WO2020034249A1

WO2020034249A1 - Cloud data transmission apparatus and method based on crude oil nuclear magnetic resonance analyzer

Info

Publication number: WO2020034249A1
Application number: PCT/CN2018/102390
Authority: WO
Inventors: 丁进良; 刘长鑫; 陈东宇; 张煜; 柴天佑
Original assignee: 东北大学
Priority date: 2018-08-15
Filing date: 2018-08-27
Publication date: 2020-02-20
Also published as: CN109151017A

Abstract

A cloud data transmission apparatus based on a crude oil nuclear magnetic resonance analyzer and a data transmission method thereof, relating to the field of cloud data transmission. The apparatus comprises a data receiving module, a data processing module, a data storage module, a central control module, a data transmission module, a display module, and a positioning module, wherein the data receiving module is used for receiving data generated by the nuclear magnetic resonance analyzer; the data processing module implements data conversion and chart automatic generation functions; the data storage module is used for storing historical transmitted data; the central control module is used for connecting and controlling other modules; and the data transmission module is used for transmitting data to other data receiving apparatuses, and the positioning module records a position of the data transmission apparatus. The cloud data transmission apparatus based on the crude oil nuclear magnetic resonance analyzer and the data transmission method thereof can implement the effects of subjecting data generated by a device involved in a crude oil evaluation in an oil refining factory to storage and cloud transmission.

Description

Cloud data transmission device and method based on crude oil nuclear magnetic resonance analyzer

Technical field

The invention relates to the technical field of cloud data transmission, in particular to a cloud data transmission device and method based on a crude oil nuclear magnetic resonance analyzer.

Background technique

Crude oil evaluation refers to analyzing the physical properties of crude oil, obtaining physical property data, and guiding crude oil processing and production. With the continuous development of computer technology, crude oil evaluation technology, and cloud technology and its popularization and application in the process of crude oil evaluation, many modern instruments can be used in the rapid evaluation of crude oil.

The current crude oil analysis equipment, taking NMR analyzer as an example, only scans specific oil products by this machine to get data. Traditional NMR analyzers cannot implement cloud upload, processing, and storage of data well. Without the addition of features such as the Internet and cloud computing, information is not circulated during the production process.

Summary of the Invention

The technical problem to be solved by the present invention is to address the shortcomings of the foregoing prior art, and provide a cloud data transmission device and method based on a crude oil nuclear magnetic resonance analyzer to realize cloud transmission sharing of data scanned by a crude oil nuclear magnetic resonance analyzer.

In one aspect, the present invention provides a cloud data transmission device based on a crude oil nuclear magnetic resonance analyzer, including a data receiving module, a data processing module, a data storage module, a central control module, a data transmission module, a display module, and a positioning module; the data One end of the receiving module is connected to the nuclear magnetic resonance analyzer, and the other end is connected to the central control module, and receives the data generated by the nuclear magnetic resonance analyzer and transmits it to the central control module. The data processing module is connected to the central control module to realize the data. Conversion function and automatic chart generation function; the data storage module is connected to the data processing module and is used to save the data processed by the data processing module and store historically transmitted data; the data transmission module is connected to the central control module, Used to receive instructions from the central control module to transmit data to other receiving devices; the display module and central control module are used to display data in the data processing module and data storage module; the positioning module and central control module and display Modules are connected for recording According to the position where the transmission means, and displayed through the display module;

The data receiving module includes a receiving module and a detection module; the detection module is used to detect whether new data needs to be received, and transmits a receiving signal to the receiving module; the receiving module is used to receive spectrum information of crude oil and nuclear magnetic resonance analysis Device information.

Preferably, the data processing module includes a conversion module and a chart automatic generation module, and the conversion module is configured to convert the data received by the data receiving module into a format, including .txt, .xls, .doc, or .pdf. The automatic generation module is used to automatically generate a chart from the converted data.

Preferably, the data transmission module has a built-in communication module for transmitting the data processed by the data processing module to other receiving devices or cloud servers, while transmitting instructions sent by the cloud server to the central control module; the communication module uses 2G, 3G, 4G, WIFI, USB port or Bluetooth for communication.

Preferably, the display module includes a touch screen for viewing the working status and received data of the data receiving module, the working status and processed data of the data processing module, the working status and stored data information of the data storage module, The historical position information stored in the positioning module, the working status of the data transmission module, and the transmitted data information.

In another aspect, the present invention also provides a method for transmitting by using the cloud data transmission device based on the crude oil nuclear magnetic resonance analyzer of the present invention, including the following steps:

Step 1. The NMR analyzer and the data transmission device are connected to the data receiving module through a wired port or a wireless port. The detection module of the data receiving module detects the incoming data. The status of the detecting module is that there is data incoming and generates a transmission signal to the receiving module. The receiving module will continue to respond to the signal of the detecting module to complete the data reception. The display module displays the working status of the data receiving module and the received data;

Step 2: The data receiving module completes the data reception and transmits a reception completion signal to the central control module; the central control module sends the received data to the data processing module and the data storage module according to the received signal; the central control module is coupled to the data receiving Module, data processing module, and data storage module. When the central control module receives a signal from the data receiving module, the central control module responds, first sending the received data to the data processing module, and then sending and receiving data to the data storage module. After the data is received by the data processing module, the data is converted and processed, and the data is automatically generated into a chart; after the work of the data processing module is completed, the completion signal is transmitted to the central control module; the central control module receives the completion of the work of the data processing module After the signal, the signal will be transmitted to the data storage module again. The data processed by the data processing module will be saved by the data storage module. After the data storage module has completed its work, it will transmit the work completion signal to the central control module. At this time, the data is processed. The work of the module and the data storage module is completed; at the same time, the display module displays the working status and processed data of the data processing module, the working status of the data storage module and the stored data information;

Step 3: After the central control module receives the signals that the data processing module and the data storage module have completed their work, it transmits a signal to the data transmission module, and sends the data processed by the data processing module stored in the data storage module to the data transmission module; data transmission The module communicates with the outside world through the built-in communication module, transmits data to other data receiving devices, and transmits signals to the central control module to inform the central control module of the success or failure of data transmission; at the same time, the working status of the data transmission module is displayed through the display module And transmitted data information;

Step 4. The positioning module saves the geographic position where the data transmission device is located in the form of latitude and longitude; the positioning module stores the historical position where the data transmission device is located and displays it through the display module.

The beneficial effect produced by adopting the above technical solution is that a cloud data transmission device and method based on a crude oil nuclear magnetic resonance analyzer provided by the present invention can implement data storage and cloud storage of data generated by crude oil evaluation equipment in a refinery. Transmission, and can transmit the processed data to other data receiving devices to realize the circulation of production information. Through the cloud data transmission device, the cost of manually collecting and storing crude oil evaluation data is saved, and the production efficiency of the enterprise is improved.

BRIEF DESCRIPTION OF THE DRAWINGS

1 is a structural block diagram of a cloud data transmission device based on a crude oil nuclear magnetic resonance analyzer according to an embodiment of the present invention;

FIG. 2 is a flowchart of data transmission by using a cloud data transmission device based on a crude oil nuclear magnetic resonance analyzer of the present invention according to an embodiment of the present invention.

detailed description

The specific embodiments of the present invention will be further described in detail below with reference to the accompanying drawings and embodiments. The following examples are used to illustrate the present invention, but not to limit the scope of the present invention.

A cloud data transmission device based on a crude oil nuclear magnetic resonance analyzer, as shown in FIG. 1, includes a data receiving module, a data processing module, a data storage module, a central control module, a data transmission module, a display module, and a positioning module; a data receiving module One end is connected to the NMR analyzer, and the other end is connected to the central control module. It receives the data generated by the MRI analyzer and transmits it to the central control module. The data processing module is connected to the central control module to implement data conversion functions and charts. Automatic generation function; the data storage module is connected to the data processing module and is used to save the data processed by the data processing module and store the historically transmitted data; the data transmission module is connected to the central control module and used to receive the data from the central control module Instructions to transmit data to other receiving devices; the display module and central control module are used to display the data in the data processing module and the data storage module; the positioning module is connected to the central control module and the display module to record the location of the data transmission device And through display Display module for display.

The data receiving module includes a receiving module and a detecting module; the detecting module is used to detect whether there is new data to be received, and transmits a receiving signal to the receiving module; the receiving module is used to receive spectrum information of crude oil and equipment information of a nuclear magnetic resonance analyzer.

The data processing module includes a conversion module and an automatic chart generation module. The conversion module is used to convert the data received by the data receiving module into a format. The format includes .txt, .xls, .doc, or .pdf. The automatic chart generation module is used to: Graphs are automatically generated from the converted data.

The data transmission module has a built-in communication module, which is used to transmit the data processed by the data processing module to other receiving devices or cloud servers, while transmitting the instructions sent by the cloud server to the central control module; the communication module uses 2G, 3G, 4G, WIFI , USB port or Bluetooth.

The display module includes a touch screen for viewing the working status and received data of the data receiving module, the working status and processed data of the data processing module, the working status and stored data information of the data storage module, and the location stored in the positioning module. Historical location information, working status of the data transmission module, and transmitted data information.

The method for data transmission using the cloud data transmission device based on the crude oil nuclear magnetic resonance analyzer of the present invention, as shown in FIG. 2, includes the following steps:

When the detection status of the detection module is no data incoming, no transmission signal is generated; when the detection status is data incoming but not completed, an incomplete signal is transmitted to the receiving module; when the detection status is data incoming but completed , Will pass the completed signal to the receiving module. At this time, the work of the data receiving module is completed.

Step 2: The data receiving module completes the data reception and transmits a reception completion signal to the central control module; the central control module sends the received data to the data processing module and the data storage module according to the received signal; the central control module is coupled to the data receiving Module, data processing module, and data storage module. When the central control module receives a signal from the data receiving module, the central control module responds, first sending the received data to the data processing module, and then sending and receiving data to the data storage module. After the data is received by the data processing module, the data is converted and processed to convert the data into .txt, .xls, .doc, .pdf format, and the data is automatically generated into a chart. After the data processing module completes its work, The completion signal is transmitted to the central control module. After the central control module receives the signal of completion of the work of the data processing module, it transmits the signal to the data storage module again. The data processed by the data processing module is saved by the data storage module. When the work of the data storage module is completed, And then to the central control Signal transmission module is completed, then data processing module and the data storage module is completed; the same time, the operating state information of the display data of the operating state data processing module and the data processing, data storage and the storage module through the display module;

Step 3: After the central control module receives the signals that the data processing module and the data storage module have completed their work, it transmits a signal to the data transmission module, and sends the data processed by the data processing module stored in the data storage module to the data transmission module; data transmission The module communicates with the outside world through the built-in communication module, and transmits data to other data receiving devices or cloud servers; and transmits a signal to the central control module to inform the central control module of the success or failure of data transmission. At the same time, the transmission cloud server sends to the central control module At the same time, the display module displays the working status of the data transmission module and the transmitted data information;

Step 4. The positioning module saves the geographic location of the data transmission device in the form of latitude and longitude, such as (123.38E, 41.8N); the positioning module stores the historical position of the data transmission device and displays it through the display module.

Finally, it should be noted that the above embodiments are only used to illustrate the technical solution of the present invention, rather than limiting them. Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that they can still Modifications to the technical solutions described in the foregoing embodiments, or equivalent replacements of some or all of the technical features thereof; and these modifications or replacements do not depart the essence of the corresponding technical solutions from the scope defined by the claims of the present invention.

Claims

A cloud data transmission device based on a crude oil nuclear magnetic resonance analyzer includes a data receiving module, a data processing module, a data storage module, a central control module, a data transmission module, a display module, and a positioning module; one end of the data receiving module and nuclear magnetic field The resonance analyzer is connected, and the other end is connected to the central control module, receives the data generated by the nuclear magnetic resonance analyzer, and transmits it to the central control module; the data processing module is connected to the central control module to realize the data conversion function and automatic chart generation Function; the data storage module is connected to the data processing module, and is used to save the data processed by the data processing module, and to store historically transmitted data; the data transmission module is connected to the central control module, and is used to receive the central control module The instructions issued transmit data to other receiving devices; the display module and the central control module are used to display the data in the data processing module and the data storage module; the positioning module is connected to the central control module and the display module for recording Where the data transmission device is located Set, and displayed through the display module;

The data receiving module includes a receiving module and a detection module; the detection module is used to detect whether new data needs to be received, and transmits a receiving signal to the receiving module; the receiving module is used to receive spectrum information of crude oil and nuclear magnetic resonance analysis Device information.
The cloud data transmission device based on a crude oil nuclear magnetic resonance analyzer according to claim 1, wherein the data processing module includes a conversion module and an automatic chart generation module, and the conversion module is configured to receive the data receiving module The converted data is formatted. The format includes .txt, .xls, .doc, or .pdf. The chart automatic generation module is used to automatically generate the chart from the converted data.
The cloud data transmission device based on a crude oil nuclear magnetic resonance analyzer according to claim 1, wherein the data transmission module has a built-in communication module for transmitting the data processed by the data processing module to other receivers. The device or cloud server transmits the instructions sent by the cloud server to the central control module at the same time; the communication module uses 2G, 3G, 4G, WIFI, USB port or Bluetooth to achieve communication.
The cloud data transmission device based on a crude oil nuclear magnetic resonance analyzer according to claim 1, wherein the display module includes a touch screen for viewing the working status of the data receiving module and the received data and data processing The working status and processed data of the module, the working status and stored data information of the data storage module, the historical position information stored in the positioning module, the working status of the data transmission module, and the transmitted data information.
The method for transmitting using a cloud data transmission device based on a crude oil nuclear magnetic resonance analyzer according to claim 1 includes the following steps:

Step 1. The NMR analyzer and the data transmission device are connected to the data receiving module through a wired port or a wireless port. The detection module of the data receiving module detects the incoming data. The status of the detecting module is that there is data incoming and generates a transmission signal to the receiving module. The receiving module will continue to respond to the signal of the detecting module to complete the data reception. The display module displays the working status of the data receiving module and the received data;

Step 2: The data receiving module completes the data reception and transmits a reception completion signal to the central control module; the central control module sends the received data to the data processing module and the data storage module according to the received signal; the central control module is coupled to the data receiving Module, data processing module, and data storage module. When the central control module receives a signal from the data receiving module, the central control module responds, first sending the received data to the data processing module, and then sending and receiving data to the data storage module. After the data is received by the data processing module, the data is converted and processed, and the data is automatically generated into a chart; after the work of the data processing module is completed, the completion signal is transmitted to the central control module; the central control module receives the completion of the work of the data processing module After the signal, the signal will be transmitted to the data storage module again. The data processed by the data processing module will be saved by the data storage module. After the data storage module has completed its work, it will transmit the work completion signal to the central control module. Module and data storage module is completed; the same time, the display data through the display module operation state information processing module operating state data and the processed data, and the data stored in the storage module;

Step 3: After the central control module receives the signals that the data processing module and the data storage module have completed their work, it transmits a signal to the data transmission module, and sends the data processed by the data processing module stored in the data storage module to the data transmission module; data transmission The module communicates with the outside world through the built-in communication module, transmits data to other data receiving devices, and transmits signals to the central control module to inform the central control module of the success or failure of data transmission; at the same time, the working status of the data transmission module is displayed through the display module And transmitted data information;

Step 4. The positioning module saves the geographic location where the data transmission device is located in the form of latitude and longitude; the positioning module stores the historical position where the data transmission device is located and displays it through the display module.