CN105894710A - Temperature monitoring warning device and fire control warning system - Google Patents
Temperature monitoring warning device and fire control warning system Download PDFInfo
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- CN105894710A CN105894710A CN201610354128.7A CN201610354128A CN105894710A CN 105894710 A CN105894710 A CN 105894710A CN 201610354128 A CN201610354128 A CN 201610354128A CN 105894710 A CN105894710 A CN 105894710A
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- G—PHYSICS
- G08—SIGNALLING
- G08B—SIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
- G08B17/00—Fire alarms; Alarms responsive to explosion
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Abstract
The invention relates to a temperature detection warning device and a fire-fighting warning system, wherein the system comprises: the system comprises at least one temperature monitoring warning device, a background management device and a monitoring information processing device, wherein the temperature monitoring warning device is used for being placed at a monitoring point of a building and reporting monitoring information of the monitoring point to the background management device, and the monitoring information comprises position information and temperature information; when the temperature of the monitoring point is greater than a first threshold value, the temperature monitoring warning device sends out a first warning signal, and meanwhile, the monitoring information also comprises first warning signal information; and the background management device is used for receiving the monitoring information reported by the temperature monitoring and warning device, controlling the temperature monitoring and warning device to send out a second warning signal when the existence of the fire hazard is determined, and sending out warning information and position information of the fire source to the mobile terminal so that the mobile terminal can process the fire hazard. The invention can reduce false alarm, has quick response time to fire monitoring, quickly determines the fire source and reduces personal and property loss.
Description
Technical Field
The invention relates to the technical field of integrated circuit design in the field of microelectronics, in particular to a temperature monitoring warning device and a fire-fighting warning system.
Background
The existing fire protection warning system monitors by using a smoke alarm, realizes fire prevention warning by monitoring smoke concentration, and gives an alarm when monitoring that the smoke ion concentration exceeds a set threshold value.
The existing smoke alarm fire-fighting warning system has the following defects:
1. the smoke alarm gives an alarm by mistake when the smoke concentration is too high due to kitchen cooking or artificial smoking and the like;
2. when fire hazard exists, the smoke concentration needs a certain time to gather, and warning cannot be given out in the first time;
3. the fire fighter can not quickly determine the fire source according to the smoke alarm, and the fire extinguishing and escaping time of the fire fighter is delayed.
Disclosure of Invention
Aiming at the defects in the prior art, the invention aims to provide a temperature monitoring and warning device and a fire-fighting warning system, which are used for monitoring the temperature of each part in a building and automatically giving out a warning when the temperature exceeds a preset threshold value; meanwhile, related information is reported, when the existence of the fire hazard is determined, the control system sends out comprehensive warning, reports warning information of the mobile terminal and information of a monitoring point where the fire source is located, and timely and efficiently processes the fire hazard.
To achieve the above object, in one aspect, the present invention provides a temperature monitoring warning device, including:
the temperature monitoring module is used for detecting the temperature of the monitoring point; the control module is used for controlling the LED warning display module to send out a first warning signal when the temperature is greater than a first threshold value; the LED warning display module is used for sending a first warning signal when the temperature is higher than a first threshold value, and/or sending a second warning signal after the existence of the fire hazard is determined, and providing illumination to indicate the position of a fire source; and the first communication module is used for sending the monitoring information to the background management device so as to control the LED warning display module to send out second warning information when the background management device determines that fire hazard exists according to the monitoring information, wherein the monitoring information comprises temperature information and/or first warning signal information.
Preferably, the LED warning display module includes: the first warning signal is a yellow LED lamp, and the second warning signal is a red LED lamp; the indicator light of the first or second warning signal may be indicated in the form of a dynamic flash, a change in shade or a change in color.
In another aspect, the present invention provides a fire warning system, comprising: the system comprises a background management device, a mobile terminal and at least one temperature monitoring warning device according to the above aspect; wherein,
the temperature monitoring warning device is used for being placed at a monitoring point of a building and reporting monitoring information of the monitoring point to the background management device, wherein the monitoring information comprises position information and temperature information; when the temperature of the monitoring point is larger than a first threshold value, the temperature monitoring warning device sends a first warning signal, and the monitoring information also comprises first warning signal information, wherein the building is provided with a plurality of monitoring points, and each monitoring point is provided with one temperature monitoring warning device; and the background management device is used for receiving the monitoring information reported by the at least one temperature monitoring warning device, drawing historical temperature information charts of all monitoring points of the building according to the monitoring information, simultaneously drawing temperature information stereo charts of all monitoring points of the building, controlling the temperature monitoring warning device to send out a second warning signal when the fire hazard is determined to exist according to the historical temperature information charts of all monitoring points and the temperature information stereo charts of all monitoring points, and sending out warning information and position information of the monitoring points where the fire sources are located to the mobile terminal so that the mobile terminal can process the fire hazard.
Preferably, the background management means is further configured to: when determining that no fire hazard exists according to the historical temperature information graphs of all the monitoring points and the temperature information stereo graphs of all the monitoring points, controlling the temperature monitoring warning device to remove the first warning signal; and when whether fire hazard exists cannot be determined according to the historical temperature information charts of the monitoring points and the temperature information stereo charts of all the monitoring points, sending prompt information to the mobile terminal.
Preferably, the background management device is specifically configured to: according to the historical temperature information chart of each monitoring point and the temperature information stereo charts of all the monitoring points, according to the temperature change curve of the monitoring point where the temperature monitoring warning device sending out the first warning signal information is located, according to the change condition of the temperature of the monitoring point where the temperature monitoring warning device around the temperature monitoring warning device sending out the first warning signal information is located and according to the quantity change information of the temperature monitoring warning devices sending out the first warning signal information, whether fire hazard exists is judged. And when the existence of the fire hazard is confirmed, controlling the temperature monitoring and warning device to send out a second warning signal, and sending out warning information and position information of a monitoring point where the fire source is located to the mobile terminal so that the mobile terminal can process the fire hazard.
Preferably, the background management device is specifically configured to: when the existence of the fire hazard is confirmed, further judging the level of the fire hazard; the fire hazard is divided into a first-level fire hazard, a second-level fire hazard or a third-level fire hazard; when the existence of the first-level fire hazard is confirmed, controlling all the temperature monitoring warning devices to send out second warning signals; when the existence of secondary fire hidden danger is confirmed, controlling a temperature monitoring warning device which sends out first warning signal information and a temperature monitoring warning device adjacent to the temperature monitoring warning device to send out a second warning signal; and when the existence of three-level fire hazard is confirmed, controlling the temperature monitoring warning device which sends out the first warning signal information to send out a second warning signal.
Preferably, the background management means includes: the system comprises a second communication module, a display module and a hidden danger determining module; the second communication module is used for receiving monitoring information sent by the temperature monitoring and warning device; and/or the mobile terminal is used for sending control information for sending a second warning signal to the temperature monitoring warning device when the existence of the fire hazard is determined, and sending warning information and position information of a monitoring point where the fire source is located to the mobile terminal so that the mobile terminal can process the fire hazard; and/or control information for sending the first warning signal to the temperature monitoring warning device when the fire hazard does not exist; and/or sending prompt information to the mobile terminal when whether the fire hazard exists cannot be determined; the display module is used for drawing historical temperature information charts of all monitoring points of the building according to the monitoring information and drawing temperature information stereo charts of all monitoring points of the building at the same time; the hidden danger determining module is used for judging the state information of the at least one temperature monitoring warning device according to the historical temperature information chart of each monitoring point and the temperature information stereo charts of all the monitoring points, and the state information comprises: determining that a fire hazard exists, failing to determine whether a fire hazard exists, or determining that a fire hazard does not exist.
Preferably, the hidden danger determining module is specifically configured to: when the existence of the fire hidden danger is determined, dividing the fire hidden danger into a first-level fire hidden danger, a second-level fire hidden danger or a third-level fire hidden danger; when the number of the temperature monitoring warning devices sending the first warning signals is less than N, three-level fire hazard is caused; when the number of houses with fire hazard is more than M and less than S, the houses are secondary fire hazard; when the number of houses with fire hazards is larger than S, the houses are first-level fire hazards; n, M or S is a positive integer greater than or equal to 1 preset according to the distribution of the temperature monitoring and warning devices in the building.
Preferably, at least one temperature monitoring and warning device is communicated with the background management device through a wireless Mesh network.
The fire-fighting warning system provided by the embodiment of the invention realizes a double-layer warning mechanism and system monitoring, and can send out a self-warning signal when the temperature is abnormal aiming at the monitoring point of a single temperature monitoring warning device. And drawing historical temperature curves of monitoring measuring points and temperature stereo diagrams of all monitoring points of the building through the background management device for judgment, controlling all temperature monitoring warning devices to send out system warning signals when determining that fire hazards exist, and simultaneously sending warning information and fire source position information to the mobile terminal. The fire-fighting warning system provided by the embodiment of the invention can quickly determine the source of the hidden fire danger according to the temperature monitoring result and the warning signal, has quick response time to fire monitoring, and reduces personal and property loss. The fire source is determined more quickly, the mobile terminal is reported, and warning information is sent out at the same time, so that the fire can be treated efficiently in time, false warning can be reduced, and fire extinguishing and escape time is strived for firefighters.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.
Fig. 1 is a schematic view of a fire warning system according to an embodiment of the present invention;
fig. 2 is a schematic structural diagram of a temperature monitoring warning device 10 according to an embodiment of the present invention;
fig. 3 is a schematic structural diagram of the background management apparatus 11 according to the embodiment of the present invention.
Fig. 4 is a schematic diagram of a specific application of the fire warning system according to the embodiment of the present invention.
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
To facilitate an understanding of embodiments of the present invention, the following detailed description will be further explained with reference to the accompanying drawings.
Fig. 1 is a schematic view of a fire warning system according to an embodiment of the present invention. As shown in fig. 1, the fire alarm system provided in the embodiment of the present invention includes: at least one temperature monitoring warning device 10, a background management device 11 and a mobile terminal 12.
Specifically, at least one temperature monitoring and warning device 10 may be distributed in a network in a place such as an office building, a residential building, a warehouse, etc. for monitoring the hidden condition of fire. In addition, it can be understood that the fire alarm system provided by the embodiment of the invention can also be applied to other fields. Wherein, at least one temperature monitoring and warning device 10 is connected with the background management device 11 through the wireless Mesh network for communication.
It should be noted that each temperature monitoring and warning device 10 is provided with a communication module, each communication module is a node in the wireless Mesh network, and in the wireless Mesh network structure, a node not only can transmit and receive information, but also can serve as a router to forward information to its neighboring nodes. If the nearest node fails or is interfered, the data packet is automatically routed to the standby path for continuous transmission, and the operation of the whole network is not influenced. Therefore, at least one temperature monitoring and warning device 10 is connected and communicated with the background management device 11 through the wireless Mesh network, so that the transmission rate of information can be improved, and the whole fire-fighting warning system can normally operate.
At least one temperature monitoring warning device 10 is distributed at each monitoring point in the monitoring range in a net shape. For example, as shown in fig. 1, the temperature monitoring warning devices 10 are distributed in various rooms of a building, and each room may include a plurality of temperature monitoring warning devices 10 for monitoring the temperature of various monitoring points of the room. Each temperature monitoring warning device 10 is used for monitoring the temperature and sending out a first warning signal when the temperature is greater than a first threshold value; and reporting the monitoring information to the background management device 11, wherein the monitoring information includes position information, temperature information and first warning signal information when the temperature is greater than a first threshold value.
It should be noted that, after each temperature monitoring warning device 10 is installed, the system personnel inputs the location information of the monitoring point to the corresponding temperature monitoring warning device 10 through the background management device 11, for example, "3 rd floor 308 room one on the right". The detection information sent to the background management device 11 by the temperature monitoring and warning device 10 in the following process all carries the position information thereof, so that the background management device 11 can directly know the temperature condition of the specific position thereof according to the temperature information. For example, the detection information may be "308-A1-25 ℃ or" 308-A1-200 ℃ - #1 ", where" 308-A1 "represents position information, A1 represents a preset position arrangement, and" #1 "represents first warning signal information.
Specifically, each temperature monitoring warning device 10 is configured to monitor the temperature of the monitoring point where the temperature monitoring warning device is located, and report the monitored temperature information to the background management device 11 at a certain frequency. When the temperature of the monitoring point is higher than the first threshold, a first warning signal is sent out, and the information of the first warning signal is reported to the background management device 11 at a certain frequency.
The background management device 11 is used for receiving monitoring information reported by at least one temperature monitoring warning device 10, drawing a historical temperature information chart of each monitoring point of the building according to the monitoring information, simultaneously drawing temperature information three-dimensional charts of all monitoring points of the building, controlling the temperature monitoring warning device 10 to send out a second warning signal when the existence of fire hazard is determined according to the historical temperature information chart of each monitoring point and the temperature information three-dimensional charts of all monitoring points, and sending warning information and position information of the monitoring point where a fire source is located to the mobile terminal 12 so that the mobile terminal 12 can process the fire hazard; when it is determined that there is no fire hazard, controlling the temperature monitoring warning device 10 to release the first warning signal; when it is not possible to determine whether there is a fire hazard, a prompt message is sent to the mobile terminal 12.
Specifically, the background management device 11 determines whether there is a fire hazard according to a temperature change curve of a monitoring point where a temperature monitoring warning device that sends out first warning signal information is located, according to a change condition of the temperature of the monitoring point where the temperature monitoring warning device around the temperature monitoring warning device that sends out the first warning signal information is located, and according to change information of the number of the temperature monitoring warning devices that send out the first warning signal information; when the existence of the fire hazard is confirmed, the level of the fire hazard is further judged.
Specifically, the fire hazard is classified into a first-level fire hazard, a second-level fire hazard or a third-level fire hazard; when the existence of the first-level fire hazard is confirmed, controlling all the temperature monitoring warning devices to send out second warning signals; when the existence of secondary fire hidden danger is confirmed, controlling a temperature monitoring warning device which sends out first warning signal information and a temperature monitoring warning device adjacent to the temperature monitoring warning device to send out a second warning signal; when the existence of three-level fire hazard is confirmed, the temperature monitoring warning device which sends out the first warning signal information is controlled to send out a second warning signal, and meanwhile, warning information and position information of a monitoring point where a fire source is located are sent out to the mobile terminal, so that the mobile terminal can process the fire hazard.
In one example, when the number of temperature monitoring warning devices 10 that issue the first warning signal is less than N, which may be 1/5 for example, the number of temperature monitoring warning devices 10 in a house; when the number of houses with fire hazards is larger than M and smaller than S, the houses are second-level fire hazards, for example, M is larger than or equal to 1, and S is larger than or equal to 3; and when the number of the houses with the fire hazard is greater than S, the houses are the first-level fire hazard. Wherein, the first-level fire hazard indicates that the fire condition is the most serious, and so on. In addition, the evaluation standard of the fire hazard can be set according to specific conditions.
The fire-fighting warning system provided by the invention can be used in places with gathered population or articles, such as office buildings, resident residences, warehouses and the like. Compared with the existing fire-fighting warning system adopting a smoke alarm, the fire-fighting warning system provided by the invention can be used for more intelligently preventing and treating fire.
In one example, the background management device receives monitoring information reported by at least one temperature monitoring warning device, summarizes historical data, updates temperature data and position information constantly, judges whether fire hazard exists according to the monitoring information, controls the temperature monitoring warning device to send out a second warning signal when the temperature is found to rise rapidly and abnormal temperature is higher and higher, and instructs the temperature monitoring device to display the fire hazard signal when the fire hazard exists; and further sends out fire hazard warning to mobile terminals such as mobile phones and the like to inform fire source position information. The invention can reduce false alarm, has quick response time to fire monitoring, quickly determines the fire source and reduces personal and property loss.
In one example, in an office building, the temperature monitoring warning devices may be distributed at different monitoring points of the building, such as being networked at various corners of the office building. Firstly, when a certain monitoring point of an office building is on fire, a temperature monitoring warning device of the monitoring point sends out a first warning signal when monitoring that the temperature is greater than a set first threshold value. The first warning signal can also be understood here as a self-warning signal. And secondly, the temperature monitoring and warning device of the monitoring point reports the first warning signal to a background management device, wherein the background management device can also be a mobile phone terminal or a computer terminal and other equipment directly, the holder of the background management device or the background management device judges according to the self-warning signal and the temperature information of the corresponding monitoring point and the surrounding monitoring points, and when the existence of the fire hazard is determined, all the temperature monitoring and warning devices of the office building are controlled to send out second warning signals. Here, the second warning signal can also be understood as a system warning signal.
In particular, the first warning signal and the second warning signal may include LED lights, ring tones, and the like. Wherein the first warning signal and the second warning signal may be set to have different colors of lights to distinguish the self-warning signal from the system warning signal. In addition, the first warning signal and the second warning signal indicator light can be indicated in the form of dynamic flashing, light and shade change or color change and the like.
It should be noted that the first threshold temperature may be specifically set according to the material of the monitoring point, for example, for some flammable materials, a lower first threshold temperature may be set. In addition, the first threshold temperature may be adjusted as needed.
It can be understood that, when the background management device 11 determines that a fire hazard exists, it may also send related information to the fire department, so as to better deal with the disaster and reduce personal and property losses.
Fig. 2 is a schematic structural diagram of a temperature monitoring warning device 10 according to an embodiment of the present invention. As shown in fig. 2, each temperature monitoring warning device 10 includes: the temperature monitoring module 101, the control module 102, the LED warning display module 103 and the first communication module 104; wherein,
and the temperature monitoring module 101 is used for monitoring the temperature of a monitoring point where the temperature monitoring module is located.
The control module 102 is used for controlling the warning module 103 to send out a first warning signal when the monitored temperature is greater than a first threshold value;
specifically, the control module 102 is further configured to instruct the LED warning display module 103 to send a second warning signal or instruct the LED warning display module 103 to release the first warning signal according to the control information sent by the background management device 11.
And the LED warning display module 103 is used for sending out a first warning signal when the temperature is higher than the first threshold value, and/or sending out a second warning signal after the background management device 11 determines that a fire hazard exists, and providing illumination to indicate the position of the fire source.
Specifically, the LED warning display module 103 may be provided with a battery, so that in case of power failure due to fire, the LED warning display module 103 may also emit a warning signal and provide illumination light.
The first communication module 104 is configured to send the monitoring information to the background management apparatus 11.
In one example, the LED warning display module 103 may include two different colored LED lights, for example: yellow and red lights. When the warning module sends out the first warning signal, the yellow lamp can be conducted through the internal control circuit, and yellow light warning is sent out. When the warning module sends out the second warning signal, the red light can be conducted through the internal control circuit, and the red light warning is sent out. Meanwhile, a white lamp can be emitted to provide illumination and prompt the position of the fire source.
In another example, the LED warning display module 103 may further include a ring warning circuit. When it sends out the first warning signal or the second warning signal, it can accompany the corresponding ring warning to send out the warning. The frequencies of the ring tones corresponding to the first warning signal and the second warning signal may be set to be different.
It is understood that the color of the LED lamp is not limited to yellow, red or white, and it is within the scope of the present invention to change the color and the lighting manner of the LED lamp for the alarm signal or the illumination signal.
Specifically, the temperature monitoring warning device 10 may be in the form of a probe, the probe tip of which is the temperature monitoring module 101, which may be a temperature sensor. The other modules are arranged in sequence. Meanwhile, the functions of the device may not be limited to the modules listed in the present invention, and devices achieving the same effect may be replaced by other modules, which are within the scope of the embodiments of the present invention.
Fig. 3 is a schematic structural diagram of the background management apparatus 11 according to the embodiment of the present invention. As shown in fig. 3, the background management apparatus 11 includes: a second communication module 111, a hidden danger determining module 112 and a display module 113; wherein,
the second communication module 111 is configured to receive monitoring information sent by the temperature monitoring and warning device 10; and/or is used for sending control information for sending out a second warning signal to the temperature monitoring warning device 10 when the existence of the fire hazard is determined, and sending warning information and position information of a monitoring point where the fire source is located to the mobile terminal 12 so that the mobile terminal 12 can process the fire hazard; and/or control information for transmitting the first warning signal to the temperature monitoring warning device 10 when it is determined that there is no fire hazard; and/or is used for sending prompt information to the mobile terminal 12 when whether the fire hazard exists cannot be determined, so that the mobile terminal 12 can check and determine whether the fire exists in time and take precaution work well.
And the display module 112 is used for drawing historical temperature information charts of all monitoring points of the building according to the monitoring information and simultaneously drawing temperature information stereo charts of all monitoring points of the building.
The hidden danger determining module 113 is configured to determine status information of at least one temperature monitoring warning device 10 according to the historical temperature information graphs of each monitoring point and the temperature information stereo graphs of all monitoring points, where the status information includes: determining that a fire hazard exists, failing to determine whether a fire hazard exists, or determining that a fire hazard does not exist.
Specifically, as described in fig. 1, when it is determined that there is a fire hazard, the fire hazard may be further classified into a first-level fire hazard, a second-level fire hazard, or a third-level fire hazard, and a classification standard of the related fire hazards, which may be referred to as a record in fig. 1 and will not be repeated herein.
In one example, when the difference between the temperature of the monitoring point where the temperature monitoring warning device 10 which sends the first warning signal information is located and the temperature of the monitoring point where the temperature monitoring warning device 10 around the temperature monitoring warning device is located is not large, further, when the temperature of the surrounding temperature monitoring warning device 10 does not change within a certain time, it is determined that there is no fire hazard, and meanwhile, related personnel can be further notified to check before, and the first warning signal is released.
In another example, when the temperature monitoring and warning device 10 at the more distributed monitoring points simultaneously sends out the first warning signal information, but the temperature information monitored by the surrounding temperature monitoring and warning device 10 does not change significantly, after the existence of the fire hazard is determined, the relevant personnel can be notified to check before and then give a corresponding response.
Specifically, in a possible embodiment of the present invention, the background management device 11 may further determine whether a fire hazard exists according to other criteria. For example, the conclusion whether the monitoring point where the temperature monitoring and warning device 10 reporting the first warning signal is located has the fire hazard can be obtained through differentiation judgment according to the difference between the temperature of the monitoring point corresponding to the temperature monitoring and warning device 10 reporting the first warning signal and the temperature of the surrounding monitoring points.
Specifically, in another possible embodiment of the present invention, the background management device 11 may also disregard the first warning signal information of the at least one temperature warning device 10, and directly make a decision according to all temperature information reported by the at least one temperature warning device 10. For example, the number of the temperature monitoring and warning devices 10 with the temperature exceeding the first threshold value is set as the threshold value, or the monitoring point where the temperature monitoring and warning device 10 with the temperature exceeding the first threshold value is located is set as the threshold value, so as to determine whether the fire hazard exists. For another example, whether fire hazard exists is judged according to temperature differentiation information reported by at least one temperature monitoring and warning device.
The process of determining whether there is a fire hazard by the background management apparatus 11 may be set by a program and automatically executed. Or the holder of the background management device 11 may make a judgment by itself according to the related information and send a corresponding instruction. When the fire hazard cannot be determined, related personnel can be prompted to go to the site to check so as to make further judgment and prevent personal safety and property loss.
It should be noted that, the background management device receives the temperature information and the warning signal information of each monitoring point of the system, so as to better monitor the fire. For example, the system may control to turn off the false alarm signal when the temperature at a certain point may temporarily exceed the first threshold temperature, but is not a fire and false alarm. In addition, the temperature monitoring and warning device is adopted, compared with the traditional smoke warning device, the fire monitoring device is more sensitive to fire monitoring, and the fire source is easily determined according to the temperature information reported by the temperature monitoring and warning device of each monitoring point.
Fig. 4 is a schematic diagram of a specific application of the fire warning system according to the embodiment of the present invention. As shown in fig. 4, the house 1 may include 6 temperature monitoring warning devices, such as a1-a6, and other temperature monitoring warning devices, such as a7-a9 shown in fig. 4, may be included in the house adjacent to the house 1.
When a fire is in the lower part of the temperature monitoring warning device indicated by a1 and the monitored temperature is greater than a first threshold value, a1 sends out a first warning signal, such as a yellow light alarm, and a1 reports the first warning signal information to the background management device. The background management device receives the first warning signal information of A1 and analyzes the temperature information reported by A2-A9 and the like around the background management device.
For example, a2, a4 and a5 around a1 will gradually report first warning signal information, when the number of temperature monitoring warning devices sending out the first warning information is greater than 3, the background management device will determine that a fire hazard occurs in the house 1, will control all the temperature monitoring warning devices a1-a6 in the house 1 to send out second warning signals, and at the same time, will also control the temperature monitoring warning devices a7-a9 and the like of the surrounding houses to also send out second warning signals. In addition, when the spreading speed of the fire hazard is fast, for example, the number of houses with the fire hazard exceeds 1/5 of the number of houses in the building, the background management device controls all the temperature monitoring and warning devices in the whole building to send out second warning signals, and prompts relevant personnel to take corresponding measures.
The temperature monitoring warning device and the fire fighting warning system provided by the embodiment of the invention realize a double-layer warning mechanism and system monitoring, can monitor the monitoring points where a single temperature monitoring warning device is located, and send out self-warning signals when the temperature is abnormal, and control all the temperature monitoring warning devices to send out system warning signals when the fire hazard is determined to exist by reporting the monitoring information of all the monitoring points to the background management device. The fire monitoring system can reduce false alarm, has quick response time to fire monitoring, and reduces personal and property loss. Meanwhile, the hidden danger fire source can be determined more quickly according to the temperature monitoring result and the source of the warning signal. The time for fire extinguishing and escaping is strived for the fire fighters.
The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.
Claims (9)
1. A temperature detection warning device characterized by comprising:
the temperature monitoring module is used for detecting the temperature of the monitoring point;
the control module is used for controlling the LED warning display module to send out a first warning signal when the temperature is greater than a first threshold value;
the LED warning display module is used for sending a first warning signal when the temperature is greater than a first threshold value, and/or sending a second warning signal after determining that the fire hazard exists, and providing illumination to indicate the position of a fire source;
the first communication module is used for sending monitoring information to the background management device so as to control the LED warning display module to send out second warning information when the background management device determines that fire hazard exists according to the monitoring information, wherein the monitoring information comprises temperature information and/or first warning signal information.
2. The apparatus of claim 1, wherein the LED warning display module comprises:
the first warning signal is a yellow LED lamp, and the second warning signal is a red LED lamp;
the indicator light of the first or second warning signal may be indicated in the form of a dynamic flash, a change in shade or a change in color.
3. A fire warning system, comprising: background management device, mobile terminal and at least one temperature monitoring warning device according to claims 1-2, wherein,
the temperature monitoring warning device is used for being placed at a monitoring point of a building and reporting monitoring information of the monitoring point to the background management device, wherein the monitoring information comprises position information and temperature information; when the temperature of the monitoring point is larger than a first threshold value, the temperature monitoring warning device sends a first warning signal, and the monitoring information also comprises first warning signal information, wherein the building is provided with a plurality of monitoring points, and each monitoring point is provided with one temperature monitoring warning device;
the background management device is used for receiving the monitoring information reported by the at least one temperature monitoring warning device, drawing a historical temperature information chart of each monitoring point of the building according to the monitoring information, simultaneously drawing temperature information three-dimensional charts of all monitoring points of the building, controlling the temperature monitoring warning device to send out a second warning signal when the existence of the fire hazard is determined according to the historical temperature information chart of each monitoring point and the temperature information three-dimensional charts of all monitoring points, and sending warning information and position information of the monitoring point where the fire source is located to the mobile terminal so that the mobile terminal can process the fire hazard.
4. The system of claim 3, wherein the background management device is further configured to:
when determining that no fire hazard exists according to the historical temperature information graphs of all the monitoring points and the temperature information stereo graphs of all the monitoring points, controlling the temperature monitoring warning device to remove the first warning signal;
and when whether fire hazard exists cannot be determined according to the historical temperature information charts of all the monitoring points and the temperature information stereo charts of all the monitoring points, sending prompt information to the mobile terminal.
5. The system according to claim 4, wherein the background management apparatus is specifically configured to:
according to the historical temperature information graphs of all the monitoring points and the temperature information stereo graphs of all the monitoring points, according to the temperature change curve of the monitoring points where the temperature monitoring warning devices sending out the first warning signal information are located, according to the change condition of the temperature of the monitoring points where the temperature monitoring warning devices around the temperature monitoring warning devices sending out the first warning signal information are located and according to the quantity change information of the temperature monitoring warning devices sending out the first warning signal information, whether fire hazard exists or not is judged;
and when the existence of the fire hazard is confirmed, controlling the temperature monitoring and warning device to send out a second warning signal, and sending out warning information and position information of a monitoring point where the fire source is located to the mobile terminal so that the mobile terminal can process the fire hazard.
6. The system according to claim 5, wherein the background management apparatus is specifically configured to:
when the existence of the fire hazard is confirmed, further judging the level of the fire hazard; the fire hazard is divided into a first-level fire hazard, a second-level fire hazard or a third-level fire hazard;
when the existence of the first-level fire hazard is confirmed, controlling all the temperature monitoring warning devices to send out second warning signals;
when the existence of secondary fire hidden danger is confirmed, controlling the temperature monitoring warning device which sends out the first warning signal information and the adjacent temperature monitoring warning device to send out a second warning signal;
and when the existence of three-level fire hazard is confirmed, controlling the temperature monitoring warning device which sends out the first warning signal information to send out a second warning signal.
7. The system of claim 6, wherein the background management device comprises: the system comprises a second communication module, a display module and a hidden danger determining module; wherein,
the second communication module is used for receiving monitoring information sent by the temperature monitoring and warning device; and/or the control information is used for sending the second warning signal to the temperature monitoring warning device when the existence of the fire hazard is determined, and sending warning information and position information of a monitoring point where a fire source is located to the mobile terminal so that the mobile terminal can process the fire hazard; and/or control information for sending the first warning signal to the temperature monitoring warning device when the fire hazard does not exist; and/or sending prompt information to the mobile terminal when whether the fire hazard exists cannot be determined;
the display module is used for drawing historical temperature information charts of all monitoring points of the building according to the monitoring information and drawing temperature information stereo charts of all monitoring points of the building at the same time;
the hidden danger determining module is configured to determine state information of the at least one temperature monitoring warning device according to the historical temperature information graphs of the monitoring points and the temperature information stereo graphs of all the monitoring points, where the state information includes: determining that a fire hazard exists, failing to determine whether a fire hazard exists, or determining that a fire hazard does not exist.
8. The system of claim 7, wherein the hidden danger determining module is specifically configured to: when the existence of the fire hidden danger is determined, dividing the fire hidden danger into a first-level fire hidden danger, a second-level fire hidden danger or a third-level fire hidden danger; wherein,
when the number of the temperature monitoring warning devices sending the first warning signals is less than N, the fire hazard is three-level fire hazard;
when the number of houses with fire hazard is more than M and less than S, the houses are secondary fire hazard;
when the number of houses with fire hazards is larger than or equal to S, the houses are first-level fire hazards;
n, M or S is a positive integer greater than or equal to 1 preset according to the distribution of the temperature monitoring warning devices in the building.
9. The system of claim 8, wherein the at least one temperature monitoring warning device is in communication with the background management device via a wireless Mesh network.
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