communication module (112), wherein a plurality of intelligent prompters are connected through the second communication module (110), and each intelligent prompter is connected with a control center server (203) through the third communication module (112); the second communication module (110) and the third communication module (112) comprise a Wifi communication module or a Zigbee communication module; the data acquisition module (103) further comprises a flame sensor (119), a temperature sensor (114) and a smoke sensor (117); the information processing module (102) is also connected with a third communication module (112), one end of the third communication module (112) is connected with the information processing module (102) in an interface way, and the other end of the third communication module is connected with the control center server (203).

6. The intelligent prompting system according to claim 5, wherein the information processing module (102) is further connected with an alarm module (109), the data acquisition module (103) further comprises a camera (116), and the prompting module (101) further comprises a speaker (106).