CN221010204U - Data display system based on combination of wireless network module and wired module - Google Patents

Abstract

The application discloses a data display system based on the combination of a wireless network module and a wired module, which relates to the field of data display systems based on the combination of the wireless network module and the wired module, and is characterized in that: the system comprises an acquisition module, an analysis module, an execution module and a display module; the acquisition module is used for acquiring relevant parameters of data transmission; the analysis module is used for receiving the acquired data and analyzing the transmission mode of the data; the execution module is used for receiving the analysis data and executing data transmission; the display module is used for receiving and displaying the transmission data; the acquisition module comprises a position component, a stabilizing component and a speed component, wherein the position component is used for detecting the data transmission distance; the stabilizing component is used for detecting the data stabilization condition; the speed component is used for calculating the transmission speed of the wired data and the wireless data. The application has the function of automatic data transmission mode, and improves the practicability of the data display system.

Description

Data display system based on combination of wireless network module and wired module

Technical Field

The application relates to the field of data display systems based on the combination of wireless network modules and wired modules, in particular to a data display system based on the combination of wireless network modules and wired modules.

Background

The data display system can output the data in the internal or external memory of the system in a visible or readable form, and has the forms of direct display of data values, data table display, various statistical graphic displays and the like. In order to display data more conveniently, the wireless network module and the wired module are built in, so that data transmission can be realized, and data can be presented more quickly.

In the related art, the wireless data transmission or the wired data transmission is set according to the needs of the user, but the user does not completely know the advantages of the wired data transmission and the wireless data transmission under different conditions, so that the transmission mode is not satisfactory every time when the transmission mode is manually selected. Switching the data transfer mode manually inaccurately is not practical for the user and there are improvements.

Disclosure of utility model

In order to improve the convenience of the leakage protection test system, the application provides a data display system based on the combination of a wireless network module and a wired module.

The data display system based on the combination of the wireless network module and the wired module adopts the following technical scheme:

the system comprises an acquisition module, an analysis module, an execution module and a display module;

The acquisition module is used for acquiring related parameters of data transmission and outputting acquired data;

The analysis module is in signal connection with the acquisition module and is used for receiving the acquisition data and outputting analysis data after analyzing the transmission mode of the data;

The execution module is in signal connection with the analysis module and is used for receiving the analysis data and outputting transmission data after executing data transmission;

the display module is in signal connection with the execution module and is used for receiving and displaying the transmission data;

The acquisition module comprises a position component, a stabilizing component and a speed component, wherein the position component is used for detecting the data transmission distance and outputting distance data; the stabilizing component is used for detecting the data stabilization condition and outputting stabilized data; the speed component is in signal connection with the position component and is used for receiving the distance data, calculating the transmission speed of wired data and wireless data and then outputting speed data.

By adopting the technical scheme, according to the stability degree and the transmission speed of data transmission, the data transmission mode with better data transmission mode is analyzed and selected, so that the data transmission is facilitated to meet the requirements of users. The efficiency of data transmission in the practical application is improved, and the practicality of the data display system is improved.

Preferably, the position component comprises a GPS, an electronic map and a data comparison engine, wherein the GPS is used for outputting position data after positioning the position of data transmission; the electronic map is used for marking the position information and outputting map data after the position distance; the data comparison engine is in signal connection with the GPS and the electronic map and is used for receiving the position data and the map data, comparing the positions on the map, obtaining the wired transmission distance and the wireless transmission distance and then outputting the distance data.

By adopting the technical scheme, the distance between wired data transmission and wireless data transmission can be obtained by locating the position of the transmission data, and the subsequent calculation of the transmission speed is convenient. The transmission speed is calculated according to the actual distance, the obtained result is more accurate, and the accuracy of the data display system is improved.

Preferably, the stabilizing component comprises a wired interference unit and a wireless interference unit, wherein the wired interference unit is used for detecting interference of the environment on wired data to obtain wired stable data; the wireless interference unit is used for detecting interference of the environment on wireless data to obtain wireless stable data.

By adopting the technical scheme, the stability of wired data transmission and wireless data transmission is respectively analyzed, the stability can be compared, and the selection of a more proper data transmission mode is facilitated. The stability is not required to be manually inspected, and the convenience of the data display system is improved.

Preferably, the wired interference unit includes a temperature sensor for detecting a temperature and outputting temperature data, a humidity sensor, and a first microcomputer; the humidity sensor is used for detecting humidity and outputting humidity data; the first microcomputer is in signal connection with the temperature sensor and the humidity sensor, and is used for receiving the temperature data and the humidity data, analyzing the stability degree of wired data transmission according to a built-in correlation curve graph, and obtaining the wired stability data.

By adopting the technical scheme, the stability of wired data transmission is analyzed by utilizing temperature and humidity, so that the temperature and humidity are more in line with daily requirements, and the temperature and humidity are always in variation. According to analysis, the stability of wired data transmission at different moments can be obtained, the stability is more accurate, and the accuracy of a data display system is improved.

Preferably, the wireless interference unit comprises an electromagnetic detector, a decibel meter and a second microcomputer, wherein the electromagnetic detector is used for detecting electromagnetic signals and outputting electromagnetic data; the decibel instrument is used for detecting noise decibels and outputting noise data; the second microcomputer is in signal connection with the electromagnetic detector and the noise decibel instrument and is used for receiving the electromagnetic data and the noise data, calculating the stability degree of wireless data transmission according to a built-in correlation curve graph and obtaining the wireless stability data.

By adopting the technical scheme, the stability of wireless data transmission is analyzed according to the electromagnetic signal and the noise, the relevant parameters closely related to the wireless data transmission are selected for analysis, the obtained stability of the wireless transmission data can be more accurate, and the accuracy of a data display system is improved.

Preferably, the analysis module comprises an input unit and a calculation unit, wherein the input unit is used for acquiring the transmission requirement duty ratio input by a user and outputting duty ratio data; the calculating unit is in signal connection with the input unit and the acquisition module and is used for receiving the duty ratio data and the acquisition data, calculating the grading values of wired data and wireless data according to the duty ratio and outputting the analysis data.

Through adopting above-mentioned technical scheme, collect the duty ratio that the user set up and score wired data transmission and wireless data transmission, the result of obtaining can more laminate the user demand. According to different duty ratios set by different users, a proper transmission mode is selected, so that the requirements of more users can be met, and the range of the data display system is improved.

In summary, the present application includes at least one of the following beneficial technical effects:

1. According to the stability degree and the transmission speed of data transmission, a better data transmission mode is analyzed and selected to transmit data, so that the data transmission is facilitated to meet the requirements of users. The efficiency of data transmission in the practical application is improved, and the practicality of the data display system is improved.

2. The stability of the wired data transmission and the stability of the wireless data transmission are respectively analyzed, so that the stability can be compared, and the selection of a more proper data transmission mode is facilitated. The stability is not required to be manually inspected, and the convenience of the data display system is improved.

3. The stability of wired data transmission is analyzed by using temperature and humidity, so that the method meets daily requirements, and the temperature and the humidity are always in variation. According to analysis, the stability of wired data transmission at different moments can be obtained, the stability is more accurate, and the accuracy of a data display system is improved.

Drawings

FIG. 1 is a schematic view of the overall structure of the present utility model;

Fig. 2 is a schematic diagram of the structure of the acquisition module of the present utility model.

Reference numerals illustrate: 1. an acquisition module; 11. a position component; 111. a GPS; 112. an electronic map; 113. a data comparison engine; 12. a stabilizing assembly; 121. a wired interference unit; 1211. a temperature sensor; 1212. a humidity sensor; 1213. a first microcomputer; 122. a wireless interference unit; 1221. an electromagnetic detector; 1222. a decibel meter; 1223. a second microcomputer; 13. a speed assembly; 2. an analysis module; 21. an input unit; 22. a calculation unit; 3. an execution module; 4. and a display module.

Detailed Description

The present utility model will be described in further detail with reference to examples and drawings, but embodiments of the present utility model are not limited thereto.

Examples:

The utility model discloses a data display system based on the combination of a wireless network module and a wired module, and referring to fig. 1 and 2, the data display system comprises an acquisition module 1, an analysis module 2, an execution module 3 and a display module 4.

The acquisition module 1 is used for acquiring relevant parameters of data transmission and outputting acquired data.

The analysis module 2 is in signal connection with the acquisition module 1 and is used for receiving the acquired data and outputting analysis data after analyzing the transmission mode of the data.

The execution module 3 is in signal connection with the analysis module 2 and is used for receiving analysis data and outputting transmission data after data transmission is performed.

The display module 4 is in signal connection with the execution module 3 and is used for receiving and displaying the transmission data.

The acquisition module 1 comprises a position component 11, a stabilizing component 12 and a speed component 13, wherein the position component 11 is used for detecting the data transmission distance and outputting distance data. The stabilization component 12 is used to detect data stabilization and output stabilization data. The speed component 13 is in signal connection with the position component 11 and is used for receiving the distance data, calculating the transmission speed of wired data and wireless data and outputting speed data.

The speed component 13 is configured as a microcomputer with which the transmission speeds of wired data and wireless data are calculated.

In the application, the wired data transmission and the wireless data transmission have advantages and disadvantages, and different transmission modes are adopted under different conditions, so that the data transmission is beneficial to meeting the requirements of users, and the use process is more convenient. For example, the user requires stable data transmission, the stability of wired data can be affected by temperature and humidity, and wireless data can be interfered by electromagnetic and noise, so that the stability of wired transmission and wireless transmission in different environments is different. Under the condition of proper temperature and humidity and high noise, the wire transmission is selected to be more stable. And under the conditions of higher temperature, lower noise and lower electromagnetism, the wireless transmission is selected to be more in line with the requirements of users.

Referring to fig. 2, the location component 11 includes a GPS111, an electronic map 112, and a data comparison engine 113, and the GPS111 is used to locate a location of data transmission and output location data. The electronic map 112 is used to output map data after marking the position information and the position distance. The data comparison engine 113 is in signal connection with the GPS111 and the electronic map 112, and is configured to receive the position data and the map data, compare the positions on the map, obtain the wired transmission distance and the wireless transmission distance, and output distance data.

In operation, the electronic map 112 not only records location information and location distances from place to place, but also includes wiring patterns for wired data transmission. And when the wired layout is not retrieved according to the location information in the data comparison engine 113, the wired output distance is 0. And when a wired layout is included, the wired distance is the length of the wire in the wired connection. The wireless transmission distance is a straight line distance in the position. For example, when it is detected that the data display device is installed at the a-land, the data transmission site is located at the B-land, the linear distance between the a-land and the B-land is 2 meters, the wired connection is provided between the a-land and the B-land, the wire length is 3 meters, and the wireless transmission distance is 2 meters, and the wired transmission distance is 3 meters. And the wired connection between the C ground and the A ground is not realized, and the wired distance is 0 m.

Referring to fig. 2, the stabilizing component 12 includes a wired interference unit 121 and a wireless interference unit 122, where the wired interference unit 121 is configured to detect interference of an environment on wired data, and obtain wired stable data. The wireless interference unit 122 is configured to detect interference of the environment on wireless data, and obtain wireless stable data.

In application, both wired data transmission and wireless data transmission are interfered by external environments, and the wired data transmission is relatively more stable than the wireless data transmission, but the stability degree is not absolute and can be influenced by the environments no matter what transmission mode is adopted. For example, wireless data transmission may be more stable for wireless situations where no interference is present at all, and for wired data transmission where severe effects are present. If the user pursues stability of data transmission, the selection of wireless data transmission at this time is more satisfactory.

Referring to fig. 2, the wired interference unit 121 includes a temperature sensor 1211, a humidity sensor 1212, and a first microcomputer 1213, and the temperature sensor 1211 is used to detect temperature and output temperature data. The humidity sensor 1212 is configured to detect humidity and output humidity data. The first microcomputer 1213 is in signal connection with the temperature sensor 1211 and the humidity sensor 1212, and is configured to receive the temperature data and the humidity data, and then analyze the stability of the wired data transmission according to the built-in correlation graph, so as to obtain wired stability data.

In the application, the wired data transmission is interfered by temperature and humidity, and according to the test of a professional department, the signal attenuation of a network cable is increased along with the increase of the temperature, specifically, the signal attenuation is increased by 4% every 10 ℃ of the increase of the temperature. This means that at 40 degrees celsius the signal attenuation of a 92.6 meter cable will be the same as the signal attenuation of a 100 meter cable at 20 degrees celsius. Extreme humidity conditions can lead to reduced insulation of the cable, thereby increasing signal loss and bit error rate. Therefore, the increase and decrease of the temperature and humidity can bring interference to the wired data transmission besides the proper temperature and humidity. According to the correlation curve of the temperature and humidity and the stability of the wired data transmission, the stability of the wired data transmission can be calculated and analyzed.

Referring to fig. 2, the wireless interference unit 122 includes an electromagnetic detector 1221, a decibel meter 1222, and a second microcomputer 1223, the electromagnetic detector 1221 for detecting an electromagnetic signal and outputting electromagnetic data. The decibel instrument 1222 is used to detect noise decibels and output noise data. The second microcomputer 1223 is in signal connection with the electromagnetic detector 1221 and the noise decibel instrument 1222, and is configured to receive electromagnetic data and noise data, calculate a wireless data transmission stability according to a built-in correlation graph, and obtain wireless stability data.

In operation, wireless data transmission is subject to electromagnetic and noise effects, for example, EMI (electromagnetic interference) may cause degradation of signal quality and possibly even loss of signal. Likewise, noise can also lead to reduced or even lost signal quality, leading to instability in wireless data transmission. In situations where ambient electromagnetic interference is severe and noise is severe, wireless data transmission is not a good choice if the user wishes to have stable data transmission. And when the surrounding environment is stable and the interference to wireless data transmission is not serious, wireless data transmission can be considered.

Referring to fig. 1, the analysis module 2 includes an input unit 21 and a calculation unit 22, where the input unit 21 is configured to obtain a transmission request duty ratio input by a user and output duty ratio data. The calculating unit 22 is in signal connection with the input unit 21 and the acquisition module 1, and is used for receiving the duty ratio data and the acquisition data, calculating the grading values of the wired data and the wireless data according to the duty ratio, and outputting analysis data.

In operation, the input unit 21 is configured as a touch screen assembly, with different factor ratios being input by the user. The calculation unit 22 is configured as a microcomputer, and performs calculation in accordance with the duty ratio in accordance with the stability performance and the speed detected therebetween. The requirements of different users are different, so that the mode selection of data transmission is different under different environments. For example, in the current environment, wired data transmission is faster, and wireless data transmission is more stable. And the user A hopes that the data transmission is quick, the wired data transmission is selected, and the user B hopes that the data transmission is more stable, the wireless data transmission is selected. And C, analyzing scores of wired data transmission and wireless data transmission according to the duty ratio calculation, and selecting a data transmission mode with higher scores.

The execution module 3 comprises a comparator and a transmission controller, wherein the comparator is in signal connection with the analysis module 2 and is used for receiving analysis data, comparing the grading values of wired data and wireless data in the analysis data and outputting a high-value mode. The transmission controller is in signal connection with the comparator and is used for receiving the control data after the high-value mode and transmitting the data according to the specified mode.

The display module 4 adopts an LED display screen, the touch screen component is positioned on the display screen, and the display screen is used for displaying various data used for data transmission.

The implementation principle of the embodiment of the application is as follows: first, the position of data transmission is located through the GPS111, and the data comparison engine 113 compares the data transmission with the wireless distance according to the electronic map 112, so as to confirm the wired distance of data transmission. The electronic map 112 includes position information and position distances, and also includes a wired layout, where the wireless distance is a linear distance of the position, and the wired distance is a wire length. In the absence of a wired layout, the wired distance is 0. When the wired distance is not 0, the speed component 13 calculates the wired data transmission speed and the wireless data transmission speed according to the wired distance and the wireless distance, and when the wired distance is 0, the speed component 13 sends a wireless data transmission signal to the execution module 3 to directly perform wireless data transmission and no subsequent detection is performed. After the temperature sensor 1211 and the humidity sensor 1212 detect the temperature and humidity, the first microcomputer 1213 calculates the stability of the wired data transmission. After the electromagnetic signal and noise levels are detected by the electromagnetic detector 1221 and the decibel instrument 1222, the stability of the wireless data transmission is calculated by the second microcomputer 1223. The input unit 21 of the analysis module 2 then collects the user's required duty cycle and the calculation unit 22 scores the wired data transmission and the wireless data transmission according to the duty cycle. And the execution module 3 selects a data transmission mode with high score to perform data transmission, and finally the display module 4 displays the transmitted data.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (6)

1. The data display system based on combination of the wireless network module and the wired module is characterized in that: comprises an acquisition module (1), an analysis module (2), an execution module (3) and a display module (4);

The acquisition module (1) is used for acquiring related parameters of data transmission and outputting acquired data;

The analysis module (2) is in signal connection with the acquisition module (1) and is used for receiving the acquired data and outputting analysis data after analyzing the transmission mode of the data;

the execution module (3) is in signal connection with the analysis module (2) and is used for receiving the analysis data and outputting transmission data after executing data transmission;

The display module (4) is in signal connection with the execution module (3) and is used for receiving and displaying the transmission data;

The acquisition module (1) comprises a position component (11), a stabilizing component (12) and a speed component (13), wherein the position component (11) is used for detecting a data transmission distance and outputting distance data; the stabilizing component (12) is used for detecting the data stabilization condition and outputting the stabilization data; the speed component (13) is in signal connection with the position component (11) and is used for receiving the distance data, calculating the transmission speed of wired data and wireless data and then outputting speed data.

2. The data display system based on the combination of the wireless network module and the wired module according to claim 1, wherein the location component (11) comprises a GPS (111), an electronic map (112) and a data comparison engine (113), and the GPS (111) is used for outputting location data after locating the location of data transmission; the electronic map (112) is used for marking the position information and outputting map data after the position distance; the data comparison engine (113) is in signal connection with the GPS (111) and the electronic map (112) and is used for receiving the position data and the map data, comparing the positions on the map, obtaining a wired transmission distance and a wireless transmission distance and then outputting the distance data.

3. The data display system based on the combination of the wireless network module and the wired module according to claim 1, wherein the stabilizing component (12) comprises a wired interference unit (121) and a wireless interference unit (122), and the wired interference unit (121) is used for detecting interference of the environment on the wired data to obtain wired stable data; the wireless interference unit (122) is used for detecting interference of the environment on wireless data to obtain wireless stable data.

4. A data display system based on a combination of a wireless network module and a wired module according to claim 3, wherein the wired interference unit (121) includes a temperature sensor (1211), a humidity sensor (1212), and a first microcomputer (1213), the temperature sensor (1211) for detecting a temperature and outputting temperature data; the humidity sensor (1212) is used for detecting humidity and outputting humidity data; the first microcomputer (1213) is in signal connection with the temperature sensor (1211) and the humidity sensor (1212), and is used for analyzing the stability of wired data transmission according to a built-in correlation graph after receiving the temperature data and the humidity data, so as to obtain the wired stability data.

5. A data display system based on a combination of a wireless network module and a wired module according to claim 3, wherein the wireless interference unit (122) comprises an electromagnetic detector (1221), a decibel meter (1222) and a second microcomputer (1223), the electromagnetic detector (1221) being configured to detect electromagnetic signals and output electromagnetic data; the decibel instrument (1222) is used for detecting noise decibels and outputting noise data; the second microcomputer (1223) is in signal connection with the electromagnetic detector (1221) and the noise decibel meter (1222) and is used for receiving the electromagnetic data and the noise data, calculating the stability degree of wireless data transmission according to a built-in correlation curve graph, and obtaining the wireless stability data.

6. The data display system based on the combination of the wireless network module and the wired module according to claim 1, wherein the analysis module (2) comprises an input unit (21) and a calculation unit (22), and the input unit (21) is used for acquiring a transmission requirement duty ratio input by a user and outputting duty ratio data; the calculating unit (22) is in signal connection with the input unit (21) and the acquisition module (1) and is used for receiving the duty ratio data and the acquisition data, calculating the grading values of wired data and wireless data according to the duty ratio and outputting the analysis data.