CN105047967A - Running control method, device and system for fuel cell standby power supply - Google Patents

Abstract

The invention discloses a running control method, device and system for a fuel cell standby power supply. The running control method for the fuel cell standby power supply is applicable for a client configured on the fuel cell standby power supply and comprises the following steps of: acquiring at least one preset running parameter of the fuel cell standby power supply; sending the at least one preset running parameter to a provider end so as to lead the provider end to determine abnormal parameter calibration data according to the at least one preset running parameter, wherein the abnormal parameter calibration data is used for calibrating an abnormal parameter in the at least one preset running parameter; receiving the abnormal parameter calibration data sent from the provider end; and carrying out abnormal parameter calibration of the fuel cell standby power supply according to the abnormal parameter calibration data. According to the running control method, data interaction is performed between the client of the fuel cell standby power supply and the provider end to complete parameter calibration of the fuel cell standby power supply, in-site maintenance of the operators is not needed, and product maintenance time is reduced.

Description

A kind of fuel cell stand-by power supply progress control method, device and system

Technical field

The embodiment of the present invention relates to fuel cell alternate power technologies, particularly relates to a kind of fuel cell stand-by power supply progress control method, device and system.

Background technology

Fuel cell stand-by power supply is a kind of intelligent control system based on fuel cell, needs coding remove to monitor every input parameter of fuel cell and go to control the output of whole system according to input and the demand of load in this system.This power-supply system in use unavoidably there will be the series of problems such as abnormal parameters or the system failure, therefore needs the maintenance work such as parameter calibration and program upgrade this system being carried out to not timing.

The parameter calibration of current backup power system of fuel cell and program upgrade continue to use traditional mode, and when parameter or program exception appear in this system, system maintenance personnel need to reach the spot to safeguard accordingly system.

System maintenance personnel reach the spot and carry out maintenance work, can cause the waste on provider companies manpower and cost, and at present on-site maintenance can cause the delay on product repair time, thus cause the loss of user.

Summary of the invention

The invention provides a kind of fuel cell stand-by power supply progress control method, device and system, demarcate and software upgrading to realize fuel cell stand-by power supply remote parameter.

First aspect, embodiments provides a kind of fuel cell stand-by power supply progress control method, is applied to the client be configured on described fuel cell stand-by power supply, comprises: at least one the default operational factor obtaining described fuel cell stand-by power supply; At least one default operational factor described is sent to supplier's end, so that described supplier holds according at least one default operational factor determination anomaly parameter nominal data described, described anomaly parameter nominal data is for demarcating the anomaly parameter at least one default operational factor described; Receive the described anomaly parameter nominal data that described supplier holds transmission; According to described anomaly parameter nominal data, anomaly parameter demarcation is carried out to described fuel cell stand-by power supply.

This fuel cell stand-by power supply progress control method, also comprises: receive the software program AKU that described supplier holds transmission, and described software program AKU is used for upgrading to described fuel cell stand-by power supply; Described software program AKU according to receiving carries out software upgrading to described fuel cell stand-by power supply.

Second aspect, embodiments provides a kind of fuel cell stand-by power supply progress control method, is applied to supplier's end, comprises: at least one the default operational factor receiving the described fuel cell stand-by power supply that client sends; Anomaly parameter is searched from least one default operational factor of described fuel cell stand-by power supply; Generate the anomaly parameter nominal data that described anomaly parameter is corresponding, described anomaly parameter nominal data is for demarcating described anomaly parameter; Described anomaly parameter nominal data is sent to described client.

This fuel cell stand-by power supply progress control method, also comprises: the software program AKU obtaining described fuel cell stand-by power supply; The software program AKU of described fuel cell stand-by power supply is sent to described client.

The third aspect, the embodiment of the present invention additionally provides a kind of fuel cell stand-by power supply operating control device, be applied to the client be configured on described fuel cell stand-by power supply, comprise: parameter acquisition module, for obtaining at least one default operational factor of described fuel cell stand-by power supply; Parameter sending module, at least one default operational factor described being sent to supplier's end, so that described supplier holds according at least one default operational factor determination anomaly parameter nominal data described; Nominal data receiver module, holds the described anomaly parameter nominal data of transmission for receiving described supplier; Parameter calibration module, for carrying out anomaly parameter demarcation according to described anomaly parameter nominal data to described fuel cell stand-by power supply.

This fuel cell stand-by power supply operating control device, also comprises: program upgrade bag receiver module, holds the software program AKU of the described fuel cell stand-by power supply of transmission for receiving described supplier; Software upgrade module, for carrying out software upgrading according to software program AKU to described fuel cell stand-by power supply.

Fourth aspect, the embodiment of the present invention additionally provides a kind of fuel cell stand-by power supply operating control device, be applied to supplier's end, comprise: parameter receiver module, for receiving at least one the default operational factor of the described fuel cell stand-by power supply that client sends; Anomaly parameter searches module, for searching anomaly parameter from least one default operational factor of described fuel cell stand-by power supply; Nominal data processing module, for calculating anomaly parameter nominal data corresponding to described anomaly parameter; Nominal data sending module, for being sent to described client by described anomaly parameter nominal data.

This fuel cell stand-by power supply operating control device, also comprises: program upgrade bag acquisition module, for obtaining the software program AKU of described fuel cell stand-by power supply; Program upgrade bag sending module, for sending the software program AKU of described fuel cell stand-by power supply to described client.

5th aspect, the embodiment of the present invention additionally provides a kind of fuel cell stand-by power supply operation control system, comprises the supplier's end described in the client described in the third aspect and fourth aspect.

The present invention carries out data interaction by the client of fuel cell stand-by power supply and supplier's end, the remote parameter completing fuel cell stand-by power supply is demarcated and software upgrading, solve and need system maintenance personnel to arrive the on-the-spot problem of carrying out safeguarding of fuel cell stand-by power supply, realize the maintenance cost reducing fuel cell stand-by power supply, reduce the effect of the time of product maintenance.

Accompanying drawing explanation

Fig. 1 is the flow chart of the fuel cell stand-by power supply progress control method in the embodiment of the present invention one;

Fig. 2 is the flow chart of the fuel cell stand-by power supply progress control method in the embodiment of the present invention two;

Fig. 3 is the flow chart of the fuel cell stand-by power supply progress control method in the embodiment of the present invention three;

Fig. 4 is the flow chart of the fuel cell stand-by power supply progress control method in the embodiment of the present invention four;

Fig. 5 is the structural representation of the fuel cell stand-by power supply operating control device in the embodiment of the present invention five;

Fig. 6 is the structural representation of the fuel cell stand-by power supply operating control device in the embodiment of the present invention six;

Fig. 7 is the structural representation of the fuel cell stand-by power supply operating control device in the embodiment of the present invention seven;

Fig. 8 is the structural representation of the fuel cell stand-by power supply operating control device in the embodiment of the present invention eight;

Fig. 9 is the data flowchart of the fuel cell stand-by power supply operation control system in the embodiment of the present invention nine;

Figure 10 is the data flowchart of the fuel cell stand-by power supply operation control system in the embodiment of the present invention nine.

Embodiment

Below in conjunction with drawings and Examples, the present invention is described in further detail.Be understandable that, specific embodiment described herein is only for explaining the present invention, but not limitation of the invention.It also should be noted that, for convenience of description, illustrate only part related to the present invention in accompanying drawing but not entire infrastructure.

Embodiment one

The flow chart of the fuel cell stand-by power supply progress control method that Fig. 1 provides for the embodiment of the present invention one, the present embodiment is applicable to the situation of fuel cell stand-by power supply parameter calibration, the method is applied to the client be configured on described fuel cell stand-by power supply, and can be performed by fuel cell stand-by power supply operating control device, specifically comprise the steps:

At least one default operational factor of step 110, acquisition fuel cell stand-by power supply.

Wherein, default operational factor comprises every input parameter when fuel cell stand-by power supply runs, example, comprises hydrogen flowing quantity, air mass flow, the discharge of water-cooling system, exhaust gas flow and EGT etc., but is not limited to above parameter; Also comprise the output parameter of fuel cell stand-by power supply in addition, example, comprise load voltage, load current etc., but be not limited to above parameter.

Further, described step 110, comprises at least one default operational factor of interval acquiring fuel cell stand-by power supply at preset timed intervals.Example, described client configuration has the single-chip microcomputer of Freescale series as Master control chip, be connected, for obtaining every operational factor of described fuel cell stand-by power supply with temperature sensor, gas flow sensor, liquid flow sensor and the voltage collection circuit etc. be configured in described fuel cell stand-by power supply by RS485 interface or synchronous serial interface.

Example, single-chip microcomputer obtained load voltage by RS485 interface by voltage collection circuit every 60 seconds, and such as the described load voltage values of current acquisition is 10.0V.

Step 120, at least one default operational factor is sent to supplier's end, so that supplier's end is according at least one default operational factor determination anomaly parameter nominal data, anomaly parameter nominal data is for demarcating the anomaly parameter at least one default operational factor.

Wherein, described client sends at least one default operational factor described by communication, example, described communication comprises Wireless Fidelity (WirelessFidelity, and general packet radio service technology (GeneralPacketRadioService WIFI), but be not limited to this two kinds of modes GPRS).

Further, step 120 comprises at least one default operational factor is uploaded to web page server, so that supplier's end downloads at least one default operational factor from web page server.Example, described Freescale single-chip microcomputer is by controller local area network (ControllerAreaNetwork, CAN) bus is connected with the WIFI module being integrated in described client, described WIFI module is for connecting the WIFI equipment of described client outside, so that described client can be connected with described web page server with communication.Described Freescale single-chip microcomputer demarcates every operational factor of the described fuel cell stand-by power supply that (CANCalibrationProtocol, CCP) agreement obtains to the transmission of CAN port by CAN.

Example, the load voltage values got is used WIFI interconnection network by CCP agreement by CAN port by the single-chip microcomputer being configured at client, and then is sent to described supplier end.

Step 130, receive supplier and hold the anomaly parameter nominal data of transmission.

Wherein, described client receives described anomaly parameter nominal data by communication, example, and described communication comprises WIFI and GPRS, but be not limited to this two kinds of modes.

Further, step 130 comprises downloads described anomaly parameter nominal data from web page server, and wherein anomaly parameter nominal data uploads to web page server for supplier holds.Example, client downloads described anomaly parameter nominal data by WIFI from web page server, sends Freescale single-chip microcomputer by CCP agreement to by CAN port.The anomaly parameter nominal data of the load voltage such as received is+0.5V.

Step 140, according to anomaly parameter nominal data, anomaly parameter demarcation is carried out to fuel cell stand-by power supply.

Wherein, described in carry out anomaly parameter demarcate refer to when described anomaly parameter is the input parameter of described fuel cell stand-by power supply, revise corresponding parameter be system cloud gray model preset parameter value; When described anomaly parameter is the output parameter of described fuel cell stand-by power supply, revise relative input parameter, be the parameter value that systemic presupposition exports.Example, the described Freescale single-chip microcomputer being configured at described client is according to the described anomaly parameter nominal data received, and to needing the described anomaly parameter demarcated to modify, or amendment relevant parameter makes described anomaly parameter reach preset value.Such as anomaly parameter is load voltage, and client receives the anomaly parameter nominal data of+0.5V, then according to the relevant parameter such as the adjustment of anomaly parameter nominal data hydrogen flowing quantity and air mass flow etc. received, make load voltage reach default value.

The technical scheme of the present embodiment, telecommunication is carried out by the client of fuel cell stand-by power supply and supplier's end, the remote parameter completing fuel cell stand-by power supply is demarcated, solve and need system maintenance personnel to arrive the on-the-spot problem of carrying out safeguarding of fuel cell stand-by power supply, realize the maintenance cost reducing fuel cell stand-by power supply, reduce the effect of the time of product maintenance.

Embodiment two

The flow chart of the fuel cell stand-by power supply progress control method that Fig. 2 provides for the embodiment of the present invention two, the present embodiment is applicable to the situation of fuel cell stand-by power supply software upgrading, the method is applied to the client be configured on described fuel cell stand-by power supply, and can be performed by fuel cell stand-by power supply operating control device, specifically comprise the steps:

Step 210, receive supplier and hold the software program AKU of transmission, software program AKU is used for upgrading to fuel cell stand-by power supply.

Wherein, described client receives described software program AKU by communication, example, and described communication comprises WIFI and GPRS, but be not limited to this two kinds of modes.

Further, step 210 comprises the software program AKU downloading fuel cell stand-by power supply from web page server.

Step 220, according to receive software program AKU software upgrading is carried out to fuel cell stand-by power supply.

Wherein, software program AKU is stored, then the software of current fuel cell stand-by power supply is upgraded.

Example, the Freescale single-chip microcomputer being configured at client connects web page server by WIFI, download the software program AKU of fuel cell stand-by power supply, and be stored into the region of data storage being configured at client, guide loading (Bootloader) function to carry out software upgrading to fuel cell stand-by power supply by CAN afterwards.

The technical scheme of the present embodiment, telecommunication is carried out by the client of fuel cell stand-by power supply and supplier's end, complete the software upgrading of fuel cell stand-by power supply, solve and need system maintenance personnel to arrive the on-the-spot problem of carrying out safeguarding of fuel cell stand-by power supply, realize the maintenance cost reducing fuel cell stand-by power supply, reduce the effect of the time of product maintenance.

Embodiment three

The flow chart of the fuel cell stand-by power supply progress control method that Fig. 3 provides for the embodiment of the present invention three, the present embodiment is applicable to the situation of fuel cell stand-by power supply parameter calibration, the method is applied to supplier's end, and can be performed by fuel cell stand-by power supply operating control device, specifically comprise the steps:

At least one the default operational factor of the fuel cell stand-by power supply that step 310, reception client send.

Wherein, supplier's end is at least one the default operational factor being received fuel cell stand-by power supply by communication, and example, described communication comprises WIFI and GPRS, but is not limited to this two kinds of modes.That such as receive is load voltage values 10.0V.

Further, step 310 comprises at least one the default operational factor downloading fuel cell stand-by power supply from web page server.Example, at least one default operational factor of fuel cell stand-by power supply downloaded by the computer being configured at supplier's end from web page server.

Step 320, from least one default operational factor of fuel cell stand-by power supply, search anomaly parameter.

Wherein, before execution step 320, determine whether at least one the default operational factor receiving the fuel cell stand-by power supply that client sends first; If so, then at least one default operational factor of the fuel cell stand-by power supply of reception is preserved; If not, then from least one default operational factor of fuel cell stand-by power supply, anomaly parameter is searched.

Further, step 320 comprises the data of at least one the default operational factor calculating the fuel cell stand-by power supply be currently received and the difference of at least one default operational factor of the fuel cell stand-by power supply preserved when the previous last time; If there is the difference of operational factor to be greater than corresponding threshold value, then the operational factor difference of operational factor being greater than corresponding threshold value is classified as anomaly parameter.Such as calculating current load voltage values with the difference of the load voltage values preserved when the previous last time is+0.5V, exceedes predetermined threshold value ± 0.3V, then load voltage values is classified as anomaly parameter.But here and non-limiting load voltage predetermined threshold value is ± 0.3V.

Further, corresponding original parameter is covered with anomaly parameter.

Further, the operational factor and anomaly parameter nominal data that show described fuel cell stand-by power supply is held in supplier.

Step 330, the anomaly parameter nominal data that generation anomaly parameter is corresponding, anomaly parameter nominal data is for demarcating described anomaly parameter.

Wherein, anomaly parameter nominal data is the difference of original parameter that anomaly parameter is corresponding with it.

Step 340, anomaly parameter nominal data is sent to client.

Further, step 340 comprises and uploads anomaly parameter nominal data to web page server.Example, anomaly parameter nominal data is uploaded to web page server by computer, so that described client downloads anomaly parameter nominal data by WIFI mode.Such as load voltage is anomaly parameter, and corresponding anomaly parameter nominal data is+0.5V, then this anomaly parameter nominal data is sent to client.Here and non-limiting load voltage is anomaly parameter.

The technical scheme of the present embodiment, telecommunication is carried out by the client of fuel cell stand-by power supply and supplier's end, the remote parameter completing fuel cell stand-by power supply is demarcated, solve and need system maintenance personnel to arrive the on-the-spot problem of carrying out safeguarding of fuel cell stand-by power supply, realize the maintenance cost reducing fuel cell stand-by power supply, reduce the effect of the time of product maintenance.

Embodiment four

The flow chart of the fuel cell stand-by power supply progress control method that Fig. 4 provides for the embodiment of the present invention four, the present embodiment is applicable to the situation of fuel cell stand-by power supply software upgrading, the method is applied to supplier's end, and can be performed by fuel cell stand-by power supply operating control device, specifically comprise the steps:

The software program AKU of step 410, acquisition fuel cell stand-by power supply.

Wherein, the software program AKU of described acquisition described fuel cell stand-by power supply by Internet Transmission and be saved in described supplier end, or imported the software program AKU of described fuel cell stand-by power supply by connecting mass storage device, but be not limited to described mode.

Step 420, send the software program AKU of fuel cell stand-by power supply to client.

Further, step 420 comprises the software program AKU uploading fuel cell stand-by power supply to web page server.Example, the software program AKU of fuel cell stand-by power supply is uploaded to web page server, so that client downloads the software program AKU of fuel cell stand-by power supply by WIFI mode by the computer being configured at supplier's end.

The technical scheme of the present embodiment, telecommunication is carried out by the client of fuel cell stand-by power supply and supplier's end, complete the remote software upgrade of fuel cell stand-by power supply, solve and need system maintenance personnel to arrive the on-the-spot problem of carrying out safeguarding of fuel cell stand-by power supply, realize the maintenance cost reducing fuel cell stand-by power supply, reduce the effect of the time of product maintenance.

Embodiment five

The structural representation of the fuel cell stand-by power supply operating control device that Fig. 5 provides for the embodiment of the present invention five, the fuel cell stand-by power supply operating control device that the present embodiment provides is applied to the client be configured on described fuel cell stand-by power supply, specifically comprises:

Parameter acquisition module 510, for obtaining at least one default operational factor of fuel cell stand-by power supply.

Further, described parameter acquisition module 510 comprises:

Parameter acquiring spacer units, at least one default operational factor of interval acquiring fuel cell stand-by power supply at preset timed intervals.

Parameter sending module 520, at least one default operational factor being sent to supplier's end, so that supplier's end is according at least one default operational factor determination anomaly parameter nominal data.

Further, described parameter sending module 520 comprises:

Parameter webpage uploading unit, at least one default operational factor described is uploaded to web page server, so that described supplier end downloads at least one default operational factor described from described web page server.

Nominal data receiver module 530, holds the anomaly parameter nominal data of transmission for receiving supplier.

Further, nominal data receiver module 530 comprises:

Nominal data page download unit, for downloading anomaly parameter nominal data from web page server, wherein anomaly parameter nominal data uploads to web page server for supplier holds.

Parameter calibration module 540, for carrying out anomaly parameter demarcation according to anomaly parameter nominal data to fuel cell stand-by power supply.

The fuel cell stand-by power supply operating control device that the embodiment of the present invention five provides can perform the fuel cell stand-by power supply progress control method that the embodiment of the present invention one provides, and possesses the corresponding functional module of manner of execution and beneficial effect.

Embodiment six

The structural representation of the fuel cell stand-by power supply operating control device that Fig. 6 provides for the embodiment of the present invention six, the fuel cell stand-by power supply operating control device that the present embodiment provides is applied to the client be configured on described fuel cell stand-by power supply, specifically comprises:

Program upgrade bag receiver module 610, holds the software program AKU of the fuel cell stand-by power supply of transmission for receiving supplier.

Further, described program upgrade bag receiver module 610 comprises:

Program upgrade bag download unit, for downloading the software program AKU of fuel cell stand-by power supply from web page server.

Software upgrade module 620, for carrying out software upgrading according to software program AKU to fuel cell stand-by power supply.

The fuel cell stand-by power supply operating control device that the embodiment of the present invention six provides can perform the fuel cell stand-by power supply progress control method that the embodiment of the present invention two provides, and possesses the corresponding functional module of manner of execution and beneficial effect.

Embodiment seven

The structural representation of the fuel cell stand-by power supply operating control device that Fig. 7 provides for the embodiment of the present invention seven, the fuel cell stand-by power supply operating control device that the present embodiment provides is applied to supplier's end, specifically comprises:

Parameter receiver module 710, for receiving at least one the default operational factor of the fuel cell stand-by power supply that client sends.

Further, described parameter receiver module 710 comprises:

Parameter page download unit, for downloading at least one default operational factor of fuel cell stand-by power supply from web page server.

Anomaly parameter searches module 720, for searching anomaly parameter from least one default operational factor of fuel cell stand-by power supply.

Further, described anomaly parameter is searched module 720 and is comprised:

Parameter difference computing unit, for the data that calculate at least one default operational factor of the fuel cell stand-by power supply the be currently received difference with at least one default operational factor of the fuel cell stand-by power supply preserved when the previous last time.

Anomaly parameter sorts out unit, if for there being the difference of operational factor to be greater than corresponding threshold value, then the operational factor difference of operational factor being greater than corresponding threshold value is classified as anomaly parameter.

Nominal data processing module 730, for generating anomaly parameter nominal data corresponding to anomaly parameter.

Nominal data sending module 740, for being sent to client by anomaly parameter nominal data.

Further, nominal data sending module 740 comprises:

Nominal data webpage uploading unit, for being uploaded to web page server by anomaly parameter nominal data.

Further, also comprise and receive judge module 721 first, for search anomaly parameter from least one default operational factor of fuel cell stand-by power supply before, determine whether to receive first the fuel cell stand-by power supply that client sends at least one default operational factor or whether headed by time to download at least one default operational factor of fuel cell stand-by power supply from web page server.

Further, also comprise parameter and preserve module 722, during for receiving at least one the default operational factor of the fuel cell stand-by power supply that client sends first or downloading at least one default operational factor of fuel cell stand-by power supply from web page server first, preserve at least one the default operational factor of the fuel cell stand-by power supply received.

Further, also comprise parameters distribution module 723, for search anomaly parameter from least one default operational factor of fuel cell stand-by power supply after, cover corresponding original parameter with anomaly parameter.

Further, also comprise parameter and demarcate display module 731, after generating anomaly parameter nominal data corresponding to anomaly parameter, holding the operational factor and anomaly parameter nominal data that show described fuel cell stand-by power supply in supplier.

The fuel cell stand-by power supply operating control device that the embodiment of the present invention seven provides can perform the fuel cell stand-by power supply progress control method that the embodiment of the present invention three provides, and possesses the corresponding functional module of manner of execution and beneficial effect.

Embodiment eight

The structural representation of the fuel cell stand-by power supply operating control device that Fig. 8 provides for the embodiment of the present invention eight, the fuel cell stand-by power supply operating control device that the present embodiment provides is applied to supplier's end, specifically comprises:

Program upgrade bag acquisition module 810, for obtaining the software program AKU of fuel cell stand-by power supply.

Program upgrade bag sending module 820, for sending the software program AKU of fuel cell stand-by power supply to client.

Further, program upgrade bag sending module 820 comprises:

Program upgrade bag uploading unit, for uploading the software program AKU of fuel cell stand-by power supply to web page server.

The fuel cell stand-by power supply operating control device that the embodiment of the present invention eight provides can perform the fuel cell stand-by power supply progress control method that the embodiment of the present invention four provides, and possesses the corresponding functional module of manner of execution and beneficial effect.

Embodiment nine

Fig. 9 is the data flowchart of the fuel cell stand-by power supply operation control system that the embodiment of the present invention nine provides, and the fuel cell stand-by power supply operation control system that the present embodiment provides comprises:

Client 910, it is the client described in embodiment five and six.

Supplier holds 920, and it is the supplier's end described in embodiment seven and eight.

As shown in Figure 9, client obtains at least one default operational factor of fuel cell stand-by power supply; At least one default operational factor is sent to supplier's end by client, so that supplier's end is according at least one default operational factor determination anomaly parameter nominal data, anomaly parameter nominal data is for demarcating the anomaly parameter at least one default operational factor; Supplier's termination receives at least one the default operational factor of the fuel cell stand-by power supply that client sends; Supplier's end searches anomaly parameter from least one default operational factor of fuel cell stand-by power supply; Supplier holds and generates anomaly parameter nominal data corresponding to anomaly parameter, and anomaly parameter nominal data is for demarcating described anomaly parameter; Anomaly parameter nominal data is sent to client by supplier's end; Client receives the anomaly parameter nominal data that supplier holds transmission; Client carries out anomaly parameter demarcation according to anomaly parameter nominal data to fuel cell stand-by power supply.

As shown in Figure 9, supplier holds the software program AKU obtaining fuel cell stand-by power supply; Supplier's end sends the software program AKU of fuel cell stand-by power supply to client; Client receives the software program AKU that supplier holds transmission, and software program AKU is used for upgrading to fuel cell stand-by power supply; Client carries out software upgrading according to the software program AKU received to fuel cell stand-by power supply.

The fuel cell stand-by power supply operation control system that the present embodiment provides can execution parameter be demarcated or software upgrading separately.

The technical scheme of the present embodiment, telecommunication is carried out by the client of fuel cell stand-by power supply and supplier's end, the remote parameter completing fuel cell stand-by power supply is demarcated or software upgrading, solve and need system maintenance personnel to arrive the on-the-spot problem of carrying out safeguarding of fuel cell stand-by power supply, realize the maintenance cost reducing fuel cell stand-by power supply, reduce the effect of the time of product maintenance.

Embodiment ten

Figure 10 is the data flowchart of the fuel cell stand-by power supply operation control system that the embodiment of the present invention nine provides, and the fuel cell stand-by power supply operation control system that the present embodiment provides comprises:

Client 1010, it is the client described in embodiment five and six.

Supplier holds 1020, and it is the supplier's end described in embodiment seven and eight.

As shown in Figure 10, client obtains at least one default operational factor of fuel cell stand-by power supply; At least one default operational factor is uploaded to web page server by client, so that supplier's end downloads at least one default operational factor from web page server, anomaly parameter nominal data is for demarcating the anomaly parameter at least one default operational factor; Supplier's end downloads at least one default operational factor from web page server; Supplier's end searches anomaly parameter from least one default operational factor of fuel cell stand-by power supply; Supplier holds and generates anomaly parameter nominal data corresponding to anomaly parameter, and anomaly parameter nominal data is for demarcating described anomaly parameter; Anomaly parameter nominal data is uploaded to web page server by supplier's end; Client downloads described anomaly parameter nominal data from web page server, and wherein anomaly parameter nominal data uploads to web page server for supplier holds; Client carries out anomaly parameter demarcation according to anomaly parameter nominal data to fuel cell stand-by power supply.

As shown in Figure 10, supplier holds the software program AKU obtaining fuel cell stand-by power supply; Supplier's end uploads the software program AKU of fuel cell stand-by power supply to web page server; Client downloads the software program AKU of fuel cell stand-by power supply from web page server, and software program AKU is used for upgrading to fuel cell stand-by power supply; Client carries out software upgrading according to the software program AKU received to fuel cell stand-by power supply.

The fuel cell stand-by power supply operation control system that the present embodiment provides can execution parameter be demarcated or software upgrading separately.

The technical scheme of the present embodiment, telecommunication is carried out by the client of fuel cell stand-by power supply and supplier's end, the remote parameter completing fuel cell stand-by power supply is demarcated or software upgrading, solve and need system maintenance personnel to arrive the on-the-spot problem of carrying out safeguarding of fuel cell stand-by power supply, realize the maintenance cost reducing fuel cell stand-by power supply, reduce the effect of the time of product maintenance.

The said goods can perform the method that any embodiment of the present invention provides, and possesses the corresponding functional module of manner of execution and beneficial effect.

Note, above are only preferred embodiment of the present invention and institute's application technology principle.Skilled person in the art will appreciate that and the invention is not restricted to specific embodiment described here, various obvious change can be carried out for a person skilled in the art, readjust and substitute and can not protection scope of the present invention be departed from.Therefore, although be described in further detail invention has been by above embodiment, the present invention is not limited only to above embodiment, when not departing from the present invention's design, can also comprise other Equivalent embodiments more, and scope of the present invention is determined by appended right.

Claims (9)

1. a fuel cell stand-by power supply progress control method, is characterized in that, is applied to the client be configured on described fuel cell stand-by power supply, comprises:

Obtain at least one default operational factor of described fuel cell stand-by power supply;

At least one default operational factor described is sent to supplier's end, so that described supplier holds according at least one default operational factor determination anomaly parameter nominal data described, described anomaly parameter nominal data is for demarcating the anomaly parameter at least one default operational factor described;

Receive the described anomaly parameter nominal data that described supplier holds transmission;

According to described anomaly parameter nominal data, anomaly parameter demarcation is carried out to described fuel cell stand-by power supply.

2., according to the fuel cell stand-by power supply progress control method that claim 1 provides, it is characterized in that, also comprise:

Receive the software program AKU that described supplier holds transmission, described software program AKU is used for upgrading to described fuel cell stand-by power supply;

Described software program AKU according to receiving carries out software upgrading to described fuel cell stand-by power supply.

3. a fuel cell stand-by power supply progress control method, is characterized in that, is applied to supplier's end, comprises:

Receive at least one the default operational factor of the described fuel cell stand-by power supply that client sends;

Anomaly parameter is searched from least one default operational factor of described fuel cell stand-by power supply;

Generate the anomaly parameter nominal data that described anomaly parameter is corresponding, described anomaly parameter nominal data is for demarcating described anomaly parameter;

Described anomaly parameter nominal data is sent to described client.

4., according to the fuel cell stand-by power supply progress control method that claim 3 provides, it is characterized in that, also comprise:

Obtain the software program AKU of described fuel cell stand-by power supply;

The software program AKU of described fuel cell stand-by power supply is sent to described client.

5. a fuel cell stand-by power supply operating control device, is characterized in that, is applied to the client be configured on described fuel cell stand-by power supply, comprises:

Parameter acquisition module, for obtaining at least one default operational factor of described fuel cell stand-by power supply;

Parameter sending module, at least one default operational factor described being sent to supplier's end, so that described supplier holds according at least one default operational factor determination anomaly parameter nominal data described;

Nominal data receiver module, holds the described anomaly parameter nominal data of transmission for receiving described supplier;

Parameter calibration module, for carrying out anomaly parameter demarcation according to described anomaly parameter nominal data to described fuel cell stand-by power supply.

6., according to the fuel cell stand-by power supply operating control device that claim 5 provides, it is characterized in that, also comprise:

Program upgrade bag receiver module, holds the software program AKU of the described fuel cell stand-by power supply of transmission for receiving described supplier;

Software upgrade module, for carrying out software upgrading according to software program AKU to described fuel cell stand-by power supply.

7. a fuel cell stand-by power supply operating control device, is characterized in that, is applied to supplier's end, comprises:

Parameter receiver module, for receiving at least one the default operational factor of the described fuel cell stand-by power supply that client sends;

Anomaly parameter searches module, for searching anomaly parameter from least one default operational factor of described fuel cell stand-by power supply;

Nominal data processing module, for calculating anomaly parameter nominal data corresponding to described anomaly parameter;

Nominal data sending module, for being sent to described client by described anomaly parameter nominal data.

8., according to the fuel cell stand-by power supply operating control device that claim 7 provides, it is characterized in that, also comprise:

Program upgrade bag acquisition module, for obtaining the software program AKU of described fuel cell stand-by power supply;

Program upgrade bag sending module, for sending the software program AKU of described fuel cell stand-by power supply to described client.

9. a fuel cell stand-by power supply operation control system, is characterized in that, comprises the client according to any one of claim 5 or 6 and the end of the supplier according to any one of claim 7 or 8.