CN110779573A - Wisdom district thing networking data acquisition box - Google Patents

Abstract

The invention discloses an intelligent community internet of things data acquisition box, which comprises: the IBMS intelligent mansion management system used as a third-party platform also comprises a power supply and distribution monitoring module, an elevator state monitoring module, a water supply and drainage monitoring module, an air supply and exhaust monitoring module, a water accumulation monitoring module, a public lighting monitoring module, an intelligent well cover, an intelligent garbage can, an automatic irrigation monitoring module, a methane concentration monitoring module and a power supply and distribution monitoring module which are respectively connected with and communicated with the IBMS intelligent integrated management system of the third-party platform, the elevator state monitoring module, the water supply and drainage monitoring module, the air supply and exhaust monitoring module, the accumulated water monitoring module, the public lighting monitoring module, the intelligent well cover, the intelligent garbage can, the automatic irrigation monitoring module and the methane concentration monitoring module are communicated by adopting a power line carrier or/and LORA communication-based remote equipment interactive management method, and the third-party platform IBMS intelligent integrated management system is used for carrying out centralized management on data acquired by the submodules.

Description

Wisdom district thing networking data acquisition box

Technical Field

The invention belongs to the technical field of application of the Internet of things, and particularly relates to an intelligent community Internet of things technology.

Background

With the continuous increase of the scale of modern community construction and the types and the number of electromechanical equipment, the management and the operation of the important electromechanical equipment are highlighted, and the cost of the traditional BMS building control system mainly based on central air-conditioning control is too high, just like killing chickens with a bull knife; therefore, a product and a solution which are really suitable for the operation management of modern intelligent community building equipment are forced to be in the eyebrow!

The IBMS is a building integrated management system which is further realized with a communication network system and an information network system on the basis of the BAS. If BAS is said to be based on 3A integration, IBMS is yet another system integration that is built on top of 5A integration at a higher level. (commonly referred to as integrated construction) this type of integration generally consists of three parts: the system comprises an integrated monitoring platform with a Web function, a monitoring server and a protocol conversion gateway. And the system is a powerful development platform, can establish a relatively fixed and complex application system, and can be integrated with an enterprise resource planning system (ERP) to complete management and control integration work.

The inventor conducts a large amount of research, senses the real-time state of the building equipment through a wired sensor and a wireless sensor, collects real-time data, achieves the management functions of on-site early warning, alarming, emergency plan execution and the like, and uploads all collected data information to a third-party platform such as an IBMS intelligent integrated management system and the like. In order to reduce the system cost, the system uses the power line carrier and the Lora wireless communication technology as much as possible, meanwhile, the system does not need to be configured with expensive computers and application software of the traditional building control, but needs to have the functions of real-time data acquisition, uploading, storage and analysis, and simultaneously has the functions of local monitoring and control, and supports the short message packet sending function for important early warning and alarm information.

Disclosure of Invention

The present invention is directed to solving the above problems of the prior art. An intelligent community internet of things data acquisition box is provided. The technical scheme of the invention is as follows:

an wisdom district thing networking data acquisition case, it includes: the IBMS intelligent mansion management system used as a third-party platform also comprises a power supply and distribution monitoring module, an elevator state monitoring module, a water supply and drainage monitoring module, an air supply and exhaust monitoring module, a water accumulation monitoring module, a public lighting monitoring module, an intelligent well cover, an intelligent garbage can, an automatic irrigation monitoring module, a methane concentration monitoring module and a power supply and distribution monitoring module which are respectively connected with and communicated with the IBMS intelligent integrated management system of the third-party platform, the elevator state monitoring module, the water supply and drainage monitoring module, the air supply and exhaust monitoring module, the accumulated water monitoring module, the public illumination monitoring module, the intelligent well cover, the intelligent garbage bin, the automatic irrigation monitoring module and the methane concentration monitoring module are communicated by adopting a power line carrier or/and LORA communication-based remote equipment interactive management method, and the third-party platform IBMS intelligent integrated management system is used for carrying out centralized management on data acquired by the submodules;

the IBMS intelligent mansion management system comprises a data source layer, a data storage layer, a platform application layer, a mobile and WeChat terminal and an external access layer, wherein the data source layer, the data storage layer, the platform application layer, the mobile and WeChat terminal and the external access layer realize real-time uploading and downloading of information by adopting a mobile internet technology, and the data source layer comprises a BIM building model, a BIM structure model, a BIM electromechanical model, a GIS model, an equipment account and real-time dynamic data of the equipment; the data storage layer is used for transmitting the acquired equipment data to the source data layer, the BIM model is subjected to hanging connection processing by constructing ID and model mapping, and the processed data is stored in the BIM comprehensive database; the platform application layer comprises an operation and maintenance management platform and information output, the operation and maintenance management platform realizes the management of the whole operation and maintenance of the building, unique ID codes are established for all components of the BIM model, the ID codes are uniformly applied in all servers, databases, caches and message access logs, all real-time information and user instructions of the whole building are connected to the unique components corresponding to the BIM model through the unique ID codes, the interactive processing of dynamic data and the model is realized, the collected data are split into the ID data information according to formats and are sent to a large platform data center, the dynamic scheduling of resources and the automatic early warning of faults are realized through the real-time analysis processing of keywords, so that the unified management is carried out on the operation and maintenance platform, the stable, safe and intelligent operation of the building is realized, and the unified management of the building is realized, and the integrated management of IBMS, the space management, the fire protection management, the energy consumption management and the intelligent, Security management, equipment facility, property management and comprehensive function management;

the intelligent BA system provides interfaces to collect operation and detection parameters of various devices, and the fire-fighting linkage system provides operation states of a system host, fault alarm, working states of a fire alarm detector, detector addresses, position information and state data of related linkage equipment; the safety precaution system provides the state of an alarm point, the opening and closing of alarm equipment in each area and the fault alarm of an alarm line, and can generate report display data for alarm records;

the mobile and WeChat terminal is in butt joint with the platform application layer to realize the input and output of information, including notification, dynamic information, information inquiry, overhaul and maintenance, equipment inspection, daily management, early warning and reminding and a database, and the lightweight processing data of the mobile and WeChat terminal is in data synchronization with the platform application layer to realize the uploading and issuing of instructions; the comprehensive function management comprises system management, positioning and early warning functions and auxiliary function management, wherein the system management comprises user login, authority management, model operation, cross-system interaction linkage and database management; positioning and early warning functions including alarming, reminding, linkage of two-dimensional drawing or data information and a three-dimensional model; the auxiliary functions comprise a tool, a switching module, an alarming module, a reminding module and a project demonstration module;

the IBMS integrated management module extracts acquired data from an external access layer intelligent subsystem, links data information to corresponding components in a BIM model through unique ID codes, assigns values to variable data of each system and each component in the model, establishes the BIM model with attribute and dynamic data, enters a building model for roaming, checks attribute data and related data information, displays alarm, security, fire protection, energy consumption and equipment operation data information in a module main interface in a centralized mode, accurately positions related functional components in the model, and can check various data information from dimensions of big data collection, sub-systems and sub-floors through hierarchical arrangement.

Furthermore, the power supply and distribution monitoring system is used for monitoring main power supply parameters including voltage, current, electric power, reactive power and electric energy of a main loop of each power distribution room and transmitting the main power supply parameters to the Internet of things data acquisition system in a power carrier communication mode;

the elevator state monitoring system mainly monitors the running state, fault alarm and floor display of the elevator;

water supply and drainage monitoring system: the method mainly monitors the state of the water pump of the water collecting pit and the ultrahigh liquid level which are important in a community, and realizes the ultrahigh liquid level alarm function;

air supply and exhaust monitoring system: aiming at an underground garage of a community, arranging a carbon monoxide sensor in each fireproof subarea, and controlling an air supply and exhaust fan in the area in a linkage manner when the concentration of the carbon monoxide exceeds the standard;

ponding monitored control system: monitoring whether the elevator foundation pit has accumulated water in real time, and uploading accumulated water alarm information in real time;

public lighting monitored control system: the outdoor landscape lighting is monitored, and public lighting such as cell staircases and the like realizes an infrared detection or sound and light control function by strong current design;

intelligence well lid: the sensor is arranged below the well lid, and the states of the well lid are monitored, real-time alarming, automatic inspection and timely disposal are realized by adopting a Lora communication mode;

the intelligent garbage can: an intelligent detector based on a Lora wireless communication network is installed on the top of an original garbage can or a garbage cover, and whether the garbage can is full or not is sensed in real time;

automatic irrigation monitoring system: through intelligent sprinkling irrigation platform, adopt the Lora communication, real-time supervision soil humiture when the humiture reaches the system setting limit value, opens sprinkling irrigation equipment automatically and waters to can carry out sprinkling irrigation volume control according to longitude and latitude, season, plant species.

Further, the method for interactive management of remote devices based on LORA communication specifically includes the following steps: executing user operation, wherein the user operation is a management command and a transmission option input through a Web application program; executing cloud system server operation, when inputting management command and transmission option, sending the management command and transmission option to the gateway, and receiving abstract grouping of data; executing gateway operation, receiving request data input by a user from the cloud system server, transmitting the request data to the terminal node through Lora communication, decoding response data received from the terminal node, and transmitting the decoded response data to the cloud system server; and performing a terminal node operation that receives the management command and the transmission option from the gateway through the LORA communication, transmits the management command and the transmission option to the managed device, and stores corresponding response data from the managed device through the local cache control.

Further, the performing of the user operation may include transmitting the management command and the transmission option to the gateway when the user inputs the management command and the transmission option through the cloud system server; sending the received command from the gateway to the terminal node through LORA communication, receiving response data to the command, and sending the received response data to the cloud system server; when the transmission option is an option to receive a digest packet, the user requests desired data by inputting parameters of the digest packet receiving the received data.

Further, the gateway receives a management command and a transmission option input by a user through the cloud system server; transmitting the received management command and the received transmission option from the gateway to the terminal node through LORA communication; receiving response data from the terminal node and decoding the received response data; and transmitting the decoded data to the cloud system server.

Further, performing end node operations may include the end node receiving management commands and transmission options from the gateway via LORA communications; sending the received data to the managed equipment through serial communication, and controlling and storing corresponding response data through a local cache; and compressing and transmitting the stored response data by classifying the stored response data according to the transmission option.

The invention has the following advantages and beneficial effects:

according to the invention, IBMS and LORa communication are combined and applied to the intelligent building, a BIM-based large building property management platform is developed and applied, the Internet of things and cloud platform technology is utilized for construction, a BIM model in the design and construction stage is combined with a traditional property intelligent management platform, and a three-dimensional, intelligent and sensible property management platform is constructed. The system is applied to large-scale building property management, can be used as a standardized platform for different property management projects, and greatly improves the project management efficiency and the service level of property management enterprises.

The remote management can be realized through the method of interactive management of remote devices based on LORA communication.

Drawings

FIG. 1 is a schematic diagram of a data collection box of the smart cell Internet of things according to the preferred embodiment of the invention;

FIG. 2 is a front view of an Internet of things data collection box of an intelligent cell;

FIG. 3 is a side view of an intelligent community Internet of things data collection box;

fig. 4 is an interface diagram of the bottom of the data acquisition box of the internet of things of the smart cell.

Detailed Description

The technical solutions in the embodiments of the present invention will be described in detail and clearly with reference to the accompanying drawings. The described embodiments are only some of the embodiments of the present invention.

The technical scheme for solving the technical problems is as follows:

as shown in fig. 1-4, an intelligent community internet of things data collection box includes: the IBMS intelligent mansion management system used as a third-party platform also comprises a power supply and distribution monitoring module, an elevator state monitoring module, a water supply and drainage monitoring module, an air supply and exhaust monitoring module, a water accumulation monitoring module, a public lighting monitoring module, an intelligent well cover, an intelligent garbage can, an automatic irrigation monitoring module, a methane concentration monitoring module and a power supply and distribution monitoring module which are respectively connected with and communicated with the IBMS intelligent integrated management system of the third-party platform, the elevator state monitoring module, the water supply and drainage monitoring module, the air supply and exhaust monitoring module, the accumulated water monitoring module, the public illumination monitoring module, the intelligent well cover, the intelligent garbage bin, the automatic irrigation monitoring module and the methane concentration monitoring module are communicated by adopting a power line carrier or/and LORA communication-based remote equipment interactive management method, and the third-party platform IBMS intelligent integrated management system is used for carrying out centralized management on data acquired by the submodules;

the IBMS intelligent mansion management system comprises a data source layer, a data storage layer, a platform application layer, a mobile and WeChat terminal and an external access layer, wherein the data source layer, the data storage layer, the platform application layer, the mobile and WeChat terminal and the external access layer realize real-time uploading and downloading of information by adopting a mobile internet technology, and the data source layer comprises a BIM building model, a BIM structure model, a BIM electromechanical model, a GIS model, an equipment account and real-time dynamic data of the equipment; the data storage layer is used for transmitting the acquired equipment data to the source data layer, the BIM model is subjected to hanging connection processing by constructing ID and model mapping, and the processed data is stored in the BIM comprehensive database; the platform application layer comprises an operation and maintenance management platform and information output, the operation and maintenance management platform realizes the management of the whole operation and maintenance of the building, unique ID codes are established for all components of the BIM model, the ID codes are uniformly applied in all servers, databases, caches and message access logs, all real-time information and user instructions of the whole building are connected to the unique components corresponding to the BIM model through the unique ID codes, the interactive processing of dynamic data and the model is realized, the collected data are split into the ID data information according to formats and are sent to a large platform data center, the dynamic scheduling of resources and the automatic early warning of faults are realized through the real-time analysis processing of keywords, so that the unified management is carried out on the operation and maintenance platform, the stable, safe and intelligent operation of the building is realized, and the unified management of the building is realized, and the integrated management of IBMS, the space management, the fire protection management, the energy consumption management and the intelligent, Security management, equipment facility, property management and comprehensive function management;

the intelligent BA system provides interfaces to collect operation and detection parameters of various devices, and the fire-fighting linkage system provides operation states of a system host, fault alarm, working states of a fire alarm detector, detector addresses, position information and state data of related linkage equipment; the safety precaution system provides the state of an alarm point, the opening and closing of alarm equipment in each area and the fault alarm of an alarm line, and can generate report display data for alarm records;

the mobile and WeChat terminal is in butt joint with the platform application layer to realize the input and output of information, including notification, dynamic information, information inquiry, overhaul and maintenance, equipment inspection, daily management, early warning and reminding and a database, and the lightweight processing data of the mobile and WeChat terminal is in data synchronization with the platform application layer to realize the uploading and issuing of instructions; the comprehensive function management comprises system management, positioning and early warning functions and auxiliary function management, wherein the system management comprises user login, authority management, model operation, cross-system interaction linkage and database management; positioning and early warning functions including alarming, reminding, linkage of two-dimensional drawing or data information and a three-dimensional model; the auxiliary functions comprise a tool, a switching module, an alarming module, a reminding module and a project demonstration module;

the IBMS integrated management module extracts acquired data from an external access layer intelligent subsystem, links data information to corresponding components in a BIM model through unique ID codes, assigns values to variable data of each system and each component in the model, establishes the BIM model with attribute and dynamic data, enters a building model for roaming, checks attribute data and related data information, displays alarm, security, fire protection, energy consumption and equipment operation data information in a module main interface in a centralized mode, accurately positions related functional components in the model, and can check various data information from dimensions of big data collection, sub-systems and sub-floors through hierarchical arrangement.

Preferably, the following monitoring objects are included:

1. power supply and distribution monitoring system

The main power supply parameters such as voltage, current, electric power, reactive power and electric energy of a main loop of each power distribution room are monitored and transmitted to the Internet of things data acquisition system in a power carrier communication mode.

2. Elevator state monitoring system

The elevator monitoring adopts a power line carrier technology, the running state, the fault alarm and the floor display of the elevator are mainly monitored, and all data elevators are provided to the Internet of things data acquisition system in a communication mode. The power line carrier technology can effectively solve the problems of wide distribution of elevators in the residential area and difficult wiring construction.

3. Water supply and drainage monitoring system

The monitoring of main sump pump state monitoring, the super high liquid level to the district is important realizes super high liquid level alarming function to avoid the risk of district basement overflow.

4. Air supply and exhaust monitoring system

The underground garage aiming at the residential area is provided with a carbon monoxide sensor in each fireproof subarea, and when the concentration of carbon monoxide exceeds the standard, the air supply and exhaust fan in the area is controlled in a linkage manner, so that the environmental safety of the residential area is realized.

5. Accumulated water monitoring system

The water logging sensor is arranged in the elevator foundation pit of the community, whether the elevator foundation pit has accumulated water or not is monitored in real time, the accumulated water alarm information is uploaded in real time, and managers are reminded of timely handling the problem of the accumulated water in the elevator foundation pit so as to avoid endangering the equipment safety of the elevator.

6. Public lighting monitoring system

The design mainly aims at monitoring outdoor landscape lighting, and public lighting such as residential district staircases and the like realizes an infrared detection or sound and light control function through strong current design. Outdoor landscape lighting of a community is remotely monitored in a Lora wireless communication mode, a Lora data terminal and a field controller are arranged in a strong power box of a general terrace, the timing or degree-based control functions of park lighting, landscape lighting and water body lighting (a fountain, a pool and the like) are realized, and communication cables are not required to be laid, so that the construction difficulty and the construction cost are reduced.

7. Intelligent well lid

The system adopts the Lora communication mode through installing the sensor in well lid below, need not the wiring, realizes "district well lid" intelligence real-time supervision thing networking system's deployment fast. The functions of monitoring the well lid state (opening, displacement and inclination), giving an alarm in real time, automatically inspecting, timely disposing and the like are realized. The unified fortification, the unified dispatching and the unified management of the community well lid are realized. Providing the manhole cover state data for the material pipe, and thoroughly solving the problem that the current manhole cover management has trouble and cannot be processed in time!

8. Intelligent garbage can

Through the intelligent transformation of ordinary garbage bin, cover at the top of original garbage bin or rubbish and install and be based on Lora wireless communication network intelligent detector, realize whether real-time perception dustbin is full, and upload data to system monitoring platform in real time, through system real-time supervision result, intelligent allocation personnel and garbage truck carry out cleaing away and the transport of rubbish, provide decision-making commander's foundation for sanitation work, improve the ageing and the owner satisfaction of service, reduce function property intensity of labour.

9. Automatic irrigation monitoring system

The system passes through intelligent sprinkling irrigation platform, adopts the Lora communication, and real-time supervision soil humiture when the humiture reaches the system setting limit value, opens sprinkling irrigation equipment automatically and waters to can carry out sprinkling irrigation volume control according to longitude and latitude, season, plant species etc..

Preferably, the method for interactive management of remote devices based on LORA communication specifically includes the following steps: executing user operation, wherein the user operation is a management command and a transmission option input through a Web application program; executing cloud system server operation, when inputting management command and transmission option, sending the management command and transmission option to the gateway, and receiving abstract grouping of data; executing gateway operation, receiving request data input by a user from the cloud system server, transmitting the request data to the terminal node through Lora communication, decoding response data received from the terminal node, and transmitting the decoded response data to the cloud system server; and performing a terminal node operation that receives the management command and the transmission option from the gateway through the LORA communication, transmits the management command and the transmission option to the managed device, and stores corresponding response data from the managed device through the local cache control.

Preferably, the performing of the user operation may include transmitting the management command and the transmission option to the gateway when the user inputs the management command and the transmission option through the cloud system server; sending the received command from the gateway to the terminal node through LORA communication, receiving response data to the command, and sending the received response data to the cloud system server; when the transmission option is an option to receive a digest packet, the user requests desired data by inputting parameters of the digest packet receiving the received data.

Preferably, the gateway receives a management command and a transmission option input by a user through the cloud system server; transmitting the received management command and the received transmission option from the gateway to the terminal node through LORA communication; receiving response data from the terminal node and decoding the received response data; and transmitting the decoded data to the cloud system server.

Preferably, performing the end node operations may include the end node receiving management commands and transport options from the gateway via LORA communications; sending the received data to the managed equipment through serial communication, and controlling and storing corresponding response data through a local cache; and compressing and transmitting the stored response data by classifying the stored response data according to the transmission option.

The above examples are to be construed as merely illustrative and not limitative of the remainder of the disclosure. After reading the description of the invention, the skilled person can make various changes or modifications to the invention, and these equivalent changes and modifications also fall into the scope of the invention defined by the claims.

Claims (6)

1. The utility model provides an intelligence district thing networking data acquisition case which characterized in that includes: the IBMS intelligent mansion management system used as a third-party platform also comprises a power supply and distribution monitoring module, an elevator state monitoring module, a water supply and drainage monitoring module, an air supply and exhaust monitoring module, a water accumulation monitoring module, a public lighting monitoring module, an intelligent well cover, an intelligent garbage can, an automatic irrigation monitoring module, a methane concentration monitoring module and a power supply and distribution monitoring module which are respectively connected with and communicated with the IBMS intelligent integrated management system of the third-party platform, the elevator state monitoring module, the water supply and drainage monitoring module, the air supply and exhaust monitoring module, the accumulated water monitoring module, the public lighting monitoring module, the intelligent well cover, the intelligent garbage can, the automatic irrigation monitoring module and the methane concentration monitoring module are communicated by adopting a power line carrier and LORA communication-based remote equipment interactive management method, and a third-party platform IBMS intelligent integrated management system is used for carrying out centralized management on data acquired by the submodules;

the IBMS intelligent mansion management system comprises a data source layer, a data storage layer, a platform application layer, a mobile and WeChat terminal and an external access layer, wherein the data source layer, the data storage layer, the platform application layer, the mobile and WeChat terminal and the external access layer realize real-time uploading and downloading of information by adopting a mobile internet technology, and the data source layer comprises a BIM building model, a BIM structure model, a BIM electromechanical model, a GIS model, an equipment account and real-time dynamic data of the equipment; the data storage layer is used for transmitting the acquired equipment data to the source data layer, the BIM model is subjected to hanging connection processing by constructing ID and model mapping, and the processed data is stored in the BIM comprehensive database; the platform application layer comprises an operation and maintenance management platform and information output, the operation and maintenance management platform realizes the management of the whole operation and maintenance of the building, unique ID codes are established for all components of the BIM model, the ID codes are uniformly applied in all servers, databases, caches and message access logs, all real-time information and user instructions of the whole building are connected to the unique components corresponding to the BIM model through the unique ID codes, the interactive processing of dynamic data and the model is realized, the collected data are split into the ID data information according to formats and are sent to a large platform data center, the dynamic scheduling of resources and the automatic early warning of faults are realized through the real-time analysis processing of keywords, so that the unified management is carried out on the operation and maintenance platform, the stable, safe and intelligent operation of the building is realized, and the unified management of the building is realized, and the integrated management of IBMS, the space management, the fire protection management, the energy consumption management and the intelligent, Security management, equipment facility, property management and comprehensive function management;

the intelligent BA system provides interfaces to collect operation and detection parameters of various devices, and the fire-fighting linkage system provides operation states of a system host, fault alarm, working states of a fire alarm detector, detector addresses, position information and state data of related linkage equipment; the safety precaution system provides the state of an alarm point, the opening and closing of alarm equipment in each area and the fault alarm of an alarm line, and can generate report display data for alarm records;

the mobile and WeChat terminal is in butt joint with the platform application layer to realize the input and output of information, including notification, dynamic information, information inquiry, overhaul and maintenance, equipment inspection, daily management, early warning and reminding and a database, and the lightweight processing data of the mobile and WeChat terminal is in data synchronization with the platform application layer to realize the uploading and issuing of instructions; the comprehensive function management comprises system management, positioning and early warning functions and auxiliary function management, wherein the system management comprises user login, authority management, model operation, cross-system interaction linkage and database management; positioning and early warning functions including alarming, reminding, linkage of two-dimensional drawing or data information and a three-dimensional model; the auxiliary functions comprise a tool, a switching module, an alarming module, a reminding module and a project demonstration module;

the IBMS integrated management module extracts acquired data from an external access layer intelligent subsystem, links data information to corresponding components in a BIM model through unique ID codes, assigns values to variable data of each system and each component in the model, establishes the BIM model with attribute and dynamic data, enters a building model for roaming, checks attribute data and related data information, displays alarm, security, fire protection, energy consumption and equipment operation data information in a module main interface in a centralized mode, accurately positions related functional components in the model, and can check various data information from dimensions of big data collection, sub-systems and sub-floors through hierarchical arrangement.

2. The data acquisition box of the internet of things for the smart community as claimed in claim 1, wherein the power supply and distribution monitoring system is used for monitoring main power supply parameters including voltage, current, electric power, reactive power and electric energy of a main loop of each power distribution room and transmitting the main power supply parameters to the data acquisition box of the internet of things in a power carrier communication mode;

the elevator state monitoring system mainly monitors the running state, fault alarm and floor display of the elevator;

water supply and drainage monitoring system: the method mainly monitors the state of the water pump of the water collecting pit and the ultrahigh liquid level which are important in a community, and realizes the ultrahigh liquid level alarm function;

air supply and exhaust monitoring system: aiming at an underground garage of a community, arranging a carbon monoxide sensor in each fireproof subarea, and controlling an air supply and exhaust fan in the area in a linkage manner when the concentration of the carbon monoxide exceeds the standard;

ponding monitored control system: monitoring whether the elevator foundation pit has accumulated water in real time, and uploading accumulated water alarm information in real time;

public lighting monitored control system: the outdoor landscape lighting is monitored, and public lighting such as cell staircases and the like realizes an infrared detection or sound and light control function by strong current design;

intelligence well lid: the sensor is arranged below the well lid, and the states of the well lid are monitored, real-time alarming, automatic inspection and timely disposal are realized by adopting a Lora communication mode;

the intelligent garbage can: an intelligent detector based on a Lora wireless communication network is installed on the top of an original garbage can or a garbage cover, and whether the garbage can is full or not is sensed in real time;

automatic irrigation monitoring system: through intelligent sprinkling irrigation platform, adopt the Lora communication, real-time supervision soil humiture when the humiture reaches the system setting limit value, opens sprinkling irrigation equipment automatically and waters to can carry out sprinkling irrigation volume control according to longitude and latitude, season, plant species.

3. The smart community internet of things data collection box according to claim 1 or 2, wherein the method for interactive management of remote devices based on LORA communication comprises the following steps: executing user operation, wherein the user operation is a management command and a transmission option input through a Web application program; executing cloud system server operation, when inputting management command and transmission option, sending the management command and transmission option to the gateway, and receiving abstract grouping of data; executing gateway operation, receiving request data input by a user from the cloud system server, transmitting the request data to the terminal node through Lora communication, decoding response data received from the terminal node, and transmitting the decoded response data to the cloud system server; and performing a terminal node operation that receives the management command and the transmission option from the gateway through the LORA communication, transmits the management command and the transmission option to the managed device, and stores corresponding response data from the managed device through the local cache control.

4. The data acquisition box of the Internet of things of the smart cell of claim 3, wherein the execution of the user operation comprises the steps of transmitting the management command and the transmission option to the gateway when the user inputs the management command and the transmission option through the cloud system server; sending the received command from the gateway to the terminal node through LORA communication, receiving response data to the command, and sending the received response data to the cloud system server; when the transmission option is an option to receive a digest packet, the user requests desired data by inputting parameters of the digest packet receiving the received data.

5. The data acquisition box of the Internet of things of the smart cell of claim 3, wherein the gateway is operated by receiving a management command and a transmission option input by a user through a cloud system server; transmitting the received management command and the received transmission option from the gateway to the terminal node through LORA communication; receiving response data from the terminal node and decoding the received response data; and transmitting the decoded data to the cloud system server.

6. The data acquisition box of the intelligent community internet of things as claimed in claim 3, wherein the terminal node operation is executed by receiving a management command and a transmission option from the gateway through LORA communication; sending the received data to the managed equipment through serial communication, and controlling and storing corresponding response data through a local cache; and compressing and transmitting the stored response data by classifying the stored response data according to the transmission option.

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