CN220122925U - Multisource internet of things data acquisition device - Google Patents

Abstract

The utility model relates to a multi-source internet of things data acquisition device which comprises an interface module and a built-in server which are matched for use; the interface module comprises a plurality of interface bodies covering common interfaces to form a universal data acquisition access structure; the built-in server adopts a high-performance CPU and a 16G running memory Linux system, and is used as a processing center for processing services and data transmission services; the processing service is to report protocol data to the received equipment, the protocol data covers common protocols, converts the common protocols such as 485 protocol and http protocol into a unified protocol format, and updates and displays the equipment state according to the converted data to form a universal data acquisition conversion structure; the universal data acquisition access structure is combined with the universal data acquisition conversion structure to form a multi-source internet of things data acquisition structure.

Description

Multisource internet of things data acquisition device

Technical Field

The utility model relates to a data processing technology, in particular to an internet of things data processing technology, and specifically relates to a multi-source internet of things data acquisition device.

Background

The data acquisition device is widely applied to various fields such as factories, industrial manufacture, intelligent parks and the like, and is suitable for complex data acquisition scenes such as data receiving and transmitting, equipment state monitoring, equipment protocol conversion, data accurate transmission and the like.

The traditional multi-source internet of things data acquisition device has the following defects in the using process:

1) Data sources are inconsistent: the data formats and protocols of different suppliers and different devices and the data acquisition interfaces are different, so that the data acquisition device needs to be adapted to different data sources, and the complexity and maintenance cost of the system are increased;

2) Inaccurate data: due to factors such as precision, sensitivity and the like of the sensor, errors or deviations may exist in the acquired data, so that the data analysis is inaccurate;

3) Data redundancy: under the condition that a plurality of sensors acquire the same physical quantity, data can have redundancy, and the burden of data transmission and storage is increased;

4) Not real-time monitoring: the operation state of the connection equipment, the network connection condition, the alarm information and the like cannot be checked in real time;

5) Unstable operation: the equipment is unreliable in operation, complex in structure and inconvenient in installation and maintenance.

Therefore, it is necessary to provide a multi-source internet of things data acquisition device to solve the above-mentioned problems.

Disclosure of Invention

The utility model aims to provide a multi-source internet of things data acquisition device.

The technical proposal is as follows:

a multi-source internet of things data acquisition device comprises an interface module and a built-in server which are matched for use;

the interface module comprises a plurality of interface bodies covering common interfaces to form a universal data acquisition access structure;

the built-in server adopts a high-performance CPU and a 16G running memory Linux system, and is used as a processing center for processing services and data transmission services; the processing service is to report protocol data to the received equipment, the protocol data covers common protocols, converts the common protocols such as 485 protocol and http protocol into a unified protocol format, and updates and displays the equipment state according to the converted data to form a universal data acquisition conversion structure; the universal data acquisition access structure is combined with the universal data acquisition conversion structure to form a multi-source internet of things data acquisition structure.

Further, the data transmission service converts the converted accurate data into a high-precision signal, and sends the high-precision signal to the remote server through a unified protocol to form a universal data transmission structure.

Further, the interface module further includes:

the SIM card is used for installing an SIM card for the data acquisition equipment;

SD bayonet and SIM bayonet are used for placing memory card.

Further, the interface module further includes:

a LAN port, which is used for accessing the Ethernet, and is 10/100/1000Mbps adaptive Ethernet;

the USB interface is used for USB3.0 mode access.

Further, the system also comprises a controller, wherein the controller is used for collecting the running state of the equipment, including the network card state and the memory state.

Further, the intelligent alarm system also comprises an alarm, wherein the alarm is used for processing alarm information sent by the controller and sending out an alarm.

Further, the method further comprises the following steps: and the antenna interface is used for antenna insertion, and information receiving and transmitting.

Further, the method further comprises the following steps: and the power line is used for supplying power to the data acquisition device.

Further, the method further comprises the following steps: and the communication channel comprises an RS485 interface, an RS232 interface, a DO interface and a DI interface.

Further, the method further comprises the following steps: the touch screen is used for displaying the state of the access equipment and parameter format conversion setting, and connecting a built-in database for data carousel display; the state of the device comprises a device access state, a device IP and alarm information.

Compared with the prior art, the utility model has the beneficial effects that:

1) Closed loop application: the system can operate locally and independently and output parallel alarm under the condition of no remote server, and performs audible and visual alarm after analysis and alarm; the linkage back-end platform software can realize the alarm pushing of WeChat, SMS and mail;

2) Super strength performance: the method has strong operation capability and realizes high-performance and high-precision data acquisition;

3) The compatibility is strong: the method is applicable to most of the existing mainstream Internet of things products, including electric meters, water meters, smoke pipes, fire alarms and other IOT equipment;

4) Stability is high: the embedded system is strictly tested, has high stability and meets the industrial application requirements;

5) Real-time accurate: real-time analysis, real-time alarm, short delay, low false alarm rate, accuracy and reliability;

6) The operation and maintenance are convenient: the module has high integration degree, convenient installation, simple operation and easy learning and use;

7) The openness is good: and providing a secondary development interface to realize protocol conversion setting, equipment access list and alarm record return.

Drawings

Fig. 1 is a schematic view of the construction of the platform of the present utility model.

FIG. 2 is a schematic flow chart of an exemplary embodiment of the present utility model.

Detailed Description

Examples:

referring to fig. 1, the present embodiment shows a multi-source internet of things data acquisition device, which includes an interface module 100 and a built-in server 200 that are used together;

the interface module 100 comprises a plurality of interface bodies covering common interfaces to form a universal data acquisition access structure;

the built-in server 200 adopts a high-performance CPU and a 16G running memory Linux system, and is used as a processing center for processing services and data transmission services; the processing service is to report protocol data to the received equipment, the protocol data covers common protocols, converts the common protocols such as 485 protocol and http protocol into a unified protocol format, and updates and displays the equipment state according to the converted data to form a universal data acquisition conversion structure; the universal data acquisition access structure is combined with the universal data acquisition conversion structure to form a multi-source internet of things data acquisition structure.

The data transmission service is to convert the converted accurate data into high-precision signals and send the high-precision signals to a remote server through a unified protocol to form a universal data transmission structure.

The interface module 100 further includes:

the SIM card socket 1 is used for installing an SIM card for the data acquisition equipment;

SD card 2, SIM card 2 is used for the placement of memory card.

The interface module 100 further includes:

LAN port 3, LAN port 3 is used for accessing Ethernet, 10/100/1000Mbps adaptive Ethernet;

USB interface 4, USB interface 4 is used for USB3.0 mode access.

The system also comprises a controller 5, wherein the controller 5 is used for collecting the running state of the equipment, including the network card state and the memory state.

The alarm device also comprises an alarm 6, wherein the alarm 6 is used for processing alarm information sent by the controller and sending out an alarm.

Further comprises: and an antenna interface 7 for antenna insertion, reception and transmission of information.

Further comprises: and a power line 8 for supplying power to the data acquisition device.

Further comprises: the communication channel 9 comprises an RS485 interface, an RS232 interface, a DO interface and a DI interface.

Further comprises: the touch screen is used for displaying the state of the access equipment and parameter format conversion setting, and connecting a built-in database for data carousel display; the state of the device comprises a device access state, a device IP and alarm information.

The data acquisition flow of this embodiment specifically includes:

1) Data acquisition of the access equipment is carried out, and acquired data is transmitted into an execution program of the built-in server;

2) The execution program converts the received data and feeds the converted data back to the controller in real time;

3) The controller judges whether an alarm is needed or not through internal setting, and maintains the alarm information in real time and displays the alarm information on the touch screen in real time;

4) The converted data and alarm data are sent to a remote server through a docking protocol.

For a more visual understanding, reference may be made to the data acquisition flow diagram of fig. 2.

Compared with the prior art, the beneficial effects of the embodiment include:

1) Closed loop application: the system can operate locally and independently and output parallel alarm under the condition of no remote server, and performs audible and visual alarm after analysis and alarm; the linkage back-end platform software can realize the alarm pushing of WeChat, SMS and mail;

2) Super strength performance: the method has strong operation capability and realizes high-performance and high-precision data acquisition;

3) The compatibility is strong: the method is applicable to most of the existing mainstream Internet of things products, including electric meters, water meters, smoke pipes, fire alarms and other IOT equipment;

4) Stability is high: the embedded system is strictly tested, has high stability and meets the industrial application requirements;

5) Real-time accurate: real-time analysis, real-time alarm, short delay, low false alarm rate, accuracy and reliability;

6) The operation and maintenance are convenient: the module has high integration degree, convenient installation, simple operation and easy learning and use;

7) The openness is good: and providing a secondary development interface to realize protocol conversion setting, equipment access list and alarm record return.

What has been described above is merely some embodiments of the present utility model. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the utility model.

Claims (10)

1. A multisource thing networking data acquisition device, its characterized in that: the system comprises an interface module and a built-in server which are matched for use;

the interface module comprises a plurality of interface bodies covering common interfaces to form a universal data acquisition access structure;

the built-in server adopts a high-performance CPU and a 16G running memory Linux system, and is used as a processing center for processing services and data transmission services; the processing service is to report protocol data to the received equipment, the protocol data covers common protocols, converts the common protocols such as 485 protocol and http protocol into a unified protocol format, and updates and displays the equipment state according to the converted data to form a universal data acquisition conversion structure;

the universal data acquisition access structure is combined with the universal data acquisition conversion structure to form a multi-source internet of things data acquisition structure.

2. The multi-source internet of things data acquisition device of claim 1, wherein: the data transmission service is to convert the converted accurate data into high-precision signals and send the high-precision signals to a remote server through a unified protocol to form a universal data transmission structure.

3. The multi-source internet of things data acquisition device of claim 2, wherein: the interface module further comprises:

the SIM card is used for installing an SIM card for the data acquisition equipment;

SD bayonet and SIM bayonet are used for placing memory card.

4. A multi-source internet of things data collection device according to claim 1 or 3, wherein: the interface module further comprises:

a LAN port, which is used for accessing the Ethernet, and is 10/100/1000Mbps adaptive Ethernet;

the USB interface is used for USB3.0 mode access.

5. The multi-source internet of things data acquisition device according to claim 4, wherein: the system also comprises a controller, wherein the controller is used for collecting the running state of the equipment, including the status of the network card and the status of the memory.

6. The multi-source internet of things data acquisition device according to claim 5, wherein: the alarm is used for processing alarm information sent by the controller and sending out an alarm.

7. The multi-source internet of things data acquisition device of claim 6, wherein: further comprises: and the antenna interface is used for antenna insertion, and information receiving and transmitting.

8. The multi-source internet of things data acquisition device of claim 7, wherein: further comprises: and the power line is used for supplying power to the data acquisition device.

9. The multi-source internet of things data acquisition device of claim 8, wherein: further comprises: and the communication channel comprises an RS485 interface, an RS232 interface, a DO interface and a DI interface.

10. The multi-source internet of things data acquisition device of claim 1, wherein: further comprises: the touch screen is used for displaying the state of the access equipment and parameter format conversion setting, and connecting a built-in database for data carousel display; the state of the device comprises a device access state, a device IP and alarm information.