CN116489187A - Method and device for acquiring data of sensor of Internet of things - Google Patents
Method and device for acquiring data of sensor of Internet of things Download PDFInfo
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- CN116489187A CN116489187A CN202310364880.XA CN202310364880A CN116489187A CN 116489187 A CN116489187 A CN 116489187A CN 202310364880 A CN202310364880 A CN 202310364880A CN 116489187 A CN116489187 A CN 116489187A
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- 238000012545 processing Methods 0.000 claims description 75
- 238000010276 construction Methods 0.000 claims description 38
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- 238000004891 communication Methods 0.000 claims description 34
- 230000005540 biological transmission Effects 0.000 claims description 30
- 230000005856 abnormality Effects 0.000 claims description 21
- 238000011161 development Methods 0.000 claims description 20
- 230000002159 abnormal effect Effects 0.000 claims description 19
- 238000003384 imaging method Methods 0.000 claims description 19
- 230000000007 visual effect Effects 0.000 claims description 15
- 238000009434 installation Methods 0.000 claims description 11
- 230000007175 bidirectional communication Effects 0.000 claims description 8
- 238000005265 energy consumption Methods 0.000 claims description 6
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/01—Protocols
- H04L67/12—Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks
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- G—PHYSICS
- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16Y—INFORMATION AND COMMUNICATION TECHNOLOGY SPECIALLY ADAPTED FOR THE INTERNET OF THINGS [IoT]
- G16Y40/00—IoT characterised by the purpose of the information processing
- G16Y40/50—Safety; Security of things, users, data or systems
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L41/00—Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
- H04L41/06—Management of faults, events, alarms or notifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L63/00—Network architectures or network communication protocols for network security
- H04L63/08—Network architectures or network communication protocols for network security for authentication of entities
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- H—ELECTRICITY
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- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
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- H04L67/10—Protocols in which an application is distributed across nodes in the network
- H04L67/1095—Replication or mirroring of data, e.g. scheduling or transport for data synchronisation between network nodes
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/14—Session management
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- H—ELECTRICITY
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Abstract
The invention discloses a method and a device for acquiring sensor data of the Internet of things, which relate to the technical field of data acquisition, and generate a sensor data acquisition device, wherein the sensor data acquisition device is arranged for comprehensively acquiring information data of actual distribution positions and virtual distribution positions through a sensor and an inductor.
Description
Technical Field
The invention relates to the technical field of data acquisition, in particular to a method and a device for acquiring data of an Internet of things sensor.
Background
The definition of the Internet of things is as follows: through information sensing equipment such as radio frequency identification, an infrared sensor, a global positioning system, a laser scanner and the like, any article is connected with the Internet according to a stipulated protocol to exchange information and communicate, so that a network for realizing intelligent identification, positioning, tracking, monitoring and management needs to collect and process various data.
In the prior art, the existing data acquisition mode cannot perform corresponding processing aiming at different scenes, the existing data acquisition mode has more risks, effective self-processing cannot be performed when abnormal conditions occur, unnecessary loss is caused, each link cannot be conveniently monitored, and the overall intelligent management level is poor.
Disclosure of Invention
The invention aims to solve the problems and provide a method and a device for acquiring data of an Internet of things sensor, which solve the problems that the existing data acquisition mode in the background art cannot be used for carrying out corresponding processing aiming at different scenes, the risk is more, effective self-processing cannot be carried out when abnormal conditions occur, unnecessary loss is caused, each link cannot be conveniently monitored, and the whole intelligent management level is poor.
In order to solve the problems, the invention provides a technical scheme that:
a method for acquiring data of an Internet of things sensor comprises the following specific steps:
s1, generating a sensor data acquisition device, and comprehensively acquiring information data of actual distribution positions and virtual distribution positions through sensors and inductors;
s2, carrying out preliminary processing on the collected original data, generating a temporary server, synchronously outputting the temporary server to the inside of the temporary server, and carrying out exception handling on the abnormal conditions;
s3, receiving the information data subjected to preliminary processing for imaging, and simultaneously conveying the imaging data into an Internet of things construction platform through forms of tables, charts and characters for storage, and correspondingly authenticating personnel information applied for access;
and S4, carrying out time and data backup on the transmitted storage data, and simultaneously carrying out comprehensive management, and carrying out development management on normal connection and normal distribution of the field installation equipment and the device.
Preferably, the integrated management in step S4 includes overall management of each unit, module operation status distribution position.
Preferably, the step S2 includes the following specific steps when performing exception handling:
when the abnormal processing module is connected with the device and is not authenticated due to overtime, the temporary server can disconnect the connection;
when the abnormality processing module is connected with the device and does not send data when the device is overtime, the temporary server can disconnect the connection of the device;
when the abnormality processing module is connected with the device and the same connection is found, the temporary server can disconnect the original connection and perform early warning processing.
Preferably, the sensor in the step S1 includes a wireless temperature sensor, an infrared motion sensor, a wireless light sensor, and a wireless repeater.
Preferably, the sensor in the step S1 includes a position sensor, a gas sensor, a biological sensor, a digital sensor, and an energy consumption sensor.
Preferably, the device comprises information sensing and collecting equipment, an information collecting and conveying unit, an information collecting and managing unit and an Internet of things construction platform, wherein the output end of the information sensing and collecting equipment is in communication connection with the input end of the information collecting and conveying unit, the output end of the information collecting and conveying unit is in communication connection with the input end of the information collecting and managing unit, and the information collecting and managing unit is in two-way communication connection with the Internet of things construction platform.
Preferably, the information sensing and collecting device comprises a sensor collecting module, a positioning data module and an inductor module, wherein the output ends of the sensor collecting module and the inductor module are both in communication connection with the input end of the information collecting and conveying unit, and the positioning data module is in bidirectional communication connection with the information sensing and collecting device;
the sensor acquisition module is used for receiving information data sent by sensors with different actual geographic positions and different categories, and the sensor acquisition module is also used for sending the received information data into the information acquisition and conveying unit for conveying;
the positioning data module is used for monitoring the initial source and the distribution position of the information data in the information sensing acquisition equipment;
the sensor module is used for receiving information data sent by sensors with different virtual positions and different types, and the sensor module is also used for sending the received information data to the inside of the information acquisition and conveying unit for conveying.
Preferably, the information collection and transmission unit comprises an information collection and transmission module, an abnormality processing module and a rule engine module, wherein the output end of the information collection and transmission module is in communication connection with the input end of the information collection and management unit, and the abnormality processing module and the rule engine module are in two-way communication connection with the information collection and transmission module;
the information acquisition and transmission module is used for receiving, storing and primarily processing the information data sent by the information sensing acquisition equipment, and is also used for sending the information data after the primary processing to the inside of the information acquisition management unit for management;
the abnormality processing module is integrated in the information acquisition and transmission module and is used for processing the abnormal influence of the device on use;
the rule engine module is integrated in the information acquisition and transmission module, and is used for carrying out preliminary processing on the acquired original data, wherein the preliminary processing comprises filtering, enriching and converting, generating a temporary server and synchronously outputting the temporary server.
Preferably, the information acquisition management unit comprises a visual management module, an information authentication module and a communication module, wherein the information authentication module and the communication module are connected with the visual management module in a two-way communication manner, and the visual management module is connected with the Internet of things construction platform in a two-way communication manner;
the visual management module is used for receiving the information data sent by the information acquisition and transmission unit and imaging, and is also used for transmitting the imaging data to the inside of the Internet of things construction platform in forms of tables, charts and characters for storage;
the information authentication module is used for authenticating personnel information applied for access;
the communication module is used for managing the information data transmission efficiency inside the device.
Preferably, the internet of things construction platform comprises an internet of things database, a platform construction module and a development module, wherein the platform construction module and the development module are in bidirectional communication connection with the internet of things database;
the internet of things database is used for receiving the storage data sent by the information acquisition management unit and carrying out time and data backup;
the platform construction module is used for comprehensively managing the Internet of things construction platform and comprises each unit and each module running condition distribution position;
the development module is used for carrying out development management on normal connection and normal distribution of the field installation equipment and the device.
The beneficial effects of the invention are as follows: according to the invention, the sensor data acquisition device is arranged, the actual distribution position and the virtual distribution position information data are comprehensively acquired through the sensor and the sensor, the acquired original data are subjected to preliminary processing, a temporary server is generated and synchronously output to the inside of the temporary server, the abnormal condition is processed, imaging data are simultaneously transmitted to the inside of an Internet of things construction platform through forms of tables, charts and characters, the corresponding authentication is carried out on personnel information applied to access, the transmitted storage data are subjected to time and data backup, comprehensive management is carried out, the normal connection and normal distribution of field installation equipment and the device are subjected to development management, corresponding processing is carried out for different scenes through the installation of the abnormal processing module, the risk problem is reduced, and meanwhile, each link is conveniently supervised, so that the comprehensive management is realized, the management, the visualization and the storage of the acquired data and the corresponding analysis result of the sensor are realized, and the intelligent level of the acquired data management of the sensor is improved through Internet cloud management and control.
Drawings
For ease of illustration, the invention is described in detail by the following detailed description and the accompanying drawings.
FIG. 1 is a flow chart of method steps of a method and apparatus for data acquisition of an Internet of things sensor according to the present invention;
fig. 2 is a device topology diagram of a method and a device for data acquisition of an internet of things sensor according to the present invention.
Detailed Description
As shown in fig. 1 and 2, the following technical solutions are adopted in this embodiment:
a method for acquiring data of an Internet of things sensor comprises the following specific steps:
s1, generating the sensor data acquisition device, and comprehensively acquiring information data of actual distribution positions and virtual distribution positions through a sensor and an inductor, wherein the sensor comprises a wireless temperature sensor, an infrared action sensor, a wireless light sensor and a wireless repeater, and the sensor comprises a position sensor, a gas sensor, a biological sensor, a digital sensor and an energy consumption sensor;
s2, carrying out preliminary processing on the collected original data, generating a temporary server, synchronously outputting the temporary server to the inside of the temporary server, carrying out exception handling on the abnormal conditions, and carrying out the exception handling comprises the following specific steps: when the abnormal processing module is connected with the device and is not authenticated due to overtime, the temporary server can disconnect the connection; when the abnormality processing module is connected with the device and does not send data when the device is overtime, the temporary server can disconnect the connection of the device; when the abnormality processing module is connected with the device and the same connection is found, the temporary server can disconnect the original connection and perform early warning processing;
s3, receiving the information data subjected to preliminary processing for imaging, and simultaneously conveying the imaging data into an Internet of things construction platform through forms of tables, charts and characters for storage, and correspondingly authenticating personnel information applied for access;
s4, carrying out time and data backup on the transmitted storage data, and simultaneously carrying out comprehensive management on the normal connection and normal distribution of the field installation equipment and the device, wherein the comprehensive management comprises the comprehensive management on the distribution position of the running condition of each unit and each module.
Further, the device comprises information sensing collection equipment, an information collection and conveying unit, an information collection and management unit and an Internet of things construction platform, wherein the output end of the information sensing collection equipment is in communication connection with the input end of the information collection and conveying unit, the output end of the information collection and conveying unit is in communication connection with the input end of the information collection and management unit, and the information collection and management unit is in two-way communication connection with the Internet of things construction platform.
Further, the information sensing acquisition equipment comprises a sensor acquisition module, a positioning data module and an inductor module, wherein the output ends of the sensor acquisition module and the inductor module are both in communication connection with the input end of the information acquisition and conveying unit, and the positioning data module is in bidirectional communication connection with the information sensing acquisition equipment; the sensor acquisition module is used for receiving information data sent by sensors with different actual geographic positions and different categories, and the sensor acquisition module is also used for sending the received information data into the information acquisition and conveying unit for conveying; the positioning data module is used for monitoring the initial source and the distribution position of the information data in the information sensing acquisition equipment; the sensor module is used for receiving information data sent by sensors with different virtual positions and different types, and the sensor module is also used for sending the received information data to the inside of the information acquisition and conveying unit for conveying.
Further, the information acquisition and transmission unit comprises an information acquisition and transmission module, an abnormality processing module and a rule engine module, wherein the output end of the information acquisition and transmission module is in communication connection with the input end of the information acquisition and management unit, and the abnormality processing module and the rule engine module are in two-way communication connection with the information acquisition and transmission module; the information acquisition and transmission module is used for receiving, storing and primarily processing the information data sent by the information sensing acquisition equipment, and is also used for sending the information data after the primary processing to the inside of the information acquisition management unit for management; the abnormality processing module is integrated in the information acquisition and transmission module and is used for processing the abnormal influence of the device on use; the rule engine module is integrated in the information acquisition and transmission module, and is used for carrying out preliminary processing on the acquired original data, wherein the preliminary processing comprises filtering, enriching and converting, generating a temporary server and synchronously outputting the temporary server.
Further, the information acquisition management unit comprises a visual management module, an information authentication module and a communication module, wherein the information authentication module and the communication module are connected with the visual management module in a two-way communication manner, and the visual management module is connected with the Internet of things construction platform in a two-way communication manner; the visual management module is used for receiving the information data sent by the information acquisition and transmission unit and imaging, and is also used for transmitting the imaging data to the inside of the Internet of things construction platform in forms of tables, charts and characters for storage; the information authentication module is used for authenticating personnel information applied for access; the communication module is used for managing the information data transmission efficiency inside the device.
Further, the Internet of things construction platform comprises an Internet of things database, a platform construction module and a development module, wherein the platform construction module and the development module are in bidirectional communication connection with the Internet of things database; the internet of things database is used for receiving the storage data sent by the information acquisition management unit and carrying out time and data backup; the platform construction module is used for comprehensively managing the Internet of things construction platform and comprises each unit and each module running condition distribution position; the development module is used for carrying out development management on normal connection and normal distribution of the field installation equipment and the device.
Examples
S1, generating a sensor data acquisition device, wherein the sensor acquisition module is used for receiving information data sent by sensors with different actual geographic positions and different types, the sensor module is used for receiving information data sent by sensors with different virtual positions and different types, and the sensor module is used for comprehensively acquiring information data of actual distribution positions and virtual distribution positions, wherein the sensor comprises a wireless temperature sensor, an infrared action sensor, a wireless light sensor and a wireless repeater, and the sensor comprises a position sensor, a gas sensor, a biological sensor, a digital sensor and an energy consumption sensor;
s2, performing preliminary processing on the collected original data through a rule engine module, wherein the preliminary processing comprises filtering, enriching and converting, generating a temporary server, synchronously outputting the temporary server to the inside of the temporary server, performing exception processing on the abnormal condition through an exception processing module, and disconnecting the temporary server when the exception processing module is connected with the device and is not authenticated after timeout; when the abnormality processing module is connected with the device and does not send data when the device is overtime, the temporary server can disconnect the connection of the device; when the abnormality processing module is connected with the device and the same connection is found, the temporary server can disconnect the original connection and perform early warning processing;
s3, imaging the information data after the preliminary processing is received through a visual management module, simultaneously conveying the imaging data into an Internet of things construction platform through forms of a table, a chart and characters for storage, correspondingly authenticating personnel information applied for access through an information authentication module, and managing information data transmission efficiency in the device through a communication module;
s4, carrying out time and data backup on the transmitted storage data through an Internet of things database, and simultaneously carrying out comprehensive management through a platform construction module, wherein the comprehensive management comprises the comprehensive management of the running condition distribution position of each unit and each module, and the development management of the normal connection and the normal distribution of the field installation equipment and the device through a development module.
Examples
When the sensor data acquisition device is connected to the factory management:
s1, generating a factory sensor data acquisition device, wherein the sensor acquisition module is used for receiving information data sent by sensors in different actual geographic positions and different types of factories, the sensor module is used for receiving information data sent by sensors in different virtual positions and different types of factories, and the sensor module is used for comprehensively acquiring information data of actual distribution positions and virtual distribution positions, wherein the sensors are wireless temperature sensors, infrared action sensors and wireless light sensors, and the sensors are position sensors, biological sensors, digital sensors and energy consumption sensors;
s2, performing preliminary processing on the collected factory original data through a rule engine module, generating a temporary server, synchronously outputting the temporary server to the inside of the temporary server, performing exception processing on the abnormal conditions through an exception processing module, and disconnecting the temporary server when the exception processing module is connected with the device and is not authenticated after timeout; when the abnormality processing module is connected with the device and does not send data when the device is overtime, the temporary server can disconnect the connection of the device; when the abnormality processing module is connected with the device, the temporary server can disconnect the original connection and perform timely processing on factory early warning equipment;
s3, imaging the received information data subjected to preliminary processing through a visual management module, simultaneously conveying the imaging data into a factory Internet of things construction platform through forms of tables, charts and characters for storage, correspondingly authenticating factory personnel information applied for access through an information authentication module, and managing information data transmission efficiency in the device through a communication module;
and S4, carrying out time and data backup on the transmitted storage data through an Internet of things database, carrying out comprehensive management through a platform construction module, and carrying out development management on normal connection and normal distribution of field installation equipment and the device through a development module.
Specific: in practical application, the sensor data acquisition device is provided with a plurality of information sensing acquisition devices which are respectively matched with an information acquisition and conveying unit, an information acquisition and management unit and an Internet of things construction platform to be used, the plurality of information sensing acquisition devices are respectively positioned at different geographic positions to generate the sensor data acquisition device, the sensor acquisition module is used for receiving information data transmitted by different actual geographic positions and different types of sensors, the sensor module is used for receiving information data transmitted by different virtual positions and different types of sensors to comprehensively acquire information data of actual distribution positions and virtual distribution positions, and the sensor comprises a wireless temperature sensor, an infrared action sensor, a wireless light sensor and a wireless relay, wherein the sensor comprises a position sensor, a gas sensor, a biological sensor, a digital sensor and an energy consumption sensor; the method comprises the steps that collected original data are subjected to preliminary processing through a rule engine module, the preliminary processing comprises filtering, enriching and converting, a temporary server is generated, the temporary server is synchronously output to the inside of the temporary server, the abnormal conditions are subjected to abnormal processing through an abnormal processing module, and when the abnormal processing module is connected with the device, the device is overtime and is not authenticated, and the temporary server is disconnected; when the abnormality processing module is connected with the device and does not send data when the device is overtime, the temporary server can disconnect the connection of the device; when the abnormality processing module is connected with the device and the same connection is found, the temporary server can disconnect the original connection and perform early warning processing; imaging the information data after the preliminary processing is finished through a visual management module, simultaneously conveying the imaging data into an Internet of things construction platform through forms of a table, a chart and characters for storage, correspondingly authenticating personnel information applied for access through an information authentication module, and managing the information data transmission efficiency in the device through a communication module; the method comprises the steps of carrying out comprehensive management on transmitted storage data through an Internet of things database, carrying out time and data backup, carrying out comprehensive management on the running condition distribution position of each unit and each module through a platform construction module, carrying out comprehensive management on normal connection and normal distribution of field installation equipment and the device through a development module.
Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (10)
1. The method for acquiring the data of the sensor of the Internet of things is characterized by comprising the following specific steps of:
s1, generating a sensor data acquisition device, and comprehensively acquiring information data of actual distribution positions and virtual distribution positions through sensors and inductors;
s2, carrying out preliminary processing on the collected original data, generating a temporary server, synchronously outputting the temporary server to the inside of the temporary server, and carrying out exception handling on the abnormal conditions;
s3, receiving the information data subjected to preliminary processing for imaging, and simultaneously conveying the imaging data into an Internet of things construction platform through forms of tables, charts and characters for storage, and correspondingly authenticating personnel information applied for access;
and S4, carrying out time and data backup on the transmitted storage data, and simultaneously carrying out comprehensive management, and carrying out development management on normal connection and normal distribution of the field installation equipment and the device.
2. The method for acquiring data of the sensor of the internet of things according to claim 1, wherein the method comprises the following steps: the comprehensive management in the step S4 comprises the comprehensive management of the running condition distribution position of each unit and each module.
3. The method for acquiring data of the sensor of the internet of things according to claim 1, wherein the method comprises the following steps: the step S2 comprises the following specific steps when performing exception handling:
when the abnormal processing module is connected with the device and is not authenticated due to overtime, the temporary server can disconnect the connection;
when the abnormality processing module is connected with the device and does not send data when the device is overtime, the temporary server can disconnect the connection of the device;
when the abnormality processing module is connected with the device and the same connection is found, the temporary server can disconnect the original connection and perform early warning processing.
4. The method for acquiring data of the sensor of the internet of things according to claim 1, wherein the method comprises the following steps: the sensor in the step S1 includes a wireless temperature sensor, an infrared motion sensor, a wireless light sensor, and a wireless repeater.
5. The method for acquiring data of the sensor of the internet of things according to claim 1, wherein the method comprises the following steps: the sensors in the step S1 comprise a position sensor, a gas sensor, a biological sensor, a digital sensor and an energy consumption sensor.
6. The utility model provides a device of thing networking sensor data acquisition which characterized in that: the device comprises information sensing acquisition equipment, an information acquisition and conveying unit, an information acquisition and management unit and an Internet of things construction platform, wherein the output end of the information sensing acquisition equipment is in communication connection with the input end of the information acquisition and conveying unit, the output end of the information acquisition and conveying unit is in communication connection with the input end of the information acquisition and management unit, and the information acquisition and management unit is in two-way communication connection with the Internet of things construction platform.
7. The device for data acquisition of an internet of things sensor of claim 6, wherein: the information sensing acquisition equipment comprises a sensor acquisition module, a positioning data module and an inductor module, wherein the output ends of the sensor acquisition module and the inductor module are both in communication connection with the input end of the information acquisition and conveying unit, and the positioning data module is in bidirectional communication connection with the information sensing acquisition equipment;
the sensor acquisition module is used for receiving information data sent by sensors with different actual geographic positions and different categories, and the sensor acquisition module is also used for sending the received information data into the information acquisition and conveying unit for conveying;
the positioning data module is used for monitoring the initial source and the distribution position of the information data in the information sensing acquisition equipment;
the sensor module is used for receiving information data sent by sensors with different virtual positions and different types, and the sensor module is also used for sending the received information data to the inside of the information acquisition and conveying unit for conveying.
8. The device for data acquisition of an internet of things sensor of claim 6, wherein: the information acquisition and transmission unit comprises an information acquisition and transmission module, an abnormality processing module and a rule engine module, wherein the output end of the information acquisition and transmission module is in communication connection with the input end of the information acquisition and management unit, and the abnormality processing module and the rule engine module are both in two-way communication connection with the information acquisition and transmission module;
the information acquisition and transmission module is used for receiving, storing and primarily processing the information data sent by the information sensing acquisition equipment, and is also used for sending the information data after the primary processing to the inside of the information acquisition management unit for management;
the abnormality processing module is integrated in the information acquisition and transmission module and is used for processing the abnormal influence of the device on use;
the rule engine module is integrated in the information acquisition and transmission module, and is used for carrying out preliminary processing on the acquired original data, wherein the preliminary processing comprises filtering, enriching and converting, generating a temporary server and synchronously outputting the temporary server.
9. The device for data acquisition of an internet of things sensor of claim 6, wherein: the information acquisition management unit comprises a visual management module, an information authentication module and a communication module, wherein the information authentication module and the communication module are in bidirectional communication connection with the visual management module, and the visual management module is in bidirectional communication connection with the Internet of things construction platform;
the visual management module is used for receiving the information data sent by the information acquisition and transmission unit and imaging, and is also used for transmitting the imaging data to the inside of the Internet of things construction platform in forms of tables, charts and characters for storage;
the information authentication module is used for authenticating personnel information applied for access;
the communication module is used for managing the information data transmission efficiency inside the device.
10. The device for data acquisition of an internet of things sensor of claim 6, wherein: the Internet of things construction platform comprises an Internet of things database, a platform construction module and a development module, wherein the platform construction module and the development module are in bidirectional communication connection with the Internet of things database;
the internet of things database is used for receiving the storage data sent by the information acquisition management unit and carrying out time and data backup;
the platform construction module is used for comprehensively managing the Internet of things construction platform and comprises each unit and each module running condition distribution position;
the development module is used for carrying out development management on normal connection and normal distribution of the field installation equipment and the device.
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