CN108134826A - A kind of multimode communicating control method - Google Patents

Abstract

The present invention provides a kind of multimode communicating control method, and the method need to provide a plurality of sensors, at least one repeater and server, and the repeater connects the sensor respectively, and the server is connected to the repeater, includes the following steps：Step 1, each sensor collection data, send data to repeater later；Step 2, repeater handle the data of reception, obtain handling result, handling result is transmitted to server later；Step 3, server store handling result, and handling result is sent to designated terminal after receiving；It is user-friendly, reduce the data pressure of server.

Description

A kind of multimode communicating control method

Technical field

The present invention relates to a kind of multimode communicating control methods.

Background technology

Currently, it is the fault monitoring system of microelectronic on-line monitoring composition used by majority in China's electric system. Such system wiring is complicated, and data redudancy is big, and high failure rate, movement speed is slow, information wrong report easily occurs, to equipment shape The signal that state is monitored only is sent out also without passing through fine information integration, and form the management platform of systematization by short message It is sent to control centre or maintenance personnel is notified to be safeguarded by audible and visual alarm etc..

The mode of its feeder line fault monitoring is that the indicating fault of power circuit is carried out using fault detector, instruction Device generally uses freestanding indicator and wireless pointer；(1) freestanding indicator is articulated on three-phase line respectively, When line failure, indicator indicates faulty line staff is necessary using board turning or luminous form Carry out the property that observation just can determine that failure to indicator one by one to scene；(2) wireless pointer is mounted on branch line high-tension line On, when a failure occurs it, circuit dependent failure information will be mounted, control centre is pushed to by short message form, by control centre Coordinate field personnel to be handled.Above scheme there are it is very big the problem of, such as only provide Single Point of Faliure failure report It is alert, lack comprehensive power failure management platform for integrated dispatch, and also judge to postpone there are failure mode, labour is strong Degree is big, delay faults timely processing, the problems such as increasing operations staff's workload, and by original line-failure indicator into Row breakdown judge, reliability are also relatively low, it is impossible to realize fault time show, it is impossible to accurately and timely make staff find therefore Where barrier and exclude.

Existing sensor is all directly to carry out data interaction with server, when large area breaks down, if all Sensor is all directly interacted with server, then data volume is excessive, and server stress is excessive, cause some data delays or Person loses.

Invention content

The technical problem to be solved in the present invention is to provide a kind of multimode communicating control method, user-friendly, drop The data pressure of low server.

The invention is realized in this way：A kind of multimode communicating control method, the method need to provide a plurality of sensors, At least one repeater and server, the repeater connect the sensor respectively, the server be connected to it is described in After device, include the following steps：

Step 1, each sensor collection data, send data to repeater later；

Step 2, repeater handle the data of reception, obtain handling result, and handling result is transmitted to clothes later Business device；

Step 3, server store handling result, and handling result is sent to designated terminal after receiving.

Further, each sensor includes sensing processor, sensing memory, Sensing Satellite locating module, passes Feel local area network building module, sensing acquisition module and sensing power module, the sensing processor and connect the sensing respectively Memory, Sensing Satellite locating module, sensing local area network building module, sensing acquisition module and sensing power module, it is described Sensing power module connects the sensing memory, Sensing Satellite locating module, sensing local area network building module and biography respectively Feel acquisition module, the sensing processor is connected to the repeater, the sensing acquisition by sensing local area network building module Module is used to acquire required data.

Further, the sensing power module includes sensing wind-force power supply unit, sensing solar-electricity source unit, passes Feel accumulator and sensing power control circuit, the sensing power control circuit connects the sensing wind-force power supply list respectively Member, sensing solar-electricity source unit, sensing accumulator and sensing processor.

Further, the sensing wind-force power supply unit includes wind-driven generator, current rectifying and wave filtering circuit and the first boosting DC transfer circuit, the wind-driven generator are connected to current rectifying and wave filtering circuit, and the current rectifying and wave filtering circuit passes through described first liter Pressure DC transfer circuit is connected to the power control circuit.

Further, the first voltage boosting dc translation circuit includes capacitance C1, inductance L1, MOS pipe Q1 and diode D1, the capacitance C1 are parallel to the current rectifying and wave filtering circuit both ends, and the one end of the inductance L1 is connected to the rectifying and wave-filtering Circuit, the other end of the inductance L1 connect the drain electrode of the anode and metal-oxide-semiconductor Q1 of the diode D1, two pole respectively The cathode of pipe D1 is connected to the power control circuit, and the drain electrode of the metal-oxide-semiconductor Q1 connects the current rectifying and wave filtering circuit respectively And power control circuit.

Further, the sensing solar-electricity source unit includes solar panel and the second voltage boosting dc converts Circuit, the solar panel are connected to the power control circuit by the second voltage boosting dc translation circuit.

Further, the second voltage boosting dc translation circuit includes capacitance C2, inductance L2, MOS pipe Q2 and diode D2, the capacitance C2 are parallel to the current rectifying and wave filtering circuit both ends, and the one end of the inductance L2 is connected to the rectifying and wave-filtering Circuit, the other end of the inductance L2 connect the drain electrode of the anode and metal-oxide-semiconductor Q2 of the diode D2, two pole respectively The cathode of pipe D2 is connected to the power control circuit, and the drain electrode of the metal-oxide-semiconductor Q2 connects the current rectifying and wave filtering circuit respectively And power control circuit.

Further, the repeater includes relay process device, trunk memory, repeater satellite locating module, tandem office Domain net networking module, trunking traffic module and relaying power module, the relay process device connect the relaying storage respectively Device, repeater satellite locating module, relaying LAN networking module, trunking traffic module and relaying power module, the relaying It is logical that power module connects the trunk memory, repeater satellite locating module, relaying LAN networking module and relaying respectively Believe module, the relay process device is connected to the sensor by relaying LAN networking module, and the relay process device leads to It crosses trunking traffic module and is connected to the server.

Further, the relaying power module include relaying wind-force power supply unit, relaying solar-electricity source unit, in After accumulator and relaying power control circuit, the relaying power control circuit connects the relaying and includes wind-force power supply respectively Unit, relaying solar-electricity source unit, relaying accumulator and relay process device.

The invention has the advantages that：Data are acquired it by a kind of multimode communicating control method of the present invention by sensor Afterwards, it is handled by repeater, obtains handling result (knowing fault condition or other situations), be sent to clothes later Business device so that the data pressure of server reduces.

Description of the drawings

The present invention is further illustrated in conjunction with the embodiments with reference to the accompanying drawings.

Fig. 1 is the method for the present invention execution flow chart.

Fig. 2 is sensor structure block diagram in the present invention.

Fig. 3 is repeater structure block diagram in the present invention.

Fig. 4 is power unit circuit figure of the present invention.

Specific embodiment

As shown in Figure 1, multimode communicating control method of the present invention, the method need to provide a plurality of sensors, at least one Repeater and server, the repeater connect the sensor respectively, and the server is connected to the repeater, packet Include following steps：

Step 1, each sensor collection data, send data to repeater later；

Step 2, repeater handle the data of reception, obtain handling result, and handling result is transmitted to clothes later Business device；

Step 3, server store handling result, and handling result is sent to designated terminal after receiving, which is PC End or/mobile terminal.

Each sensor includes sensing processor, sensing memory, Sensing Satellite locating module, sensing LAN Networking module, sensing acquisition module and sensing power module, the sensing processor connect respectively it is described sensing memory, Sensing Satellite locating module, sensing local area network building module, sensing acquisition module and sensing power module, the sensing electricity Source module connects the sensing memory, Sensing Satellite locating module, sensing local area network building module and sensing acquisition respectively Module, the sensing processor are connected to the repeater by sensing local area network building module, and the sensing acquisition module is used In data needed for acquisition, the sensing power module includes sensing wind-force power supply unit, sensing solar-electricity source unit, sensing Accumulator and sensing power control circuit, the sensing power control circuit connect respectively the sensing wind-force power supply unit, Sense solar-electricity source unit, sensing accumulator and sensing processor.

The sensing wind-force power supply unit includes wind-driven generator, current rectifying and wave filtering circuit and the transformation of the first voltage boosting dc Circuit, the wind-driven generator are connected to current rectifying and wave filtering circuit, and the current rectifying and wave filtering circuit is become by first voltage boosting dc It changes circuit and is connected to the power control circuit, the first voltage boosting dc translation circuit includes capacitance C1, inductance L1, metal-oxide-semiconductor Q1 and diode D1, the capacitance C1 are parallel to the current rectifying and wave filtering circuit both ends, and the one end of the inductance L1 is connected to The current rectifying and wave filtering circuit, the other end of the inductance L1 connect the anode of the diode D1 and metal-oxide-semiconductor Q1 respectively Drain electrode, the cathode of the diode D1 are connected to the power control circuit, and the drain electrode of the metal-oxide-semiconductor Q1 connects described respectively Current rectifying and wave filtering circuit and power control circuit.

The sensing solar-electricity source unit includes solar panel and the second voltage boosting dc translation circuit, described Solar panel is connected to the power control circuit, second boosting by the second voltage boosting dc translation circuit DC transfer circuit includes capacitance C2, inductance L2, metal-oxide-semiconductor Q2 and diode D2, the capacitance C2 and is parallel to the rectification filter Wave circuit both ends, the one end of the inductance L2 are connected to the current rectifying and wave filtering circuit, and the other end of the inductance L2 connects respectively The drain electrode of the anode and metal-oxide-semiconductor Q2 of the diode D2 is connect, the cathode of the diode D2 is connected to the power supply control Circuit, the drain electrode of the metal-oxide-semiconductor Q2 connect the current rectifying and wave filtering circuit and power control circuit respectively.

The repeater includes relay process device, trunk memory, repeater satellite locating module, relaying local area network building Module, trunking traffic module and relaying power module, the relay process device connect the trunk memory, relaying respectively Satellite positioning module, relaying LAN networking module, trunking traffic module and relaying power module, the relaying power supply mould Block connects the trunk memory, repeater satellite locating module, relaying LAN networking module and trunking traffic mould respectively Block, the relay process device are connected to the sensor by relaying LAN networking module, and the relay process device is in The server is connected to after communication module, the relaying power module includes relaying wind-force power supply unit, relaying solar-electricity Source unit, relaying accumulator and relaying power control circuit, the relaying power control circuit connect the relaying and include respectively Wind-force power supply unit, relaying solar-electricity source unit, relaying accumulator and relay process device.

Repeater：Hardware components include ARM8 processors, memory module, memory, the GPS/ Big Dippeves/Galileo multiplicity of satellites Locating module, the multiple low-power consumption local area network building modules of bluetooth/WiFi/zigBee, LoRa/RPMA/NB-iot/eMTC are multiple Low-power consumption network module, day lead to the/Big Dipper/maritime satellite communications module, wind light mutual complementing electric energy source module.Software section includes： Customize uCLinux systems/7.0 system of Android.Intelligent acquisition repeater mainly by low-power consumption local area network technology (Zigbee, BLE5) dock and read the real time data of intelligent meter, and by low-power consumption wide area network (NB-iot, EMTC, LoRa, RPMA), day leads to satellite, and big-dipper satellite (being mainly used for outlying district) uploads data to main website Cloud Server in real time.During we are The mode of low-power consumption wide area network can preferentially be selected to upload data after the system that device researches and develops customization, if it is covered in no base station Range, system can automatically switch to arq mode in satellite data.One intelligent centre can handle tens of intelligent meters simultaneously Data, can be with the intelligent sensor units of one natural village area of management and control.Cloud account logs in the data center, user Ke Tong It crosses cell phone application to read in real time, monitoring data, when some regional power equipment failure or the acquisition of data exception wisdom Center will upload to cloud immediately and take on device, then be pushed to staff, and wisdom acquisition center has the failure of high-capacity and high-speed Detection function.Negative phase sequence, reversed polarity detection function, power quality statistical function.Load curve store function, failure wave-recording work( Can, Phase synchronization detection function, bluetooth Zigbee wireless maintenance functions, the capacitance of capacitive equipment, dielectric loss on-line monitoring； The total current of metal oxide arrester, current in resistance property on-line monitoring；Transformer body insulating oil chromatogram monitoring, optical fiber Thermometric on-line monitoring, ontology ultrahigh frequency partial discharge on-line monitoring, casing partial discharge, dielectric loss on-line monitoring, loaded switch dynamic characteristic On-line monitoring；GIS ultrahigh frequency partial discharges on-line monitoring, micro- water on-line monitoring；Switch mechanical property monitoring and switchgear fiber optic temperature On-line monitoring, SF6 gas density is on-line monitoring etc..

Sensor：Hardware components include ARM7 processors, and memory module, sensor assembly, the GPS/ Big Dippeves/Galileo is more Weight satellite positioning module, the multiple low-power consumption local area network building modules of bluetooth/WiFi/zigBee, NB-iot/eMTC modules, scene Complementary electrical energy module.

Although specific embodiments of the present invention have been described above, those familiar with the art should Understand, our described specific embodiments are merely exemplary rather than for the restriction to the scope of the present invention, ripe The equivalent modification and variation that those skilled in the art is made in the spirit according to the present invention is known, should all be covered at this In the scope of the claimed protection of invention.

Claims (9)

1. a kind of multimode communicating control method, it is characterised in that：The method need to provide a plurality of sensors, at least one relaying Device and server, the repeater connect the sensor respectively, and the server is connected to the repeater, including as follows Step：

Step 1, each sensor collection data, send data to repeater later；

Step 2, repeater handle the data of reception, obtain handling result, handling result is transmitted to server later；

Step 3, server store handling result, and handling result is sent to designated terminal after receiving.

2. a kind of multimode communicating control method as described in claim 1, it is characterised in that：Each sensor includes sensing Processor, sensing memory, Sensing Satellite locating module, sensing local area network building module, sensing acquisition module and sensing electricity Source module, the sensing processor connect the sensing memory, Sensing Satellite locating module, sensing local area network building mould respectively Block, sensing acquisition module and sensing power module, the sensing power module connects the sensing memory respectively, sensing is defended Star locating module, sensing local area network building module and sensing acquisition module, the sensing processor is by sensing LAN group Net module is connected to the repeater, and the sensing acquisition module is used to acquire required data.

3. a kind of multimode communicating control method as described in claim 1, it is characterised in that：The sensing power module includes passing Feel wind-force power supply unit, sensing solar-electricity source unit, sensing accumulator and sensing power control circuit, the sensing power supply Control circuit is connected respectively at the sensing wind-force power supply unit, sensing solar-electricity source unit, sensing accumulator and sensing Manage device.

4. a kind of multimode communicating control method as described in claim 1, it is characterised in that：The sensing wind-force power supply unit packet Wind-driven generator, current rectifying and wave filtering circuit and the first voltage boosting dc translation circuit are included, the wind-driven generator is connected to rectification filter Wave circuit, the current rectifying and wave filtering circuit are connected to the power control circuit by the first voltage boosting dc translation circuit.

5. a kind of multimode communicating control method as described in claim 1, it is characterised in that：The first voltage boosting dc transformation electricity Road includes capacitance C1, inductance L1, metal-oxide-semiconductor Q1 and diode D1, the capacitance C1 and is parallel to the current rectifying and wave filtering circuit both ends, The one end of the inductance L1 is connected to the current rectifying and wave filtering circuit, and the other end of the inductance L1 connects the diode respectively The drain electrode of the anode and metal-oxide-semiconductor Q1 of D1, the cathode of the diode D1 are connected to the power control circuit, the metal-oxide-semiconductor The drain electrode of Q1 connects the current rectifying and wave filtering circuit and power control circuit respectively.

6. a kind of multimode communicating control method as described in claim 1, it is characterised in that：The sensing solar-electricity source unit Including solar panel and the second voltage boosting dc translation circuit, the solar panel passes through second voltage boosting dc Translation circuit is connected to the power control circuit.

7. a kind of multimode communicating control method as described in claim 1, it is characterised in that：The second voltage boosting dc transformation electricity Road includes capacitance C2, inductance L2, metal-oxide-semiconductor Q2 and diode D2, the capacitance C2 and is parallel to the current rectifying and wave filtering circuit both ends, The one end of the inductance L2 is connected to the current rectifying and wave filtering circuit, and the other end of the inductance L2 connects the diode respectively The drain electrode of the anode and metal-oxide-semiconductor Q2 of D2, the cathode of the diode D2 are connected to the power control circuit, the metal-oxide-semiconductor The drain electrode of Q2 connects the current rectifying and wave filtering circuit and power control circuit respectively.

8. a kind of multimode communicating control method as described in claim 1, it is characterised in that：The repeater includes relay process Device, trunk memory, repeater satellite locating module, relaying LAN networking module, trunking traffic module and relaying power supply mould Block, the relay process device connect respectively the trunk memory, repeater satellite locating module, relaying LAN networking module, Trunking traffic module and relaying power module, the relaying power module connect the trunk memory, repeater satellite respectively Locating module, relaying LAN networking module and trunking traffic module, the relay process device is by relaying local area network building Module is connected to the sensor, and the relay process device is connected to the server by trunking traffic module.

9. a kind of multimode communicating control method as described in claim 1, it is characterised in that：During the relaying power module includes After wind-force power supply unit, relaying solar-electricity source unit, relaying accumulator and relaying power control circuit, the relaying power supply Control circuit connects the relaying and includes wind-force power supply unit, relaying solar-electricity source unit, relaying accumulator and relaying respectively Processor.