CN105471111A

CN105471111A - Intelligent energy-saving power distribution system

Info

Publication number: CN105471111A
Application number: CN201511022672.3A
Authority: CN
Inventors: 陈波波; 罗平东; 罗强
Original assignee: Shenzhen Tieon Energy Technology Co Ltd
Current assignee: Shenzhen Antai intelligent Co Ltd
Priority date: 2015-12-30
Filing date: 2015-12-30
Publication date: 2016-04-06
Anticipated expiration: 2035-12-30
Also published as: WO2017114145A1; CN105471111B

Abstract

The invention discloses an intelligent energy-saving power distribution system, which comprises an induction monitoring module, an incoming line monitoring module and a feeder line monitoring assembly, wherein the induction monitoring module is used for monitoring whether an inspector comes to visit or not, and sending out a notifying signal if the inspector comes to visit; the incoming line monitoring module is connected with the induction monitoring module, and is used for receiving the notifyingsignal and uploading the notifyingsignal to a gateway after processing; and the feeder line monitoring assembly is connected with a gateway network and a feeder line switch, and is used for collecting and displaying a power distribution state of the power distribution system by receiving the notifying signal according to the notifying signal. The intelligent energy-saving power distribution system applies the induction monitoring module to the power distribution system, detects arrival of operation and maintenance staff through the induction monitoring module, transmits the signal to the gateway, and gives an instruction to the feeder line monitoring assembly via the gateway, so that corresponding indicator lights, displays and the like work; and the effects of saving electric energy and prolonging the lifetime of equipment are achieved.

Description

Intelligent power saving distribution system

Technical field

The present invention relates to controller switching equipment field, particularly relate to a kind of intelligent power saving distribution system.

Background technology

Traditional LV intelligent switching system, when the systems are operating normally, the main monitoring display screen working method in incoming line cabinet has two kinds, and one is display screen long-term work, presents data to user.Another kind is when user needs data query, opens cabinet door and operates display screen, display screen work, when client do not need to carry out data check it is operated time, enter resting state after display screen delay working a period of time, be in energy-saving mode, until next operation wakes up it.

And machine room major part belongs to unattended distribution machine room, operator on duty only needs regularly to make an inspection tour equipment, and whether checkout facility work is normal, checks related data.Therefore, the display of the main monitoring display screen in distribution machine room low-voltage distribution system, feeder line indicator light, feeder line instrument only need and short tour time service, these display devices are all without the need to working At All Other Times.And in traditional low-voltage equipment, because Displaying Meter in distribution system, indicator light quantity are various, spoilage is large again, the time that attendant need send out a large amount of is changed bad equipment, and considerably increase the workload of operation maintenance personnel, electricity consumption of equipment consumptive material is consuming time again.

Summary of the invention

The object of the invention is to provide a kind of intelligent power saving distribution system, is intended to solve traditional distribution system monitoring display cost high, the problem that equipment life is short.

The invention provides a kind of intelligent power saving distribution system, comprising:

Whether induction monitoring module, have tour personnel to come to visit for monitoring, if having, and signal of giving notice;

Inlet wire monitoring modular, with described induction monitoring model calling, receives described notification signal and uploads to gateway after process;

Feeder line monitor component, is connected with described gateway network and feeder switch, receives described notification signal, gathers according to the power status of this notification signal to distribution system and shows.

Above-mentioned intelligent power saving distribution system by induction monitoring module application in distribution system, the arrival of operation maintenance personnel is detected by induction monitoring module, send a signal to gateway, assign instruction by gateway again and make the work such as corresponding indicator light, display to feeder line monitor component, reach saves energy, the effect in extension device life-span.

Accompanying drawing explanation

Fig. 1 is the structural representation of intelligent power saving distribution system in present pre-ferred embodiments;

Fig. 2 is the structural representation of the outgoing line side of distribution system feeder switch.

Embodiment

In order to make the technical problem to be solved in the present invention, technical scheme and beneficial effect clearly understand, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

Refer to Fig. 1 and Fig. 2, in present pre-ferred embodiments, intelligent power saving distribution system comprises induction monitoring module 100, inlet wire monitoring modular 200, gateway 300, feeder line monitor component 400 and master control display screen 500.

Whether induction monitoring module 100 has tour personnel to come to visit for monitoring, if having, and signal of giving notice (or display).Particularly, induction monitoring module 100 is infrared inductor.Inlet wire monitoring modular 200 is connected with described induction monitoring module 100, receives described notification signal and uploads to gateway 300 after process.Feeder line monitor component 400 is connected with described gateway 300 network and feeder switch 10, receives described notification signal, gathers according to the power status of this notification signal to distribution system and shows.Master control display screen 500 is connected with described gateway 300 network, opens when receiving described notification signal by described gateway 300, otherwise closes or dormancy.

Particularly, inlet wire monitoring modular 200 is connected with described gateway 300 by RS485 bus with feeder line monitor component 400.Power status comprises three-phase voltage, three-phase current, feeder line switching place temperature and feeder switch 10 state.

When low-voltage distribution system normally works, when machine room is without tour personnel, incoming line cabinet master control display screen 500 is closed or dormancy, and the combined floodgate indicator light of all feeder assemblies, three-phase voltage, three-phase current, Temperature displaying are in resting state.

When there being tour personnel to come to check, the induction monitoring module 100 being installed on enclosure top monitors that personnel are visiting sends high ordinary mail number to inlet wire monitoring modular 200, and inlet wire monitoring modular 200 pairs of signals process and are uploaded to gateway 300 by RS-485 communication.Gateway 300 transmitting order to lower levels is to feeder line monitoring assembly, and assembly carries out judging whether the digital display tube of rear the combined floodgate indicator light and display three-phase voltage, three-phase current and feeder line switching place temperature that control display feeder switch 10 state works.Tour personnel are facilitated to make an inspection tour equipment.

Wherein in an embodiment, described feeder line monitor component 400 comprises feeder line acquisition module 410, feeder line display module 420 and feeder line monitoring module 430.

Feeder line acquisition module 410 is connected with the outgoing line side of described feeder switch 10, for gathering the power status of this distribution system; Feeder line display module 420 and described feeder line acquisition module 410, be connected with described feeder line acquisition module 410, for showing described power status; Feeder line monitoring module 430 is connected with feeder line acquisition module 410 and feeder line display module 420, and is connected with described gateway 300 network, and feeder line acquisition module 410 collects feeder switch 10 outgoing line side voltage and passes to feeder line monitoring module 430; And feeder line monitoring module 430 for receive described notification signal control and described feeder line display module 420 whether work.

Feeder line display module 420 comprises the combined floodgate indicator light for showing feeder switch 10 state and the digital display tube for showing described three-phase voltage, three-phase current and feeder line switching place temperature.

It is as follows that feeder line monitoring module 430 controls combined floodgate indicator light work-based logic:

Described feeder switch 10 "on" position, when described feeder line monitoring module 430 does not receive described notification signal, described feeder line monitoring module 430 controls described combined floodgate indicator light and closes; When described feeder line monitoring module 430 receives described notification signal, described feeder line monitoring module 430 controls described combined floodgate indicator light and lights, when closing after described combined floodgate indicator light time delay a period of time after described gateway 300 stops sending described notification signal;

Described feeder switch 10 gate-dividing state, described feeder line monitoring module 430 controls described combined floodgate indicator light and closes.

More specifically: 1, when feeder switch 10 closes a floodgate, when now gateway 300 does not send notification signal, combined floodgate indicator light does not work; 2, when feeder switch 10 closes a floodgate, when now gateway 300 constantly sends notification signal, combined floodgate indicator light is bright, when gateway 300 stops sending notification signal, quits work after indicator light delay working a period of time.3, when feeder switch 10 separating brake, now no matter whether gateway 300 sends notification signal, and combined floodgate indicator light does not work.

It is as follows that feeder line monitoring module 430 controls digital display tube work-based logic:

Described feeder switch 10 "on" position, when described feeder line monitoring module 430 does not receive described notification signal, described feeder line monitoring module 430 controls described digital display tube and closes; When described feeder line monitoring module 430 receives described notification signal, described feeder line monitoring module 430 controls described digital display tube and shows described three-phase voltage, three-phase current and feeder line switching place temperature, when closing after described digital display tube time delay a period of time after described gateway 300 stops sending described notification signal;

Described feeder switch 10 gate-dividing state, when described feeder line monitoring module 430 does not receive described notification signal, described feeder line monitoring module 430 controls described digital display tube and closes, when described feeder line monitoring module 430 receives described notification signal, described feeder line monitoring module 430 controls described digital display tube and shows described three-phase voltage, three-phase current and feeder line switching place temperature, when closing after described digital display tube time delay a period of time after described gateway 300 stops sending described notification signal.

More specifically: 1, when feeder switch 10 closes a floodgate, when now gateway 300 does not send notification signal, digital display tube does not work.2, when feeder switch 10 closes a floodgate, when now gateway 300 constantly sends notification signal, digital display tube work, three-phase current, three-phase voltage, temperature show in turn; When gateway 300 stops sending notification signal, quit work after digital display tube delay working a period of time.3, when feeder switch 10 separating brake, when now gateway 300 constantly sends notification signal, digital display tube work, three-phase current, three-phase voltage, temperature show in turn; When gateway 300 stops sending out notification signal suitable, quit work after digital display tube delay working a period of time.4, when feeder switch 10 separating brake, when now gateway 300 does not send notification signal, digital display tube does not work.

Induction monitoring module 100 is applied in distribution system by above-mentioned intelligent power saving distribution system, the arrival of operation maintenance personnel is detected by induction monitoring module 100, send a signal to gateway 300, assign instruction by gateway 300 again and make the work such as corresponding indicator light, display to feeder line monitor component 400, reach saves energy, the effect in extension device life-span.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, all any amendments done within the spirit and principles in the present invention, equivalent replacement and improvement etc., all should be included within protection scope of the present invention.

Claims

1. an intelligent power saving distribution system, is characterized in that, comprising:

Feeder line monitor component, is connected with described gateway network and feeder switch, by the described notification signal of described reception, gathers according to the power status of this notification signal to distribution system and shows.

2. intelligent power saving distribution system as claimed in claim 1, it is characterized in that, described feeder line monitor component comprises:

Feeder line acquisition module, is connected with the outgoing line side of described feeder switch, for monitoring the power status of this distribution system;

Feeder line display module, with described feeder line acquisition module, is connected with described feeder line acquisition module, for showing described power status;

Feeder line monitoring module, is connected with described gateway network, and the outgoing line side voltage that described feeder line acquisition module collects feeder switch passes to described feeder line monitoring module, and described feeder line monitoring module receives described notification signal controls the work of described feeder line display module.

3. intelligent power saving distribution system as claimed in claim 1 or 2, it is characterized in that, described power status comprises three-phase voltage, three-phase current, feeder line switching place temperature and feeder switch state.

4. intelligent power saving distribution system as claimed in claim 2, it is characterized in that, described feeder line display module comprises the combined floodgate indicator light for showing feeder switch state and the digital display tube for showing described three-phase voltage, three-phase current and feeder line switching place temperature.

5. intelligent power saving distribution system as claimed in claim 4, is characterized in that:

Described feeder switch "on" position, when described feeder line monitoring module does not receive described notification signal, described feeder line monitoring module controls described combined floodgate indicator light and closes; When described feeder line monitoring module receives described notification signal, described feeder line monitoring module controls described combined floodgate indicator light and lights, when closing after described combined floodgate indicator light time delay a period of time after described gateway stops sending described notification signal;

Described feeder switch gate-dividing state, described feeder line monitoring module controls described combined floodgate indicator light and closes.

6. the intelligent power saving distribution system as described in claim 4 or 5, is characterized in that:

Described feeder switch "on" position, when described feeder line monitoring module does not receive described notification signal, described feeder line monitoring module controls described digital display tube and closes; When described feeder line monitoring module receives described notification signal, described feeder line monitoring module controls described digital display tube and shows described three-phase voltage, three-phase current and feeder line switching place temperature, when closing after described digital display tube time delay a period of time after described gateway stops sending described notification signal;

Described feeder switch gate-dividing state, when described feeder line monitoring module does not receive described notification signal, described feeder line monitoring module controls described digital display tube and closes, when described feeder line monitoring module receives described notification signal, described feeder line monitoring module controls described digital display tube and shows described three-phase voltage, three-phase current and feeder line switching place temperature, when closing after described digital display tube time delay a period of time after described gateway stops sending described notification signal.

7. intelligent power saving distribution system as claimed in claim 1, it is characterized in that, described induction monitoring module is infrared inductor.

8. intelligent power saving distribution system as claimed in claim 1, it is characterized in that, described inlet wire monitoring modular is connected with described gateway by RS485 bus with feeder line monitor component.

9. intelligent power saving distribution system as claimed in claim 1, it is characterized in that, also comprise master control display screen, described master control display screen is connected with described gateway network, opens when receiving described notification signal by described gateway, otherwise closes or dormancy.