CN113395299B - Intelligent city off-network operation method and system based on intelligent gas meter - Google Patents

Abstract

The invention discloses an intelligent city off-network operation method and system based on an intelligent gas meter.A service platform receives request information when a user requests to use a gas sum; the management platform is interacted with the off-network cloud platform; the sensing network platform C requests information, and the management platform C invokes step gas consumption information and peak-valley gas consumption information of a user, then combines the step gas consumption information and the peak-valley gas consumption information with corresponding gas prices to calculate and generate user gas price information; and the management platform forwards the gas price information of the user to the user platform through the service platform. According to the intelligent city off-network operation method and system based on the intelligent gas meter, the complex operation process in the intelligent gas system is completed through cloud computing through a unified Internet of things architecture, so that the restriction of the operation capacity of a main chip on the intelligent gas system is avoided, the development prospect of the intelligent gas system is greatly expanded, the difficulty in providing support for the intelligent gas system through cloud computing is greatly simplified, and the large-scale popularization and application are facilitated.

Description

Intelligent city off-network operation method and system based on intelligent gas meter

Technical Field

The invention relates to the technology of Internet of things, in particular to a smart city off-network operation method and system based on an intelligent gas meter.

Background

At present, domestic intelligent gas meters mainly comprise IC card intelligent gas meters, CPU card intelligent gas meters, radio frequency card intelligent gas meters, direct-reading remote gas meters (wired remote gas meters), wireless remote gas meters (integrated) and the like, and along with improvement of living standard and living quality of people, intelligent product requirements needed by modern families can promote the intelligent gas meters to develop towards the directions of safety, reliability and intelligent convenience. Since the common household diaphragm gas meter is difficult to charge, high in labor cost of meter reading personnel and incapable of really monitoring gas stealing, the operating cost is continuously increased for a gas company, and a lot of troubles are brought to operation management, so that various intelligent gas meters are gradually put on the market from 1995 to solve the problem of headache in the operation of the gas company. The IC card meter, the CPU card intelligent gas meter, the wired remote gas meter, the wireless remote gas meter, the network type infrared data transmission gas meter and the like appear in succession.

The intelligent gas system is an important part for directly providing services for users in a smart city system, and in the prior art, along with the increasing function of the intelligent gas system, the computing capability of a chip of the intelligent gas meter is insufficient, so that the development of the intelligent gas system is severely restricted.

Disclosure of Invention

The invention aims to solve the technical problems that the computing capability of a chip of the existing intelligent gas meter is insufficient, the development of an intelligent gas system is seriously restricted, and the invention aims to provide a smart city off-network computing method and system based on the intelligent gas meter to solve the problems.

The invention is realized by the following technical scheme:

an intelligent city off-network operation method based on an intelligent gas meter comprises the following steps: establishing an Internet of things of the intelligent gas meter; the intelligent gas meter Internet of things comprises a user platform, a service platform, a management platform, a sensing network platform and an object platform which are sequentially interacted; when a user requests a gas consumption amount from the intelligent gas meter Internet of things through the user platform, the service platform receives request information of the user on the user platform and forwards the request information to the management platform; the management platform is interacted with the off-network cloud platform, and the off-network cloud platform is a management cloud platform; a user platform C and an object platform C are established on the management platform, a service platform C, a management platform C and a sensing network platform C are established on the management cloud platform, and the user platform C, the service platform C, the management platform C, the sensing network platform C and the object platform C are sequentially interacted; the sensing network platform C senses request information sent by a user and received by the object platform C and sends the request information to the management platform C, the management platform C acquires step gas consumption information and peak and valley gas consumption information of the user, then calculates the step gas consumption information and the peak and valley gas consumption information by combining with corresponding gas prices to generate user gas price information, and sends the user gas price information to the user platform C through the service platform C; and the management platform forwards the user gas price information received by the user platform C to the user platform through the service platform.

When the system is applied, a novel Internet of things structure is adopted firstly, the Internet of things structure comprises a user platform, a service platform, a management platform, a sensing network platform and an object platform which are sequentially interacted, the Internet of things in the system is established by relying on the structure, and functions and working processes in each part in the structural relation are the prior art and are not repeated.

For an intelligent gas system, some functions which are easy to realize, such as functions of transfinite alarm, common flow statistics, user data statistics and the like, can be processed by adopting a common processor, and a management platform is a main chip for realizing control and data calling; however, many current gas charging systems adopt a peak-to-valley gas and step gas price mode for charging, which causes that a large amount of real-time integral operation is needed when a main chip processes the data, and the pressure of the main chip is too large, and at the moment, the invention introduces a cloud computing technology.

In the cloud computing process of adding the peak-valley gas price and the step gas price, the management platform is a receiver of the step gas information and the peak-valley gas information, a sender of the step gas information and the peak-valley gas information during off-line computing, and meanwhile the management platform needs to receive user gas price information after computing is completed, so that the inventor creatively utilizes the five-platform structure set forth above to construct an interactive relationship between the cloud platform and the management platform. And establishing a user platform C and an object platform C on the management platform, wherein the object platform C provides step gas consumption information and peak-valley gas consumption information for the cloud platform, the user platform C provides instructions for the cloud platform, and finally the user platform C obtains the gas price information of the user through the operation of the management platform C. According to the invention, the complex operation process in the intelligent gas system is completed through cloud computing through a unified Internet of things architecture, so that the restriction of the operation capability of the main chip on the intelligent gas system is avoided, the development prospect of the intelligent gas system is greatly expanded, the difficulty in providing support for the intelligent gas system through cloud computing is greatly simplified, and the large-scale popularization and application are facilitated.

Further, the management platform C calls step gas consumption information and peak-valley gas consumption information of a user, and calls a peak-valley gas price and a step gas floating rate; and the management platform C acquires the user gas price information according to the step gas consumption information, the peak-valley gas price and the step gas consumption floating rate.

Further, the method also comprises the following steps: when the sensing network platform needs to correct the gas information data in the object platform according to the local pressure, the sensing network platform senses the local pressure data and the gas information data; the sensing network platform is interacted with an off-network cloud platform, and the off-network cloud platform is a sensing cloud platform; a user platform B and an object platform B are established on the sensing network platform, a service platform B, a management platform B and a sensing network platform B are established on the sensing cloud platform, and the user platform B, the service platform B, the management platform B, the sensing network platform B and the object platform B are sequentially interacted; the sensing network platform B senses the local pressure data and the gas information data received by the object platform B and sends the local pressure data and the gas information data to the management platform B; and the management platform B corrects the gas information data according to the local pressure data and then sends the corrected gas information data to the user platform B.

When the method is applied, the gas pressure of each region is different, so that the gas meter can detect inaccurate gas data, in the prior art, a one-time checking mode is adopted for data correction, however, the gas pressure can change at any time along with different seasons and weather, and the measurement accuracy of the gas meter can be influenced by the change. In the invention, all the checking work is not required to be finished on the gas meter, but the gas information data is corrected through the cloud service according to the local pressure data, so that the detection precision is improved, and the checking cost is also reduced.

Furthermore, the sensing network platform comprises a sensing network management platform, a telecommunication operator communication platform, a gateway module and a wireless communication module which are sequentially interacted; and the user platform B and the object platform B are both established on the sensing network management platform.

An intelligent city off-network computing system based on an intelligent gas meter comprises an intelligent gas meter Internet of things; the intelligent gas meter Internet of things comprises a user platform, a service platform, a management platform, a sensing network platform and an object platform which are sequentially interacted;

when a user requests for a gas payment to the Internet of things of the intelligent gas meter through the user platform, the service platform receives request information of the user on the user platform and forwards the request information to the management platform; the management platform is interacted with the off-network cloud platform, and the off-network cloud platform is a management cloud platform;

a user platform C and an object platform C are established on the management platform, a service platform C, a management platform C and a sensing network platform C are established on the management cloud platform, and the user platform C, the service platform C, the management platform C, the sensing network platform C and the object platform C are sequentially interacted;

the sensing network platform C senses request information sent by a user and received by the object platform C and sends the request information to the management platform C, the management platform C acquires step gas consumption information and peak and valley gas consumption information of the user, then calculates the step gas consumption information and the peak and valley gas consumption information by combining with corresponding gas prices to generate user gas price information, and sends the user gas price information to the user platform C through the service platform C; and the management platform forwards the user gas price information received by the user platform C to the user platform through the service platform.

Further, the management platform C calls step gas consumption information and peak-valley gas consumption information of a user, and calls a peak-valley gas price and a step gas floating rate; and the management platform C acquires the user gas price information according to the step gas consumption information, the peak-valley gas price and the step gas floating rate.

Further, when the sensing network platform needs to correct the gas information data in the object platform according to the local pressure, the sensing network platform senses the local pressure data and the gas information data; the sensing network platform is interacted with an off-network cloud platform, and the off-network cloud platform is a sensing cloud platform;

a user platform B and an object platform B are established on the sensing network platform, a service platform B, a management platform B and a sensing network platform B are established on the sensing cloud platform, and the user platform B, the service platform B, the management platform B, the sensing network platform B and the object platform B are sequentially interacted;

the sensing network platform B senses the local pressure data and the gas information data received by the object platform B and sends the local pressure data and the gas information data to the management platform B; and the management platform B corrects the gas information data according to the local pressure data and then sends the corrected gas information data to the user platform B.

Furthermore, the sensing network platform comprises a sensing network management platform, a telecommunication operator communication platform, a gateway module and a wireless communication module which are sequentially interacted; and the user platform B and the object platform B are both established on the sensing network management platform.

Compared with the prior art, the invention has the following advantages and beneficial effects:

according to the intelligent city off-network operation method and system based on the intelligent gas meter, the complex operation process in the intelligent gas system is completed through cloud computing through a unified Internet of things architecture, so that the restriction of the operation capacity of a main chip on the intelligent gas system is avoided, the development prospect of the intelligent gas system is greatly expanded, the difficulty in providing support for the intelligent gas system through cloud computing is greatly simplified, and the large-scale popularization and application are facilitated.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

FIG. 1 is a schematic diagram of the process steps of the present invention;

FIG. 2 is a schematic diagram of the system of the present invention;

FIG. 3 is a schematic diagram of a connection architecture of a management cloud platform according to the present invention;

FIG. 4 is a schematic diagram of a connection architecture of a management cloud platform according to the present invention;

FIG. 5 is a schematic diagram of a connection architecture of a sensor network platform according to the present invention;

fig. 6 is a schematic diagram of a connection architecture of a sensor network platform according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to examples and the accompanying drawings, and the exemplary embodiments and descriptions thereof are only used for explaining the present invention and are not used as limiting the present invention.

Examples

As shown in fig. 1, fig. 3 and fig. 4, the intelligent city off-network operation method based on the intelligent gas meter includes the following steps: establishing an Internet of things of the intelligent gas meter; the intelligent gas meter Internet of things comprises a user platform, a service platform, a management platform, a sensing network platform and an object platform which are sequentially interacted; when a user requests for a gas payment to the Internet of things of the intelligent gas meter through the user platform, the service platform receives request information of the user on the user platform and forwards the request information to the management platform; the management platform is interacted with the off-network cloud platform, and the off-network cloud platform is a management cloud platform; a user platform C and an object platform C are established on the management platform, a service platform C, a management platform C and a sensing network platform C are established on the management cloud platform, and the user platform C, the service platform C, the management platform C, the sensing network platform C and the object platform C are sequentially interacted; the sensing network platform C senses request information sent by a user and received by the object platform C and sends the request information to the management platform C, the management platform C acquires step gas consumption information and peak and valley gas consumption information of the user, then calculates the step gas consumption information and the peak and valley gas consumption information by combining with corresponding gas prices to generate user gas price information, and sends the user gas price information to the user platform C through the service platform C; and the management platform forwards the user gas price information received by the user platform C to the user platform through the service platform.

In the implementation of this embodiment, a novel structure of the internet of things is adopted at first, and the structure of the internet of things includes a user platform, a service platform, a management platform, a sensing network platform and an object platform which are sequentially interactive.

For an intelligent gas system, some functions which are easy to realize, such as functions of transfinite alarm, common flow statistics, user data statistics and the like, can be processed by adopting a common processor, and a management platform is a main chip for realizing control and data calling; however, many current gas charging systems adopt a peak-to-valley gas and step gas price mode for charging, which causes that a large amount of real-time integral operation is needed when a main chip processes the data, and the pressure of the main chip is too large, and at the moment, the invention introduces a cloud computing technology.

In the cloud computing process of adding the peak-valley gas price and the step gas price, the management platform is a receiver of the step gas information and the peak-valley gas information, a sender of the step gas information and the peak-valley gas information during off-line computing, and meanwhile the management platform needs to receive user gas price information after computing is completed, so that the inventor creatively utilizes the five-platform structure set forth above to construct an interactive relationship between the cloud platform and the management platform. And establishing a user platform C and an object platform C on the management platform, wherein the object platform C provides step gas consumption information and peak-valley gas consumption information for the cloud platform, the user platform C provides instructions for the cloud platform, and finally the user platform C obtains the gas price information of the user through the operation of the management platform C. According to the invention, the complex operation process in the intelligent gas system is completed through cloud computing through a unified Internet of things architecture, so that the restriction of the operation capability of the main chip on the intelligent gas system is avoided, the development prospect of the intelligent gas system is greatly expanded, the difficulty in providing support for the intelligent gas system through cloud computing is greatly simplified, and the large-scale popularization and application are facilitated.

To further illustrate the working process of the embodiment, the management platform C retrieves the step air consumption information and the peak-to-valley air consumption information of the user, and retrieves the peak-to-valley air consumption price and the step air consumption floating rate; and the management platform C acquires the user gas price information according to the step gas consumption information, the peak-valley gas price and the step gas floating rate.

As shown in fig. 5 and fig. 6, to further illustrate the working process of this embodiment, when the sensing network platform needs to correct the gas information data in the object platform according to the local pressure, the sensing network platform senses the local pressure data and the gas information data; the sensing network platform is interacted with an off-network cloud platform, and the off-network cloud platform is a sensing cloud platform; a user platform B and an object platform B are established on the sensing network platform, a service platform B, a management platform B and a sensing network platform B are established on the sensing cloud platform, and the user platform B, the service platform B, the management platform B, the sensing network platform B and the object platform B are sequentially interacted; the sensing network platform B senses the local pressure data and the gas information data received by the object platform B and sends the local pressure data and the gas information data to the management platform B; and the management platform B corrects the gas information data according to the local pressure data and then sends the corrected gas information data to the user platform B.

When this embodiment is implemented, each district's atmospheric pressure itself is different, can cause the gas meter to detect the data of gas inaccurate, and in prior art, the mode of checking once of adopting more carries out data correction, nevertheless along with the difference of season and weather, atmospheric pressure also can change at any time, and these changes can influence the accuracy of gas meter measurement itself. In the invention, all the checking work is not required to be finished on the gas meter, but the gas information data is corrected through the cloud service according to the local pressure data, so that the detection precision is improved, and the checking cost is also reduced.

For further explaining the working process of the embodiment, the sensing network platform comprises a sensing network management platform, a telecommunication operator communication platform, a gateway module and a wireless communication module which are sequentially interacted; and the user platform B and the object platform B are both established on the sensing network management platform.

As shown in fig. 2, the smart city off-network computing system based on the intelligent gas meter comprises an internet of things of the intelligent gas meter; the intelligent gas meter Internet of things comprises a user platform, a service platform, a management platform, a sensing network platform and an object platform which are sequentially interacted;

when a user requests for a gas payment to the Internet of things of the intelligent gas meter through the user platform, the service platform receives request information of the user on the user platform and forwards the request information to the management platform; the management platform is interacted with the off-network cloud platform, and the off-network cloud platform is a management cloud platform;

a user platform C and an object platform C are established on the management platform, a service platform C, a management platform C and a sensing network platform C are established on the management cloud platform, and the user platform C, the service platform C, the management platform C, the sensing network platform C and the object platform C are sequentially interacted;

the sensing network platform C senses request information sent by a user and received by the object platform C and sends the request information to the management platform C, the management platform C acquires step gas consumption information and peak and valley gas consumption information of the user, then calculates the step gas consumption information and the peak and valley gas consumption information by combining with corresponding gas prices to generate user gas price information, and sends the user gas price information to the user platform C through the service platform C; and the management platform forwards the user gas price information received by the user platform C to the user platform through the service platform.

To further illustrate the working process of this embodiment, the management platform C retrieves the step air consumption information and the peak-to-valley air consumption information of the user, and retrieves the peak-to-valley air consumption price and the step air consumption floating rate; and the management platform C acquires the user gas price information according to the step gas consumption information, the peak-valley gas price and the step gas floating rate.

For further explaining the working process of the embodiment, when the sensing network platform needs to correct the gas information data in the object platform according to the local pressure, the sensing network platform senses the local pressure data and the gas information data; the sensing network platform is interacted with an off-network cloud platform, and the off-network cloud platform is a sensing cloud platform;

a user platform B and an object platform B are established on the sensing network platform, a service platform B, a management platform B and a sensing network platform B are established on the sensing cloud platform, and the user platform B, the service platform B, the management platform B, the sensing network platform B and the object platform B are sequentially interacted;

the sensing network platform B senses the local pressure data and the gas information data received by the object platform B and sends the local pressure data and the gas information data to the management platform B; and the management platform B corrects the gas information data according to the local pressure data and then sends the corrected gas information data to the user platform B.

Furthermore, the sensing network platform comprises a sensing network management platform, a telecommunication operator communication platform, a gateway module and a wireless communication module which are sequentially interacted; and the user platform B and the object platform B are both established on the sensing network management platform.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (6)

1. An intelligent city off-network operation method based on an intelligent gas meter is characterized by comprising the following steps:

establishing an Internet of things of the intelligent gas meter; the intelligent gas meter Internet of things comprises a user platform, a service platform, a management platform, a sensing network platform and an object platform which are sequentially interacted;

when a user requests for a gas payment to the Internet of things of the intelligent gas meter through the user platform, the service platform receives request information of the user on the user platform and forwards the request information to the management platform; the management platform is interacted with the off-network cloud platform, and the off-network cloud platform is a management cloud platform;

a user platform C and an object platform C are established on the management platform, a service platform C, a management platform C and a sensing network platform C are established on the management cloud platform, and the user platform C, the service platform C, the management platform C, the sensing network platform C and the object platform C are sequentially interacted;

the sensing network platform C senses request information sent by a user and received by the object platform C and sends the request information to the management platform C, the management platform C acquires step gas consumption information and peak and valley gas consumption information of the user, then calculates the step gas consumption information and the peak and valley gas consumption information by combining with corresponding gas prices to generate user gas price information, and sends the user gas price information to the user platform C through the service platform C; the management platform forwards the user gas price information received by the user platform C to the user platform through the service platform;

further comprising the steps of:

when the sensing network platform needs to correct the gas information data in the object platform according to the local pressure, the sensing network platform senses the local pressure data and the gas information data; the sensing network platform is interacted with an off-network cloud platform, and the off-network cloud platform is a sensing cloud platform;

a user platform B and an object platform B are established on the sensing network platform, a service platform B, a management platform B and a sensing network platform B are established on the sensing cloud platform, and the user platform B, the service platform B, the management platform B, the sensing network platform B and the object platform B are sequentially interacted;

the sensing network platform B senses the local pressure data and the gas information data received by the object platform B and sends the local pressure data and the gas information data to the management platform B; and the management platform B corrects the gas information data according to the local pressure data and then sends the corrected gas information data to the user platform B.

2. The intelligent city off-network operation method based on the intelligent gas meter as claimed in claim 1, wherein the management platform C retrieves step gas consumption information and peak-to-valley gas consumption information of the user, and retrieves peak-to-valley gas price and step gas floating rate; and the management platform C acquires the user gas price information according to the step gas consumption information, the peak-valley gas price and the step gas floating rate.

3. The intelligent city off-network operation method based on the intelligent gas meter as claimed in claim 1, wherein the sensing network platform comprises a sensing network management platform, a telecommunication operator communication platform, a gateway module and a wireless communication module which are sequentially interactive; and the user platform B and the object platform B are both established on the sensing network management platform.

4. The intelligent city off-network computing system based on the intelligent gas meter is characterized by comprising an intelligent gas meter Internet of things; the intelligent gas meter Internet of things comprises a user platform, a service platform, a management platform, a sensing network platform and an object platform which are sequentially interacted;

when a user requests for a gas payment to the Internet of things of the intelligent gas meter through the user platform, the service platform receives request information of the user on the user platform and forwards the request information to the management platform; the management platform is interacted with the off-network cloud platform, and the off-network cloud platform is a management cloud platform;

a user platform C and an object platform C are established on the management platform, a service platform C, a management platform C and a sensing network platform C are established on the management cloud platform, and the user platform C, the service platform C, the management platform C, the sensing network platform C and the object platform C are sequentially interacted;

the sensing network platform C senses request information sent by a user and received by the object platform C and sends the request information to the management platform C, the management platform C acquires step gas consumption information and peak and valley gas consumption information of the user, then calculates the step gas consumption information and the peak and valley gas consumption information by combining with corresponding gas prices to generate user gas price information, and sends the user gas price information to the user platform C through the service platform C; the management platform forwards the user gas price information received by the user platform C to the user platform through the service platform;

when the sensing network platform needs to correct the gas information data in the object platform according to the local pressure, the sensing network platform senses the local pressure data and the gas information data; the sensing network platform is interacted with an off-network cloud platform, and the off-network cloud platform is a sensing cloud platform;

a user platform B and an object platform B are established on the sensing network platform, a service platform B, a management platform B and a sensing network platform B are established on the sensing cloud platform, and the user platform B, the service platform B, the management platform B, the sensing network platform B and the object platform B are sequentially interacted;

the sensing network platform B senses the local pressure data and the gas information data received by the object platform B and sends the local pressure data and the gas information data to the management platform B; and the management platform B corrects the gas information data according to the local pressure data and then sends the corrected gas information data to the user platform B.

5. The intelligent city off-network computing system based on intelligent gas meters as claimed in claim 4, wherein the management platform C retrieves step gas consumption information and peak-to-valley gas consumption information of users, and retrieves peak-to-valley gas price and step gas floating rate; and the management platform C acquires the user gas price information according to the step gas consumption information, the peak-valley gas price and the step gas consumption floating rate.

6. The intelligent city off-network computing system based on the intelligent gas meter as claimed in claim 4, wherein the sensing network platform comprises a sensing network management platform, a telecom operator communication platform, a gateway module and a wireless communication module which are sequentially interacted; and the user platform B and the object platform B are both established on the sensing network management platform.

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