CN106936210A - A kind of hydro power generation method for managing and monitoring, device, system and data acquisition unit - Google Patents
A kind of hydro power generation method for managing and monitoring, device, system and data acquisition unit Download PDFInfo
- Publication number
- CN106936210A CN106936210A CN201511022434.2A CN201511022434A CN106936210A CN 106936210 A CN106936210 A CN 106936210A CN 201511022434 A CN201511022434 A CN 201511022434A CN 106936210 A CN106936210 A CN 106936210A
- Authority
- CN
- China
- Prior art keywords
- generator
- information
- power generation
- generating
- base station
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Classifications
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J9/00—Circuit arrangements for emergency or stand-by power supply, e.g. for emergency lighting
- H02J9/04—Circuit arrangements for emergency or stand-by power supply, e.g. for emergency lighting in which the distribution system is disconnected from the normal source and connected to a standby source
- H02J9/06—Circuit arrangements for emergency or stand-by power supply, e.g. for emergency lighting in which the distribution system is disconnected from the normal source and connected to a standby source with automatic change-over, e.g. UPS systems
- H02J9/08—Circuit arrangements for emergency or stand-by power supply, e.g. for emergency lighting in which the distribution system is disconnected from the normal source and connected to a standby source with automatic change-over, e.g. UPS systems requiring starting of a prime-mover
Landscapes
- Business, Economics & Management (AREA)
- Emergency Management (AREA)
- Engineering & Computer Science (AREA)
- Power Engineering (AREA)
- Control Of Eletrric Generators (AREA)
Abstract
The present invention provides a kind of hydro power generation method for managing and monitoring, device, system and data acquisition unit, is related to wireless communication field.The method includes:Obtain the positional information and generating information of the generator that data acquisition unit is reported;After base station occurs civil power power-off, according to the positional information and generating information, it is defined as the generator that the base station powers;Receive the power generation command of staff's input;First control instruction to the data acquisition unit is sent according to the power generation command, so that the data acquisition unit controls the generator to start to generate electricity.This programme realizes the remote control to diesel engine, and reasonable distribution calls oil machine resource, improves resource utilization and operating efficiency, reduces oil machine scrappage, it is to avoid the stolen problem of oil machine.
Description
Technical field
The present invention relates to wireless communication field, particularly relate to a kind of hydro power generation method for managing and monitoring, device,
System and data acquisition unit.
Background technology
With the fast development of mobile communications network, people to the business demand and performance requirement of mobile network not
It is disconnected to improve.To meet user's multiple business demand, efficient, stabilization network operation support system is to closing weight
Will, how effectively network resource administration, safeguard network system resources turned into telecom operators pay close attention to weight
Point.
At present, because communication network is constantly in construction and optimizing phase, the default power supply mould of base station equipment burst
Formula happens occasionally.Additionally, the growth mode of the city of high speed development causes that city circut breaking is universal all the more.Cause
And, the generating monitoring under hydro power generation pattern, scheduling are worth us deeply to probe into management method.
Each telecom operators are for the general handling process of hydro power generation accounting management:First, oil machine is recorded
The generating time started of generator, generate electricity end time and generated energy;Secondly, the generating of communication base station is verified
Whether source is mains-supplied, if it is mains-supplied to generate electricity, this hydro power generation is invalid record data;
If it is non-mains-supplied to generate electricity, this hydro power generation is effective record data;Finally, taken according to current oil,
Count this generating expense.Currently, in hydro power generation record data link and hydro power generation checking link, one
As use and processed with following formula:
(1) based on artificial recording mode, manual site records the generating time started of diesel engine,
Generate electricity end time and generated energy, and whether live manual verification is hydro power generation;
(2) monitor mode based on cell-phone customer terminal (hereinafter referred to as MS), MS is by the side of being wirelessly transferred
Formula (2G, 3G or WIFI) is located information, the generating time started of diesel engine and generating and terminates
Time uploads onto the server, and server authentication MS reporting position informations are consistent with communication base station positional information
Property and communication base station power supply source, and remind monitoring personnel.
However, the operator scheme of existing communication base station oil engine generating monitoring management system is primarily present following shortcoming:
(1) manual record generating related data, the corresponding expense of statistics, and verify the oil machine hair in the source that generates electricity
Electric accounting management mode is difficult to grasp in real time the generating recording process of the record attendant that generates electricity, it is impossible to examine expense
With true, the accuracy of reimbursement, attendant easily makes a false report generating;In addition, manual record and checking oil machine
The validity of generating, statistical work amount is big, efficiency is low, expends substantial amounts of human and material resources and financial resources, and hold
It is error-prone, it is unfavorable for counting hydro power generation duration and expense.
(2) the hydro power generation monitor mode based on MS needs the generating of the manually operated generator of attendant/disconnected
Electric behavior, causes the waste of human and material resources;Additionally, diesel engine lacks management and the tune of science
Degree support, causes some base stations to place many oil machines, and oil machine long-term excess load in part is used, and part oil machine is long
Phase is idle unused, the phenomenons such as oil machine scrappage is high, oil machine is stolen occurs, causes the waste of oil machine resource,
Specification oil machine scheduling of resource cannot be rationalized.
The content of the invention
It is an object of the invention to provide a kind of hydro power generation method for managing and monitoring, device, system and data acquisition
Device, realizes the scientific dispatch management to the remote control and oil machine resource of hydro power generation.
To reach above-mentioned purpose, embodiments of the invention provide a kind of hydro power generation method for managing and monitoring, described
Method includes:
Obtain the positional information and generating information of the generator that data acquisition unit is reported;
After base station occurs civil power power-off, according to the positional information and generating information, it is defined as the base station
The generator of power supply;
Receive the power generation command of staff's input;
First control instruction is sent to the data acquisition unit according to the power generation command, so that the data are adopted
Storage controls the generator to start to generate electricity.
Wherein, methods described also includes:
After the generator starts to generate electricity, obtain the data acquisition unit and gathered during electrical power generators
The base station power information, the power information include electric current and/or voltage data;
The power information is compared with the power information of civil power;
If comparison result determines current base station for mains-supplied, send the second control instruction to the data and adopt
Storage, so that the data acquisition unit controls the generator to stop generating electricity.
Wherein, it is described according to the positional information and generating information, it is defined as the generator that the base station powers
The step of, including:
According to the positional information and generating information, generate generator geographic distribution and show;
According to the generator geographic distribution, it is defined as the generator that the base station powers.
Wherein, the generating information includes history generating dutation, generated energy and fuel consumption;
Accordingly, it is described according to the positional information and generating information, it is defined as the generating that the base station powers
The step of machine, including:
According to the history generating dutation, generated energy and fuel consumption determine the Generation Rate and oil consumption rate of generator;
According to the positional information, the distance of generator and the base station is determined;
By formula P=α A+ β B+ γ C, determine that the selection parameter P of generator, wherein A are generator
Generation Rate, B is the oil consumption rate of generator, and C is the distance of generator and the base station, and α is the weight of A
Coefficient, β is the weight coefficient of B, and γ is the weight coefficient of C;
It is determined that generator corresponding to P in preset threshold range is powered for the base station.
Wherein, the step of transmission the first control instruction to data acquisition unit according to the power generation command,
Including:
One Generation Control message is generated according to the power generation command;
Using the Generation Control message as the first control instruction, sent to the data by short message mode and adopted
Storage.
Wherein, methods described also includes:
According to the positional information and generating information, the accumulative generating duration of each generator is recorded;
When the accumulative generating duration is more than or equal to a default generating duration threshold value, repair and maintenance alarm is sent;
Receive the repair and maintenance information of staff's feedback;
According to the repair and maintenance information, maintenance expense is calculated according to default charging regulation.
To reach above-mentioned purpose, embodiments of the invention additionally provide a kind of hydro power generation monitoring management apparatus,
Described device includes:
First acquisition module, positional information and generating information for obtaining the generator that data acquisition unit is reported;
Determining module, for after it there is civil power power-off in base station, according to the positional information and generating information,
It is defined as the generator that the base station powers;
Receiver module, the power generation command for receiving staff's input;
First sending module, for sending the first control instruction to the data acquisition according to the power generation command
Device, so that the data acquisition unit controls the generator to start to generate electricity.
Wherein, described device also includes:
Second acquisition module, for after the generator starts to generate electricity, obtaining the data acquisition unit in hair
The power information of the base station gathered during electric power generation, the power information includes electric current and/or electricity
Pressure data;
Comparing module, for the power information to be compared with the power information of civil power;
Second sending module, if determine current base station for mains-supplied for comparison result, sends second and controls
System instruction is to the data acquisition unit, so that the data acquisition unit controls the generator to stop generating electricity.
Wherein, the determining module includes:
First generation submodule, for according to the positional information and generating information, geographical point of generation generator
Butut simultaneously shows;
First determination sub-module, for according to the generator geographic distribution, being defined as the base station and powering
Generator.
Wherein, the generating information includes history generating dutation, generated energy and fuel consumption;
Accordingly, the determining module includes:
Second determination sub-module, for according to the history generating dutation, generated energy and fuel consumption, it is determined that hair
The Generation Rate and oil consumption rate of motor;
3rd determination sub-module, for according to the positional information, determining the distance of generator and the base station;
4th determination sub-module, for by formula P=α A+ β B+ γ C, determining the selection parameter of generator
P, wherein A are the Generation Rate of generator, and B is the oil consumption rate of generator, and C is generator and the base station
Distance, α for A weight coefficient, β for B weight coefficient, γ for C weight coefficient;
5th determination sub-module, for determining that the generator corresponding to the P in preset threshold range is described
Base station powers.
Wherein, first sending module includes:
Second generation submodule, for generating a Generation Control message according to the power generation command;
Sending submodule, for using the Generation Control message as the first control instruction, by short message mode
Send to the data acquisition unit.
Wherein, described device also includes:
Logging modle, for according to the positional information and generating information, recording the accumulative hair of each generator
Electric duration;
Alarm module, for when the accumulative generating duration is more than or equal to a default generating duration threshold value,
Send repair and maintenance alarm;
Receiver module, the repair and maintenance information for receiving staff's feedback;
Repair and maintenance accounting module, for according to the repair and maintenance information, maintenance expense being calculated according to default charging regulation.
To reach above-mentioned purpose, embodiments of the invention additionally provide a kind of data acquisition unit, are applied to oil machine
Generating monitoring management system, the data acquisition unit is connected with generator, including:
Data acquisition module, generating information and the generator for gathering the generator are powered base
The power information stood;
Locating module, the positional information for obtaining the generator;
Communication module, for by the generating information of the generator, the power information of base station and positional information
Send to hydro power generation monitoring management apparatus, and receive the hydro power generation monitoring management apparatus send first
Control instruction and the second control instruction;
Control module, for according to first control instruction, control generator to start to generate electricity, and according to
Second control instruction, control generator stops generating electricity.
Wherein, the locating module is global position system GPS module.
Wherein, the communication module is user's identification SIM module.
To reach above-mentioned purpose, embodiments of the invention additionally provide a kind of hydro power generation monitoring management system,
The hydro power generation monitoring management system includes that hydro power generation monitoring management apparatus as described above and data are adopted
Storage.
Above-mentioned technical proposal of the invention has the beneficial effect that:
The hydro power generation method for managing and monitoring of the embodiment of the present invention, is got every in system by data acquisition unit
The positional information and generating information of individual generator, when there is civil power power-off in base station, can be according to the letter grasped
Breath is defined as the generator that base station powers.And after with base station be connected fixed generator by staff,
Remote input power generation command is that can trigger the first control instruction, makes data acquisition unit control generator to start to generate electricity.
So, the information of more authentic and valid generator can be not only got by data acquisition unit, and according to
These information more scientific reasonably can determine the generator powered for base station, while defeated according to staff
The power generation command for entering realizes the remote control to generator, and reasonable distribution calls oil machine resource, improves resource profit
With rate and operating efficiency, reduce oil machine scrappage, it is to avoid the problems such as oil machine is stolen.
Brief description of the drawings
The step of Fig. 1 is the hydro power generation method for managing and monitoring of embodiment of the present invention flow chart;
Fig. 2 is the specific steps flow chart one of the hydro power generation method for managing and monitoring of the embodiment of the present invention;
Fig. 3 is the phase difference schematic diagram in identification power supply source;
Fig. 4 is the specific steps flowchart 2 of the hydro power generation method for managing and monitoring of the embodiment of the present invention;
Fig. 5 is the specific steps flow chart 3 of the hydro power generation method for managing and monitoring of the embodiment of the present invention;
Fig. 6 is the structural representation of the hydro power generation monitoring management apparatus of the embodiment of the present invention;
Fig. 7 is the structural representation of the data acquisition unit of the embodiment of the present invention;
Fig. 8 is the functional schematic of the hydro power generation monitoring management system of the embodiment of the present invention.
Specific embodiment
To make the technical problem to be solved in the present invention, technical scheme and advantage clearer, below in conjunction with attached
Figure and specific embodiment are described in detail.
The present invention for existing communication base station oil engine generating monitoring management system by manual record data, manually
The existing authenticity of operation, correctness are poor, and human and material resources is wasted, and efficiency is low, and shortage section
Learn the problems such as oil machine application for managing and dispatching and cause is unreasonable, scrappage is high, oil machine is stolen, there is provided
A kind of hydro power generation method for managing and monitoring, realizes the remote control to diesel engine, and reasonable distribution is called
Oil machine resource, improves resource utilization and operating efficiency, reduces oil machine scrappage, it is to avoid oil machine is stolen
Problem.
As shown in figure 1, a kind of hydro power generation method for managing and monitoring of the embodiment of the present invention, methods described includes:
Step 101, obtains the positional information and generating information of the generator that data acquisition unit is reported.
Data acquisition unit in the embodiment of the present invention is connected with a generator, and every generator has the numbering of oneself,
Data acquisition unit can gather the positional information and generating information of correspondence generator, and report.Certainly, in order to
Guarantee information it is ageing, data acquisition unit can regularly be acquired.In this step, data acquisition unit is obtained
The positional information and generating information of the generator for reporting, have grasped every information of generator as final-period management
Foundation.And with the information exchange of data acquisition unit, can be carried out by wireless transmission method.
Step 102, after it there is civil power power-off in base station, according to the positional information and generating information, it is determined that
For the generator that the base station powers.
After base station occurs civil power power-off, in order to maintain the normal work of base station, it is necessary to timely for base station is carried out
Power supply.Positional information and generating information according to the generator having learned that, choose in numerous generators
For the generator that base station powers.
Step 103, receives the power generation command of staff's input.
It is defined as after the generator that base station powers, it is necessary to generator is moved to base station and and base by staff
Station is attached.Staff can be input into power generation command after connection generator and base station, inform generator
Generating preparation completes to start to generate electricity, so in this step, can receive hair by monitoring in real time
Electricity instruction.
Step 104, the first control instruction is sent to the data acquisition unit according to the power generation command, so that
The data acquisition unit controls the generator to start to generate electricity.
Data acquisition unit in the embodiment of the present invention can not only gather the various information of generator, can be with root
Start/stop to generate electricity according to control instruction control generator.In this step, power generation command triggering sends first and controls
System is instructed to data acquisition unit so that data acquisition unit control generator starts to generate electricity.
The hydro power generation method for managing and monitoring of the embodiment, each is sent out in getting system by data acquisition unit
The positional information and generating information of motor, when base station occurs civil power power-off, are defined as according to the information grasped
The generator that base station powers.And after with base station be connected fixed generator by staff, remote input
Power generation command is that can trigger the first control instruction, makes data acquisition unit control generator to start to generate electricity.So,
The information of more authentic and valid generator can be not only got by data acquisition unit, and according to these letters
Breath more scientific reasonably can determine the generator powered for base station, while the hair being input into according to staff
Electricity instruction realizes that, to the remote control of generator, reasonable distribution calls oil machine resource, improve resource utilization and
Operating efficiency, reduces oil machine scrappage, it is to avoid the stolen problem of oil machine.
It is well known that civil power is the main power supply source of base station, diesel engine be only in civil power for base station powers
Stringent effort under powering-off state, to maintain base station normal work, ensure the use of user, so, in city
After electricity recovers normal, to avoid the unnecessary generating of oil machine, as shown in Fig. 2 methods described also includes:
Step 201, after the generator starts to generate electricity, obtains the data acquisition unit in electrical power generators
During gather the base station power information, the power information include electric current and/or voltage data;
Step 202, the power information is compared with the power information of civil power;
Step 203, if comparison result determines current base station for mains-supplied, sends the second control instruction extremely
The data acquisition unit, so that the data acquisition unit controls the generator to stop generating electricity.
After civil power incoming call, base station can automatically switch to mains-supplied pattern, and now the power information of base station is also
It is the power information of civil power.Power information includes electric current and/or voltage data, such as voltage swing, phase.
Because civil power is different with hydro power generation, the power information of base station is compared with the power information of civil power, just
Mains-supplied or generator powered when can learn current base station.If having reverted to mains-supplied, you can
Stop generator powered, to avoid the wasting of resources, send the second control instruction to data acquisition unit, data are adopted
Storage control generator stops generating electricity.
It is the whole network synchronization that civil power and hydro power generation maximum are not both civil power phase, and is the hair of base station temporary power
Motor is small due to power, and supply district is small, does not have grid-connected requirement, does not have synchronizer, such civil power and the generating
Machine there is phase difference, as shown in Figure 3.Data acquisition unit reads the alternating current phases of base station, with civil power
Phase be compared, judge whether phase difference determine current base station power supply originate (for
At time point, compare whether two waveforms overlap, if overlap, be civil power, if do not overlap and phase difference be more than one
Determine threshold value, be hydro power generation).
Specifically, step 102, including:
Step 1021, according to the positional information and generating information, generates generator geographic distribution and shows
Show;
Step 10222, according to the generator geographic distribution, is defined as the generator that the base station powers.
After the positional information of generator and generating information is obtained, structure electrical map and base station information
Generation generator geographic distribution, can directly display position of the generator in figure, and with positional information
Renewal, it was observed that running orbit of the generator in certain time period.There is civil power power-off in a certain base station,
The generator near the base station can be intuitively found in generator geographic distribution, is defined as base station and is powered
Generator.
Although nearer apart from base station, can faster for base station is powered, selection generator when,
Not only to consider that generator is contemplated that the performance of generator with the distance of base station, it is to avoid part generator
Frequently use and the idle unreasonable distribution of part generator.So, in the above-described embodiments, the hair
Power information includes history generating dutation, generated energy and fuel consumption;
Accordingly, as shown in figure 4, the step 102, including:
Step 401, according to the history generating dutation, generated energy and fuel consumption determine the generating of generator
Rate and oil consumption rate;
Step 402, according to the positional information, determines the distance of generator and the base station;
Step 403, by formula P=α A+ β B+ γ C, determines the selection parameter P of generator, wherein A
It is the Generation Rate of generator, B is the oil consumption rate of generator, and C is the distance of generator and the base station, α
It is the weight coefficient of A, β is the weight coefficient of B, and γ is the weight coefficient of C;
Step 404, it is determined that generator corresponding to P in preset threshold range is powered for the base station.
In step 401-404, the property of generator is preferably determined by the Generation Rate and oil consumption rate of generator
Can, and combination generator and the distance of base station, by formula P=α A+ β B+ γ C, sent out when condition is met
When the P of motor is in preset threshold range, determine the dynamo region for base station powers.Wherein, α, β and
γ can be adjusted by staff as the weight coefficient of each amount according to practical situations.
In addition, with reference to the function of existing electronic map in generator geographic distribution, additionally it is possible to which selection is set out
Optimal navigation way of the motor to base station.
Certainly, except the performance that generator is determined above by Generation Rate and oil consumption rate, there can also be generator
Separate, power etc., it is numerous to list herein.
After being defined as the generator that base station powers, the generator can be moved to base station and carried out by staff
Power supply connection.After power supply is ready to complete, staff's input power generation command afterwards, is sent out according to power generation command
Sending the first control instruction to data acquisition unit, specific step 104 includes:
Step 1041, a Generation Control message is generated according to the power generation command;
Step 1042, the Generation Control message as the first control instruction is sent by short message mode
To the data acquisition unit.
First control instruction is sent using short message mode, it is ensured that data acquisition unit is in generator for base station powers
When, without the normal power generation control under network signal conditions.
Often as the use time of generator is accumulated, generator will go wrong, and having influence on normally makes
With, therefore regularly care and maintenance is carried out to generator.As shown in figure 5, methods described also includes:
Step 501, according to the positional information and generating information, when recording the accumulative generating of each generator
It is long;
Step 502, when the accumulative generating duration is more than or equal to a default generating duration threshold value, sends
Repair and maintenance are alerted;
Step 503, receives the repair and maintenance information of staff's feedback;
Step 504, according to the repair and maintenance information, maintenance expense is calculated according to default charging regulation.
Due to having obtained the positional information and generating information of generator in step 101, and regularly updated,
Therefore can be by the accumulative generating duration of each generator of cumulative calculation.When accumulative generating duration is more than or waits
When a default generating duration threshold value, repair and maintenance alarm is sent, inform that the staff generator has used one section
Time is, it is necessary to carry out repair and maintenance.Staff can feed back repair and maintenance information after repair and maintenance, receive repair and maintenance letter
After breath, can identify that repair location, maintenance personal, repair and maintenance rank and repair and maintenance are specific by repair and maintenance information
Content etc., presets the corresponding charging regime of charging Rulemaking, and inquiry calculating is corresponded to respectively can finally be obtained
To maintenance expense.
The hydro power generation method for managing and monitoring of the embodiment of the present invention, not only can by server indoors oil machine send out
The management to hydro power generation and repair and maintenance, the staff of field personnel and repair and maintenance are realized on electric monitoring management monitor terminal
Personnel can also by installing mobile terminal application, realize palm generating information real-time query, repair and maintenance management,
Refuel and manage and maintenance log.Such as add up generating duration more than or equal to a default generating duration threshold value
When repair and maintenance are alerted, monitoring personnel can be by monitor supervision platform transmitting short message to related repair and maintenance personnel.
In sum, the hydro power generation method for managing and monitoring of the embodiment of the present invention, is obtained by data acquisition unit
The positional information of each generator and generating information in system, so when base station occurs civil power power-off, root
It is defined as the generator that base station powers according to the information grasped.And in staff by fixed generator and base
Stand after connection, remote input power generation command is that can trigger the first control instruction, make data acquisition unit control to generate electricity
Machine starts to generate electricity.So, the letter of more authentic and valid generator can be not only got by data acquisition unit
Breath, and the generator powered for base station more scientific can be reasonably determined according to these information, while root
The power generation command being input into according to staff realizes the remote control to generator, and reasonable distribution calls oil machine resource,
Resource utilization and operating efficiency are improved, oil machine scrappage is reduced, it is to avoid the stolen problem of oil machine.In addition,
The situation of generator can also be automatically monitored, reach a timing in accumulative generating duration carries out repair and maintenance in time, is
The regular maintenance of generator and maintenance provide strong support.
As shown in fig. 6, embodiments of the invention additionally provide a kind of hydro power generation monitoring management apparatus, it is described
Device includes:
First acquisition module 601, positional information and generating for obtaining the generator that data acquisition unit is reported
Information;
Determining module 602, for after base station occurs civil power power-off, according to the positional information and the letter that generates electricity
Breath, is defined as the generator that the base station powers;
First receiver module 603, the power generation command for receiving staff's input;
First sending module 604, for sending the first control instruction to the data according to the power generation command
Collector, so that the data acquisition unit controls the generator to start to generate electricity.
Wherein, described device also includes:
Second acquisition module, for after the generator starts to generate electricity, obtaining the data acquisition unit in hair
The power information of the base station gathered during electric power generation, the power information includes electric current and/or electricity
Pressure data;
Comparing module, for the power information to be compared with the power information of civil power;
Second sending module, if determine current base station for mains-supplied for comparison result, sends second and controls
System instruction is to the data acquisition unit, so that the data acquisition unit controls the generator to stop generating electricity.
Wherein, the determining module includes:
First generation submodule, for according to the positional information and generating information, geographical point of generation generator
Butut simultaneously shows;
First determination sub-module, for according to the generator geographic distribution, being defined as the base station and powering
Generator.
Wherein, the generating information includes history generating dutation, generated energy and fuel consumption;
Accordingly, the determining module includes:
Second determination sub-module, for according to the history generating dutation, generated energy and fuel consumption, it is determined that hair
The Generation Rate and oil consumption rate of motor;
3rd determination sub-module, for according to the positional information, determining the distance of generator and the base station;
4th determination sub-module, for by formula P=α A+ β B+ γ C, determining the selection parameter of generator
P, wherein A are the Generation Rate of generator, and B is the oil consumption rate of generator, and C is generator and the base station
Distance, α for A weight coefficient, β for B weight coefficient, γ for C weight coefficient;
5th determination sub-module, for determining that the generator corresponding to the P in preset threshold range is described
Base station powers.
Wherein, first sending module includes:
Second generation submodule, for generating a Generation Control message according to the power generation command;
Sending submodule, for using the Generation Control message as the first control instruction, by short message mode
Send to the data acquisition unit.
Wherein, described device also includes:
Logging modle, for according to the positional information and generating information, recording the accumulative hair of each generator
Electric duration;
Alarm module, for when the accumulative generating duration is more than or equal to a default generating duration threshold value,
Send repair and maintenance alarm;
Second receiver module, the repair and maintenance information for receiving staff's feedback;
Repair and maintenance accounting module, for according to the repair and maintenance information, maintenance expense being calculated according to default charging regulation.
The hydro power generation monitoring management apparatus of the embodiment of the present invention are applied to server, the first acquisition module 601
The positional information and generating information of each generator in system are got by data acquisition unit, so in base station
When generation civil power is powered off, determining module 602 is defined as the generator that base station powers according to the information grasped.And
First receiver module 603 is received after with base station be connected fixed generator by staff, remote input
Power generation command, the first control instruction is sent by the first sending module 604, make data acquisition unit control generate electricity
Machine starts to generate electricity.So, the letter of more authentic and valid generator can be not only got by data acquisition unit
Breath, and the generator powered for base station more scientific can be reasonably determined according to these information, while root
The power generation command being input into according to staff realizes the remote control to generator, and reasonable distribution calls oil machine resource,
Resource utilization and operating efficiency are improved, oil machine scrappage is reduced, it is to avoid the stolen problem of oil machine.In addition,
The situation of generator can also be automatically monitored, reach a timing in accumulative generating duration carries out repair and maintenance in time, is
The regular maintenance of generator and maintenance provide strong support.
It should be noted that the hydro power generation monitoring management apparatus are to apply above-mentioned hydro power generation monitoring management
The device of method, the implementation of above-mentioned hydro power generation method for managing and monitoring is applied to the device, can also reach
Identical technique effect.
As shown in fig. 7, embodiments of the invention additionally provide a kind of data acquisition unit, hydro power generation is applied to
Monitoring management system, the data acquisition unit is connected with generator, including:
Data acquisition module 701, generating information and the generator for gathering the generator are supplied
The power information of electric base station;
Locating module 702, the positional information for obtaining the generator;
Communication module 703, for by the generating information of the generator, the power information of base station and position
Information is sent to hydro power generation monitoring management apparatus, and receives what the hydro power generation monitoring management apparatus sent
First control instruction and the second control instruction;
Control module 704, for according to first control instruction, control generator to start to generate electricity, and
According to second control instruction, control generator stops generating electricity.
Wherein, the locating module is global position system GPS module.
Wherein, the communication module is user's identification SIM module.
The data acquisition module of the data acquisition unit, locating module, communication module and control module, Neng Goushi
The now collection of generating information, the acquisition of positional information, information exchange and the control that generator is started/stopped
System.Coordinate above-mentioned hydro power generation monitoring management apparatus, get the information of more authentic and valid generator,
The more scientific rational remote control determined the generator powered for base station, realize to generator, rationally divides
With oil machine resource is called, resource utilization and operating efficiency are improved, reduce oil machine scrappage, it is to avoid oil machine
Stolen problem.In addition it is possible to monitor the situation of generator automatically, reached necessarily in accumulative generating duration
When carry out repair and maintenance in time, be generator regular maintenance and maintenance provide strong support.
In addition, the data acquisition unit also has a memory space, gone wrong in network, it is impossible to by what is obtained
When generating information and positional information inform hydro power generation monitoring management apparatus, it is preserved.It is extensive in network
After answering normally, then informed.
It should be noted that the data acquisition unit is coordinated with above-mentioned hydro power generation monitoring management apparatus, on
The implementation for stating hydro power generation monitoring management apparatus is applied to the data acquisition unit, can also reach identical skill
Art effect.
Embodiments of the invention additionally provide a kind of hydro power generation monitoring management system, the hydro power generation monitoring
Management system includes hydro power generation monitoring management apparatus as described above and data acquisition unit.
As shown in figure 8, the system is realized to the long-range of hydro power generation by the data acquisition unit that generator is equipped with
Manipulation;Data acquisition unit timing acquiring, upload generating data to hydro power generation monitoring management apparatus, further,
Realize generating information management, base station information management, oil machine information management, oil machine orientation management, generating data
Statistical analysis and oiling, generating, the statistics of maintenance expense;Finally, it is right to be realized by mobile terminal application
The real-time palm generating information inquiry of oil machine, statistical query, management and running, repair and maintenance management, maintenance management,
Refuel and manage, using convenient, efficient, quick.
It should be noted that the system includes above-mentioned hydro power generation monitoring management apparatus and data acquisition unit
The implementation of system, above-mentioned hydro power generation monitoring management apparatus and data acquisition unit is applied to the system,
Identical technique effect can be reached.
Explanation is needed further exist for, this electronic equipment described in this description includes but is not limited to intelligent hand
Machine, panel computer etc., and described many functional parts are all referred to as module, so as to specifically strong
Adjust the independence of its implementation.
This many functional part described in this description is all referred to as module, specifically to emphasize it
The independence of implementation.
In the embodiment of the present invention, module can be realized with software, so as to by various types of computing devices.
For example, an executable code module for mark can include one or more physics of computer instruction
Or logical block, for example, it can be built as object, process or function.Even so, being marked
The executable code for knowing module need not be physically located together, and can be including storing in different positions
Different instructions, when being combined together in these command logics, it constitutes module and realizes the module
Regulation purpose.
In fact, executable code module can be individual instructions or the instruction of many bars, and even may be used
To be distributed on multiple different code segments, it is distributed in the middle of distinct program, and is set across multiple memories
Back-up cloth.Similarly, peration data can be identified in module, and can be according to any appropriate shape
Formula is realized and is organized in the data structure of any appropriate type.The peration data can be as single
Data set is collected, or can be distributed on diverse location (be included in different storage device), and
Only can be present in system or network as electronic signal at least in part.
When module can be realized using software, it is contemplated that the level of existing hardware technique, it is possible to soft
The module that part is realized, in the case where cost is not considered, those skilled in the art can build corresponding hard
Part circuit realizes corresponding function, and the hardware circuit includes conventional ultra-large integrated (VLSI)
The existing semiconductor of circuit or gate array and such as logic chip, transistor etc or other are discrete
Element.Module can also use programmable hardware device, such as field programmable gate array, programmable array
Logic, programmable logic device etc. are realized.
Exemplary embodiment is described in down with reference to those accompanying drawings.Many different forms and embodiment are can
Row is without departing from spirit of the invention and teaches, therefore, this announcement should not be construed to turn into and propose example at this
The limitation of property embodiment.More precisely, these exemplary embodiments are provided so that this announcement can be
It is kind and complete, and the scope of the invention can be conveyed to those those of skill in the art.In those schemas,
Perhaps, it is exaggerated for the sake of size of components and relative size are based on clearly.Term used herein is based only on
Description particular example embodiment purpose, is not intended to turn into limitation use.As used in this manner, unless this is interior
Text clearly refers else, and otherwise the singulative " ", " one " and " being somebody's turn to do " are intended to those are more
Individual form is also included.Will become further apparent those term "comprising"s and/or " including " be used in this
During specification, the presence of the feature, integer, step, operation, component and/or component is represented, but not
Exclude the presence of one or more further features, integer, step, operation, component, component and/or its group
Or increase.Unless otherwise indicated, narrative tense, a bound of the value scope comprising the scope and therebetween any
Subrange.
The above is the preferred embodiment of the present invention, it is noted that for the common skill of the art
For art personnel, on the premise of principle of the present invention is not departed from, some improvements and modifications can also be made,
These improvements and modifications also should be regarded as protection scope of the present invention.
Claims (16)
1. a kind of hydro power generation method for managing and monitoring, it is characterised in that methods described includes:
Obtain the positional information and generating information of the generator that data acquisition unit is reported;
After base station occurs civil power power-off, according to the positional information and generating information, it is defined as the base station
The generator of power supply;
Receive the power generation command of staff's input;
First control instruction is sent to the data acquisition unit according to the power generation command, so that the data are adopted
Storage controls the generator to start to generate electricity.
2. hydro power generation method for managing and monitoring according to claim 1, it is characterised in that the side
Method also includes:
After the generator starts to generate electricity, obtain the data acquisition unit and gathered during electrical power generators
The base station power information, the power information include electric current and/or voltage data;
The power information is compared with the power information of civil power;
If comparison result determines current base station for mains-supplied, send the second control instruction to the data and adopt
Storage, so that the data acquisition unit controls the generator to stop generating electricity.
3. hydro power generation method for managing and monitoring according to claim 1, it is characterised in that described
According to the positional information and generating information, the step of be defined as the generator that the base station powers, including:
According to the positional information and generating information, generate generator geographic distribution and show;
According to the generator geographic distribution, it is defined as the generator that the base station powers.
4. the hydro power generation method for managing and monitoring according to claim 1 or 3, it is characterised in that institute
Stating generating information includes history generating dutation, generated energy and fuel consumption;
Accordingly, it is described according to the positional information and generating information, it is defined as the generating that the base station powers
The step of machine, including:
According to the history generating dutation, generated energy and fuel consumption determine the Generation Rate and oil consumption rate of generator;
According to the positional information, the distance of generator and the base station is determined;
By formula P=α A+ β B+ γ C, determine that the selection parameter P of generator, wherein A are generator
Generation Rate, B is the oil consumption rate of generator, and C is the distance of generator and the base station, and α is the weight of A
Coefficient, β is the weight coefficient of B, and γ is the weight coefficient of C;
It is determined that generator corresponding to P in preset threshold range is powered for the base station.
5. hydro power generation method for managing and monitoring according to claim 1, it is characterised in that described
The step of the first control instruction to the data acquisition unit being sent according to the power generation command, including:
One Generation Control message is generated according to the power generation command;
Using the Generation Control message as the first control instruction, sent to the data by short message mode and adopted
Storage.
6. hydro power generation method for managing and monitoring according to claim 1, it is characterised in that the side
Method also includes:
According to the positional information and generating information, the accumulative generating duration of each generator is recorded;
When the accumulative generating duration is more than or equal to a default generating duration threshold value, repair and maintenance alarm is sent;
Receive the repair and maintenance information of staff's feedback;
According to the repair and maintenance information, maintenance expense is calculated according to default charging regulation.
7. a kind of hydro power generation monitoring management apparatus, it is characterised in that described device includes:
First acquisition module, positional information and generating information for obtaining the generator that data acquisition unit is reported;
Determining module, for after it there is civil power power-off in base station, according to the positional information and generating information,
It is defined as the generator that the base station powers;
Receiver module, the power generation command for receiving staff's input;
First sending module, for sending the first control instruction to the data acquisition according to the power generation command
Device, so that the data acquisition unit controls the generator to start to generate electricity.
8. hydro power generation monitoring management apparatus according to claim 7, it is characterised in that the dress
Putting also includes:
Second acquisition module, for after the generator starts to generate electricity, obtaining the data acquisition unit in hair
The power information of the base station gathered during electric power generation, the power information includes electric current and/or electricity
Pressure data;
Comparing module, for the power information to be compared with the power information of civil power;
Second sending module, if determine current base station for mains-supplied for comparison result, sends second and controls
System instruction is to the data acquisition unit, so that the data acquisition unit controls the generator to stop generating electricity.
9. hydro power generation monitoring management apparatus according to claim 7, it is characterised in that it is described really
Cover half block includes:
First generation submodule, for according to the positional information and generating information, geographical point of generation generator
Butut simultaneously shows;
First determination sub-module, for according to the generator geographic distribution, being defined as the base station and powering
Generator.
10. hydro power generation monitoring management apparatus according to claim 7 or 9, it is characterised in that institute
Stating generating information includes history generating dutation, generated energy and fuel consumption;
Accordingly, the determining module includes:
Second determination sub-module, for according to the history generating dutation, generated energy and fuel consumption, it is determined that hair
The Generation Rate and oil consumption rate of motor;
3rd determination sub-module, for according to the positional information, determining the distance of generator and the base station;
4th determination sub-module, for by formula P=α A+ β B+ γ C, determining the selection parameter of generator
P, wherein A are the Generation Rate of generator, and B is the oil consumption rate of generator, and C is generator and the base station
Distance, α for A weight coefficient, β for B weight coefficient, γ for C weight coefficient;
5th determination sub-module, for determining that the generator corresponding to the P in preset threshold range is described
Base station powers.
11. hydro power generation monitoring management apparatus according to claim 7, it is characterised in that described
One sending module includes:
Second generation submodule, for generating a Generation Control message according to the power generation command;
Sending submodule, for using the Generation Control message as the first control instruction, by short message mode
Send to the data acquisition unit.
12. hydro power generation monitoring management apparatus according to claim 7, it is characterised in that the dress
Putting also includes:
Logging modle, for according to the positional information and generating information, recording the accumulative hair of each generator
Electric duration;
Alarm module, for when the accumulative generating duration is more than or equal to a default generating duration threshold value,
Send repair and maintenance alarm;
Receiver module, the repair and maintenance information for receiving staff's feedback;
Repair and maintenance accounting module, for according to the repair and maintenance information, maintenance expense being calculated according to default charging regulation.
A kind of 13. data acquisition units, are applied to hydro power generation monitoring management system, it is characterised in that described
Data acquisition unit is connected with generator, including:
Data acquisition module, generating information and the generator for gathering the generator are powered base
The power information stood;
Locating module, the positional information for obtaining the generator;
Communication module, for by the generating information of the generator, the power information of base station and positional information
Send to hydro power generation monitoring management apparatus, and receive the hydro power generation monitoring management apparatus send first
Control instruction and the second control instruction;
Control module, for according to first control instruction, control generator to start to generate electricity, and according to
Second control instruction, control generator stops generating electricity.
14. data acquisition units according to claim 13, it is characterised in that the locating module is
Global position system GPS module.
15. data acquisition units according to claim 13, it is characterised in that the communication module is
User's identification SIM module.
A kind of 16. hydro power generation monitoring management systems, it is characterised in that the hydro power generation monitoring management system
System includes the hydro power generation monitoring management apparatus and claim 13 as described in any one of claim 7 to 12
To the data acquisition unit described in 15 any one.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201511022434.2A CN106936210A (en) | 2015-12-30 | 2015-12-30 | A kind of hydro power generation method for managing and monitoring, device, system and data acquisition unit |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201511022434.2A CN106936210A (en) | 2015-12-30 | 2015-12-30 | A kind of hydro power generation method for managing and monitoring, device, system and data acquisition unit |
Publications (1)
Publication Number | Publication Date |
---|---|
CN106936210A true CN106936210A (en) | 2017-07-07 |
Family
ID=59441502
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201511022434.2A Pending CN106936210A (en) | 2015-12-30 | 2015-12-30 | A kind of hydro power generation method for managing and monitoring, device, system and data acquisition unit |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN106936210A (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108736574A (en) * | 2018-06-12 | 2018-11-02 | 重庆灏漫科技有限公司 | A kind of intelligent monitoring terminal of base station oil engine, regulation and control method and monitoring system |
CN110796311A (en) * | 2019-10-30 | 2020-02-14 | 北京天元创新科技有限公司 | Management and control method and device for emergency power generation process of communication base station |
CN113642921A (en) * | 2021-08-30 | 2021-11-12 | 广东万联环保科技有限公司 | Base station power generation monitoring and expense auditing method and system and electronic equipment |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101673108A (en) * | 2008-09-10 | 2010-03-17 | 中国移动通信集团广西有限公司 | Method and system for controlling generator, and base station |
CN202372853U (en) * | 2011-12-31 | 2012-08-08 | 中国移动通信集团浙江有限公司 | System for monitoring power generation and managing scheduling of base station movement oil engine |
-
2015
- 2015-12-30 CN CN201511022434.2A patent/CN106936210A/en active Pending
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101673108A (en) * | 2008-09-10 | 2010-03-17 | 中国移动通信集团广西有限公司 | Method and system for controlling generator, and base station |
CN202372853U (en) * | 2011-12-31 | 2012-08-08 | 中国移动通信集团浙江有限公司 | System for monitoring power generation and managing scheduling of base station movement oil engine |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108736574A (en) * | 2018-06-12 | 2018-11-02 | 重庆灏漫科技有限公司 | A kind of intelligent monitoring terminal of base station oil engine, regulation and control method and monitoring system |
CN110796311A (en) * | 2019-10-30 | 2020-02-14 | 北京天元创新科技有限公司 | Management and control method and device for emergency power generation process of communication base station |
CN113642921A (en) * | 2021-08-30 | 2021-11-12 | 广东万联环保科技有限公司 | Base station power generation monitoring and expense auditing method and system and electronic equipment |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN105743169B (en) | A kind of high in the clouds remote control electric automobile charging station system and method | |
CN105553103B (en) | A kind of region active distribution network Energy Management System and method | |
CN104751305A (en) | Trouble analysis and repair-based intelligent interaction system and control method thereof | |
CN106872856A (en) | Distribution network failure based on polynary fault collection actively rushes to repair system, method | |
CN110276554A (en) | A kind of distribution low voltage failure repairing aid decision and intelligent managing and control system | |
CN106972587B (en) | Management system of intelligent battery | |
CN107942862A (en) | base station oil engine management system and method based on technology of internet of things | |
CN106936210A (en) | A kind of hydro power generation method for managing and monitoring, device, system and data acquisition unit | |
CN104269901A (en) | Direct-current fast charging station managing system and method for electric automobile from power grid | |
CN108736574A (en) | A kind of intelligent monitoring terminal of base station oil engine, regulation and control method and monitoring system | |
CN112308246A (en) | Power failure notification method and system | |
CN204853837U (en) | Air conditioner fault diagnostic based on body | |
CN104865475A (en) | Line loss monitoring device | |
CN104503417B (en) | A kind of Hydropower Station Monitor system | |
CN102427253B (en) | Method for communicating charge-discharge monitoring center of electric automobile with local monitoring modules of charging station | |
CN103618782A (en) | Remote household appliance electricity utilization situation managing system with automatic repair reporting function | |
CN114331384A (en) | Power grid topology data acquisition method and device, computer equipment and storage medium | |
CN110712541A (en) | Remote monitoring method for solar charging station | |
CN106408239A (en) | Express delivery service information monitoring method, system, client and server | |
CN206741300U (en) | A kind of electrical power generators management system | |
CN211123173U (en) | Data acquisition device of direct current intermediate frequency generator | |
CN202421844U (en) | Monitoring and managing system for oil engine | |
CN106557986B (en) | Photovoltaic power station equipment maintenance method | |
CN106973098A (en) | Air-conditioning data processing method and device | |
CN105335824A (en) | Power distribution network fault first-aid repair commanding method and system based on data center |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
RJ01 | Rejection of invention patent application after publication |
Application publication date: 20170707 |
|
RJ01 | Rejection of invention patent application after publication |