CN217955212U - Environmental condition dynamic prediction system - Google Patents

Abstract

The utility model discloses an environmental aspect dynamic prediction system, include: the system comprises at least one group of environmental parameter detection components arranged on a field to be detected, wherein the field to be detected is divided into at least one area, each area in at least part of the areas of the field to be detected is respectively provided with at least one group of environmental parameter detection components, and the at least one group of environmental parameter detection components arranged in one area are only used for detecting the environmental parameter values of the area divided in the field to be detected; the first data processing module is in communication connection with the environmental parameter detection assembly and has a one-to-one correspondence relationship with the site to be detected; a second data processing module communicatively coupled to the at least one first data processing module. The utility model discloses according to waiting to detect the environmental parameter data in place, gather the arrangement to data to the user is given in the show, makes the user judge the current environmental aspect that waits to detect the place well, thereby can be with the harm control that the calamity caused at the minimum.

Description

Environmental condition dynamic prediction system

Technical Field

The utility model relates to an environmental monitoring early warning technical field especially relates to an environmental aspect dynamic prediction system.

Background

The existing environment monitoring and early warning technology mainly monitors the environment through a sensor, judges whether the current environment is dangerous or not, and sends out an alarm and informs a person to execute corresponding measures when the current environment is judged to be dangerous. The fire alarm system adopts the switch of the sensor as the basis for judging whether fire occurs, if the smoke sensor is used, the fire is judged to exist when the smoke concentration reaches the threshold value, and the fire is judged to not exist when the smoke concentration does not reach the threshold value. In the alarm system, the output result only has two types of output alarm or non-output alarm, the functionality is single, the threshold value of the sensor is determined to be fixed when the sensor is produced or installed, and cannot be modified, and whether disasters really occur is difficult to accurately judge on a variable actual detection site, the threshold value is designed to be too sensitive, smoke or fire is mistakenly reported when the fire is ignited, the design is insensitive, the fire is very big, the reliability is low, and the detection accuracy is low.

SUMMERY OF THE UTILITY MODEL

To the weak point of prior art, the utility model provides an environmental aspect dynamic prediction system. It can be according to the environmental parameter data that wait to detect the place, gathers the arrangement to data to show for the user, make the user can judge well whether waiting to detect the place at present and being in the calamity or will have the calamity to take place, thereby can be with the harm control that the calamity caused at the minimum.

According to an aspect of the present invention, there is provided a dynamic prediction system for environmental conditions, comprising

The system comprises at least one group of environmental parameter detection components arranged in a field to be detected, wherein the field to be detected is divided into at least one area, each area of at least part of the area to be detected is respectively provided with at least one group of environmental parameter detection components, and the at least one group of environmental parameter detection components arranged in one area are only used for detecting the environmental parameter values of the area divided in the field to be detected;

the first data processing module is in communication connection with the environmental parameter detection assembly, is an edge calculation device arranged on a field to be detected, and has a one-to-one correspondence relationship with the field to be detected;

and the second data processing module is in communication connection with the at least one first data processing module and is a server arranged at the cloud end.

The utility model discloses an environmental aspect dynamic prediction system provides a new system architecture, and it carries out area division and sets up environmental parameter determine module respectively with at least part region and treats the detection place and carry out the environmental monitoring of subregion in waiting to detect the place, acquires corresponding regional environmental parameter numerical value, simultaneously the utility model discloses a system still treats the place and sets up first data processing module as edge calculation device waiting to detect the place to set up second data processing module in the high in the clouds, collect the analysis with the corresponding regional environmental parameter numerical value that corresponds in treating the detection place locally, and then monitors the different environmental parameter numerical values of waiting to detect the place and uploading in the high in the clouds simultaneously, has not only realized accurate collection and collection to environmental parameter numerical value, but also makes each to wait to detect the environmental parameter numerical value of place based on real-time collection to analyze with the realization environmental dynamic prediction becomes possible. Furthermore, the utility model discloses a system is owing to wait to detect the place and carry out the subregion, the environmental parameter of multizone detects, the environmental parameter of collection is more various more meticulous, therefore can more accurately reflect the safety situation of environment, and the environmental parameter numerical value of subregion collection can pass through the dual processing of first data processing module and second data processing module, therefore the analysis computing power of system is stronger, and then it is higher to make the system acquire more accurate reliably based on the environmental parameter numerical value of the subregion of collection, more can reflect the concrete prediction result who waits to detect the security situation in each region in place, rather than just learn a switch variable result, therefore the value of utilization and the intellectuality of system are all higher, more can satisfy the different environmental monitoring demand of user, if can make the judgement to waiting to detect the abnormal situation in place according to the environmental parameter numerical value, in order to eliminate unusually before the calamity takes place, prevent the calamity to take place or enlarge.

In some embodiments, the first data processing module and the second data processing module and/or the environmental parameter detection component and the first data processing module are connected through a dual-channel communication module.

From this, can connect each data processing module and environmental parameter detection subassembly through the binary channels communication module to can guarantee the stability of communication, it can only use one of them passageway communication when using, and another passageway is reserve, also can use two passageway communications simultaneously, avoids appearing the communication problem.

In some embodiments, the dual-channel communication module between the environment parameter detection component and the first data processing module is implemented to include a first communication module and a second communication module, the first communication module is implemented by wireless communication, and the second communication module is implemented by a wired cable;

the first data processing module with binary channels communication module between the second data processing module realizes for including third communication module and fourth communication module, and third communication module passes through 4G 5G and realizes, and fourth communication module passes through optic fibre wifi.

Therefore, the communication module can be used as a dual-channel communication module in different wireless communication modes or in a wired and wireless communication mode, so that the stability of communication is ensured.

In some embodiments, the video camera further comprises a camera component bound with the environmental parameter detection component, the camera component is in communication connection with the first data processing module, and the video data of the corresponding area where the environmental parameter detection component bound with the camera component is located are synchronously output to the first data processing module.

Therefore, the actual conditions of each area divided by the site to be detected can be monitored in real time by additionally arranging the camera assembly bound with the environmental parameter detection assembly, and simultaneously, the recorded content of the camera assembly can be uploaded synchronously with the environmental parameter value acquired by the environmental parameter detection assembly, so that the time node for acquiring the environmental parameter value can be associated with the recorded video, the environmental parameter values corresponding to different time nodes and the recorded video content can be checked, better judgment on the safety condition of the site to be detected is facilitated, the abnormity is eliminated before the disaster occurs, and the disaster is prevented from occurring or expanding.

In some embodiments, the number of the camera modules is the same as the number of the environment parameter detection modules, and the camera modules are bound to the environment parameter detection modules one by one.

In some embodiments, the environmental parameter detecting assembly includes at least one type of environmental parameter detector connected to the first data processing module, the same type of environmental parameter detector is used for detecting the same type of environmental parameter value, the number of the camera modules is the same as the number of the types of the environmental parameter detectors in the environmental parameter detecting assembly, and each camera module is bound to all the environmental parameter detectors of the corresponding type.

In some embodiments, the environment parameter detecting assembly comprises at least one environment parameter detector connected with the first data processing module, and the number of the camera assemblies is the same as that of the environment parameter detectors and is one-to-one bound with the environment parameter detectors.

In some embodiments, the system further comprises an alarm module connected with the first data processing module, wherein the alarm module can output at least two different signals based on the change of the control signal output by the first data processing module.

Therefore, the user can be reminded by sending two signals for early warning and alarming when the data is abnormal, so that the user can check the site to be detected according to the signals, or withdraw or emergently process the site when the data is abnormal.

In some embodiments, the emergency treatment device is connected with the first data processing module, and the emergency treatment device is started when the first data processing module controls the alarm module to send out the second signal.

Therefore, the emergency treatment component can be arranged to automatically start aiming at the condition of overlarge abnormity, so that the disaster can be rescued at the first time.

In some embodiments, the emergency button is used for starting the emergency processing component, and the emergency button is connected with the first data processing module and/or the second data processing module.

Thus, the emergency treatment assembly can be manually started through the emergency button to perform manual control when the user thinks it is necessary, so as to prevent further expansion of the disaster.

Drawings

Fig. 1 is a schematic block diagram of an environmental condition dynamic prediction system according to an embodiment of the present invention;

fig. 2 is a schematic block diagram of a dynamic environmental condition prediction system according to another embodiment of the present invention;

fig. 3 is a schematic block diagram of a dynamic environmental condition prediction system according to another embodiment of the present invention;

fig. 4 is a schematic block diagram of an environmental condition dynamic prediction system according to still another embodiment of the present invention.

Description of reference numerals: 1. an environmental parameter detection component; 2. a first data processing module; 3. a second data processing module; 4. a camera assembly; 5. an alarm module; 6. an emergency processing module; 7. and (4) emergency key pressing.

Detailed Description

To make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the attached drawings in the embodiments of the present invention are combined to clearly and completely describe the technical solution in the embodiments of the present invention, and obviously, the described embodiments are part of the embodiments of the present invention, rather than all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

It is further noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Furthermore, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising 8230; \8230;" comprises 8230; "does not exclude the presence of additional like elements in a process, method, article, or apparatus that comprises the element.

Fig. 1 schematically shows a schematic block diagram of an environmental condition dynamic prediction system according to an embodiment of the present invention, and referring to fig. 1, the environmental condition dynamic prediction system includes:

the field to be detected is divided into at least one area, each area of at least part of the areas of the field to be detected is respectively provided with at least one group of the environment parameter detection assemblies 1, and the at least one group of the environment parameter detection assemblies 1 arranged in one area are only used for detecting the environment parameter values of the area divided in the field to be detected.

The first data processing module 2 is in communication connection with the environmental parameter detection assembly 1, and the first data processing module 2 is an edge computing device arranged on a field to be detected and has a one-to-one correspondence relationship with the field to be detected;

and the second data processing module 3 is in communication connection with the at least one first data processing module 2, and the second data processing module 3 is a server arranged in the cloud.

The environmental parameters include temperature, smoke concentration, gas concentration and the like, which are generally used for representing one or more parameters related to environmental conditions and can be directly detected in a field to be detected. Correspondingly, the environment parameter detecting assembly 1 may include at least one or one environment parameter detector, and one environment parameter detector is an environment parameter detector including at least one environment parameter for detecting the same type of environment parameter, corresponding to the environment parameter to be detected. Taking the environmental parameters to be detected including the temperature environmental parameter, the gas concentration environmental parameter and the smoke concentration environmental parameter as an example, the environmental parameter detectors for detecting the temperature environmental parameter are all the same environmental parameter detector, which may include at least one temperature detection probe and/or at least one infrared thermal imaging module; the environmental parameter detectors for detecting the environmental parameters of the gas concentration are also the same environmental parameter detector, which may comprise at least one CO ₂ Concentration detection probe and/or at least one O ₂ A concentration detection probe and the like; the environmental parameter detectors for detecting the environmental parameters of the smoke concentration are also the same environmental parameter detector, and may include a PM2.5 concentration detector and/or a PM10 concentration detector, etc., that is, three environmental parameter detectors with the same number as the environmental parameters to be detected are included, and each environmental parameter detector has at least one environmental parameter detector. It should be noted that the environmental parameter detector of the present invention is not the same as the sensor, and is not a sensor for detecting whether the corresponding data exceeds the threshold value, but a detector for detecting a specific value.

Referring to fig. 2, preferably, the environmental parameter detector can be connected with first data processing module 2 through the heartbeat mechanism, thereby can realize automatic connection or disconnection environmental parameter detector and the first data processing module 2 between being connected through the heartbeat mechanism, when certain some environmental parameter detector broke down, can reject automatically, avoid appearing uploading the condition such as error message, the data that lead to gathering are inaccurate, the influence is treated the judgement of the actual conditions in detection place, can also remind maintainer in time to change the processing simultaneously, avoid influencing the collection of data. Specifically, the heartbeat mechanism may be used in combination with the judgment of the relationship between the service life of the environmental parameter detector and the preset service life, the judgment of the service working environment of the environmental parameter detector, and the like, when some of the above judgment conditions are not satisfied with the normal condition, the communication connection of the corresponding environmental parameter detector is disconnected, the uploading of the environmental parameter value acquired by the corresponding environmental parameter detector is stopped, the situation that the uploaded data is problematic data and influences the judgment of the environmental condition is avoided, and meanwhile, a reminding message may be set to notify a maintenance person to replace the corresponding environmental parameter detector. A watchdog can be connected between the environment parameter detector and the first data processing module 2, the watchdog is a means for monitoring the operation state of the system, and the monitoring of the operation state of the system is realized by combining software and hardware. And the stably running software can perform dog feeding after executing a specific instruction, and if the watchdog does not receive a dog feeding signal from the software within a certain period, the system is considered to be in fault, and an interrupt processing program is entered or the system is forced to reset. The watchdog is arranged, so that the condition that the data volume of the environment parameter detector is too large to cause crash can be prevented, the stability of the whole system is improved, boundary judgment can be performed on the data collected by the environment parameter detector, a plurality of sensors are verified in a cross mode and an election method, and sensors with unpaired data need to be screened and give an alarm.

The site to be detected is a site to be detected for environmental conditions, such as a warehouse, a house and the like, and at least one region area is divided in the site to be detected, which is understood to be that the site to be detected for environmental conditions is divided into a plurality of different actual regions, the division basis during the division can be parameter division according to the size of the marked region such as length, area and the like, such as rectangular regions with equal distance and equal size, and the division basis can also be area division according to each partition with different purposes in the site to be detected, such as areas such as a combustible storage area, a working area and the like, and the division basis can also or can be a position of special interest in the site to be detected, such as an easily-ignited point or an easily-gas leakage point and the like. After a field to be detected is divided, the plurality of environmental parameter detection assemblies 1 are matched with a plurality of areas divided from the field to be detected in a one-to-one correspondence manner to form a matching relationship so as to detect the divided areas. The areas divided in the field to be detected do not need to be detected completely, some positions which are not abnormal can be ignored, but the environment parameter detection component 1 corresponding to each divided area is preferably arranged for carrying out corresponding detection so as to ensure the integrity and accuracy of the detection of the field to be detected. Through carrying out regional division in waiting to detect the place, the environmental parameter detection subassembly 1 that combines to set up in at least partial region carries out the environmental monitoring of subregion to treating the place that detects, can obtain the environmental parameter numerical value in corresponding region.

The first data processing module 2 mainly has the functions of acquiring environmental parameter values detected by the environmental parameter detecting module 1, sorting and processing the environmental parameter values to form more visual data embodiment, wherein the processing described herein can directly upload the acquired environmental parameter values to the second data processing module 3 for output display, or can further process the acquired environmental parameter values to form more visual safety parameters for representing the safety condition of the field to be detected, and then upload the parameters to the second data processing module 3 for output display, for example, according to the temperature parameters detected by the temperature detecting probe or the infrared thermal imaging module in the environmental parameter detecting module 1, and combine the data detected by a plurality of sets of environmental parameter detecting modules 1 to form visual maximum temperature of the field to be detected and the number of areas reaching the ignition point temperature in the field to be detected, so that a worker can more effectively and intuitively judge the environmental conditions in the field to be detected. The first data processing module 2 is specifically arranged near the field to be detected, and is in one-to-one correspondence with the field to be detected, that is, each field to be detected is correspondingly provided with one data processing module 2. It can be understood, the utility model discloses a system does not only detect the place to one and detects, also can detect a plurality of places of waiting to detect simultaneously, and each waits that the environmental parameter that the place will detect is probably all different in each, therefore need wait to detect the place to dispose the corresponding environmental parameter determine module to each difference, wait to detect the place to dispose first data processing module 2 to each difference to can reach and detect a plurality of effects of waiting the environmental aspect in place, effectively improve the utility model discloses an suitability.

The second data processing module 3 mainly functions to acquire the data uploaded by the first data processing module 2 for storage and output display. Wherein, the storage for the second data processing module 3 can collect the parameter data of each different time node of the place of waiting to detect, thereby can treat the judgment precision of the environmental aspect of the place of detecting through modes such as comparison, study. The output display can be implemented by directly outputting the data in a numerical mode on a medium which can be displayed by a computer, a mobile phone, a WeChat applet and the like, and also can be implemented by optimizing and outputting the output mode of the data, for example, outputting the data in a dynamic radar map mode, so that a worker can more effectively and intuitively judge the current environmental condition in the field to be detected. Different with first data processing module 2, because first data processing module 2 sets up the marginal calculating device who waits to detect near the place, and second data processing module 3 sets up in the server in high in the clouds, therefore need not to set up with waiting to detect the place one-to-one, can only set up one to all first data processing module 2 all are connected with second data processing module 3, in order to receive all data that wait to detect the place and save and output the show.

For example, the first data processing module 2 may be a smart edge computing server, and the second data processing module 3 may be a cloud server cluster or a cloud server cluster. First data processing module 2 sets up and waits to detect the place in the correspondence to treat the data that detect the place and carry out special processing, wait to detect the place and dispose different at least one first data processing module 2 promptly, all first data processing modules 2 all are connected with second data processing module 3, in order to save and export the show to the data that each first data processing module 2 uploaded in second data processing module 3. Most of data processing can be completed locally through the intelligent edge computing server, so that the processing pressure of the second data processing module 3 is effectively reduced. Through set up as the first data processing module 2 of marginal calculation server and set up the high in the clouds server at the place of waiting to detect as second data processing module 3, not only realized the accurate collection and the collection to the environmental parameter numerical value, but also make each to wait to detect the environmental parameter numerical value of place based on real-time collection carry out the analysis in order to realize the environmental dynamic prediction and become possible. Meanwhile, the acquired environmental parameter values can be processed through the first data processing module 2 and the second data processing module 3, so that the system is higher in analysis and calculation capacity and stability, and has higher utilization value and intelligence.

Referring to fig. 3, in some embodiments, the first data processing module 2 and the second data processing module 3, and the environmental parameter detecting assembly 1 and the first data processing module 2 are connected through a dual-channel communication module. Specifically, two communication modules in the two-channel communication module can be realized to be selected from the combination of any two in 4G/5G, optic fibre wifi, radio communication, wired cable etc to connect each data processing module and environmental parameter detection subassembly 1 through the two-channel communication module, with the stability that can guarantee to communicate, it can only use one of them passageway communication when using, and another passageway is as reserve, also can use two passageway communications simultaneously, avoids appearing communication problem. Exemplarily, two-channel data transmission CAN be carried out between the environmental parameter detection assembly 1 and the first data processing module 2 by simultaneously setting the first communication module and the second communication module, wherein the communication channel corresponding to the first communication module CAN be set as a wireless communication link, the communication channel corresponding to the second communication module CAN be set as a wired cable, the wireless communication link CAN be a communication mode such as lora, BLE or wifi, and the wired cable CAN be a communication mode such as RS485, CAN or MODBUS. The first data processing module 2 and the second data processing module 3 can perform two-channel data transmission by simultaneously arranging a third communication module and a fourth communication module, wherein a communication channel corresponding to the third communication module can be realized by a wireless data communication channel, such as a 4G/5G wireless communication channel; the communication channel corresponding to the fourth communication module can be realized through an optical fiber or a wifi communication link for surfing the internet by using the optical fiber. In specific implementation, according to requirements, the communication channel corresponding to the first communication module and the communication channel corresponding to the second communication module can be set to work simultaneously or can be mutually standby, so that communication guarantee is ensured. The communication channel corresponding to the third communication module and the communication channel corresponding to the fourth communication module can also be set to work simultaneously or be mutually standby, so that the communication guarantee is ensured.

Referring to fig. 4, in some embodiments, a camera component 4 may be further included, the camera component 4 is in communication connection with the first data processing module 2, and the camera component 4 is bound to the environmental parameter detection component 1, so that video data of a corresponding area synchronized with the bound environmental parameter detection component 1 can be output to the first data processing module 2. Specifically, the number of the camera assemblies 4 may be the same as the number of the environmental parameter detection assemblies 1, and at this time, the camera assemblies 4 are bound with the environmental parameter detection assemblies 1 one by one; the number of the camera assemblies 4 can also be the same as the number of the types of the environment parameter detectors in the environment parameter detection assembly 1, that is, the number of the types of the environment parameters to be detected, and at this time, the camera assemblies 4 are bound with all the environment parameter detectors of the corresponding types; the camera assembly 4 may also be the same as the environmental parameter detectors in the environmental parameter detection assembly 1, and at this time, the camera assembly 4 is bound with the environmental parameter detectors one by one. The camera component 4 can be a camera, the camera component 4 can associate the acquired environmental parameter values with the recorded video contents by recording the video data of the area corresponding to the environmental parameter detection component 1 and synchronously uploading the video data to the first data processing module 2, so that the environmental parameter values corresponding to different time nodes and the recorded video contents can be checked, the video data is further judged while the change of the environmental parameter values is monitored, so that a user can determine the site conditions of the position where the environmental parameter detection component 1 corresponding to the corresponding environmental parameter values is located, the user can make more accurate judgment on the safety condition of a site to be detected without personally observing and judging the corresponding position, the abnormity is eliminated before the disaster occurs, and the disaster is prevented from occurring or expanding. Meanwhile, the cause and the specific time of the disaster can be deduced through the time corresponding to the video data, and judgment and design of rescue personnel on the disaster site after the disaster occurs are facilitated.

With continued reference to fig. 4, in some embodiments, an alarm module 5 may be further included, and the alarm module 5 is connected to the second data processing module 3. The alarm module 5 can be used for sending two different signals, namely, a first signal and a second signal, so that the first signal is used for representing the early warning signal, and the second signal is used for representing the alarm signal, so that the user can be reminded in a grading manner. Specifically, the alarm module 5 may be an audible and visual alarm capable of emitting two signals, i.e., a first signal and a second signal, or another alarm device capable of emitting at least two signals that change simultaneously according to the indication of the second data processing module 3. Therefore, the system provided by the embodiment of the invention can not only alarm and remind when a problem occurs, but also early-warning and reminding in advance as required, so that the reminding effectiveness can be ensured when an early-warning signal or an alarm signal is sent out, and the potential safety hazard caused by the fact that a user does not find out a disaster is avoided. The first signal and the second signal emitted by the alarm module 5 may vary in frequency, tone, brightness, sound level and/or color based on the magnitude or variation range of the environmental parameter value output by the environmental parameter detection component 1 received by the first data processing module 2. It should be noted that the early warning signal may be used to indicate that the environmental parameter value or the data change amplitude reflected by the environmental parameter value in the current site to be detected is abnormal compared with the environmental parameter value or the data change amplitude reflected by the environmental parameter value in the safety time, but the abnormality is not a situation that a disaster is determined to occur, but a disaster situation may occur, so that the early warning signal is sent to remind the user to check the actual situation of the corresponding position in time, and then corresponding measures are taken; the alarm signal may be used to indicate that the environmental parameter value or the data change amplitude reflected by the environmental parameter value in the current site to be detected is significantly abnormal compared with the environmental parameter value or the data change amplitude reflected by the environmental parameter value during safety, which may be a disaster, so that the alarm signal is sent to remind the user to take corresponding measures, such as saving or escaping, immediately to ensure the life safety of the user.

Continuing to refer to fig. 4, correspondingly, an emergency processing component connected to the first data processing module 2 may be further provided to immediately perform a rescue measure at the time of emergency, where the time of emergency may be when an alarm signal is sent, and since the situation of a disaster may be generally the case when the alarm signal is sent, the corresponding rescue measure needs to be immediately performed, and correspondingly, the emergency processing component may be configured to perform different devices required for the rescue measure, and the disaster may be a fire and a gas leak, for example, the remedial measure may be to release a fire extinguishing bomb (for a fire) or open a door and window (for a gas leak), and accordingly, at this time, the emergency processing component may include a fire extinguishing bomb, an intelligent door lock, and the like, which are connected to the first data processing module 2 and can be controlled by the first data processing module 2, and thus, when it is determined that one of the disasters may have occurred, the corresponding emergency processing component may be automatically started to perform the corresponding emergency processing rescue measure.

Continuing to refer to fig. 4, correspondingly, an emergency button 7 for starting the emergency processing component to take emergency measures may also be provided, and the emergency button 7 is mainly set to manually start the emergency processing component when the user receives the warning prompt and determines that the emergency measures need to be taken to prevent the occurrence of a disaster. Specifically, the emergency button 7 can be connected with the first data processing module 2, and also can be connected with the second data module, so that the personnel who wait to detect the place or the monitoring personnel at the second data processing module 3 press down, when pressing the emergency button 7, control the emergency processing component through the first data processing module 2 or the second data processing module 3 and start, the emergency button 7 also can directly be connected with the emergency processing component, so that the emergency processing component can be directly started, and the emergency button 7 can be the button of entity, also can be for the trigger control (like the icon control) that triggers (like through clicking) on portable equipment such as cell-phone, it all can realize the functional effect of response.

The utility model discloses an environmental aspect dynamic prediction system provides a new system architecture, it carries out area division and sets up environmental parameter detecting component 1 respectively with at least part region and treats the detection place and carry out the environmental monitoring of subregion in waiting to detect the place, acquires the environmental parameter numerical value of corresponding region, simultaneously the utility model discloses a system is still waiting to detect the place and sets up first data processing module 2 as marginal calculating device to set up second data processing module 3 at the high in the clouds, with treat the environmental parameter numerical value that the corresponding region in the detection place corresponds at local and gather the analysis, and then wait to detect the environmental parameter numerical value that the place was uploaded to monitor to the difference at the high in the clouds simultaneously, has not only realized the accurate collection and the collection to environmental parameter numerical value, but also makes each environmental parameter numerical value of waiting to detect the place based on real-time collection carry out the analysis and make with realization environmental dynamic prediction become possible. Furthermore, the utility model discloses a system is owing to wait to detect the place and carry out the subregion, the environmental parameter of multizone detects, the environmental parameter of collection is more various more meticulous, therefore can more accurately reflect the safety situation of environment, and the environmental parameter numerical value of subregion collection can pass through the dual processing of first data processing module 2 and second data processing module 3, therefore the analysis computing power of system is stronger, and stability is higher, and then also make the system obtain more accurate reliable based on the environmental parameter numerical value of the subregion of collection, more can reflect the concrete prediction result of waiting to detect the security situation in each region in place, but not only learn a switch variable result, therefore the value of utilization and the intelligence of system are all higher, more can satisfy the different environmental monitoring demand of user, if can make the judgement to waiting to detect the abnormal situation in place according to the environmental parameter numerical value, in order to eliminate unusually before the calamity takes place, prevent the calamity to take place or enlarge.

The utility model discloses except can being applied to foretell fire early warning scene, can also select different relevant safety parameter according to different application environment, use the AI technique to carry out analysis and study to a large amount of data that obtain, carry out the early warning and deal with the harm that probably exists. Specifically, the utility model discloses an environmental aspect dynamic prediction system can be applicable to different grade type conflagration early warning, weather disaster early warning, easily fires explosive dust and toxic gas early warning, the unusual early warning of electrical equipment, river basin and reservoir dam early warning, city underground space early warning, the inside place early warning of building and so on.

What has been described above is merely some embodiments of the present invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (10)

1. An environmental condition dynamic prediction system, comprising:

the system comprises at least one group of environmental parameter detection components (1) arranged on a field to be detected, wherein the field to be detected is divided into at least one area, each area in at least part of the areas of the field to be detected is respectively provided with at least one group of environmental parameter detection components (1), and the at least one group of environmental parameter detection components (1) arranged in one area are only used for detecting the environmental parameter values of the area divided in the field to be detected;

the first data processing module (2) is in communication connection with the environmental parameter detection assembly (1), and the first data processing module (2) is an edge computing device arranged on the site to be detected and has a one-to-one correspondence relationship with the site to be detected;

and the second data processing module (3) is in communication connection with the at least one first data processing module (2), and the second data processing module (3) is a server arranged at the cloud end.

2. The dynamic prediction system of environmental conditions according to claim 1, characterized in that the connection between the first data processing module (2) and the second data processing module (3) and/or between the environmental parameter detection component (1) and the first data processing module (2) is via a dual channel communication module.

3. The environmental condition dynamic prediction system according to claim 2, characterized in that the two-channel communication module between the environmental parameter detection component (1) and the first data processing module (2) is implemented to include a first communication module and a second communication module, the first communication module is implemented by wireless communication, and the second communication module is implemented by wired cable;

first data processing module (2) with binary channels communication module between second data processing module (3) realizes for including third communication module and fourth communication module, and third communication module passes through 4G 5G and realizes that fourth communication module passes through optic fibre wifi.

4. The environmental condition dynamic prediction system according to claim 1, further comprising a camera component (4) bound to the environmental parameter detection component (1), wherein the camera component (4) is communicatively connected to the first data processing module (2), and synchronously outputs video data of a corresponding area where the environmental parameter detection component (1) bound to the first data processing module (2) is located.

5. The environmental condition dynamic prediction system according to claim 4, characterized in that the number of the camera modules (4) is the same as the number of the environmental parameter detection modules (1) and is one-to-one bound with the environmental parameter detection modules (1).

6. The environmental condition dynamic prediction system according to claim 4, characterized in that the environmental parameter detecting assembly (1) includes at least one environmental parameter detector connected to the first data processing module (2), the same kind of environmental parameter detector is used for detecting the same kind of environmental parameter value, the number of the camera assemblies (4) is the same as the number of the kinds of environmental parameter detectors in the environmental parameter detecting assembly (1), and each camera assembly (4) is respectively bound with all the corresponding kinds of environmental parameter detectors.

7. The environmental condition dynamic prediction system according to claim 4, characterized in that the environmental parameter detection component comprises at least one environmental parameter detector connected to the first data processing module, and the number of the camera components (4) is the same as the number of the environmental parameter detectors and is one-to-one bound with the environmental parameter detectors.

8. The dynamic prediction system of environmental conditions according to claim 1, characterized in that it further comprises an alarm module (5) connected to the first data processing module (2), said alarm module (5) being able to output at least two different signals based on the variation of the control signal output by the first data processing module (2).

9. The dynamic prediction system of environmental conditions according to claim 8, characterized in that it further comprises an emergency treatment assembly connected to the first data processing module (2), said emergency treatment assembly being activated when the first data processing module (2) controls said alarm module (5) to emit the second signal.

10. The dynamic environmental condition prediction system according to claim 9, further comprising an emergency button (7) for activating said emergency processing component, said emergency button (7) being connected to said first data processing module (2) and/or said second data processing module (3).

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