Specific embodiment
The present invention provides the identification device of low-voltage power distribution station area's network topology, to realize automatic identification low-voltage power distribution station area
Topological structure.
Fig. 2 is referred to, identification device is mountable to intelligent distribution transformer terminals, feeder pillar or the intelligent electric meter of low-voltage power distribution station area
In box unit.Wherein, it is integrated in low-voltage power distribution station area on other identification devices by the identification device for being installed on intelligent distribution transformer terminals
The data of biography obtain the network topology structure of low-voltage power distribution station area.
Fig. 3 and Fig. 4 are referred to, above-mentioned identification device is so exemplary that can to include at least: micro-control unit (MCU) 1 and carrier wave
Communication module 2.
Wherein, carrier communication module 2 can be used for: under the control of MCU1, sending power carrier signal or receives electric power load
Wave signal.
Specifically, power carrier signal may include interrogation signal and answer signal.Then above-mentioned " sending power carrier signal "
Can further comprise following one or more:
Generate and send interrogation signal;
Interrogation signal is forwarded to other identification devices;
It is generated based on the interrogation signal received and returns to answer signal (namely response);
Forward at least one of the answer signal from other identification devices.
In conjunction with Fig. 2, be installed on identification device in intelligent distribution transformer terminals or feeder pillar and produce interrogation signal, and to other
Identification device sends interrogation signal.
Identification device in feeder pillar can receive the interrogation signal of other identification devices transmission, carry out response to it, in addition,
The interrogation signal received or answer signal can also be forwarded.
And the identification device in intelligent electric meter box unit is only replied, that is, MCU in intelligent electric meter box unit is to controllable
Carrier communication module processed carries out response to the interrogation signal received, can not generate or forward interrogation signal.
In other embodiments of the present invention, Fig. 3 and Fig. 4 are still referred to, above-mentioned identification device may also include radio communication mold
Block 3.Wireless communication module 3 can actively be set up with other identification devices (wireless communication module) by automatic network-building technology and be communicated
Network, autonomous negotiating communication channel type and frequency point, to realize information automatic relay and transmission.
The communication technologys such as GPRS communication, fiber optic communication specifically can be used in wireless communication module 3.
Carrier communication module 2, wireless communication module 3 are connect with MCU1, realize being in communication with each other for intermodule, are completed local logical
Letter and telecommunication.
The identification device for possessing wireless communication module 3 Yu carrier communication module 2 simultaneously, dual mode communication can be used, and (carrier wave is logical
Letter and wireless communication) mode, this mode can evade carrier wave vulnerable to interference, and wireless communication has blind spot, real
Existing signal of communication all standing.It can flexibly switch communication mode according to different running environment, improve communication reliability.
In other embodiments of the present invention, still refer to Fig. 3 and Fig. 4, above-mentioned identification device may also include that battery supply and
Power supply modulus of conversion group 4, in which:
Battery supply can be converted to the power supply of voltage class needed for each device in identification device by power supply modulus of conversion group 4.
Specifically, power supply modulus of conversion group 4 can be attached with above-mentioned carrier communication module 2, wireless communication module 3, MCU1,
The voltage of reciprocity voltage class is provided for these modules, is finally embodied as the function of entire identification device power supply.
In addition, above-mentioned identification device may also include battery power management mould group 5, battery power management mould group 5 and battery electricity
Source is connected with power supply modulus of conversion group 4, and necessary battery management system is integrated in power management modules 6, can be battery electricity
Source provides Charge Management, electric quantity monitoring, overcharges, over-discharge, the service such as short-circuit protection.
Further, battery power management mould group 5 also has charging interface.
In other embodiments of the present invention, dual power supply mode can be used, i.e., using external rank voltage (battery electricity
Source) simultaneously behavior identification device is powered with Intelligent power distribution terminal.Battery supply power supply and backup power supply (such as super electricity can be chosen
Hold) two kinds of power supply modes.It can be used above-mentioned charging interface for backup power supply charging, charging modes can be wired charging or wireless charging
Electricity.
In addition, above-mentioned identification device may also include voltage monitoring module 6, for monitor in real time in platform area it is normal, abnormal, stop
These three electric working conditions.
It is the core of identification device as MCU1, the aforementioned each device referred to can be managed, for example, mould group
Management, task management, scheduling of resource and telecommunication management etc..
The core concept of technical solution provided by the present invention is described below:
Fig. 2 is referred to, low-voltage power distribution station area is divided into four grades on the topology:
The first order-low-tension transformer can be equipped with intelligent distribution transformer terminals beside low-tension transformer to monitor low-tension transformer
Data (voltage, electric current etc.);
The second level-feeder pillar, above-mentioned low-tension transformer are connected with several feeder pillars, are coordination between each feeder pillar;
The third level-intelligent electric meter box unit, each feeder pillar can go out ABC three-phase, several intelligent electric meters connected under each phase
Box unit;
The fourth stage-ammeter connects several ammeters under each intelligent electric meter box unit.
If obtaining connection relationship (the first connection relationship), each phase of each feeder pillar between low-tension transformer and feeder pillar
Lower connected intelligent electric meter box unit (separate information), then have the connection relationship (between intelligent electric meter box unit and ammeter
Two connection relationships).Then the first connection relationship, separate information and the second connection relationship are integrated, then low-voltage distribution can be obtained
The whole network topological structure in platform area.
In the following, by, to the sequence of the first connection relationship, introducing how to obtain the second connection relationship, phase from the second connection relationship
Other information and the first connection relationship.
One, the second connection relationship (connection relationship between intelligent electric meter box unit and ammeter):
In one example, intelligent electric meter box unit can store the ammeter connecting with itself, therefore, the second connection relationship phase
To being easier to get.Fig. 5 is referred to, can be obtained by the identification device (in MCU) being mounted in intelligent electric meter box unit
The second connection relationship that intelligent electric meter box unit is stored, and uploading (can be by MCU control carrier communication module or radio communication mold
Block uploads) MCU into intelligent distribution transformer terminals.
Communication network shown in fig. 5 can are as follows: carrier communication network, cordless communication network or hybrid communication network.
In another example, it can be communicated between intelligent electric meter box unit and the ammeter being connected, by communicating skill
Art can determine which ammeter is connected with intelligent electric meter box unit, then the second connection relationship can be equally got, by being mounted on intelligence
Can the identification device (in MCU) in ammeter box unit be uploaded to the MCU in intelligent distribution transformer terminals.
Two, separate information (the intelligent electric meter box unit connected under each phase of feeder pillar):
Separate information is obtained based on the characteristics of power carrier signal.
Power carrier (Power line Communication, PLC), is the distinctive communication mode of electric system, benefit
With existing power line, analog or digital signal is carried out by high-speed transfer by carrier system.Electric power carrier communication technology does not need
Again network is set up, as long as live wire, can be carried out data transmitting.
Present invention take advantage of that power carrier signal following features:
1, general power carrier signal can only be transmitted in single-phase electricity line.
2, the intensity sharp-decay of power carrier signal when passing through physical connection branch node (namely identification device), from
And it can signal-to-noise ratio degradation.
Fig. 6 is referred to, the MCU being installed in feeder pillar has carried out following operation when obtaining separate information:
S61, control carrier communication module send the interrogation signal of generation in ABC three-phase respectively, alternatively, controlling the carrier wave
Communication module forwards interrogation signal in ABC three-phase respectively;
Since power carrier signal can only be transmitted in single-phase electricity line, then any separate intelligent electric meter box unit is in
Other separate interrogation signals can not be received and give response, feed back answer signal.
For example, the interrogation signal that feeder pillar is sent in A phase can not be in the intelligent electric meter box unit of B phase and C phase
It receives.Refer to Fig. 7, it is assumed that feeder pillar M sends or forwarded interrogation signal in A phase, and has received intelligent electric meter box unit
The answer signal of d1-d4 then can determine that intelligent electric meter box unit d1-d4 hangs over A phase.
It should be noted that intelligent electric meter box unit d1-d4 may not be connected under feeder pillar M, this is because feeder pillar M has
It may be relay station, can receive the answer signal being connected under the A phase of other feeder pillars (such as feeder pillar N).
It should also be noted that, power line carrier signal should include the mark (such as ID number, address) of sender, connect in this way
Debit just can determine specifically which equipment has sent power line carrier signal.
S62, basis determine branch in the signal-to-noise ratio of answer signal receiving, from intelligent electric meter box unit that respectively connects
The intelligent electric meter box unit that each phase of case is connected, obtains separate information.
Specifically, above-mentioned separate information includes the intelligent electric meter box unit that feeder pillar is connected in each phase.
By taking feeder pillar M as an example, separate information includes the intelligent electric meter box unit that A, B, C three-phase are separately connected.
The intelligent electric meter box unit for how determining that each phase of feeder pillar is connected according to signal-to-noise ratio is described below.
Aforementioned to be referred to, when passing through physical connection branch node (namely identification device), the intensity of power carrier signal is anxious
Play decaying, thus can signal-to-noise ratio degradation.Still by taking Fig. 7 as an example, the answer signal 1 of intelligent electric meter box unit d1, which can be directly to, to be reached
Feeder pillar M, and the answer signal 3 of Intelligent ammeter box d3 must just reach feeder pillar M after feeder pillar N.Then according to power carrier
The characteristic of signal, the signal-to-noise ratio of answer signal 3 obviously will be lower than answer signal 1.And if answer signal 3 experienced a knowledge incessantly
Other device just reaches feeder pillar M, then its signal-to-noise ratio can be even lower.
Therefore, it can will be divided at least two grades by descending in the signal-to-noise ratio of each answer signal for connecting and receiving,
Bigger grade, and signal-to-noise ratio is bigger, then intelligent electric meter box unit corresponding to the maximum answer signal of grade can determine that for this point
Branch case is connected directly.
Still by taking Fig. 7 as an example, it is assumed that feeder pillar M has received answer signal 1-4, wherein answer signal 1 and 2 belongs to grade
1, answer signal 3 and 4 belongs to grade 2, then can determine that answer intelligent electric meter box unit d1 and d2 corresponding to signal 1 and 2 be located at point
The A phase of branch case M.
S63, the separate information that itself is sent to the MCU being installed in intelligent distribution transformer terminals.
Three, the first connection relationship (connection relationship between low-tension transformer and feeder pillar)
In one example, the connection relationship between low-tension transformer and feeder pillar (the first connection relationship) and separate letter
Breath, can also be used the characteristic of power carrier signal foregoing description to obtain.
Fig. 8 is referred to, the MCU in intelligent distribution transformer terminals can obtain in the following way the first connection relationship:
S81, control carrier communication module send interrogation signal;
S82, control carrier communication module receive the answer signal of multiple equipment feedback.
Since the level that intelligent distribution transformer terminals are in is higher, the interrogation signal sent can arrive each feeder pillar, each feeder pillar
Interrogation signal can be issued to each intelligent electric meter box unit again, then received answer signal may be from feeder pillar and intelligence electricity
Electricity box unit.
S83, signal-to-noise ratio is met to equipment corresponding to the answer signal of preset condition it is determined as feeder pillar, obtains the first company
Connect relationship.
Aforementioned to be referred to, when passing through physical connection branch node (namely identification device), the intensity of power carrier signal is anxious
Play decaying, thus can signal-to-noise ratio degradation.
By taking Fig. 9 as an example, it is whole that the answer signal 1 of intelligent electric meter box unit d1 must just reach intelligent distribution transforming after feeder pillar M
End, and 5 phase of answer signal of feeder pillar N directly reaches intelligent distribution transformer terminals.Then according to the characteristic of power carrier signal, response letter
Numbers 5 signal-to-noise ratio is obviously higher than answer signal 1.And if answer signal 1 experienced an identification device incessantly and just reach intelligence
Distribution transformer terminals, then its signal-to-noise ratio can be even lower.
Therefore, signal-to-noise ratio can be met to equipment corresponding to the answer signal of preset condition and is determined as feeder pillar, thus
To the first connection relationship.
Above-mentioned preset condition can include: signal-to-noise ratio is more than or not less than snr threshold, alternatively, signal-to-noise ratio falls in preset areas
Between.Snr threshold or pre-set interval can determine according to actual needs and flexibly.
Still by taking Fig. 9 as an example, it is assumed that the identification device in intelligent distribution transformer terminals has received answer signal 1 and 5, wherein answers
The signal-to-noise ratio for answering signal 5 is greater than snr threshold, and the signal-to-noise ratio of answer signal 1 is less than snr threshold, then can determine that response is believed
Number 5 corresponding equipment are feeder pillar.
Later, the MCU being installed in intelligent distribution transformer terminals can connect according to the first connection relationship of acquisition, separate information and second
Relationship is connect, integration obtains the network topology structure of low-voltage power distribution station area.
In addition, the MCU being installed in the intelligent distribution transformer terminals also can control wireless communication module by above-mentioned network topology
Structure is uploaded to power distribution automation main station (telecommunication).
For example, wireless communication module may include GPRS communications module, can by wireless public network access firewall and
Secure accessing platform, then Intranet main station system is connected to by secure accessing platform, finally carried out with corresponding power distribution automation main station
Telecommunication realizes the upload of data and information.
In addition, in other embodiments of the present invention, it is possible to use the serial communication modes such as RS485, RS232 replace above-mentioned nothing
Line communication carries out serial local communication by Special-purpose connecting line and distribution terminal, realizes the interaction of data and information, while the mould
On-line debugging, software upgrading and the local data of group support module transfer function.
Referring to Figure 10 is interacted between each identification device.
In embodiments of the present invention, it is installed in the intelligent distribution transformer terminals in platform area, feeder pillar and intelligent electric meter box unit
Identification device.Identification device in feeder pillar can determine the separate information of this feeder pillar by the signal-to-noise ratio of power carrier signal
(separate information includes the intelligent electric meter box unit that the feeder pillar is connected in ABC three-phase), and the separate information of itself is uploaded
Identification device at intelligent distribution transformer terminals, the identification device at intelligent distribution transformer terminals can be by low-voltage power distribution station area mesolow transformation
The first connection relationship, each intelligent electric meter box unit between device and feeder pillar and the second connection relationship between ammeter, and it is each
The separate information that feeder pillar uploads summarizes, and the network topology structure of low-voltage power distribution station area is obtained, to reach automatic identification low pressure
The topological structure of power distribution station.
The there is provided technical solution of the embodiment of the present invention has the advantages that
Without being transformed to existing power information acquisition system, cost is relatively low, is easy to promote.
The normal operation of power information acquisition system is not influenced, local communi-cation channel is acquired to existing power information without dry
It disturbs.
Low-voltage power distribution station area's network topology identification device is powered using dual power mode, device functional reliability
By force.
It realizes carrier communication and wireless communication dual mode communication, realizes signal of communication all standing.
Obtaining the network topology of low-voltage power distribution station area in real time based on carrier signal to noise ratio, real-time is stronger, manpower is saved,
Accuracy rate is higher.
Professional further appreciates that, unit described in conjunction with the examples disclosed in the embodiments of the present disclosure
And model step, can be realized with electronic hardware, computer software, or a combination of the two, in order to clearly demonstrate hardware and
The interchangeability of software generally describes each exemplary composition and step according to function in the above description.These
Function is implemented in hardware or software actually, the specific application and design constraint depending on technical solution.Profession
Technical staff can use different methods to achieve the described function each specific application, but this realization is not answered
Think beyond the scope of this invention.
The step of method described in conjunction with the examples disclosed in this document or model, can directly be held with hardware, processor
The combination of capable software module or the two is implemented.Software module can be placed in random access memory (RAM), memory, read-only deposit
Reservoir (ROM), electrically programmable ROM, electrically erasable ROM, register, hard disk, moveable magnetic disc, WD-ROM or technology
In any other form of storage medium well known in field.
The foregoing description of the disclosed embodiments enables those skilled in the art to implement or use the present invention.
Various modifications to these embodiments will be readily apparent to those skilled in the art, as defined herein
General Principle can be realized in other embodiments without departing from the spirit or scope of the present invention.Therefore, of the invention
It is not intended to be limited to the embodiments shown herein, and is to fit to and the principles and novel features disclosed herein phase one
The widest scope of cause.