CN113194151A

CN113194151A - Ecological corridor energy consumption monitoring method and platform based on modBus serial port gateway

Info

Publication number: CN113194151A
Application number: CN202110519241.7A
Authority: CN
Inventors: 叶青; 谢孙华
Original assignee: Shanghai Jiesheng Liye Network Technology Co ltd
Current assignee: Shanghai Jiesheng Liye Network Technology Co ltd
Priority date: 2021-05-12
Filing date: 2021-05-12
Publication date: 2021-07-30

Abstract

The invention belongs to the technical field of energy consumption monitoring, and discloses an ecological corridor energy consumption monitoring method based on a modBus serial port gateway, which comprises the following steps: load power data are collected through a metering ammeter, and the load power data are fed back to an intelligent terminal through a modBus gateway; judging the power utilization area and the power utilization type of the acquired load power data through the intelligent terminal; counting the load power data according to the power utilization area and the power utilization type to which the load power data belong to form power utilization statistical data, and realizing energy consumption statistics, analysis, monitoring and management; the reading and management functions of the electric meter are realized, and the external release function is realized, so that a user can access the electric meter in a local area network or a wide area network; the electric energy can be classified according to the types of air conditioners, lighting, power and special electricity, can be classified according to the regions of associated buildings, and achieves the functions of classified and subentry measurement of electric energy.

Description

Ecological corridor energy consumption monitoring method and platform based on modBus serial port gateway

Technical Field

The invention belongs to the technical field of energy consumption monitoring, and particularly relates to an ecological corridor energy consumption monitoring method and platform based on a modBus serial port gateway.

Background

Usually, the ammeter is all concentrated and installs in the electronic box, therefore traditional energy monitoring network deployment is through 485 lines with each ammeter hand-in-hand connection, and energy consumption information acquisition is carried out to each ammeter to the rethread concentrator. And the newly-opened ecological corridor owner of the Yanghe requires energy consumption monitoring on various electric meters in landscape, building and municipal administration.

But because each ammeter installation dispersion, an ammeter is installed to every electronic box, and the distance between the ammeter is far away, and it is too high to gather the scheme cost through 485 line connection again through the concentrator, and 485 line connection distance is too far away, can cause the packet loss phenomenon.

Disclosure of Invention

The invention aims to provide an ecological corridor energy consumption monitoring method and an ecological corridor energy consumption monitoring platform based on a modBus serial port gateway, which aim to solve the existing problems.

In order to achieve the purpose, the invention provides the following technical scheme: an ecological corridor energy consumption monitoring method based on a modBus serial port gateway comprises the following steps:

load power data are collected through a metering ammeter, and the load power data are fed back to an intelligent terminal through a modBus gateway;

judging the power utilization area and the power utilization type of the acquired load power data through the intelligent terminal;

and counting the load power data according to the power utilization area and the power utilization type to which the load power data belong to form power utilization statistical data.

Preferably, the method for monitoring the energy consumption of the ecological corridor based on the modBus serial gateway comprises the following steps before the load power data are collected through a metering ammeter and fed back to an intelligent terminal through the modBus gateway:

and establishing the connection between the modBus gateway and the metering electric meter, and establishing the connection between the modBus gateway and the intelligent terminal.

Preferably, the method for monitoring the energy consumption of the ecological corridor based on the modBus serial port gateway comprises the following steps of counting the load power data according to the electricity utilization area and the electricity utilization type to which the load power data belong, and forming electricity utilization statistical data:

and carrying out electricity charging according to the electricity utilization statistical data.

establishing connection between the intelligent terminal and a cloud end;

and feeding back the electricity utilization statistical data to the cloud for storage.

presetting an early warning electricity utilization value according to the electricity utilization area and the electricity utilization type;

establishing connection between the intelligent terminal and a user side;

and judging whether the electricity utilization statistical data exceed an early warning electricity utilization value, forming alarm information when the electricity utilization statistical data exceed the early warning electricity utilization value, and feeding the alarm information back to the user side.

establishing connection between the intelligent terminal and the WebAPI, and establishing connection between a third party terminal and the WebAPI;

and the third party terminal calls the electricity utilization statistical data of the intelligent terminal through the WebAPI.

presetting an energy-saving power utilization value according to the power utilization area and the power utilization type;

and comparing the electricity utilization statistical data with the energy-saving electricity utilization value to form an energy-saving analysis report.

The invention also provides an ecological corridor energy consumption monitoring platform based on the modBus serial port gateway, which comprises an intelligent terminal, the modBus gateway and a plurality of metering ammeters for classifying and collecting load power data, wherein the output ends of the metering ammeters are connected with the input end connected with the modBus gateway, and the output end of the modBus gateway is connected with the input end of the intelligent terminal;

the intelligent terminal comprises:

the first judgment unit is used for judging the electricity utilization area and the electricity utilization type of the acquired load power data;

and the statistical unit is used for performing statistics on the load power data according to the power utilization area and the power utilization type to which the load power data belong to form power utilization statistical data.

As an ecological corridor energy consumption monitoring platform based on a modBus serial port gateway, the invention preferably comprises:

the establishing unit is used for establishing connection between the modBus gateway and the metering ammeter, establishing connection between the modBus gateway and the intelligent terminal, establishing connection between the intelligent terminal and a cloud terminal, establishing connection between the intelligent terminal and a user side, establishing connection between the intelligent terminal and a WebAPI, and establishing connection between a third party terminal and the WebAPI.

As an ecological corridor energy consumption monitoring platform based on a modBus serial port gateway of the present invention, preferably, the intelligent terminal further includes:

the charging unit is used for charging the electricity consumption according to the electricity consumption statistical data;

the sending unit is used for feeding the electricity utilization statistical data back to the cloud end for storage;

the first preset unit is used for presetting an early warning electricity utilization value according to the electricity utilization area and the electricity utilization type;

the second judgment unit is used for judging whether the electricity utilization statistical data exceed an early warning electricity utilization value;

the alarm unit is used for forming alarm information when the electricity utilization statistical data exceed the early-warning electricity utilization value and feeding the alarm information back to the user side;

the second preset unit is used for presetting an energy-saving power utilization value according to the power utilization area and the power utilization type;

and the analysis unit is used for comparing the electricity utilization statistical data with the energy-saving electricity utilization value to form an energy-saving analysis report.

Compared with the prior art, the invention has the following beneficial effects: energy consumption statistics, analysis, monitoring and management are realized; the reading and management functions of the electric meter are realized, and the external release function is realized, so that a user can access the electric meter in a local area network or a wide area network; the power utilization types can be classified according to air conditioners, lighting, power and special power utilization, and the regional classification can be carried out according to related buildings, so that the classified and subentry metering function of electric energy is realized; a single electric meter is used as a minimum accounting unit, related parameters under the single electric meter can be subjected to quota management, energy consumption behaviors are monitored, and abnormal alarming is carried out; providing a matched WebAPI for a third party to call related data of the energy consumption system; the energy saving effect can be recorded and evaluated, the building energy saving amount can be automatically predicted, and an energy saving analysis report can be generated.

Drawings

FIG. 1 is a flowchart of a first embodiment of an ecological corridor energy consumption monitoring method based on a modBus serial port gateway according to the present invention;

FIG. 2 is a second flowchart of the ecological corridor energy consumption monitoring method based on a modBus serial port gateway according to the first embodiment of the present invention;

FIG. 3 is a flowchart of a second embodiment of an ecological corridor energy consumption monitoring method based on a modBus serial gateway according to the present invention;

FIG. 4 is a flowchart of another third embodiment of the ecological corridor energy consumption monitoring method based on a modBus serial port gateway of the present invention;

FIG. 5 is a flowchart of a fourth embodiment of an ecological corridor energy consumption monitoring method based on a modBus serial gateway according to the present invention;

FIG. 6 is a flowchart of a fifth embodiment of an ecological corridor energy consumption monitoring method based on a modBus serial gateway according to the present invention;

FIG. 7 is a flowchart of a sixth embodiment of an ecological corridor energy consumption monitoring method based on a modBus serial gateway according to the present invention;

fig. 8 is a schematic structural diagram of an ecological corridor energy consumption monitoring platform based on a modBus serial port gateway.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides the following technical solutions: an ecological corridor energy consumption monitoring method based on a modBus serial port gateway comprises the following steps:

s100, collecting load power data through a metering ammeter, and feeding the load power data back to an intelligent terminal through a modBus gateway;

s200, judging the power utilization area and the power utilization type of the acquired load power data through an intelligent terminal;

s300, the load power data are counted according to the power utilization area and the power utilization type to which the load power data belong, and power utilization statistical data are formed.

It is worth to be noted that the Modbus is a serial communication protocol, and the Modbus gateway device has the functions of data acquisition, wired/4G data transmission and data superposition; the device can be matched with all devices supporting the standard modbus protocol, and is plug and play. And the Modbus gateway can support a plurality of serial devices and forwards the serial devices to a remote network. For example, the remote serial device is virtually connected to a local computer through a TCP/IP protocol to realize remote device management.

In the embodiment, the power utilization types are classified according to air conditioners, lighting, power, special power utilization and the like, and the regional classification is carried out according to related buildings, so that the classified and itemized work measurement of electric energy is realized; the networking mode adopts modBus serial ports gateway and links to each other with each measurement ammeter, gathers each ammeter data through the net twine, has reduced the hardware cost.

Specifically, the step S100 of collecting load power data through a metering meter and feeding back the load power data to the intelligent terminal through the modBus gateway includes:

s10, connection between the modBus gateway and the metering electric meter is established, and connection between the modBus gateway and the intelligent terminal is established.

Referring to fig. 3, specifically, in S300, the step of counting the load power data according to the power consumption region and the power consumption type to which the load power data belongs to form power consumption statistical data includes:

and S310, carrying out electricity charging according to the electricity statistical data.

In the embodiment, the charging according to different areas and different types of electricity utilization is realized.

Referring to fig. 4, specifically, after the step S300 of performing statistics on the load power data according to the power consumption region and the power consumption type to which the load power data belongs, and forming power consumption statistics data, the method includes the steps of:

s320, establishing connection between the intelligent terminal and a cloud end;

s321, feeding back the electricity utilization statistical data to the cloud for storage.

In this embodiment, the load power data that will gather are sent to the high in the clouds and are stored, have practiced thrift intelligent terminal's memory, and then have improved intelligent terminal's functioning speed, and have prevented that data from losing, have further improved the security of data.

Referring to fig. 5, specifically, in S300, the step of counting the load power data according to the power consumption region and the power consumption type to which the load power data belongs to form power consumption statistical data includes:

s330, presetting an early warning electricity utilization value according to the electricity utilization area and the electricity utilization type;

s331, establishing connection between the intelligent terminal and a user side;

s332, judging whether the electricity utilization statistical data exceed the early warning electricity utilization value or not, forming alarm information when the electricity utilization statistical data exceed the early warning electricity utilization value, and feeding the alarm information back to the user side.

In this embodiment, settle through predetermineeing the early warning land used to compare power consumption statistics with early warning power consumption value, carry out the police dispatch newspaper when power consumption statistics surpasss early warning power consumption value, reach the effect of reminding user's using electricity wisely.

Referring to fig. 6, specifically, in S300, the step of counting the load power data according to the power consumption region and the power consumption type to which the load power data belongs to form power consumption statistical data includes:

s340, establishing connection between the intelligent terminal and the WebAPI, and establishing connection between a third party terminal and the WebAPI;

and S341 the third party terminal calls the electricity consumption statistical data of the intelligent terminal through the WebAPI.

In this embodiment, a matching WebAPI is provided for a third party to call the relevant data of the energy consumption system.

Referring to fig. 7, specifically, after the step S300 of performing statistics on the load power data according to the power consumption region and the power consumption type to which the load power data belongs, and forming power consumption statistics data, the method includes the steps of:

s350, presetting an energy-saving power utilization value according to the power utilization area and the power utilization type;

s351, comparing the electricity utilization statistical data with the energy-saving electricity utilization value to form an energy-saving analysis report.

In this embodiment, the energy saving effect is recorded and evaluated, the building energy saving amount is automatically predicted, and an energy saving analysis report is generated.

Referring to fig. 8, the invention further provides an ecological corridor energy consumption monitoring method based on the modBus serial port gateway, which comprises an intelligent terminal, the modBus gateway and a plurality of metering ammeters for classifying and collecting load power data, wherein output ends of the metering ammeters are connected with an input end connected with the modBus gateway, and an output end of the modBus gateway is connected with an input end of the intelligent terminal;

the intelligent terminal includes:

Specifically, the method comprises the following steps:

the building unit is used for building connection between the modBus gateway and the metering ammeter, building connection between the modBus gateway and the intelligent terminal, building connection between the intelligent terminal and the cloud end, building connection between the intelligent terminal and the user end, building connection between the intelligent terminal and the WebAPI, and building connection between the third party terminal and the WebAPI.

Specifically, the intelligent terminal further comprises:

the sending unit is used for feeding back the electricity utilization statistical data to the cloud end for storage;

the second judgment unit is used for judging whether the electricity utilization statistical data exceed an early warning electricity utilization value or not;

The networking mode of the invention adopts a modBus serial port gateway to be connected with each ammeter, and the data of each ammeter is collected through a network cable, thereby reducing the hardware cost.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. An ecological corridor energy consumption monitoring method based on a modBus serial port gateway is characterized by comprising the following steps:

s200, judging the power utilization area and the power utilization type of the acquired load power data through the intelligent terminal;

2. The ecological corridor energy consumption monitoring method based on the modBus serial gateway as recited in claim 1, wherein before the load power data is collected by the metering electric meter at S100 and fed back to the intelligent terminal through the modBus gateway, the method comprises the steps of:

3. The method for monitoring the energy consumption of the ecological corridor based on the modBus serial port gateway as claimed in claim 1, wherein the step of performing statistics on the load power data according to the electricity utilization area and the electricity utilization type to which the load power data belongs in the step S300 to form electricity utilization statistics data comprises:

and S310, carrying out electricity charging according to the electricity utilization statistical data.

4. The method for monitoring the energy consumption of the ecological corridor based on the modBus serial port gateway as claimed in claim 1, wherein the step of performing statistics on the load power data according to the electricity utilization area and the electricity utilization type to which the load power data belongs in the step S300 to form electricity utilization statistics data comprises:

s320, establishing connection between the intelligent terminal and a cloud end;

s321, feeding the electricity utilization statistical data back to the cloud end for storage.

5. The method for monitoring the energy consumption of the ecological corridor based on the modBus serial port gateway as claimed in claim 1, wherein the step of performing statistics on the load power data according to the electricity utilization area and the electricity utilization type to which the load power data belongs in the step S300 to form electricity utilization statistics data comprises:

s331, establishing connection between the intelligent terminal and a user side;

s332, judging whether the electricity utilization statistical data exceed an early warning electricity utilization value or not, forming alarm information when the electricity utilization statistical data exceed the early warning electricity utilization value, and feeding the alarm information back to a user side.

6. The method for monitoring the energy consumption of the ecological corridor based on the modBus serial port gateway as claimed in claim 1, wherein the step of performing statistics on the load power data according to the electricity utilization area and the electricity utilization type to which the load power data belongs in the step S300 to form electricity utilization statistics data comprises:

and S341 calling the electricity utilization statistical data of the intelligent terminal by the third party terminal through the WebAPI.

7. The method for monitoring the energy consumption of the ecological corridor based on the modBus serial port gateway as claimed in claim 1, wherein the step of performing statistics on the load power data according to the electricity utilization area and the electricity utilization type to which the load power data belongs in the step S300 to form electricity utilization statistics data comprises:

8. An ecological corridor energy consumption monitoring platform based on a modBus serial port gateway is characterized by comprising an intelligent terminal, the modBus gateway and a plurality of metering ammeters for classifying and collecting load power data, wherein the output ends of the metering ammeters are connected with the input end connected with the modBus gateway, and the output end of the modBus gateway is connected with the input end of the intelligent terminal;

the intelligent terminal comprises:

9. The ecological corridor energy consumption monitoring system based on the modBus serial port gateway as recited in claim 8, comprising:

10. The ecological corridor energy consumption monitoring platform based on the modBus serial gateway of claim 8, wherein the intelligent terminal further comprises: