CN201563006U

CN201563006U - Electrical energy data acquisition system based on wireless net-like self-organizing network

Info

Publication number: CN201563006U
Application number: CN2009202762470U
Authority: CN
Inventors: 秦冬雷; 吴锡生; 吴滨
Original assignee: Wuxi Hengtong Electric Appliance Co Ltd
Current assignee: Wuxi Hengtong Electric Appliance Co Ltd
Priority date: 2009-12-04
Filing date: 2009-12-04
Publication date: 2010-08-25
Anticipated expiration: 2019-12-04

Abstract

The utility model relates to an electrical energy data acquisition system based on wireless net-like self-organizing network, which comprises a main station system, a concentrator and a collector, wherein the main station system comprises a database server, a communication server and a WEB server; the concentrator adopts a three-in-one distribution transformer monitor; the three-in-one distribution transformer monitor comprises a metering monitoring module, a wireless self-organizing network module, a GPRS/CDMA communication module, a first memorizer and a first microprocessor; the collector comprises a type I wireless electrical energy meter, and the type I wireless electrical energy meter comprises a metering module, a wireless self-organizing network module, a second memorizer and a second microprocessor; the three-in-one distribution transformer monitor combines with the type I wireless electrical energy meter to form a wireless net-like self-organizing network; and the three-in-one distribution transformer monitor is connected with the main station system. Based on the wireless net-like self-organizing network communication technique and the embedded development technique integrating the functions of the gateway meter, the concentrator and the distribution transformer monitor, the electrical energy data acquisition system reduces the manufacturing, construction and running costs and improves the communication real-time performance.

Description

Electrical energy data acquiring system based on wireless mesh ad hoc network

(1) technical field

The utility model relates to the remote information acquisition system of power matching network, is specially a kind of electrical energy data acquiring system based on wireless mesh ad hoc network.

(2) background technology

At present, power line carrier, 485 communication+infrared palm machine or GPRS/CDMA and ZIGBEE radio communications are mainly adopted in the collection of energy data.The defective of power line carrier is that real time of data transmission is relatively poor, need under the extreme case 24 hours could be with data back.The defective of 485 communication+infrared palm machines or GPRS/CDMA system has two: the firstth, increase construction volume, and the secondth, infrared palm machine needs personnel to the scene; GPRS/CDMA needs communication cost.The defective of ZIGBEE radio communication is that the application scenario of its design is not the collection that is used for energy data, so its calibration power is lower, transmission range is not enough, needs to increase in addition the power amplification parts.

(3) summary of the invention

At the problems referred to above, the utility model provides a kind of electrical energy data acquiring system based on wireless mesh ad hoc network, and this system does not increase construction volume substantially, real-time communication is good.

Its technical scheme is such: it comprises main station system, concentrator and collector, and described main station system comprises database server, the communication server and WEB server; Described concentrator adopts three-in-one distribution transformer monitoring instrument, described three-in-one distribution transformer monitoring instrument comprises measure monitor module, wireless self-networking module, GPRS/CDMA communication module, first memory and first microprocessor, and described measure monitor module, wireless self-networking module, GPRS/CDMA communication module and first memory are connected with described first microprocessor respectively; Described collector comprises I type radio energy table, described I type radio energy table comprises metering module, wireless self-networking module, second memory and second microprocessor, and described metering module, wireless self-networking module and second memory link to each other with described second microprocessor respectively; Described three-in-one distribution transformer monitoring instrument and described I type radio energy table are formed wireless mesh ad hoc network by described wireless self-networking module; The GPRS/CDMA communication module of described three-in-one distribution transformer monitoring instrument is connected with the communication server of described main station system by optical fiber or GPRS/CDMA channel.

The further technical scheme of the utility model is:

Described collector also comprises II type radio energy table, and described II type radio energy table is by wireless self-networking module and the communication of described I type radio energy table; Described collector also comprises common electric energy meter, and described I type radio energy table also comprises the RS485 communication module, and described common electric energy meter is connected with the RS485 communication module of described I type radio energy table by 485 buses; Described wireless self-networking module comprises wireless communication chips, the 3rd memory and the 3rd microprocessor, and described wireless communication chips, the 3rd memory link to each other with described the 3rd microprocessor respectively.

Technique effect of the present utility model is: three-in-one distribution transformer monitoring instrument rolls into one the function of measuring of Source of Gateway Meter of the prior art, the distribution transformer monitoring running state function with electric data collecting and distribution transformer monitoring instrument of concentrator, solve the channel sharing problem well, reduced communications cost and equipment cost; Three-in-one distribution transformer monitoring instrument and I type radio energy table are formed wireless mesh ad hoc network, can guarantee to collect in real time the electricity consumption data, three-in-one distribution transformer monitoring instrument is connected with the communication server of main station system by optical fiber or GPRS/CDMA channel, upload the data to the information platform of electric power enterprise, the software of main station system obtains these on-the-spot data by information platform, then data are carried out various processing, to realize storage, inquiry, statistics and other Premium Features; By the wireless mesh ad hoc network communication technology and the embedded development technology that realized Source of Gateway Meter, concentrator and the three-in-one function of distribution transformer monitoring instrument, the utility model has reduced manufacturing, construction, operating cost, has improved real-time communication.

(4) description of drawings

Fig. 1 is a structured flowchart of the present utility model;

Fig. 2 is the structured flowchart of the I type radio energy table in the utility model;

Fig. 3 is the structured flowchart of the three-in-one distribution transformer monitoring instrument in the utility model;

Fig. 4 is the structured flowchart of the wireless self-networking module in the utility model;

Fig. 5 is the use schematic diagram of the IEC62056 agreement middleware in the utility model;

Fig. 6 is the flow chart of the IEC62056 agreement middleware software in the utility model.

(5) embodiment

As shown in Figure 1, the utility model comprises main station system, concentrator and collector.Main station system comprises database server, the communication server and WEB server.

Concentrator in the utility model adopts three-in-one distribution transformer monitoring instrument.As shown in Figure 3, three-in-one distribution transformer monitoring instrument comprises measure monitor module, wireless self-networking module, GPRS/CDMA communication module, first memory and first microprocessor, and described measure monitor module, wireless self-networking module, GPRS/CDMA communication module and first memory are connected with first microprocessor respectively.Three-in-one distribution transformer monitoring instrument can also comprise and is connected infrared communication module and RS485 communication module with first microprocessor.Wherein, wireless self-networking module, GPRS/CDMA communication module and first microprocessor are powered by power supply, and stand-by power supply can also be set.Three-in-one distribution transformer monitoring instrument rolls into one the function of measuring of Source of Gateway Meter of the prior art, the distribution transformer monitoring running state function with electric data collecting and distribution transformer monitoring instrument of concentrator, solved the channel sharing problem well, reduced communications cost and equipment cost, can finish separated time well simultaneously and divide platform to become the real-time monitoring of real-time line loss analyzing and distribution transformer running status.

Collector comprises I type radio energy table.As shown in Figure 2, I type radio energy table comprises metering module, wireless self-networking module, second memory and second microprocessor, and described metering module, wireless self-networking module and second memory link to each other with second microprocessor respectively.I type radio energy table also comprises the RS485 communication module.I type radio energy table has networking capability.

Collector can also comprise II type radio energy table, and II type radio energy table does not possess networking function, can only pass through wireless self-networking module and the communication of I type radio energy table.The function of I type radio energy table and II type radio energy table mainly contains metering, pre-payment control.

For the existing equipment of compatibility, collector can also comprise common electric energy meter, and common electric energy meter is connected with the RS485 communication module of I type radio energy table by 485 buses.

Three-in-one distribution transformer monitoring instrument and described I type radio energy table are formed wireless mesh ad hoc network by the wireless self-networking module, realized wireless mesh ad hoc network communication, can guarantee to collect in real time the electricity consumption data of all low-voltage customers, and give three-in-one distribution transformer monitoring instrument with user's electricity consumption data upload by this network.The GPRS/CDMA communication module of three-in-one distribution transformer monitoring instrument is connected with the communication server of main station system by optical fiber or GPRS/CDMA channel, upload the data to the information platform of electric power enterprise.The software of main station system obtains these on-the-spot data by information platform, then data is carried out various processing, to realize storage, inquiry, statistics and other Premium Features, comprises real-time line loss analyzing.

By the wireless mesh ad hoc network communication technology and the embedded development technology that realized Source of Gateway Meter, concentrator and the three-in-one function of distribution transformer monitoring instrument, the utility model has reduced manufacturing, construction, operating cost, has improved real-time communication; Can realize that long-range pre-payment, electrical energy data acquiring, distribution transforming are monitored in real time and separated time divides platform to become real-time line loss analyzing.

As shown in Figure 4, wireless self-networking module in I type radio energy table, II type radio energy table and the three-in-one distribution transformer monitoring instrument comprises wireless communication chips, the 3rd memory and the 3rd microprocessor, and wireless communication chips, the 3rd memory link to each other with the 3rd microprocessor respectively.

In order better systematic unity to be got up, the utility model is also studied and has been realized IEC62056 agreement middleware, Figure 5 shows that the use schematic diagram of this middleware.Need and follow the software that the IEC62056 protocol devices is communicated by letter, can under the situation that need not understand the IEC62056 Details Of Agreement in depth, finish the communication function of software by calling middleware.

Middleware meets software standard, can be called by various programming tools at an easy rate.In use, by easy calling interface, as long as the content that will need to communicate by letter passes to middleware as call parameters, middleware can be produced communication data or resolution data according to the IEC62056 consensus standard automatically, finish that order issues or data collection task, then feedback information is passed to caller.

Perfect agreement need be considered the situation that much may occur, and is therefore very loaded down with trivial details.IEC62056 has comprised a lot of contents, is realized with the form of middleware, and maximum benefit can be reused exactly, and can test fully its agreement accordance.

Figure 6 shows that the flow chart of the IEC62056 agreement middleware software in the utility model, its flow process is as follows:

1) at first judged whether communication,, received data if having;

2) data are carried out verification;

3) intercepting message sign from data;

4) from normative document, read standard content, as resolving foundation;

5) judgement information from which direction is come, if software issues parameter and order, then by standard splicing Frame, and issues, and processing and shaking hands of underlying device are replied flow process simultaneously; Up to communicating by letter successfully, by software interface, to calling the software flow return information;

6), then resolve, and shake hands by flow process and underlying device and to reply by standard if underlying device is uploaded data; After parsing is finished by software interface to the caller return data.

Claims

1. based on the electrical energy data acquiring system of wireless mesh ad hoc network, comprise main station system, concentrator and collector, it is characterized in that: described main station system comprises database server, the communication server and WEB server; Described concentrator adopts three-in-one distribution transformer monitoring instrument, described three-in-one distribution transformer monitoring instrument comprises measure monitor module, wireless self-networking module, GPRS/CDMA communication module, first memory and first microprocessor, and described measure monitor module, wireless self-networking module, GPRS/CDMA communication module and first memory are connected with described first microprocessor respectively; Described collector comprises I type radio energy table, described I type radio energy table comprises metering module, wireless self-networking module, second memory and second microprocessor, and described metering module, wireless self-networking module and second memory link to each other with described second microprocessor respectively; Described three-in-one distribution transformer monitoring instrument and described I type radio energy table are formed wireless mesh ad hoc network by described wireless self-networking module; The GPRS/CDMA communication module of described three-in-one distribution transformer monitoring instrument is connected with the communication server of described main station system by optical fiber or GPRS/CDMA channel.

2. the electrical energy data acquiring system based on wireless mesh ad hoc network according to claim 1, it is characterized in that: described collector also comprises II type radio energy table, and described II type radio energy table is by wireless self-networking module and the communication of described I type radio energy table.

3. the electrical energy data acquiring system based on wireless mesh ad hoc network according to claim 1, it is characterized in that: described collector also comprises common electric energy meter, described I type radio energy table also comprises the RS485 communication module, and described common electric energy meter is connected with the RS485 communication module of described I type radio energy table by 485 buses.

4. according to each described electrical energy data acquiring system in the claim 1 to 3 based on wireless mesh ad hoc network, it is characterized in that: described wireless self-networking module comprises wireless communication chips, the 3rd memory and the 3rd microprocessor, and described wireless communication chips, the 3rd memory link to each other with described the 3rd microprocessor respectively.