CN202565025U - Alternating-current distribution multi-loop monitoring system - Google Patents

Abstract

The utility model discloses an alternating-current distribution multi-loop monitoring system comprising a master control unit (MCU) plate, a human-computer interaction unit, a bus electric quantity collecting unit and a distributing branch current collecting device. The human-computer interaction unit, the bus electric quantity collecting unit and the distributing branch current collecting device are respectively connected with the MCU plate. The alternating-current distribution multi-loop monitoring system can overcome the defects that investment is large and installation and maintenance is not convenient in the prior art, and has the advantages of being little in investment and convenient to install and maintain.

Description

A kind of AC distribution multiloop supervisory control system

Technical field

The utility model relates to the AC distribution technical field, particularly, relates to a kind of AC distribution multiloop supervisory control system.

Background technology

Along with the development of distribution system, the propelling of intelligent grid construction and intelligent power distribution technology, various instrument are more and more clear to integrated and direction web development in the intelligent power distribution loop.

At present, the integrated advantage of single loop occurs, but the integrated of a plurality of loops also do not produced.Go out in the line loop at traditional intelligent power distribution; Realize monitoring to the various electric parameters of a plurality of distribution output loop load; The general scheme that adopts is: the independent configuration of user can be measured the instrument of various electric parameters, and the user is necessary for 1 ammeter of every loop load configuration, 1 voltmeter, 1 wattmeter, 1 electric energy meter, 1 I/O module.And in order to realize network management, each instrument also must be carried out communication.

Therefore, the electric measuring instrument that is used to monitor the threephase load of every road reaches 5.Adopt the shortcoming of this scheme to be, need a plurality of instrument could monitor the various electric weight of every road load, the monitoring way is many more, and instrumentation is many more, and user installation, maintenance, management are very inconvenient, and investment is bigger; Advantage is that single instrument is out of order and does not influence the monitoring of other loop electric weight, and the precision of measurement is higher, and real-time is stronger.

Another kind of common scheme is: the instrument of monitoring each loop electric weight has replaced a plurality of instrument by 1 multi-functional intelligence instrument, and 1 multifunction instrument integrates measures electric current, voltage, power, electric energy and switching value input and output, and can carry out the networking communication.

The advantage of this scheme is that the load of every road only need be disposed 1 instrument and can be realized measurement and control to all electric parameters of this road load, and networking is convenient, and customer investment is less, installs, safeguards, management is comparatively convenient, and the precision of measurement is higher, and real-time is stronger; But need each loop that 1 multifunction instrument is installed, it is still not too convenient when multiloop is monitored, to install, safeguard, manage.

In sum, in realizing the process of the utility model, the inventor find to exist at least in the prior art investment big with install and safeguard defective such as inconvenience.

The utility model content

The purpose of the utility model is, to the problems referred to above, proposes a kind of AC distribution multiloop supervisory control system, to realize investment little and installation and advantage easy to maintenance.

This AC distribution multiloop supervisory control system; Be mainly used in the electrical quantity controller switching equipment that needs a plurality of equipped circuits of monitoring; It is with the busbar voltage in the loop, power factor, frequency, total current, total active power, total active energy; The electric current of a plurality of important equipped circuits, power, electric energy are concentrated and are measured and demonstration; And can concentrate monitoring and show the on off state in each loop of equipped circuit, more than each parameter also can accomplish data upload through the standard Intelligent Communications Interface, realize concentrated measurement and supervision that the better simply distribution of monitoring requirement is gone out line loop.

For realizing above-mentioned purpose; The technical scheme that the utility model adopts is: a kind of AC distribution multiloop supervisory control system; Comprise the main control MCU plate, and the man-machine interaction unit that is connected with said main control MCU plate respectively, bus electric quantity acquisition unit with allot the branch current collecting device.

Further, above-described AC distribution multiloop supervisory control system, also comprise be used for that selecting type is equipped with allot the branch road Condition Monitoring Unit, the said branch road Condition Monitoring Unit of allotting is connected with the main control MCU plate.

Further, the said branch current collecting device of allotting specifically comprises:

Three-phase in that the corresponding electric current of allotting branch road uses during greater than 100A is allotted the branch current collecting unit, and/or, allot the branch current collecting unit what the corresponding electric current of allotting branch road used during less than 100A.

Further, said main control MCU plate comprises first single-chip microcomputer that is connected with man-machine interaction unit, and the communication module that is connected with said first single-chip microcomputer respectively, alarm output module and communication interface; Said bus electric quantity acquisition unit, allot the branch current collecting device and allot the branch road Condition Monitoring Unit, be connected with communication interface respectively.

Further, said communication interface comprises in RS485 communication interface, RS422 communication interface and the RS232 communication interface any one at least.

Further, said man-machine interaction unit comprises operation push-button and LCDs at least; Said operation push-button and LCDs are connected with the main control MCU plate respectively.

Further; Said bus electrical measurement unit; Comprise the second singlechip that is connected with the main control MCU plate through the corresponding communication interface; Electric quantity metering module that is connected with said second singlechip respectively and lightning protection and master switch state monitoring module, and the 3rd correction data memory module that is connected with said electric quantity metering module respectively and electric weight detecting sensor module; The core parts of said electric quantity metering module comprise that model is the chip of ATT7026.

Further, the said branch road Condition Monitoring Unit of allotting comprises the 3rd single-chip microcomputer that is connected with the main control MCU plate through the corresponding communication interface, and the multichannel branch road state monitoring module that is connected with said the 3rd single-chip microcomputer; Said multichannel branch road state monitoring module comprises 16 road branch road state monitoring module or 32 road branch road state monitoring module at least.

Further; Said three-phase is allotted the branch current collecting unit; Comprise the 4th single-chip microcomputer and the first electric quantity metering module that are connected with the main control MCU plate successively through the corresponding communication interface, and first correction data memory module that is connected with the said first electric quantity metering module respectively and multichannel precision current instrument transformer module;

Said multichannel precision current instrument transformer module comprises 12 road precision current instrument transformer modules that are provided with 12 standard current transformer couplings at least.

Further; The said branch current collecting unit of allotting; Comprise the 5th single-chip microcomputer that is connected with the main control MCU plate successively through the corresponding communication interface and the second electric quantity metering module that is provided with the multichannel current transformer coupling that comprises 12 standard current transformers at least, and the second correction data memory module that is connected with the said second electric quantity metering module.

The AC distribution multiloop supervisory control system of each embodiment of the utility model, owing to comprise the main control MCU plate, and the man-machine interaction unit that is connected with the main control MCU plate respectively, bus electric quantity acquisition unit and allot the branch current collecting device; Can be with the busbar voltage in the loop, power factor, frequency, total current, total active power, total active energy; And the electric current of a plurality of important equipped circuits, power, the concentrated measurement of electric energy and demonstration; And can concentrate monitoring and show the on off state in each loop of equipped circuit; More than each parameter also can accomplish data upload through the standard Intelligent Communications Interface, realize the better simply distribution of monitoring requirement is gone out the concentrated measurement and the supervision of line loop; Thereby can overcome big and installation and the inconvenient defective of maintenance of investment in the prior art, to realize investing little and installation and advantage easy to maintenance.

Further feature of the utility model and advantage will be set forth in specification subsequently, and, partly from specification, become obvious, perhaps understand through implementing the utility model.The purpose of the utility model can realize through the structure that in the specification of being write, claims and accompanying drawing, is particularly pointed out and obtain with other advantages.

Through accompanying drawing and embodiment, the technical scheme of the utility model is done further detailed description below.

Description of drawings

Accompanying drawing is used to provide the further understanding to the utility model, and constitutes the part of specification, is used to explain the utility model with the embodiment of the utility model, does not constitute the restriction to the utility model.In the accompanying drawings:

Fig. 1 is the operation principle sketch map according to the utility model AC distribution multiloop supervisory control system;

Fig. 2 a-Fig. 2 z, Fig. 3 a-Fig. 3 e and Fig. 4 are the electrical principle sketch map according to main control MCU plate in the utility model AC distribution multiloop supervisory control system;

Fig. 5 and Fig. 6 a-Fig. 6 u are for allotting the electrical principle sketch map of branch road (greater than 100A) current acquisition unit according to three-phase in the utility model AC distribution multiloop supervisory control system;

Fig. 7 a-Fig. 7 z, Fig. 8 a-Fig. 8 i are according to the single-phase electrical principle sketch map of allotting the branch current collecting unit in the utility model AC distribution multiloop supervisory control system;

Fig. 9 a-Fig. 9 p (corresponding single-chip microcomputer and communication module), Figure 10 a-Figure 10 h (lightning protection, on off state collection and relay module), Figure 11 a-Figure 11 k (exchanging input and metering module) are the electrical principle sketch map according to the utility model AC distribution multiloop supervisory control system median generatrix electric quantity acquisition unit;

Figure 12 a-Figure 12 n (corresponding single-chip microcomputer and communication module), Figure 13 a-Figure 13 g (branch road Input Monitor Connector module) are according to the electrical principle sketch map of allotting branch road state detection unit (apolegamy) in the utility model AC distribution multiloop supervisory control system;

Figure 14 is the electric parameter display interface sketch map in the liquid crystal display on-screen-display message;

Figure 15 is the branch road monitoring information interface sketch map in the liquid crystal display on-screen-display message;

Figure 16 allots branch road monitoring display interface sketch map for the three-phase in the liquid crystal display on-screen-display message;

Figure 17 is the single-phase branch road monitoring display interface sketch map of allotting in the liquid crystal display on-screen-display message;

Figure 18 is the system parameter setting interface sketch map in the liquid crystal display on-screen-display message.

In conjunction with accompanying drawing, Reference numeral is following among the utility model embodiment:

1-main control MCU plate; 11-first single-chip microcomputer; The 12-communication module; 13-alarms output module; 14-the one RS485 communication interface; 2-bus electric quantity acquisition unit; 21-the 3rd correction data memory module; 22-the 2nd RS485 communication interface; 23-ATT7026 electric quantity metering module; The 24-second singlechip; 25-electric weight detecting sensor module; 26-lightning protection and master switch state monitoring module; 3-allots the branch road Condition Monitoring Unit; 31-the 3rd RS485 communication interface; 32-the 3rd single-chip microcomputer; 33-16/32 road branch road state monitoring module; The 4-three-phase is allotted branch road (greater than 100A) current acquisition unit; 41-the 4th RS485 communication interface; 42-the 4th single-chip microcomputer; The 43-first correction data memory module; The 44-first electric quantity metering module; 45-12 road precision current instrument transformer module; 5-allots branch road (less than 100A) current acquisition unit; 51-the 5th RS485 communication module; 52-the 5th single-chip microcomputer; The 53-second electric quantity metering module; The 54-second correction data memory module; The 6-man-machine interaction unit; The 61-LCDs.

Embodiment

Describe below in conjunction with the preferred embodiment of accompanying drawing, should be appreciated that preferred embodiment described herein only is used for explanation and explains the utility model, and be not used in qualification the utility model the utility model.

According to the utility model embodiment, shown in Fig. 1-Figure 13 g, a kind of AC distribution multiloop supervisory control system is provided.

As shown in Figure 1, present embodiment comprises main control MCU plate 1, and the man-machine interaction unit 6 that is connected with main control MCU plate 1 respectively, bus electric quantity acquisition unit 2, allot the branch current collecting device and be used for that selecting type is equipped with allot branch road Condition Monitoring Unit 3.

Here; The above-mentioned branch current collecting device of allotting; Specifically comprise: the three-phase that when the corresponding electric current of allotting branch road is not less than 100A, uses is allotted branch current collecting unit 54, and/or, allot branch current collecting unit 5 what the corresponding electric current of allotting branch road used during less than 100A.

Wherein, above-mentioned main control MCU plate 1 comprises first single-chip microcomputer 11 that is connected with man-machine interaction unit 6, and the communication module 12 that is connected with first single-chip microcomputer 11 respectively, alarm output module 13 and communication interface; Bus electric quantity acquisition unit 2, allot the branch current collecting device and allot branch road Condition Monitoring Unit 3, be connected with communication interface respectively.

Above-mentioned bus electrical measurement unit; Comprise the second singlechip 24 that is connected with main control MCU plate 1 through the corresponding communication interface; Electric quantity metering module that is connected with second singlechip 24 respectively and lightning protection and master switch state monitoring module 26, and the 3rd correction data memory module 21 and electric weight detecting sensor module 23 that is connected with the electric quantity metering module respectively; The core parts of electric quantity metering module comprise that model is the chip (like ATT7026 electric quantity metering module 23) of ATT7026.

The above-mentioned branch road Condition Monitoring Unit 3 of allotting comprises the 3rd single-chip microcomputer 32 that is connected with main control MCU plate 1 through the corresponding communication interface, and the multichannel branch road state monitoring module that is connected with the 3rd single-chip microcomputer 32; Multichannel branch road state monitoring module comprises 16 road branch road state monitoring module or 32 road branch road state monitoring module (like 16/32 road branch road state monitoring module 33) at least.

Above-mentioned man-machine interaction unit 6 comprises operation push-button and LCDs 61 at least; Operation push-button and LCDs 61 are connected with main control MCU plate 1 respectively.

Here, operation push-button is like page turning (PAGE) key, key and setting (SET) key up and down.The display message of LCDs 6111 can comprise:

⑴ electric parameter display interface is referring to Figure 14.

Annotate: fault/branch road: allot branch road in the indication equipment and the empty number of tripping operation fault and the general branch's way of this equipment disposition output opened occur;

⑵ branch road monitoring information interface is referring to Figure 15.

The branch road status display interface adopts the mode of tabulation to show the branch switch state.Anti-white show " ERR " during the tripping operation of alert detecting circuit switching.

⑶ three-phase is allotted branch road monitoring display interface referring to Figure 16.

Annotate: get into this interface is set by the corresponding password that is provided with of key and input is set, according to the actual concrete configuration of engineering " NO " and " CT ".

⑷ the single-phase branch road monitoring display interface of allotting is referring to Figure 17.

⑸ system parameter setting interface is referring to Figure 18.

Annotate: 1. voltage alarm limit value: 187V-246V (system default value), electric current alarm limit value: 0000A-1000A (system default value); The user is voltage, electric current alarm limit value according to the actual requirements.

2. the electric energy zero clearing is provided with: when the user need be with the electric energy zero clearing, input zero clearing password (system default is 1234) earlier was then by the affirmation of " settings " key.

Above-mentioned three-phase is allotted branch current collecting unit 54; Comprise the 4th single-chip microcomputer 42 and the first electric quantity metering module 44 that are connected with main control MCU plate 1 successively through the corresponding communication interface, and first correction data memory module 43 that is connected with the first electric quantity metering module 44 respectively and multichannel precision current instrument transformer module; Multichannel precision current instrument transformer module comprises 12 road precision current instrument transformer modules 45 that are provided with 12 standard current transformer couplings at least.

The above-mentioned branch current collecting unit 5 of allotting; Comprise the 5th single-chip microcomputer 52 that is connected with main control MCU plate 1 successively through the corresponding communication interface and the second electric quantity metering module 53 that is provided with the multichannel current transformer coupling that comprises 12 standard current transformers at least, and the second correction data memory module 54 that is connected with the second electric quantity metering module 53.

In the above-described embodiments; Each communication interface comprises in RS485 communication interface (like a RS485 communication interface 14, the 2nd RS485 communication interface 22, the 3rd RS485 communication interface 31, the 4th RS485 communication interface 41 and the 5th RS485 communication interface 51), RS422 communication interface and the RS232 communication interface any one at least.

During practical implementation; The circuit of main control MCU plate 1 is referring to Fig. 2 a-Fig. 2 z, Fig. 3 a-Fig. 3 e and Fig. 4 in the foregoing description; Three-phase is allotted the circuit of branch road (greater than 100A) current acquisition unit referring to Fig. 5 and Fig. 6 a-Fig. 6 u; The single-phase circuit of allotting branch current collecting unit 5 is referring to Fig. 7 a-Fig. 7 z, Fig. 8 a-Fig. 8 i, and the circuit of bus electric quantity acquisition unit 2 is allotted the circuit of branch road state detection unit (apolegamy) referring to Figure 12 a-Figure 12 n (corresponding single-chip microcomputer and communication module 12), Figure 13 a-Figure 13 g (branch road Input Monitor Connector module) referring to Fig. 9 a-Fig. 9 p (corresponding single-chip microcomputer and communication module 12), Figure 10 a-Figure 10 h (lightning protection, on off state collection and relay module), Figure 11 a-Figure 11 k (exchanging input and metering module).

The AC distribution multiloop supervisory control system of the foregoing description is to a plurality of monitoring requirements that go out line loop, the multiloop intelligent power distribution supervisory control system that combines actual demand to develop to controller switching equipment; It is a kind of comprehensive intelligent monitor system that is applied to the low-voltage alternating-current controller switching equipment; This system mainly by main control MCU plate 1, man-machine interaction unit 6, distribution branch road Condition Monitoring Unit, sky open status monitoring, bus electric quantity acquisition unit more than 2 parts are formed; It is with the busbar voltage in the loop, total current, total active power, power factor, frequency, total active energy; And the electric current of a plurality of important equipped circuits, power, the concentrated measurement of electric energy and demonstration; And can concentrate monitoring and show the on off state in each loop of equipped circuit; But more than the also standard Intelligent Communications Interface output of each parameter, realized the better simply distribution of monitoring requirement is gone out the concentrated measurement and the supervision of line loop; The electric quantity acquisition in three-phase 4 loops or single-phase 12 loops can be accomplished in a bus electric quantity acquisition unit 2, and can expand bus electric quantity acquisition unit 2 arbitrarily when not enough; Compress cost of investment greatly, and greatly facilitated wiring, installation, debugging etc.

The AC distribution multiloop supervisory control system of the foregoing description has following characteristics:

⑴ AC distribution multiloop supervisory control system, note by main control MCU plate 1, man-machine interaction unit 6, distribution branch road Condition Monitoring Unit, three-phase/single-phase allot branch current collecting unit 5, bus electric quantity acquisition unit more than 2 parts are formed; Main control MCU plate 1; Mainly form by first single-chip microcomputer 11, alarm output module 13 (like alarm relay output), communication module more than 12 parts; Allot branch current collecting unit 5 with man-machine interaction unit 6, distribution branch road Condition Monitoring Unit, three-phase/single-phase, bus electric quantity acquisition unit 2 is connected; Main collection and the computing of accomplishing data is the core of whole system;

Man-machine interaction unit 6 mainly is made up of LCDs 61 (like the LCD LCD MODULE) and key-press module; Bus electric quantity acquisition unit 2 mainly is made up of second singlechip 24 and electric quantity metering chip ATT7026, RS485 communication module 12, accomplishes the measurement of bus electric weight, and uploads data and give main control MCU plate 1; Allot branch road Condition Monitoring Unit 3 and mainly be made up of single-chip microcomputer and RS485 communication module 12, the main completion allotted the branch switch status detection, and uploads data and give main control MCU plate 1; The measurement of the electric current of bus electric quantity acquisition unit 2 main completion equipped circuits, power, active energy, and upload data and give main control MCU plate 1;

⑵ so can expand arbitrarily through the address, satisfy the requirement that controller switching equipment is allotted the load circuit number because bus electric quantity acquisition unit 2 adopts the RS485 communication mode to be connected with main control MCU plate 1; And adopt centralized monitor and demonstration with the bus electrical quantity, wiring, installation, debugging are very convenient;

⑶ the special-purpose computation chip of the ATT7026A that bus electric quantity acquisition unit 2 adopts is supported digital calibration, i.e. the software calibration; But bus electric quantity acquisition unit 2 single pass softwares are proofreaied and correct, and trimming process is simple, proofread and correct the back certainty of measurement and can reach 0.2 grade, and meritorious precision can reach 0.5S, and idle precision can reach 1 grade; ⑷ AC distribution multiloop supervisory control system adopts multiloop on off state acquisition module to accomplish the on off state monitoring of each branch road;

⑸ provide RS485, RS232 and three kinds of communication interfaces of RS422 can supply the user to select; Can upload all electric quantity datas and Long-distance Control, realize remote centralized control.

In the above-described embodiments; AC distribution multiloop supervisory control system can reach following beneficial effect: with the busbar voltage in the loop, power factor, frequency, total current, total active power, total active energy; And the electric current of a plurality of important equipped circuits, power, the concentrated measurement of electric energy and demonstration; And can concentrate monitoring and show the on off state in each loop of equipped circuit; More than each parameter also can accomplish data upload through the standard Intelligent Communications Interface, realize the better simply distribution of monitoring requirement is gone out the concentrated measurement and the supervision of line loop; Compare with traditional scheme, compressed cost of investment greatly, made things convenient for wiring, installation, debugging etc.

What should explain at last is: the above is merely the preferred embodiment of the utility model; Be not limited to the utility model; Although the utility model has been carried out detailed explanation with reference to previous embodiment; For a person skilled in the art, it still can be made amendment to the technical scheme that aforementioned each embodiment put down in writing, and perhaps part technical characterictic wherein is equal to replacement.All within the spirit and principle of the utility model, any modification of being done, be equal to replacement, improvement etc., all should be included within the protection range of the utility model.

Claims (10)

1. an AC distribution multiloop supervisory control system is characterized in that, comprises the main control MCU plate, and the man-machine interaction unit that is connected with said main control MCU plate respectively, bus electric quantity acquisition unit with allot the branch current collecting device.

2. AC distribution multiloop supervisory control system according to claim 1 is characterized in that, also comprise be used for that selecting type is equipped with allot the branch road Condition Monitoring Unit, the said branch road Condition Monitoring Unit of allotting is connected with the main control MCU plate.

3. AC distribution multiloop supervisory control system according to claim 1 and 2 is characterized in that, the said branch current collecting device of allotting specifically comprises:

The three-phase that when the corresponding electric current of allotting branch road is not less than 100A, uses is allotted the branch current collecting unit, and/or, allot the branch current collecting unit what the corresponding electric current of allotting branch road used during less than 100A.

4. AC distribution multiloop supervisory control system according to claim 1 and 2; It is characterized in that; Said main control MCU plate comprises first single-chip microcomputer that is connected with man-machine interaction unit, and the communication module that is connected with said first single-chip microcomputer respectively, alarm output module and communication interface; Said bus electric quantity acquisition unit, allot the branch current collecting device and allot the branch road Condition Monitoring Unit, be connected with communication interface respectively.

5. AC distribution multiloop supervisory control system according to claim 4 is characterized in that, said communication interface comprises in RS485 communication interface, RS422 communication interface and the RS232 communication interface any one at least.

6. AC distribution multiloop supervisory control system according to claim 1 and 2 is characterized in that said man-machine interaction unit comprises operation push-button and LCDs at least; Said operation push-button and LCDs are connected with the main control MCU plate respectively.

7. AC distribution multiloop supervisory control system according to claim 1 and 2; It is characterized in that; Said bus electrical measurement unit; Comprise the second singlechip that is connected with the main control MCU plate through the corresponding communication interface, electric quantity metering module that is connected with said second singlechip respectively and lightning protection and master switch state monitoring module, and the 3rd correction data memory module that is connected with said electric quantity metering module respectively and electric weight detecting sensor module; The core parts of said electric quantity metering module comprise that model is the chip of ATT7026.

8. AC distribution multiloop supervisory control system according to claim 1 and 2; It is characterized in that; The said branch road Condition Monitoring Unit of allotting; Comprise the 3rd single-chip microcomputer that is connected with the main control MCU plate through the corresponding communication interface, and the multichannel branch road state monitoring module that is connected with said the 3rd single-chip microcomputer; Said multichannel branch road state monitoring module comprises 16 road branch road state monitoring module or 32 road branch road state monitoring module at least.

9. AC distribution multiloop supervisory control system according to claim 3; It is characterized in that; Said three-phase is allotted the branch current collecting unit; Comprise the 4th single-chip microcomputer and the first electric quantity metering module that are connected with the main control MCU plate successively through the corresponding communication interface, and first correction data memory module that is connected with the said first electric quantity metering module respectively and multichannel precision current instrument transformer module;

Said multichannel precision current instrument transformer module comprises 12 road precision current instrument transformer modules that are provided with 12 standard current transformer couplings at least.

10. AC distribution multiloop supervisory control system according to claim 3; It is characterized in that; The said branch current collecting unit of allotting; Comprise the 5th single-chip microcomputer that is connected with the main control MCU plate successively through the corresponding communication interface and the second electric quantity metering module that is provided with the multichannel current transformer coupling that comprises 12 standard current transformers at least, and the second correction data memory module that is connected with the said second electric quantity metering module.

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