A kind of hydrogen fuel stand-by power supply net long distance control system and method
Technical field
The present invention relates to remote control technology field, in particular to a kind of hydrogen fuel stand-by power supply net long distance control system and method.
Background technology
Hydrogen fuel stand-by power supply has the features such as load capacity is strong, the high and low noise of power density, non-pollution discharge, long-time power supply, can overcome the shortcomings such as poor efficiency that current traditional oil machine and lead acid accumulator exist, strong noise, low power density, especially be applicable to being applied to the application scenarioss such as the density of population is high, environmental requirement is high, standby electricity will be aspired for stability, therefore hydrogen fuel power supply, as novel stand-by power supply technology, is subject to increasing attention in communications industry guarantee for electrical domain, special standby electric application.
If hydrogen fuel stand-by power supply technology is applied to every profession and trade as ripe stand-by power supply, if the system of it not being carried out to remote monitoring, need manually to make regular check on the surplus of gas cylinder, investigation hydrogen fuel standby power system fault and alarm, maintenance system etc., so not only can increase workload and cost of labor, and be unfavorable for pinpointing the problems in time and intelligent management.If user can not control operation conditions and the warning information of hydrogen fuel standby power system in real time, the real-time processing of the system failure will be unfavorable for, especially, when many cover standby power systems use simultaneously, if there is no the monitoring in real time of unified tele-control system and management, easily cause managerial confusion.
Hydrogen fuel stand-by power supply the machine room stand-by power supply of the industries such as communication, electric power ensure application have application machine room unattended operation, application site widely distributed, require united net management system to carry out the features such as centralized monitor.Therefore the standby power system that is applied to these sector application fields is also distributed in different regions, these standby power systems form a stand-by power supply net, only certain standby power system is wherein monitored and can not be met client and monitor demand, perfect long distance control system must realize the centralized monitor to a stand-by power supply net (multiple standby power system).
Therefore, hydrogen fuel standby power system to be carried out to successful business application in industries such as communication, electric power, not only require standby power system to there is the ability of remote monitoring, and need a stable long distance control system, so that the multiple standby power systems in stand-by power supply net are unified to real-time management.
Summary of the invention
The invention provides a kind of hydrogen fuel stand-by power supply net long distance control system and method, in order to hydrogen fuel stand-by power supply net is carried out to remote monitoring.
For achieving the above object, the invention provides a kind of hydrogen fuel stand-by power supply net long distance control system, for the hydrogen fuel stand-by power supply net being made up of multiple hydrogen fuel standby power systems is carried out to remote monitoring, long distance control system comprises database, network element module, operational administrative module, control module, generating data module, alarm module, views module, wherein
Network element module is for setting up the annexation between multiple hydrogen fuel standby power systems and long distance control system and generating static network metadata, from hydrogen fuel stand-by power supply net, gather Dynamic Networks metadata and by static network metadata and Dynamic Networks metadata write into Databasce, wherein, the data of setting when static network metadata is the annexation of setting up between multiple hydrogen fuel standby power systems and long distance control system, Dynamic Networks metadata is the data that multiple hydrogen fuel standby power systems dynamically generate in the course of the work, static network metadata and Dynamic Networks metadata are referred to as network element data,
Operational administrative module for initialization operation data and by the operating data write into Databasce after initialization, detect connection status between long distance control system and multiple hydrogen fuel power-supply system, read the operating data of user's input and the login of the operating data leading subscriber inputted according to user, exit and close account;
Control module is for the running status of hydrogen fuel stand-by power supply net and multiple hydrogen fuel standby power systems is set, running status comprise suddenly stop, reset, start, stop, self-inspection operation;
Generating data module is for gathering the generating data of hydrogen fuel stand-by power supply net the data write into Databasce that will generate electricity;
Alarm module is for gathering and report the warning information of hydrogen fuel stand-by power supply net and by warning information write into Databasce;
Views module is for working as front view from database reading out data and according to the state of the data display hydrogen fuel stand-by power supply net reading and for preservation and printing.
Further, static network metadata comprises: network element creation-time, element name, NE type, affiliated gateway, affiliated gateway protocol, IP address, unit type, pile quantity, each road hydrogen cylinder number, hydrogen cylinder volume, hydrogen cylinder pressure, remark information, Dynamic Networks meta-data pack purse rope unit operating state, can standby electric duration, the storage hydrogen state of voltage, electric current, power, density of hydrogen, gate inhibition's state, pile inlet temperature, each hydrogen cylinder;
In network element module, be also provided with network element data and search unit and network element data statistic unit, network element data is searched unit for searching network element data according to the first search criterion of setting from database, the first search criterion is following any one or multiple combination: network element creation-time, element name, NE type, affiliated gateway, affiliated gateway protocol, IP address, unit type, network element data statistic unit is for adding up the number of the network element data that meets the first search criterion.
Further, operating data comprises operating personnel's affiliated office station, job number, name, phone number, operator password and operating right.
Further, in control module, be provided with delayed startup unit and time delay stop element, delayed startup unit is used for according to start-up time delay delayed startup hydrogen fuel stand-by power supply net or the multiple hydrogen fuel standby power system set, and time delay stop element is for stopping hydrogen fuel stand-by power supply net or multiple hydrogen fuel standby power system according to the time delay dwell time time delay of setting.
Further, generating data comprise the each generating of multiple hydrogen fuel standby power systems beginning generating dutation, finish generating dutation, this generating duration and the accumulative total duration that generates electricity.
Further, warning information comprises warning code, alarm level, alarm name, monitored object title, alarm report thresholding, alarm clearing thresholding, raising Time, alarm end time, acknowledged alarm time, wherein, alarm level be following any one: minor alarm, significant alarm, critical alarm;
In alarm module, be also provided with warning information and search unit and warning information statistic unit, warning information is searched unit for searching warning information according to the second search criterion of setting from database, the second search criterion is following any one or multiple combination: warning code, alarm level, alarm name, monitored object title, raising Time, alarm end time, acknowledged alarm time, warning information statistic unit is for adding up the number of the warning information that meets the second search criterion.
Further, in alarm module, be also provided with warning information screen unit, for according to set shielding condition shield alarm information.
Further, in alarm module, be also provided with warning information sending module, for send it to the personal communications terminal of binding with this warning information in the time collecting warning information, this personal communications terminal can be mobile phone or the individual palmtop PC with wireless receiving function, in the time that it is mobile phone, warning information can be sent to this mobile phone with note form, in addition, also can or have on the individual palmtop PC of wireless receiving function at this mobile phone the client of receipt message in real time such as Fetion client is installed, with real-time receiving alarm information.
Further, views module comprises following three kinds of display modes: graphic display mode, form display mode and curve display mode.
Further, between long distance control system and multiple hydrogen fuel standby power system, be connected by TCP/IP interface, long distance control system is by object linking and embed Dynamic Networks metadata, generating data and the warning information of user control OCX in a hydrogen fuel stand-by power supply net of setting-up time collection.
The present invention also provides a kind of hydrogen fuel stand-by power supply net long-distance monitoring method, carries out remote monitoring for the hydrogen fuel stand-by power supply net to being made up of multiple hydrogen fuel standby power systems, comprises the following steps:
Initialization operation data by the operating data write into Databasce after initialization;
Set up annexation between multiple hydrogen fuel standby power systems and hydrogen fuel stand-by power supply net long distance control system and by the static network metadata write into Databasce of setting in this process;
Read the operating data of user input and itself and the operating data in database are compared, if the operating data that user inputs is consistent with the operating data in database, logining successfully, otherwise login failure;
Start hydrogen fuel stand-by power supply net and multiple hydrogen fuel standby power system;
From hydrogen fuel stand-by power supply net, gather Dynamic Networks metadata and by Dynamic Networks metadata write into Databasce, wherein, static network metadata and Dynamic Networks metadata are referred to as network element data;
From hydrogen fuel stand-by power supply net, gather generating data the data write into Databasce that will generate electricity;
From hydrogen fuel stand-by power supply net, gather warning information and report warning information, and by warning information write into Databasce;
Reading out data the state according to the data display hydrogen fuel stand-by power supply net reading from database.
Further, above-mentioned hydrogen fuel stand-by power supply net long-distance monitoring method is further comprising the steps of:
Set one first search criterion, from database, search the network element data that meets the first search criterion the number of adding up the network element data that meets the first search criterion.
Further, above-mentioned hydrogen fuel stand-by power supply net long-distance monitoring method is further comprising the steps of:
According to start-up time delay delayed startup hydrogen fuel stand-by power supply net or the multiple hydrogen fuel standby power system set; And/or,
Stop hydrogen fuel stand-by power supply net or multiple hydrogen fuel standby power system according to the time delay dwell time time delay of setting.
Further, above-mentioned hydrogen fuel stand-by power supply net long-distance monitoring method is further comprising the steps of:
Set one second search criterion, from database, search the warning information that meets the second search criterion the number of adding up the warning information that meets the second search criterion.
Further, above-mentioned hydrogen fuel stand-by power supply net long-distance monitoring method is further comprising the steps of:
Set a shielding condition, according to shielding condition shield alarm information.
Further, above-mentioned hydrogen fuel stand-by power supply net long-distance monitoring method is further comprising the steps of:
Warning information is tied to a personal communications terminal, in the time collecting warning information, sends it to this personal communications terminal.
Wherein, this personal communications terminal can be mobile phone or the individual palmtop PC with wireless receiving function, in the time that it is mobile phone, warning information can be sent to this mobile phone with note form, in addition, also can or have on the individual palmtop PC of wireless receiving function at this mobile phone the client of receipt message in real time such as Fetion client is installed, with real-time receiving alarm information.
Further, above-mentioned hydrogen fuel stand-by power supply net long-distance monitoring method is further comprising the steps of:
Set a kind of display mode, reading out data the state according to display mode and the data display hydrogen fuel stand-by power supply net that reads from database, wherein, display mode be below any one: graphic display mode, form display mode and curve display mode.
The present invention can carry out real time monitoring, monitoring to the operational factor in multiple hydrogen fuel standby power systems of unattended, different location, the fault occurring in discovery system in time, and can adjust in time the running status of multiple hydrogen fuel standby power systems and hydrogen fuel stand-by power supply net, maximize the safety that ensures multiple hydrogen fuel standby power systems and hydrogen fuel stand-by power supply net, improve monitoring efficiency.
Brief description of the drawings
In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, to the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.
Fig. 1 is the composition schematic diagram of the hydrogen fuel stand-by power supply net long distance control system of one embodiment of the invention;
Fig. 2 is the flow chart of the hydrogen fuel stand-by power supply net long-distance monitoring method of one embodiment of the invention.
Description of reference numerals: 1-hydrogen fuel stand-by power supply net long distance control system; 10-database; 11-network element module; 12-operational administrative module; 13-control module; The 14-data module of generating electricity; 15-alarm module; 16-views module; 2-hydrogen fuel stand-by power supply net; 20-hydrogen fuel cell; 201-hydrogen fuel pile; 202-hydrogen fuel controller; 21-electromagnetically operated valve group; 22-multichannel hydrogen cylinder.
Embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiment.Based on the embodiment in the present invention, those of ordinary skill in the art, not paying the every other embodiment obtaining under creative work prerequisite, belong to the scope of protection of the invention.
Fig. 1 is the composition schematic diagram of the hydrogen fuel stand-by power supply net long distance control system of one embodiment of the invention, as shown in the figure, hydrogen fuel stand-by power supply net long distance control system 1 is carried out remote monitoring for the hydrogen fuel stand-by power supply net 2 to being made up of multiple hydrogen fuel standby power systems, wherein, hydrogen fuel standby power system comprises hydrogen fuel cell 20, electromagnetically operated valve group 21 and multichannel hydrogen cylinder 22, hydrogen fuel cell 20 comprises hydrogen fuel pile 201 and hydrogen fuel controller 202, figure has comprised 4 hydrogen fuel standby power systems, wherein, multichannel hydrogen cylinder 22 is shared by 4 hydrogen fuel standby power systems in figure, hydrogen fuel stand-by power supply net long distance control system 1 comprises database 10, network element module 11, operational administrative module 12, control module 13, generating data module 14, alarm module 15, views module 16, wherein,
When concrete enforcement, the power output of the multiple hydrogen fuel standby power systems shown in Fig. 1 can be identical can be not identical yet, and number is also not limited only to 4, also be that hydrogen fuel stand-by power supply net long distance control system 1 can be monitored the hydrogen fuel standby power system that multiple power outputs are different simultaneously, in practical operation, can carry out remote monitoring to it as long as include hydrogen fuel standby power system in hydrogen fuel stand-by power supply net long distance control system by the operation that creates NE.。
Table 1: the Platform of hardware of client
Network element module 11, operational administrative module 12, control module 13, generating data module 14, alarm module 15 and views module 16 in hydrogen fuel stand-by power supply net long distance control system 1 are integrated in a client, this client in the present embodiment is taking configuration software as development platform, it moves required hardware and software platform as shown in table 1 above, database 10 is SQL database, by setting up being connected of configuration software and SQL database, realizing function of database.In addition, can also use a network management software based on pure Java, MySQL and SNMP technology of SugarNMS() develop this client.
Network element module 11 is for setting up the annexation between multiple hydrogen fuel standby power systems and hydrogen fuel stand-by power supply net long distance control system 1 and generating static network metadata, from hydrogen fuel stand-by power supply net 2, gather Dynamic Networks metadata and by static network metadata and Dynamic Networks metadata write into Databasce 10, wherein, in the time that hydrogen fuel stand-by power supply net long distance control system 1 is connected for the first time with hydrogen fuel standby power system, user can include hydrogen fuel standby power system in hydrogen fuel stand-by power supply net long distance control system 1 and manages by creating the operation of new network element, and be that each hydrogen fuel stand-by power supply net long distance control system 1 is named respectively, be convenient to distinguish different hydrogen fuel stand-by power supply net long distance control systems 1.The data of setting when static network metadata is the annexation of setting up between multiple hydrogen fuel standby power systems and hydrogen fuel stand-by power supply net long distance control system 1, static network metadata comprises: network element creation-time, element name, NE type, affiliated gateway, affiliated gateway protocol, IP address, unit type, pile quantity, each road hydrogen cylinder number, hydrogen cylinder volume, hydrogen cylinder pressure, remark information, Dynamic Networks metadata is the data that multiple hydrogen fuel standby power systems dynamically generate in the course of the work, Dynamic Networks meta-data pack purse rope unit operating state, can be for electric duration, voltage, electric current, power, density of hydrogen, gate inhibition's state, pile inlet temperature, the storage hydrogen state of each hydrogen cylinder, static network metadata and Dynamic Networks metadata are referred to as network element data.
In network element module 11, be also provided with network element data and search unit and network element data statistic unit, network element data is searched unit for searching network element data according to the first search criterion of setting from database, the first search criterion is following any one or multiple combination: network element creation-time, element name, NE type, affiliated gateway, affiliated gateway protocol, IP address, unit type, network element data statistic unit is for adding up the number of the network element data that meets the first search criterion.
Operational administrative module 12 for initialization operation data and by the operating data write into Databasce 10 after initialization, detect connection status between hydrogen fuel stand-by power supply net long distance control system 1 and multiple hydrogen fuel power-supply system 20, read the operating data of user's input and the login of the operating data leading subscriber inputted according to user, exit and close account, wherein, operating data comprises operating personnel's affiliated office station, job number, name, phone number, operator password and operating right.
Control module 13 is for the running status of hydrogen fuel stand-by power supply net 2 and multiple hydrogen fuel standby power systems is set, running status comprise suddenly stop, reset, start, stop, self-inspection operation; In control module 13, be provided with delayed startup unit and time delay stop element, delayed startup unit is used for according to start-up time delay delayed startup hydrogen fuel stand-by power supply net 2 or the multiple hydrogen fuel standby power system set, and time delay stop element is for stopping hydrogen fuel stand-by power supply net 2 or multiple hydrogen fuel standby power system according to the time delay dwell time time delay of setting.
Generating data module 14 is for gathering the generating data of hydrogen fuel stand-by power supply net 2 the data write into Databasce 10 that will generate electricity, wherein, generating data comprise the each generating of multiple hydrogen fuel standby power systems beginning generating dutation, finish generating dutation, this generating duration and the accumulative total duration that generates electricity.
Alarm module 15 is for gathering and report the warning information of hydrogen fuel stand-by power supply net 2 and by warning information write into Databasce 10, warning information comprises warning code, alarm level, alarm name, monitored object title, alarm report thresholding, alarm clearing thresholding, raising Time, alarm end time, acknowledged alarm time, wherein, alarm level be following any one: minor alarm, significant alarm, critical alarm; In alarm module 15, be provided with warning information and search unit and warning information statistic unit, warning information is searched unit for searching warning information according to the second search criterion of setting from database, the second search criterion is following any one or multiple combination: warning code, alarm level, alarm name, monitored object title, raising Time, alarm end time, acknowledged alarm time, warning information statistic unit is for adding up the number of the warning information that meets the second search criterion; In alarm module 15, be also provided with warning information screen unit, for according to set shielding condition shield alarm information; In alarm module 15, be also provided with warning information sending module, for send it to the personal communications terminal of binding with this warning information in the time collecting warning information.Wherein, this personal communications terminal can be mobile phone or the individual palmtop PC with wireless receiving function, in the time that it is mobile phone, warning information can be sent to this mobile phone with note form, in addition, also can or have on the individual palmtop PC of wireless receiving function at this mobile phone the client of receipt message in real time such as Fetion client is installed, with real-time receiving alarm information.
Views module 16 is for working as front view from database 10 reading out datas and according to the state of the data display hydrogen fuel stand-by power supply net 2 reading and for preservation and printing, views module comprises following three kinds of display modes: graphic display mode, form display mode and curve display mode, views module can also save as when front view the picture of jpg form, and can realize printing when front view function by calling printer driver.
Between hydrogen fuel stand-by power supply net long distance control system 1 and multiple hydrogen fuel standby power system, be connected by TCP/IP interface, hydrogen fuel stand-by power supply net long distance control system 1 is by object linking and embed Dynamic Networks metadata, generating data and the warning information of user control OCX in a hydrogen fuel stand-by power supply net 2 of setting-up time collection.
Be illustrated in figure 2 the flow chart of the hydrogen fuel stand-by power supply net long-distance monitoring method of one embodiment of the invention, this hydrogen fuel stand-by power supply net long-distance monitoring method is for carrying out remote monitoring to the hydrogen fuel stand-by power supply net 2 being made up of multiple hydrogen fuel standby power systems, hydrogen fuel standby power system comprises hydrogen fuel cell 20, electromagnetically operated valve group 21 and multichannel hydrogen cylinder 22, hydrogen fuel cell 20 comprises hydrogen fuel pile 201 and hydrogen fuel controller 202, comprises the following steps:
S1: initialization operation data by the operating data write into Databasce 10 after initialization;
S2: set up annexation between multiple hydrogen fuel standby power systems and hydrogen fuel stand-by power supply net long distance control system 1 and by the static network metadata write into Databasce 10 of setting in this process;
S3: read the operating data of user input and itself and the operating data in database 10 are compared, if the operating data that user inputs is consistent with the operating data in database 10, logining successfully, otherwise login failure;
S4: start hydrogen fuel stand-by power supply net 2 and multiple hydrogen fuel standby power system;
S5: gather Dynamic Networks metadata and by Dynamic Networks metadata write into Databasce 10, wherein, static network metadata and Dynamic Networks metadata are referred to as network element data from hydrogen fuel stand-by power supply net 2;
S6: gather generating data the data write into Databasce 10 that will generate electricity from hydrogen fuel stand-by power supply net 2;
S7: from hydrogen fuel stand-by power supply net 2, gather warning information and report warning information, and by warning information write into Databasce 10;
S8: reading out data the state according to the data display hydrogen fuel stand-by power supply net 2 reading from database 10.
Above-mentioned hydrogen fuel stand-by power supply net long-distance monitoring method can also comprise a step of searching network element data:
Set one first search criterion, from database 10, search the network element data that meets the first search criterion the number of adding up the network element data that meets the first search criterion.
This step can find out the network element data that meets the first search criterion fast from database, and then network element data is carried out to further observation and analysis.
Above-mentioned hydrogen fuel stand-by power supply net long-distance monitoring method can also comprise a step of controlling hydrogen fuel stand-by power supply net 2 and the startup of multiple hydrogen fuel standby power system:
According to start-up time delay delayed startup hydrogen fuel stand-by power supply net 2 or the multiple hydrogen fuel standby power system set; And/or,
Stop hydrogen fuel stand-by power supply net 2 or multiple hydrogen fuel standby power system according to the time delay dwell time time delay of setting.
Above-mentioned hydrogen fuel stand-by power supply net long-distance monitoring method can also comprise a step of searching warning information:
Set one second search criterion, from database 10, search the warning information that meets the second search criterion the number of adding up the warning information that meets the second search criterion.
This step can go out to meet the warning information of the second search criterion in time this warning information is carried out to analyzing and processing by fast finding.
Above-mentioned hydrogen fuel stand-by power supply net long-distance monitoring method can also comprise the step of a shield alarm information:
Set a shielding condition, according to shielding condition shield alarm information.
This step can shield the warning information that temporarily needn't pay close attention to, can again set shielding condition it is removed to shielding in the time that needs are paid close attention to again.
Above-mentioned hydrogen fuel stand-by power supply net long-distance monitoring method can also comprise a step that warning information is sent to personal communications terminal:
Warning information is tied to a personal communications terminal, in the time collecting warning information, sends it to this personal communications terminal.
Wherein, this personal communications terminal can be mobile phone or the individual palmtop PC with wireless receiving function, in the time that it is mobile phone, warning information can be sent to this mobile phone with note form, in addition, also can or have on the individual palmtop PC of wireless receiving function at this mobile phone the client of receipt message in real time such as Fetion client is installed, with real-time receiving alarm information.
Above-mentioned hydrogen fuel stand-by power supply net long-distance monitoring method can also comprise a step that view display mode is set:
Set a kind of display mode, reading out data the state according to display mode and the data display hydrogen fuel stand-by power supply net 2 that reads from database 10, wherein, display mode be following any one: graphic display mode, form display mode and curve display mode.
The present invention can carry out real time monitoring, monitoring to the operational factor in multiple hydrogen fuel standby power systems of unattended, different location, the fault occurring in discovery system in time, and can adjust in time the running status of multiple hydrogen fuel standby power systems and hydrogen fuel stand-by power supply net, maximize the safety that ensures multiple hydrogen fuel standby power systems and hydrogen fuel stand-by power supply net, improve monitoring efficiency.
One of ordinary skill in the art will appreciate that: accompanying drawing is the schematic diagram of an embodiment, the module in accompanying drawing or flow process might not be that enforcement the present invention is necessary.
One of ordinary skill in the art will appreciate that: the module in the device in embodiment can be described and be distributed in the device of embodiment according to embodiment, also can carry out respective change and be arranged in the one or more devices that are different from the present embodiment.The module of above-described embodiment can be merged into a module, also can further split into multiple submodules.
Finally it should be noted that: above embodiment only, in order to technical scheme of the present invention to be described, is not intended to limit; Although the present invention is had been described in detail with reference to previous embodiment, those of ordinary skill in the art is to be understood that: its technical scheme that still can record previous embodiment is modified, or part technical characterictic is wherein equal to replacement; And these amendments or replacement do not make the essence of appropriate technical solution depart from the spirit and scope of embodiment of the present invention technical scheme.