CN112866831A - Internet of things big data intelligent acquisition terminal and arrangement method thereof - Google Patents

Abstract

The invention discloses an Internet of things big data intelligent acquisition terminal, which comprises an acquisition system, an auditing system, a grouping and summarizing system and a display system, wherein the acquisition system is connected with the auditing system, the data output end of the auditing system is connected with the data input end of the grouping and summarizing system, the data output end of the grouping and summarizing system is connected with the data input end of the display system, the acquisition system comprises an acquisition module, a main power supply module, a power storage module, a power failure warning module, an external power supply module and a countdown module, the acquisition module, the external power supply module and the power storage module are all connected with the main power supply module, the power storage module is used for supplying power when the power is cut off by arranging the main power supply module, the power storage module and the power failure warning module, and warning is carried out by the power failure warning module to remind maintenance personnel to win time for the access of the maintenance and external power supply module, the normal work of the terminal system is maintained, and the damage and the loss of data caused by power failure are avoided.

Description

Internet of things big data intelligent acquisition terminal and arrangement method thereof

Technical Field

The invention relates to the technical field of big data, in particular to an intelligent Internet of things big data acquisition terminal and an arrangement method thereof.

Background

The data acquisition means that non-electric quantity or electric quantity signals are automatically acquired from analog and digital tested units such as sensors and other devices to be tested and are sent to an upper computer for analysis and processing, and the data acquisition system is a flexible and user-defined measurement system which is realized by combining with measurement software and hardware products based on a computer or other special test platforms;

however, the intelligent acquisition terminal used by the big data of the internet of things cannot timely supply power to the system when the power is off, so that the acquisition terminal is caused, the quality of data acquisition is influenced, and data loss and system terminal damage can be caused due to the power failure in severe cases.

Disclosure of Invention

The invention provides an intelligent acquisition terminal for big data of the Internet of things and a sorting method thereof, which can effectively solve the problems that the intelligent acquisition terminal used by the big data of the Internet of things cannot timely supply power to a system when the power is off, the acquisition terminal is caused, the quality of data acquisition is influenced, and data loss and system terminal damage are caused by the power failure when the power is off seriously.

In order to achieve the purpose, the invention provides the following technical scheme: an Internet of things big data intelligent acquisition terminal comprises an acquisition system, an auditing system, a grouping and summarizing system and a display system;

the data output end of the grouping and summarizing system is connected with the data input end of the display system;

the acquisition system comprises an acquisition module, a main power supply module, a power storage module, a power failure warning module, an external power supply module and a countdown module;

the collection module, the external power supply module and the power storage module are all connected with the main power supply module, and the countdown module and the power failure warning module are all connected with the power storage module.

According to the technical scheme, the auditing system comprises a statistical calculation module, an auditing module, a repairing module, a reacquisition module and a transmission module;

the statistical calculation module, the transmission module and the repair module are all connected with the auditing module, and the reacquisition module is connected with the repair module.

According to the technical scheme, the grouping and summarizing system comprises a standard preset module, a comparison module, a grouping module, a summarizing module and a storage module;

the standard presetting module and the grouping module are both connected with the comparison module, the grouping module is connected with the summarizing module, and the summarizing module is connected with the storage module.

According to the technical scheme, the display system comprises a dynamic display module, an analysis module, an estimation module and a graph drawing module;

the analysis module, the estimation module and the graph drawing module are all connected with the dynamic display module.

According to the technical scheme, the finishing steps are as follows:

s1, firstly, supplying power to the acquisition module through the main power supply module;

s2, collecting data through a collection module;

s3, auditing the data through an auditing module, counting the unqualified quantity, and sending the unqualified quantity to an acquisition system;

s4, storing the data in groups through a grouping module and a summarizing module;

and S5, carrying out real-time display on the data after analysis and estimation by using a dynamic display module.

According to the technical scheme, in the step S1, after the main power supply module is powered off, the power storage module supplies power to the main power supply module to ensure the normal work of the acquisition module;

when the electric quantity of the main power supply module and the electric quantity of the electric storage module are exhausted, the main power supply module is powered by the external power supply module, the electric storage module is charged until the electric quantity is full, and the electric storage module needs 1.5-3h when being fully charged.

According to the technical scheme, when the power storage module supplies power to the main power supply module, the power failure warning module sends a power failure warning prompt and displays the electric quantity of the power storage module in real time;

when the electricity storage module supplies electricity to the main power supply module, the countdown module counts down the electric quantity maintaining time of the electricity storage module, and the electricity storage module is fully charged and can continuously supply electricity for 5-8h to the main power supply module.

According to the technical scheme, in the step S2, the data acquisition modes through the acquisition module comprise sensor input, scanning input, photographing input and manual input;

in the step S3, the auditing module audits the integrity, accuracy and timeliness of the data acquired by the acquisition module, repairs the unqualified data, acquires the unrepairable data again, and feeds back the unqualified data audited to the acquisition system.

According to the technical scheme, in the step S4, a grouping standard is set through a standard presetting module, the set standard is compared with data through a comparison module, the data with the same standard are separated through the grouping module, the data in each group are collected through a collection module, and the data are stored in a storage module in a grouping manner.

According to the technical scheme, in the step S5, the analysis module is used for analyzing the collected data, the estimation module is used for estimating the trend of the data, the graph drawing module is used for drawing the statistical graph and the estimation trend graph of the data, and the analysis result and the estimation drawn graph are displayed in real time through the dynamic display module.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. utilize the electricity storage module to supply power in the outage through setting up main power module, electricity storage module and outage warning module to warn through outage warning module, remind maintenance personal, strive for the time for maintenance and external power module's access, maintain terminal system's normal work, avoid the outage to bring the damage of data and lose.

2. Through setting up the count-down module, carry out the count-down to the time that the storage pad module lasts the power supply when the outage, make things convenient for the staff to master the electric quantity and the holding time of electricity storage module, be convenient for formulate suitable maintenance scheme when the outage.

3. Through setting up statistics calculation module, restoration module and reacquisition module, repair the unqualified data of examining and verifying, gather once more the unable prosthetic data to with unqualified quantity condition send acquisition system, make things convenient for acquisition system technical adjustment collection scheme, guarantee the completeness, the accuracy and timely of data.

4. The data standards are preset through the standard presetting module, grouping and gathering are carried out, user-defined standards are convenient to group, data grouping is more flexible, and therefore the data can be extracted by a user conveniently as required.

5. Through setting up analysis module, estimating module and figure drawing module, carry out the analysis to the data of different groups, estimate the trend of data to draw into the figure, show through dynamic display module in real time, be convenient for in time master the change condition of data.

In conclusion, by arranging the acquisition system, the auditing system, the grouping and summarizing system and the display system, the power supply of the data terminal is ensured, the integrity, the accuracy and the timeliness of data are ensured, a user can define the data grouping standard by self, the change of the data is mastered in real time, and the data acquisition and the data arrangement are more reasonable and convenient.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

FIG. 1 is a schematic diagram of the system architecture of the present invention;

FIG. 2 is a schematic flow chart of the steps of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example (b): as shown in fig. 1-2, the invention provides a technical solution, and an intelligent data acquisition terminal for internet of things includes an acquisition system, an audit system, a grouping and summarizing system, and a display system;

the data output end of the grouping and summarizing system is connected with the data input end of the display system;

the acquisition system comprises an acquisition module, a main power supply module, a power storage module, a power failure warning module, an external power supply module and a countdown module;

the acquisition module, the external power supply module and the power storage module are all connected with the main power supply module, and the countdown module and the power failure warning module are all connected with the power storage module.

The auditing system comprises a statistical calculation module, an auditing module, a repairing module, a reacquisition module and a transmission module;

the statistical calculation module, the transmission module and the repair module are all connected with the auditing module, and the re-acquisition module is connected with the repair module.

The grouping and summarizing system comprises a standard preset module, a comparison module, a grouping module, a summarizing module and a storage module;

the standard presetting module and the grouping module are both connected with the comparison module, the grouping module is connected with the summarizing module, and the summarizing module is connected with the storage module.

The display system comprises a dynamic display module, an analysis module, a prediction module and a graph drawing module;

the analysis module, the estimation module and the graph drawing module are all connected with the dynamic display module.

The finishing steps are as follows:

s1, firstly, supplying power to the acquisition module through the main power supply module;

in S1, after the main power supply module is powered off, the power storage module supplies power to the main power supply module to ensure the normal work of the acquisition module;

when the electric quantity of the main power supply module and the electric quantity of the electric storage module are exhausted, the main power supply module is powered by the external power supply module, and the electric storage module is charged until the electric quantity is full, wherein the full charge of the electric storage module requires 2.5 hours;

when the power storage module supplies power to the main power supply module, the power failure warning module sends a power failure warning prompt and displays the electric quantity of the power storage module in real time;

when the electricity storage module supplies power to the main power supply module, the countdown module counts down the electric quantity maintaining time of the electricity storage module, and the electricity storage module is fully charged and can continuously supply power for 7h to the main power supply module.

S2, collecting data through a collection module;

in S2, the data acquisition modes through the acquisition module include sensor input, scan input, photograph input, and manual input.

S3, auditing the data through an auditing module, counting the unqualified quantity, and sending the unqualified quantity to an acquisition system;

in the step S3, the auditing module audits the integrity, accuracy and timeliness of the data acquired by the acquisition module, repairs the unqualified data, acquires the unrepairable data again, and feeds back the unqualified data audited to the acquisition system.

S4, storing the data in groups through a grouping module and a summarizing module;

in the step S4, a grouping standard is set by the standard presetting module, the set standard is compared with data by the comparison module, the data of the same standard are separated by the grouping module, and the data in each group are collected by the collection module and stored in the storage module in groups.

S5, carrying out real-time display on the data after analysis and estimation by using a dynamic display module;

in the S5, the analysis module is used for analyzing the collected data, the estimation module is used for estimating the trend of the data, the graph drawing module is used for drawing the statistical graph and the estimated trend graph of the data, the analysis result and the estimated drawn graph are displayed in real time through the dynamic display module, the part of the data presenting part is displayed in green, and the estimated part is displayed in red.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a big data intelligent acquisition terminal of thing networking which characterized in that: the system comprises an acquisition system, an auditing system, a grouping and summarizing system and a display system;

the data output end of the grouping and summarizing system is connected with the data input end of the display system;

the acquisition system comprises an acquisition module, a main power supply module, a power storage module, a power failure warning module, an external power supply module and a countdown module;

the collection module, the external power supply module and the power storage module are all connected with the main power supply module, and the countdown module and the power failure warning module are all connected with the power storage module.

2. The Internet of things big data intelligent acquisition terminal according to claim 1, wherein the auditing system comprises a statistical calculation module, an auditing module, a repairing module, a reacquisition module and a transmission module;

the statistical calculation module, the transmission module and the repair module are all connected with the auditing module, and the reacquisition module is connected with the repair module.

3. The Internet of things big data intelligent acquisition terminal according to claim 1, wherein the grouping and summarizing system comprises a standard presetting module, a comparison module, a grouping module, a summarizing module and a storage module;

the standard presetting module and the grouping module are both connected with the comparison module, the grouping module is connected with the summarizing module, and the summarizing module is connected with the storage module.

4. The Internet of things big data intelligent acquisition terminal according to claim 1, wherein the display system comprises a dynamic display module, an analysis module, an estimation module and a graph drawing module;

the analysis module, the estimation module and the graph drawing module are all connected with the dynamic display module.

5. The arranging method of the Internet of things big data intelligent acquisition terminal according to any one of claims 1 to 4, characterized in that the arranging step is as follows:

s1, firstly, supplying power to the acquisition module through the main power supply module;

s2, collecting data through a collection module;

s3, auditing the data through an auditing module, counting the unqualified quantity, and sending the unqualified quantity to an acquisition system;

s4, storing the data in groups through a grouping module and a summarizing module;

and S5, carrying out real-time display on the data after analysis and estimation by using a dynamic display module.

6. The data sorting method of the Internet of things big data intelligent acquisition terminal according to claim 5, wherein in S1, after the main power supply module is powered off, the power storage module supplies power to the main power supply module to ensure the normal operation of the acquisition module;

when the electric quantity of the main power supply module and the electric quantity of the electric storage module are exhausted, the main power supply module is powered by the external power supply module, the electric storage module is charged until the electric quantity is full, and the electric storage module needs 1.5-3h when being fully charged.

7. The data sorting method of the Internet of things big data intelligent acquisition terminal according to claim 6, wherein when the power storage module supplies power to the main power supply module, the power failure warning module sends a power failure warning prompt and displays the electric quantity of the power storage module in real time;

when the electricity storage module supplies electricity to the main power supply module, the countdown module counts down the electric quantity maintaining time of the electricity storage module, and the electricity storage module is fully charged and can continuously supply electricity for 5-8h to the main power supply module.

8. The data sorting method of the Internet of things big data intelligent acquisition terminal according to claim 5, wherein in S2, the data acquisition modes through the acquisition module include sensor input, scanning input, photographing input and manual input;

in the step S3, the auditing module audits the integrity, accuracy and timeliness of the data acquired by the acquisition module, repairs the unqualified data, acquires the unrepairable data again, and feeds back the unqualified data audited to the acquisition system.

9. The data sorting method for the Internet of things big data intelligent acquisition terminal according to claim 5, wherein in S4, a grouping standard is set through a standard presetting module, the set standard is compared with data through a comparison module, the data with the same standard are separated through the grouping module, the data in each group are collected through a collection module, and the data are stored in a storage module in groups.

10. The data sorting method for the Internet of things big data intelligent acquisition terminal according to claim 5, wherein in S5, the analysis module is used for analyzing the acquired data, the estimation module is used for estimating the trend of the data, the graph drawing module is used for drawing a statistical graph and an estimated trend graph of the data, and the analysis result and the estimated drawn graph are displayed in real time through the dynamic display module.

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