CN107064664A - A kind of backup auto-activating device check system and method - Google Patents

Abstract

The invention provides a kind of backup auto-activating device check system and method, wherein, the device includes：Including：Control module, voltage output module, current output module, signal feedback module, mimic-disconnecting switch group, auxiliary relay, image collecting device, input/output module and interface module.By backup auto-activating device check system provided in an embodiment of the present invention and method, backup auto-activating device can be verified in the energized state.

Description

A kind of backup auto-activating device check system and method

Technical field

The present invention relates to electric and electronic technical field, in particular to a kind of backup auto-activating device check system and side Method.

Background technology

At present, stand-by power supply automatic switching (hereinafter referred to as prepared auto restart) device is to improve power supply reliability and successional heavy Want operation power equipment.Backup auto-activating device is widely used, and backup auto-activating device is passed through in using preceding and maintenance process Often need to carry out test verification to it.

In correlation technique, it is necessary to first be powered off to backup auto-activating device, then during being verified to backup auto-activating device Manually operate to simulate the line parameter circuit values such as the voltage in actual track, electric current, provide intake by mimic-disconnecting switch and reception is opened Output, is sampled backup auto-activating device actuation time by devices such as time testers, to be verified to backup auto-activating device.

In process of the present invention is realized, inventor has found that at least there are the following problems in the prior art：

, it is necessary to be powered off to backup auto-activating device during being verified to backup auto-activating device, it is impossible in the energized state Backup auto-activating device is verified.

The content of the invention

In view of this, the purpose of the embodiment of the present invention is to provide a kind of backup auto-activating device check system and method, can To be verified in the energized state to backup auto-activating device.

In a first aspect, the embodiments of the invention provide a kind of backup auto-activating device check system, including：Control module, voltage Output module, current output module, signal feedback module, mimic-disconnecting switch group, auxiliary relay, image collecting device, input/ Output module and interface module；

The control module, respectively with the voltage output module, the current output module, signal feedback mould Block, the mimic-disconnecting switch group, the auxiliary relay, described image harvester and input/output module connection；

The input/output module, is also connected with the auxiliary relay；

The interface module, respectively with the voltage output module, the current output module, signal feedback mould Block, the mimic-disconnecting switch group, the auxiliary relay and backup auto-activating device connection to be verified；

The signal feedback module is connected with the voltage output module and the current output module respectively；

Described image harvester, for the image of the user of trigger collection prepared auto restart checking command, and by the figure of collection As being sent to the control module, wherein, the prepared auto restart checking command is that the user is touched by the input/output module Hair；

The control module, the described image for being sent by described image harvester is entered to the identity of the user Row checking, and in the subscriber authentication by rear according to the prepared auto restart checking command, to the prepared auto restart to be verified Device carries out powered verification.

With reference in a first aspect, the embodiments of the invention provide the possible embodiment of the first of first aspect, wherein：Also Including：Power module；

The power module respectively with the control module, voltage output module, the current output module, described Signal feedback module, the mimic-disconnecting switch group, the auxiliary relay, described image harvester and the input/output Module is connected.

With reference in a first aspect, the embodiments of the invention provide the possible embodiment of second of first aspect, wherein：Institute State power module and use secondary cell.

With reference in a first aspect, the embodiments of the invention provide the possible embodiment of the third of first aspect, wherein：

Described power module is provided with power input, the first power output end and second source output end；Control module Provided with voltage output control end, electric current output control terminal, feedback signal input terminal, mimic-disconnecting switch signal end, auxiliary relay Control end, input/output module control end；Voltage output module is provided with control signal input, first voltage output end, second Voltage output end and power end；Current output module is provided with control signal input, current output terminal and power end；Signal feeds back Module is provided with the first sampled signal end, the second sampled signal end, the 3rd sampled signal end, signal output part and power end；Simulation Breaker group is provided with multiple mimic-disconnecting switches, the first signal end, secondary signal end and power end；Auxiliary relay is believed provided with control Number input, output end and power end；Input/output module is provided with signal output part and power end；Interface module includes interface Plate and the first voltage output connection terminal being arranged on interface board, second voltage output connection terminal, electric current output connection end Son, mimic-disconnecting switch connection terminal row and auxiliary relay output connection terminal, the multiple mimic-disconnecting switch, including：First Mimic-disconnecting switch, the second mimic-disconnecting switch and the 3rd mimic-disconnecting switch；

The control signal input of voltage output module is electrically connected with the voltage output control end of control module；Voltage output The first voltage output end of module is electrically connected with the first voltage output connection terminal of interface module；The second of voltage output module Voltage output end is electrically connected with the second voltage output connection terminal of interface module；The control signal input of current output module Electrically connected with the electric current output control terminal of control module；The current output terminal of current output module and the electric current of interface module are exported Connection terminal is electrically connected；First sampled signal end of signal feedback module and the first voltage output end of voltage output module are electrically connected Connect；Second sampled signal end of signal feedback module is electrically connected with the second voltage output end of voltage output module；Signal feeds back 3rd sampled signal end of module is electrically connected with the current output terminal of current output module；The signal output part of signal feedback module Electrically connected with the feedback signal input terminal of control module；Multiple mimic-disconnecting switches in mimic-disconnecting switch group respectively with the first signal End, secondary signal end and power end connection；First signal end of mimic-disconnecting switch group and the mimic-disconnecting switch signal of control module Hold two-way signaling electrical connection；The secondary signal end of mimic-disconnecting switch group and the mimic-disconnecting switch connection terminal row of interface module are electrically connected Connect；The control signal input of auxiliary relay is electrically connected with the auxiliary relay control end of control module；Auxiliary relay Output end is electrically connected with the auxiliary relay output connection terminal of interface module；

The signal output part of input/output module is electrically connected with the input/output module control end of control module；

The mimic-disconnecting switch connection terminal row of the interface module includes the conjunction of each mimic-disconnecting switch in mimic-disconnecting switch group Lock coil-end, switching winding end, conjunction position end and jump position end, for being connected when being verified with the backup auto-activating device；

Control module, mimic-disconnecting switch group, auxiliary relay, input/output module power end respectively with power module The first power output end electrical connection；The power end of voltage output module, current output module and signal feedback module respectively with The second source output end electrical connection of power module.

Second aspect, the embodiment of the present invention also provides a kind of backup auto-activating device using above-mentioned backup auto-activating device check system Method of calibration, including：

Obtain user triggering prepared auto restart checking command, the prepared auto restart checking command carry user identification information, The first facial image and checking command information of user；

According to the identification information of the user, the second facial image of the user prestored is inquired；

The first facial image of the user is divided into multiple images region；

From multiple described image regions, select k image-region to be spliced respectively, obtain multiple people's faces Image, wherein, multiple described image regions are averagely divided and obtained from top to bottom by first facial image,M represents the image district that first facial image is divided Domain quantity；

Deep learning is carried out to obtained the multiple face subgraph and second facial image, described the is obtained The feature difference figure of one facial image and second facial image；

Deep learning is carried out to the obtained feature difference figure, first facial image and second face is obtained The comparison result of image；

It is whole to the user when obtaining first facial image comparing result similar with second facial image End sends eye movement prompt message so that user enters according to the eye movement prompt message shown on the user terminal Row eye movement；

Obtain multiple eye movement images when user carries out eye movement；

From multiple eye movement images of the obtained user, the motion of the blinkpunkt of the eyes of the user is obtained Track；

When the movement locus of the blinkpunkt according to the eyes got, the eyes for determining the user are according to eye movement During the motion that the prompting of prompt message is carried out, according to the verification content recorded in the checking command information to described in be verified Backup auto-activating device carries out powered verification.

With reference to second aspect, the embodiments of the invention provide the possible embodiment of the first of second aspect, wherein：It is right Obtained the multiple face subgraph and second facial image carry out deep learning, obtain first facial image Include with the feature difference figure of second facial image：

Deep learning is carried out to multiple face subgraphs and second facial image, multiple first face figures are obtained As characteristic pattern and the second facial image characteristic pattern；

Value regional center is characterized with each pixel point coordinates stored in default pixel coordinate set, according to default Characteristic value area size, will work as ex-first lady's face image characteristic pattern respectively and the second facial image characteristic pattern be divided into it is multiple The First Eigenvalue region and multiple Second Eigenvalue regions；

Profile maxima is obtained respectively from the multiple the First Eigenvalue region and the multiple Second Eigenvalue region；

Calculate what is obtained from the First Eigenvalue region and Second Eigenvalue region with same characteristic features value regional center The difference of profile maxima, obtains multiple feature differences；

Using the multiple feature difference as pixel value, according to default feature difference figure size, generation described current first The feature difference figure of facial image characteristic pattern and the second facial image characteristic pattern.

With reference to second aspect, the embodiments of the invention provide the possible embodiment of second of second aspect, wherein：It is right The obtained feature difference figure carries out deep learning, obtains the comparison of first facial image and second facial image As a result, including：

Deep learning is carried out to obtained each feature difference figure, the corresponding people's face of each feature difference figure is obtained The similar parameter of image and second facial image；

It is determined that similarity of the maximum similar parameter as first facial image and second facial image；

When the similarity is more than or equal to the similarity threshold of setting, first facial image and described second is obtained The similar comparison result of facial image.

With reference to second aspect, the embodiments of the invention provide the possible embodiment of the third of second aspect, wherein：From In multiple eye movement images of the obtained user, the movement locus of the blinkpunkt of the eyes of the user is obtained, including：

Carry out eyes positioning respectively to the ball moving image of often opening one's eyes in multiple eye movement images described in obtaining, and from The eyes subgraph of the ball moving image of often opening one's eyes is intercepted in the ball moving image of often opening one's eyes after positioning；

Extract the iris image and/or pupil of the eyes respectively from the eyes subgraph of the ball moving image of often opening one's eyes Hole pattern picture；

According to the iris image and/or the pupil image extracted in the eye movement image from every, calculate Eyes in multiple described eye movement images between relative displacement, and determine institute according to the obtained relative displacement is calculated State the movement locus of the blinkpunkt of eyes.

With reference to second aspect, the embodiments of the invention provide the possible embodiment of the 4th of second aspect kind, wherein：Root According to the movement locus of the blinkpunkt of the eyes got, the eyes for determining the user are carrying according to eye movement prompt message Show one of the motion of progress, including in the following manner：

When it is determined that the blinkpunkt of the eyes of the user targeted by target fiducials object, determining the eyes of the user is The motion that prompting according to eye movement prompt message is carried out, wherein, the target fiducials object is by the eye movement Prompt message prompts the user with the object that need to be watched attentively in advance；

When it is determined that the user eyes blinkpunkt movement locus and user terminal on the target fiducials that show When the movement locus of object is consistent, the eyes for determining the user are carried out according to the prompting of the eye movement prompt message Motion.

With reference to second aspect, the embodiments of the invention provide the possible embodiment of the 5th of second aspect kind, wherein：Institute Backup auto-activating device is stated, including：Three-phase bus, first voltage relay, second voltage relay, the first time-delay relay, second Time-delay relay, the 3rd time-delay relay, the 4th time-delay relay, change-over switch, the first inlet wire sub-loop, the second inlet wire are returned Road and contact sub-loop；

The first voltage relay and second voltage relay include the first switching switch and the second switching switch respectively, The first voltage relay and second voltage relay connect each circuitry phase of the three-phase bus respectively；First electricity One end of first switching switch connection first time-delay relay of potential relay, the other end of first time-delay relay Connect zero line；One end of second switching switch connection the 3rd time-delay relay of the first voltage relay, described the The other end connection zero line of three time-delay relays；First switching switch connection second delay of the second voltage relay One end of relay, the other end connection zero line of second time-delay relay；Second switching of the second voltage relay One end of switch connection the 4th time-delay relay, the other end connection zero line of the 4th time-delay relay；The three-phase Conjunction position end during bus is arranged with mimic-disconnecting switch connection terminal described in the interface module is connected with jumping position end, and described zero Line is connected to closing coil end and switching winding end in the mimic-disconnecting switch connection terminal row；

The first inlet wire sub-loop connects the first mimic-disconnecting switch the first inlet wire control loop of formation, second inlet wire Sub-loop connects the second mimic-disconnecting switch the second inlet wire control loop of formation, and the contact sub-loop connects the 3rd mimic-disconnecting switch Form contact control loop；The first inlet wire control loop, the second inlet wire control loop and contact control loop pass through described Change-over switch is connected to the bus；

It is described that powered verification is carried out to the backup auto-activating device to be verified according to the checking command information, including：

When the checking command information indicates the first inlet wire control loop dead electricity, disconnect described first and enter line traffic control Higher level's power switch in loop, makes after the first mimic-disconnecting switch described in the backup auto-activating device tripping, controls the 3rd simulation Breaker closing, runs in-put of spare power supply, verifies that the power supply backup of the first inlet wire control loop automatically engages work Normally；

When the checking command information indicates the second inlet wire control loop dead electricity, disconnect described second and enter line traffic control Higher level's power switch in loop, makes after the second mimic-disconnecting switch described in the backup auto-activating device tripping, controls the 3rd simulation Breaker closing, runs in-put of spare power supply, verifies that the power supply backup of the second inlet wire control loop automatically engages work Normally；

When the checking command information indicates to disconnect first mimic-disconnecting switch and the second mimic-disconnecting switch button, break First mimic-disconnecting switch and the second mimic-disconnecting switch button are driven, makes first mimic-disconnecting switch and second simulation disconnected Loop residing for first opening button of road device, loop residing for the second opening button are in blocking, verify first simulation Breaker and second mimic-disconnecting switch are normally run；

When three switch knob of the 3rd mimic-disconnecting switch described in the checking command information indicating closing, closure is described 3rd switch knob of the 3rd mimic-disconnecting switch, makes loop residing for the 3rd switch knob be in blocking, the 3rd simulation open circuit Device keeps separating brake operation；

When the checking command information indicates first mimic-disconnecting switch with the second mimic-disconnecting switch accident, control First mimic-disconnecting switch and the second mimic-disconnecting switch tripping and the 3rd breaker closing are made, and disconnects described 3rd opening button of three breakers, makes loop residing for the 3rd opening button be in blocking, verifies the 3rd breaker Keep adhesive running status.

Backup auto-activating device check system provided in an embodiment of the present invention and method, by being set in backup auto-activating device check system Control module, voltage output module, current output module, signal feedback module, mimic-disconnecting switch group and the auxiliary relay put Backup auto-activating device is verified, can compared with needing power-off to carry out verification manually to backup auto-activating device in the prior art In the case of powered, to be verified to backup auto-activating device, while not influenceing supply network normally to use, verification is improved Efficiency, and in checking procedure, without artificial operation, can avoid verifying mistake caused by artificial incorrect operation in checking procedure Lose, improve the accuracy rate verified to backup auto-activating device.

To enable the above objects, features and advantages of the present invention to become apparent, preferred embodiment cited below particularly, and coordinate Appended accompanying drawing, is described in detail below.

Brief description of the drawings

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below will be attached to what is used required in embodiment Figure is briefly described, it will be appreciated that the following drawings illustrate only certain embodiments of the present invention, therefore is not construed as pair The restriction of scope, for those of ordinary skill in the art, on the premise of not paying creative work, can also be according to this A little accompanying drawings obtain other related accompanying drawings.

Fig. 1 shows a kind of structural representation for backup auto-activating device check system that the embodiment of the present invention 1 is provided；

Fig. 2 shows a kind of flow chart for backup auto-activating device method of calibration that the embodiment of the present invention 2 is provided；

Fig. 3 shows the structure of the backup auto-activating device in the backup auto-activating device method of calibration that the embodiment of the present invention 2 is provided Schematic diagram；

Fig. 4 shows in a kind of backup auto-activating device method of calibration that the embodiment of the present invention 2 is provided to enter backup auto-activating device The particular flow sheet of row verification.

Embodiment

To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with the embodiment of the present invention Middle accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only It is a part of embodiment of the invention, rather than whole embodiments.The present invention being generally described and illustrated herein in the accompanying drawings is real Applying the component of example can be arranged and be designed with a variety of configurations.Therefore, it is of the invention to what is provided in the accompanying drawings below The detailed description of embodiment is not intended to limit the scope of claimed invention, but is merely representative of the selected reality of the present invention Apply example.Based on embodiments of the invention, the institute that those skilled in the art are obtained on the premise of creative work is not made There is other embodiment, belong to the scope of protection of the invention.

At present, during being verified to backup auto-activating device, it is necessary to first powered off to backup auto-activating device, then artificial behaviour Make to simulate the line parameter circuit values such as the voltage in actual track, electric current, intake and the reception amount of outputing are provided by mimic-disconnecting switch, by The devices such as time tester are sampled backup auto-activating device actuation time, to be verified to backup auto-activating device.To backup auto-activating device , it is necessary to be powered off to backup auto-activating device during being verified, it is impossible to backup auto-activating device is verified in the energized state.Base In this, the application provide a kind of backup auto-activating device check system and method.

Embodiment 1

Referring to Fig. 1, the present embodiment provides a kind of backup auto-activating device check system, including：Power module 1, control module 2, Voltage output module 3, current output module 4, signal feedback module 5, mimic-disconnecting switch group 6, auxiliary relay 7, IMAQ Device 8, input/output module 9 and interface module 10；

Above-mentioned control module 2, feeds back with above-mentioned voltage output module 3, above-mentioned current output module 4, above-mentioned signal respectively Module 5, above-mentioned mimic-disconnecting switch group 6, above-mentioned auxiliary relay 7, above-mentioned image collecting device 8 and input/output module 9 connect Connect；

Above-mentioned input/output module 9, is also connected with above-mentioned auxiliary relay 7；

Above-mentioned interface module 10, feeds back with above-mentioned voltage output module 3, above-mentioned current output module 4, above-mentioned signal respectively Module 5, above-mentioned mimic-disconnecting switch group 6, above-mentioned auxiliary relay 7 and backup auto-activating device connection to be verified；

Above-mentioned signal feedback module 5 is connected with above-mentioned voltage output module 3 and above-mentioned current output module 4 respectively；

Above-mentioned image collecting device 8, for the image of the user of trigger collection prepared auto restart checking command, and by the figure of collection As being sent to above-mentioned control module 2, wherein, above-mentioned prepared auto restart checking command is that above-mentioned user passes through above-mentioned input/output module 9 Triggering；

Above-mentioned control module 2, for the identity of the above-mentioned image that is sent by above-mentioned image collecting device 8 to above-mentioned user Verified, and in above-mentioned subscriber authentication by rear according to above-mentioned prepared auto restart checking command, to it is to be verified it is above-mentioned it is standby from Throw device and carry out powered verification.

Above-mentioned power module 1 respectively with above-mentioned control module 2, above-mentioned voltage output module 3, above-mentioned current output module 4, Above-mentioned signal feedback module 5, above-mentioned mimic-disconnecting switch group 6, above-mentioned auxiliary relay 7, above-mentioned image collecting device 8 and above-mentioned defeated Enter/output module 9 connects.

Above-mentioned power module 1 is provided with power input, the first power output end and second source output end；Control module 2 are provided with voltage output control end, electric current output control terminal, feedback signal input terminal, mimic-disconnecting switch signal end, auxiliary relay 7 control ends, the control end of input/output module 9；Voltage output module 3 provided with control signal input, first voltage output end, Second voltage output end and power end；Current output module 4 is provided with control signal input, current output terminal and power end；Letter Number feedback module 5 is provided with the first sampled signal end, the second sampled signal end, the 3rd sampled signal end, signal output part and power supply End；Mimic-disconnecting switch group 6 is provided with multiple mimic-disconnecting switches, the first signal end, secondary signal end and power end；Auxiliary relay 7 Provided with control signal input, output end and power end；Input/output module 9 is provided with signal output part and power end；Interface mould Block 10 includes interface board and the first voltage being arranged on interface board output connection terminal, second voltage output connection terminal, electricity Stream output connection terminal, mimic-disconnecting switch connection terminal row and the output connection terminal of auxiliary relay 7, above-mentioned multiple simulation open circuits Device, at least includes：First mimic-disconnecting switch, the second mimic-disconnecting switch and the 3rd mimic-disconnecting switch；

The control signal input of voltage output module 3 is electrically connected with the voltage output control end of control module 2；Voltage is defeated Go out the first voltage output end of module 3 to electrically connect with the first voltage output connection terminal of interface module 10；Voltage output module 3 The second voltage output connection terminal of second voltage output end and interface module 10 electrically connect；The control of current output module 4 Signal input part is electrically connected with the electric current output control terminal of control module 2；The current output terminal of current output module 4 and interface mould The electric current output connection terminal electrical connection of block 10；The of first sampled signal end of signal feedback module 5 and voltage output module 3 One voltage output end is electrically connected；Second sampled signal end of signal feedback module 5 is exported with the second voltage of voltage output module 3 End electrical connection；3rd sampled signal end of signal feedback module 5 is electrically connected with the current output terminal of current output module 4；Signal The signal output part of feedback module 5 is electrically connected with the feedback signal input terminal of control module 2；Multiple moulds in mimic-disconnecting switch group Intend breaker to be connected with the first signal end, secondary signal end and power end respectively；First signal end of mimic-disconnecting switch group 6 and control The mimic-disconnecting switch signal end two-way signaling electrical connection of molding block 2；The secondary signal end of mimic-disconnecting switch group 6 and interface module 10 Mimic-disconnecting switch connection terminal row electrical connection；The control signal input of auxiliary relay 7 and the auxiliary relay of control module 2 The control end of device 7 is electrically connected；The output connection terminal of auxiliary relay 7 of the output end of auxiliary relay 7 and interface module 10 is electrically connected Connect；

The signal output part of input/output module 9 is electrically connected with the control end of input/output module 9 of control module 2；

The mimic-disconnecting switch connection terminal row of above-mentioned interface module 10 includes each mimic-disconnecting switch in mimic-disconnecting switch group 6 Closing coil end, switching winding end, conjunction position end and jump position end, for being connected when being verified with above-mentioned backup auto-activating device；

Control module 2, mimic-disconnecting switch group 6, auxiliary relay 7, input/output module 9 power end respectively with power supply The first power output end electrical connection of module 1；The power supply of voltage output module 3, current output module 4 and signal feedback module 5 End is electrically connected with the second source output end of power module 1 respectively.

Alternatively, above-mentioned power module 1 can use secondary cell；Control module 2 can using microcontroller or in Central processor；Image collecting device 8 can using camera, input/output module 9 include can using mouse, keyboard it is defeated Enter module, and the output module of display device can be used.Certain above-mentioned power module 1, control module 2, image collector Existing other equipment can also be used by putting 8, input/output module, no longer be repeated one by one here.

In addition to the part shown in above-mentioned Fig. 1, above-mentioned backup auto-activating device check system can also include and processing module 2 The memory of connection, memory can be used for storage software program and module, such as following embodiments 2 of the invention described in it is standby oneself Throw the corresponding programmed instruction/module of device method of calibration, processing module 2 by operation be stored in the software program in memory with And module, so that various function application and data processing are performed, the backup auto-activating device verification side that such as embodiment of the present invention 2 is provided Method.

In one embodiment, the core devices of control module 2 are LPC2220 microcontrollers, and it has small volume, work( Consume the characteristics of low, performance is high, cost is low.Mimic-disconnecting switch group 6 includes three mimic-disconnecting switches, is the first simulation open circuit respectively Device, the second mimic-disconnecting switch and the 3rd mimic-disconnecting switch.The preferred PHOENIX companies production of connection terminal of interface module 10 MTK-P/P terminals, and RPS test plugs are equipped with, the terminal possesses controllable fracture and plug special, meets stand-by power supply automatic Switching device field-checking summary wiring requirements.

The logic control principle of each mimic-disconnecting switch in mimic-disconnecting switch group 6：Mimic-disconnecting switch receive and control module 2 is sent out The internal preset instruction gone out, prepared auto restart point, reclosing command be outside prepared auto restart hair point, reclosing command (point, closing pulse)；Steathily Jump is the separating brake instruction of tester hair, is built-in command；The instruction of main transformer failure separating brake is several breakers of certain main transformer of correspondence Shared separating brake instruction；When mimic-disconnecting switch is set to tripping, any point, reclosing command are not responding to；When mimic-disconnecting switch pair When interior state is dlx, mimic-disconnecting switch main contact state, for control voltage, the output of electric current；The external shape of mimic-disconnecting switch State, mimic-disconnecting switch control loop auxiliary contact, it exports logic and may be selected, and during selection " positive logic ", mimic-disconnecting switch is external Close a floodgate, junction closure, external separating brake, contact disconnects, it is then opposite during selection " antilogical "；Mimic-disconnecting switch state is by controlling mould Block sends output module to, is shown in real time on output module；" after conjunction/hand jump " output contact and the external state output of breaker The common com of contact, the contact and each mimic-disconnecting switch are corresponded, and still " hand jump " function may be selected " after conjunction ".The present invention can Multichannel main transformer failure output contact is provided, main transformer failure duration can be set, while provide 1 tunnel cuts output contact soon, simulation is cut soon Button, when experiment cuts function soon, cuts output contact pickup time settable soon.

The backup auto-activating device check system of the present embodiment can simulate many breaker work, realize internal bridge, expand interior Bridge, single busbar, three main transformers carry out powered for backup auto-activating devices of the mode of connection such as throwings and with the backup auto-activating device for cutting function soon Verification.

In summary, the backup auto-activating device check system that the present embodiment is provided, by being set in backup auto-activating device check system Control module, voltage output module, current output module, signal feedback module, mimic-disconnecting switch group and the auxiliary relay put Backup auto-activating device is verified, can compared with needing power-off to carry out verification manually to backup auto-activating device in the prior art In the case of powered, to be verified to backup auto-activating device, while not influenceing supply network normally to use, verification is improved Efficiency, and in checking procedure, without artificial operation, can avoid verifying mistake caused by artificial incorrect operation in checking procedure Lose, improve the accuracy rate verified to backup auto-activating device.

Embodiment 2

Referring to Fig. 2, the present embodiment provide the backup auto-activating device check system described in a kind of utilization above-described embodiment 1 it is standby from Device method of calibration is thrown, following steps are specifically included：

Step 200, the prepared auto restart checking command for obtaining user's triggering, above-mentioned prepared auto restart checking command carry the mark of user Know information, the first facial image of user and checking command information.

The identification information of above-mentioned user, be prestored on backup auto-activating device check system can be with unique mark user Information is user after the registration of backup auto-activating device check system, and backup auto-activating device check system is distributed to the user succeeded in registration 's.

User want triggering prepared auto restart checking command when, it is necessary to first pass through the user name password login backup auto-activating device of registration Check system, makes backup auto-activating device check system determine the identification information of the corresponding user of user name；Then user passes through for certainly The input module input validation command information of device check system is thrown, backup auto-activating device check system monitors that user's triggering is standby certainly Throw after checking command, pass through the first facial image of image acquisition device user；And the mark letter for the user for passing through determination The first facial image of the user cease, collected and the checking command information generation prepared auto restart checking command of user's input, make standby The processing module of automatic bus check system is handled prepared auto restart checking command.

Step 202, the identification information according to above-mentioned user, inquire the second facial image of the above-mentioned user prestored.

, can be according to the identification information and the second face of above-mentioned user of default above-mentioned user in above-mentioned steps 202 The corresponding relation of image, it is possible to the above-mentioned use prestored is inquired from the image library in backup auto-activating device check system memory Second facial image at family.

Step 204, the first facial image of above-mentioned user is divided into multiple images region.

In above-mentioned steps 204, the first facial image is divided into present count by existing any image division methods The image-region of amount, is no longer repeated one by one here.Wherein, predetermined number may be greater than 3 natural number, so in the present embodiment First facial image is generally divided into the image-region of multiple quantity such as 4,5,6 or 7.

Step 206, from multiple above-mentioned image-regions, respectively select k image-region spliced, obtain multiple faces Subgraph.

Wherein, multiple above-mentioned image-regions are averagely divided and obtained from top to bottom by above-mentioned first facial image,M represents the image-region that above-mentioned first facial image is divided Quantity.

In above-mentioned steps 206, face subgraph includes the different piece of face in the first facial image, such as existed respectively Carry out after image-region splicing, somebody's face image includes the head of face, somebody's face image in the first facial image Include the upper body portion of face in the first facial image, and somebody's face image includes the complete of face in the first facial image Portion part.

By the description of above-mentioned steps 206, by the way that from multiple images region, varying number is taken respectively,Image-region spliced, so as to obtain multiple faces Subgraph, can in the first facial image face be blocked in image only have some people face image in the case of, Ke Yitong Cross and obtained multiple face subgraphs are compared, the part for removing unrelated face in image as far as possible is compared to facial image Influence, improve to facial image compare success rate.

Step 208, deep learning is carried out to obtained above-mentioned multiple face subgraphs and above-mentioned second facial image, obtained To above-mentioned first facial image and the feature difference figure of above-mentioned second facial image.

In above-mentioned steps 208, multiple face subgraphs and the second facial image are passed through with mutually isostructural two Individual sub- convolutional neural networks carry out deep learning, and the two sub- convolutional neural networks handle computing list by identical primary image Member, convolution algorithm unit and down-sampling arithmetic element are constituted.

Feature difference figure, is that can represent the image of the first facial image and the second facial image similarity degree, wherein special Levying each pixel value in differential chart more tends to 0, and the similarity degree of the first facial image and the second facial image is higher.

Step 210, the features described above differential chart progress deep learning to obtaining, obtain above-mentioned first facial image and above-mentioned The comparison result of second facial image.

In above-mentioned steps 210, using with entering in above-mentioned steps 208 to above-mentioned face subgraph and the second facial image The sub- convolutional neural networks of the sub- convolutional neural networks different structure of row deep learning to carry out deep learning to feature difference figure.

The sub- convolutional neural networks that deep learning is carried out to feature difference figure handle arithmetic element, convolution fortune by primary image Calculate unit, down-sampling arithmetic element and softmax graders composition.

Step 212, when obtaining the above-mentioned first facial image comparing result similar with above-mentioned second facial image, upwards State user terminal and send eye movement prompt message so that user carries according to the above-mentioned eye movement shown on above-mentioned user terminal Show that information carries out eye movement.

Multiple eye movement images when step 214, acquisition user's progress eye movement.

Step 216, from multiple eye movement images of obtained above-mentioned user, the eyes for obtaining above-mentioned user are watched attentively The movement locus of point.

Above-mentioned steps 216 specifically include following steps (1) to step (3)：

(1) eyes positioning is carried out respectively to the ball moving image of often opening one's eyes in obtained multiple eye movement images, and from The eyes subgraph for ball moving image of often opening one's eyes is intercepted in ball moving image of often opening one's eyes after positioning；

(2) iris image and/or pupillogram of eyes are extracted respectively from the eyes subgraph for ball moving image of often opening one's eyes Picture；

(3) according to the iris image and/or pupil image extracted from ball moving image of often opening one's eyes, eyes are calculated at multiple Relative displacement between in eye movement image, and the relative displacement obtained according to calculating determines the motion rail of the blinkpunkt of eyes Mark.

In above-mentioned steps (1), the feature at each position of face can be obtained from facial image, therefore to eyes , can be according to the features of eyes, to carry out eyes positioning when positioning.After eyes positioning, acquired should be Coordinate of the eye contour in facial image, so can be intercepted according to the coordinate of acquired eyes in facial image, So as to obtain the eyes subgraph for ball moving image of often opening one's eyes.

In above-mentioned steps (2), under the conditions of various light sources, such as under visible ray either infrared radiation, people's The iris image and pupil image of eyes are all that can directly be obtained from eyes subgraph, thus are carried out to eyes subgraph After processing, for example, noise jamming is being removed, then according to the iris or the feature of pupil prestored, from eyes subgraph Determine iris image or pupil image.

In above-mentioned steps (3), because people is when seeing to some target fiducials object, eyeball can be rotated, and then be produced Raw displacement.Usually, using eyes visually front when pupil or the axis of iris be used as datum axis, then when eyes see to During certain target fiducials object, even if iris image or pupil image that can be to obtain, obtain the axle of iris or pupil at that time Line, the axis of iris at that time or pupil and datum axis are contrasted, it becomes possible to calculate the relative displacement of Rotation of eyeball. And the relative displacement of Rotation of eyeball combines in multiple face pictures, the movement locus of the blinkpunkt of eyes just can be formed. This mode of blinkpunkt for obtaining eyes need not carry out eyes positioning, rely solely on eyeball be look to diverse location when Wait, the change in location of pupil or iris is judged.

Step 218, when the movement locus according to the blinkpunkt of eyes got, the eyes for determining above-mentioned user be according to During the motion that the prompting of eye movement prompt message is carried out, school is treated according to the verification content recorded in above-mentioned checking command information The above-mentioned backup auto-activating device tested carries out powered verification.

In above-mentioned steps 218, according to the movement locus of the blinkpunkt of the eyes got, the eyes for determining user be by One of the motion that prompting according to eye movement prompt message is carried out, including in the following manner (a) and (b)：

(a) when it is determined that the blinkpunkt of the eyes of user targeted by target fiducials object, the eyes for determining user be according to The motion that the prompting of eye movement prompt message is carried out, wherein, target fiducials object is advance by eye movement prompt message Prompt the user with the object that need to be watched attentively；

(b) when it is determined that user eyes blinkpunkt movement locus and user terminal on the target fiducials object that shows When movement locus is consistent, the eyes for determining user are the motions carried out according to the prompting of eye movement prompt message.

In above-mentioned steps (a), after multiple eye movement images when user carries out eye movement are obtained, by judging Whether the eye gaze point shown on multiple above-mentioned eye movement images is consistent with target fiducials object position, determines user Eyes whether targeted by target fiducials object.

In above-mentioned steps (b), after multiple eye movement images when user carries out eye movement are obtained, judge above-mentioned The movement locus of blinkpunkt of the eyes shown on multiple eye movement images formed in multiple facial images and target base Whether the movement locus of quasi- object is consistent, and the eyes for determining user are the fortune carried out according to the prompting of eye movement prompt message It is dynamic.

In summary, similarity pair is carried out by the first facial image for obtaining user and the second facial image prestored Than, and when it is determined that the first facial image is similar to the second facial image, then allow the eyes of user to point out to believe according to eye movement The motion that the prompting of breath is carried out, just allows the prepared auto restart checking command triggered by user to carry out school to backup auto-activating device afterwards Test, it is to avoid nonregistered user arbitrarily carries out verification to backup auto-activating device causes the defect of backup auto-activating device fluctuation of service, improves The security of backup auto-activating device checking procedure.

It is above-mentioned that deep learning is carried out to obtained above-mentioned multiple face subgraphs and above-mentioned second facial image, obtain The feature difference figure for stating the first facial image and above-mentioned second facial image comprises the following steps (1) to step (5)：

(1) deep learning is carried out to multiple above-mentioned face subgraphs and above-mentioned second facial image, obtains multiple the first Face image characteristic pattern and the second facial image characteristic pattern；

(2) value regional center is characterized with each pixel point coordinates stored in default pixel coordinate set, according to pre- If characteristic value area size, ex-first lady's face image characteristic pattern will be worked as respectively and above-mentioned second facial image characteristic pattern is divided into Multiple the First Eigenvalue regions and multiple Second Eigenvalue regions；

(3) feature is obtained respectively from above-mentioned multiple the First Eigenvalue regions and above-mentioned multiple Second Eigenvalue regions maximum Value；

(4) calculate and obtained from the First Eigenvalue region and Second Eigenvalue region with same characteristic features value regional center Profile maxima difference, obtain multiple feature differences；

(5) using above-mentioned multiple feature differences as pixel value, according to default feature difference figure size, above-mentioned current the is generated The feature difference figure of one facial image characteristic pattern and above-mentioned second facial image characteristic pattern.

Specifically, step 1 comprises the following steps (11) to (12)：

(11) deep learning is carried out to obtained face subgraph from convolutional neural networks by first, obtains multiple first Facial image characteristic pattern；

(12) depth is carried out to any second facial image selected from image library from convolutional neural networks by second Study, obtains the second facial image characteristic pattern, second is identical from convolutional neural networks and first from the structure of convolutional neural networks.

Wherein, first includes identical primary image processing fortune from convolutional neural networks and second from convolutional neural networks Calculate unit, convolution algorithm unit and down-sampling arithmetic element.

Certainly, first from convolutional neural networks other can also be used to realize figure from convolutional neural networks and second As any arithmetic element of deep learning function, with substitute above-mentioned primary image processing arithmetic element, convolution algorithm unit and At least one arithmetic element in down-sampling arithmetic element, is no longer repeated one by one here.

By way of above-mentioned step 2 to step 5 description, the first facial image characteristic pattern and the second face can be obtained The feature difference figure of characteristics of image figure, when the pixel value of each pixel in feature difference figure tends to 0, illustrates the first face The similarity degree of image and the second facial image is higher, thus during to due to shooting angle and shooting the posture of face difference Cause to seem in different photos difference it is very big be that the face of same people is effectively recognized in fact.

In summary, during facial image is compared, deep learning directly is carried out to the second facial image, without inciting somebody to action Second facial image is divided carries out deep learning again, it is possible to reduce amount of calculation when image is compared, and improves facial image Comparison speed.

The above-mentioned features described above differential chart to obtaining carries out deep learning, obtains above-mentioned first facial image and above-mentioned second The comparison result of facial image, comprises the following steps (1) to step (3)：

(1) deep learning is carried out to obtained each feature difference figure, obtains the corresponding people of each features described above differential chart The similar parameter of face image and above-mentioned second facial image；

(2) determine maximum similar parameter as the similarity of above-mentioned first facial image and above-mentioned second facial image；

(3) when above-mentioned similarity be more than or equal to setting similarity threshold when, obtain above-mentioned first facial image with it is above-mentioned The similar comparison result of second facial image.

Above-mentioned steps (1) include：By the 3rd the corresponding people's face of every feature difference figure is drawn from convolutional neural networks The similar parameter of image and the second facial image.

Above-mentioned 3rd sub- convolutional neural networks handle arithmetic element, convolution algorithm unit, down-sampling computing by primary image Unit and softmax graders composition.

Certainly, the 3rd from convolutional neural networks other can also be used to realize any of picture depth learning functionality Arithmetic element, with substitute above-mentioned primary image processing arithmetic element, convolution algorithm unit, down-sampling arithmetic element and At least one arithmetic element in softmax graders, is no longer repeated one by one here.

In summary, by deep learning and simple numeric ratio to operation, it is possible to determine the first facial image with Whether the second facial image is similar, accelerates the comparison speed of facial image.

As shown in figure 3, the present embodiment propose backup auto-activating device, including three-phase bus L1, L2, L3, zero line N, ground wire PE, Two-way identical inlet wire control loop, i.e. the first inlet wire control loop, the second inlet wire control loop, all the way contact control loop, First voltage relay, second voltage relay, the first time-delay relay T1, the second time-delay relay T2, the 3rd delay relay Device T3, the 4th time-delay relay T4 and change-over switch SA.

First inlet wire control loop is connected the first mimic-disconnecting switch shape in mimic-disconnecting switch group by the first inlet wire sub-loop Into the second inlet wire control loop connects the second mimic-disconnecting switch in mimic-disconnecting switch group by the second inlet wire sub-loop and formed, and joins Network control loop connects the 3rd mimic-disconnecting switch by contact sub-loop and formed.First inlet wire control loop, second enter line traffic control and returned Road and contact control loop are connected to bus by change-over switch SA.

First inlet wire sub-loop, the second inlet wire sub-loop and contact sub-loop are broken by the simulation of above-mentioned interface module respectively Closing coil end, switching winding end, conjunction position end and the jump of each mimic-disconnecting switch in the mimic-disconnecting switch group of road device connection terminal row Position end, is connected with the first mimic-disconnecting switch, the second mimic-disconnecting switch and the 3rd mimic-disconnecting switch respectively.

First voltage relay and second voltage relay include the first switching switching switches of switch KD1 and second respectively KD2, first voltage relay and second voltage relay connect each circuitry phase of three-phase bus respectively.First voltage relay The first switching switch KD1 the first time-delay relays of connection T1 one end, the first time-delay relay T1 other end connects zero line； The time-delay relay T3 of the second switching switch KD2 connections the 3rd of first voltage relay one end, the 3rd time-delay relay T3's The other end connects zero line；First switching switch KD1 the second time-delay relays of connection T2 of second voltage relay one end, second Time-delay relay T2 other end connection zero line；The delay relay of the second switching switch KD2 connections the 4th of second voltage relay Device T4 one end, the 4th time-delay relay T4 other end connection zero line.

First inlet wire control loop includes the first switch knob SS1, the first closing coil end Y1, the first mimic-disconnecting switch 1DL, wherein the first mimic-disconnecting switch 1DL, which includes first, closes the jumps of position end AS1 and first position end HS1；Second inlet wire control loop bag The second switch knob SS2, the second closing coil end Y2, the second mimic-disconnecting switch 2DL are included, wherein the second mimic-disconnecting switch 2DL bags Include the second conjunction position end AS2 and second and jump position end HS2；3rd inlet wire control loop includes the 3rd switch knob SS3, the 3rd closing line End Y3, the 3rd mimic-disconnecting switch 3DL are enclosed, wherein the 3rd mimic-disconnecting switch 3DL, which includes the 3rd, closes the jumps of position end AS3 and the 3rd position end HS3。

Above-mentioned three-phase bus and the above-mentioned conjunction position end in above-mentioned mimic-disconnecting switch connection terminal row in above-mentioned interface module 10 It is connected with jumping position end, above-mentioned zero line is connected to closing coil end and switching winding in above-mentioned mimic-disconnecting switch connection terminal row End.

In the first inlet wire control loop, second, which jumps position end HS2 and the 3rd, jumps after position end HS3 parallel connections, one end series connection first Switch knob SS1, the other end connects the first closing coil end Y1, and the first switch knob SS1 is connected to bus；Enter line traffic control second In loop processed, first, which jumps position end HS1 and the 3rd, jumps after position end HS3 parallel connections, and connect the second switch knob SS2 for one end, and the other end connects The second closing coil end Y2 is met, the second switch knob SS2 is connected to bus；In the 3rd inlet wire control loop, first jumps position end HS1 and second is jumped after position end HS2 parallel connections, and connect the 3rd switch knob SS3 for one end, and the other end connects the 3rd closing coil end Y3, 3rd switch knob SS3 is connected to bus.

In the first inlet wire control loop, the second conjunction position end AS2 connects with the second jump position end HS2, and closes position with the 3rd Hold AS3 in parallel with the series circuit that the 3rd jumps position end HS3, the circuit on one side after parallel connection is connected to the 3rd time-delay relay T3, separately One end is connected to the first closing coil end Y1.

In the second inlet wire control loop, the first conjunction position end AS1 connects with the first jump position end HS1, and closes position with the 3rd Hold AS3 in parallel with the series circuit that the 3rd jumps position end HS3, the circuit on one side after parallel connection is connected to the 4th time-delay relay T4, separately One end is connected to the second closing coil end Y2.

In the 3rd inlet wire control loop, the second conjunction position end AS2 connects with the second jump position end HS2, and closes position with first Hold AS1 in parallel with the series circuit that first jumps position end HS1, circuit on one side connection the first time-delay relay T1 and second after parallel connection Time-delay relay T2 parallel circuit, the other end is connected to the 3rd closing coil end Y3.

First inlet wire control loop also includes the first switch knob SS1, the first switching winding end, and first closes position end AS1 also Including first node.Connected after first switch knob SS1 and the first time-delay relay T1 are in parallel first node, first node it is another One end connects the first switching winding end.

Second inlet wire control loop also includes the second switch knob SS2, the second switching winding end, and second closes position end AS2 also Including Section Point.Connected after second switch knob SS2 and the second time-delay relay T2 are in parallel Section Point, Section Point it is another One end connects the second switching winding end.

3rd inlet wire control loop also includes the 3rd switch knob SS3, the 3rd switching winding end, and the 3rd closes position end AS3 also Including the 3rd node.3rd switch knob SS3 parallel connections the 3rd time-delay relay T3 and the 4th time-delay relay T4 series circuit, The 3rd node of series connection after parallel connection, the other end of the 3rd node connects the 3rd switching winding.

So, it is above-mentioned according to above-mentioned checking command information pair referring to Fig. 4 in order to be verified to above-mentioned backup auto-activating device Above-mentioned backup auto-activating device to be verified carries out powered verification, comprises the following steps 400 to step 408：

Step 400, when above-mentioned checking command information indicate above-mentioned first inlet wire control loop dead electricity when, disconnect above-mentioned first Higher level's power switch of inlet wire control loop, makes after above-mentioned first mimic-disconnecting switch of above-mentioned backup auto-activating device tripping, controls above-mentioned 3rd mimic-disconnecting switch closes a floodgate, and runs in-put of spare power supply, verifies that the power supply backup of above-mentioned first inlet wire control loop is automatic Devote oneself to work normal；

Step 402, when above-mentioned checking command information indicate above-mentioned second inlet wire control loop dead electricity when, disconnect above-mentioned second Higher level's power switch of inlet wire control loop, makes after above-mentioned second mimic-disconnecting switch of above-mentioned backup auto-activating device tripping, controls above-mentioned 3rd mimic-disconnecting switch closes a floodgate, and runs in-put of spare power supply, verifies that the power supply backup of above-mentioned second inlet wire control loop is automatic Devote oneself to work normal；

Step 404, indicate to disconnect above-mentioned first mimic-disconnecting switch and the second mimic-disconnecting switch when above-mentioned checking command information During button, above-mentioned first mimic-disconnecting switch and the second mimic-disconnecting switch button are disconnected, makes above-mentioned first mimic-disconnecting switch and above-mentioned Loop residing for first opening button of the second mimic-disconnecting switch, loop residing for the second opening button are in blocking, checking State the first mimic-disconnecting switch and above-mentioned second mimic-disconnecting switch is normally run；

Step 406, when three switch knob of above-mentioned 3rd mimic-disconnecting switch of above-mentioned checking command information indicating closing, The 3rd switch knob of above-mentioned 3rd mimic-disconnecting switch is closed, loop residing for the 3rd switch knob is in blocking, the 3rd Breaker keeps separating brake operation；

Step 408, indicate above-mentioned first mimic-disconnecting switch and above-mentioned second mimic-disconnecting switch when above-mentioned checking command information During accident, above-mentioned first mimic-disconnecting switch and above-mentioned second mimic-disconnecting switch tripping and above-mentioned 3rd breaker closing are controlled, and The 3rd opening button of above-mentioned 3rd breaker is disconnected, loop residing for the 3rd opening button is in blocking, is verified above-mentioned 3rd breaker keeps adhesive running status.

In summary, pair mimic-disconnecting switch 1DL, mimic-disconnecting switch 2DL, and the 3rd breaker 3DL can artificially carried out Any divide-shut brake handoff functionality；Under backup auto-activating device charging operation state, for wire inlet loop, by mimic-disconnecting switch 1DL, mould Intend breaker 2DL, and the 3rd breaker 3DL state position node (jump position, close position) is respectively connected to respective switch point, closed a floodgate In loop, and by the concatenation of each node, realize under incoming power normal operation, closing circuit is effectively connected, and is kept away Exempt from the hidden danger that artificial maloperation causes to divide mimic-disconnecting switch to cause prepared auto restart error starting by mistake；For contact loop, again by disconnected Effective concatenation of road device 1D1,2DL, 3DL state position node (jump position end, close position end), realizes only in inlet wire 1DL or enters After line 2DL dead electricity trippings and corresponding two sections of buses or one section of bus have under electric normal operating condition, the 3rd breaker 3DL is The function of reliably closing, while in the energized state, i.e. mimic-disconnecting switch 1DL, under mimic-disconnecting switch 2DL closure situations, the 3rd Breaker 3DL sub-gate circuit always remains on state, it is ensured that artificial false switching accident will not occur for the 3rd breaker.We Case by by the state node of each breaker (including jump position node, close position node) in backup auto-activating device point, closing circuit Effectively concatenate so that backup auto-activating device realization principle logic is tighter, function is using relatively reliable, while by setting up for certainly Throw device throwing, retreating selection function and make it that process operation mode is more flexible, it is to avoid the risk of original prepared auto restart misoperation.

The computer program product for the progress backup auto-activating device method of calibration that the embodiment of the present invention is provided, including store The computer-readable recording medium of program code, the instruction that described program code includes can be used for performing in previous methods embodiment Described method, implements and can be found in embodiment of the method, will not be repeated here.

It is apparent to those skilled in the art that, for convenience and simplicity of description, the system of foregoing description, The specific work process of device and unit, may be referred to the corresponding process in preceding method embodiment, will not be repeated here.

, can be with several embodiments provided herein, it should be understood that disclosed systems, devices and methods Realize by another way.Device embodiment described above is only schematical, for example, the division of the unit, It is only a kind of division of logic function, there can be other dividing mode when actually realizing, in another example, multiple units or component can To combine or be desirably integrated into another system, or some features can be ignored, or not perform.It is another, it is shown or beg for The coupling each other of opinion or direct-coupling or communication connection can be by some communication interfaces, device or unit it is indirect Coupling is communicated to connect, and can be electrical, machinery or other forms.

If the function is realized using in the form of SFU software functional unit and is used as independent production marketing or in use, can be with It is stored in a computer read/write memory medium.Understood based on such, technical scheme is substantially in other words The part contributed to prior art or the part of the technical scheme can be embodied in the form of software product, the meter Calculation machine software product is stored in a storage medium, including some instructions are to cause a computer equipment (can be individual People's computer, server, or network equipment etc.) perform all or part of step of each of the invention embodiment methods described. And foregoing storage medium includes：USB flash disk, mobile hard disk, read-only storage (ROM, Read-Only Memory), arbitrary access are deposited Reservoir (RAM, Random Access Memory), magnetic disc or CD etc. are various can be with the medium of store program codes.

The foregoing is only a specific embodiment of the invention, but protection scope of the present invention is not limited thereto, any Those familiar with the art the invention discloses technical scope in, change or replacement can be readily occurred in, should all be contained Cover within protection scope of the present invention.Therefore, protection scope of the present invention described should be defined by scope of the claims.

Claims (10)

1. a kind of backup auto-activating device check system, it is characterised in that including：Control module, voltage output module, electric current output mould Block, signal feedback module, mimic-disconnecting switch group, auxiliary relay, image collecting device, input/output module and interface module；

The control module, respectively with the voltage output module, the current output module, the signal feedback module, institute State mimic-disconnecting switch group, the auxiliary relay, described image harvester and input/output module connection；

The input/output module, is also connected with the auxiliary relay；

The interface module, respectively with the voltage output module, the current output module, the signal feedback module, institute State mimic-disconnecting switch group, the auxiliary relay and backup auto-activating device connection to be verified；

The signal feedback module is connected with the voltage output module and the current output module respectively；

Described image harvester, sends out for the image of the user of trigger collection prepared auto restart checking command, and by the image of collection The control module is sent to, wherein, the prepared auto restart checking command is that the user is triggered by the input/output module 's；

The control module, the described image for being sent by described image harvester is tested the identity of the user Card, and in the subscriber authentication by rear according to the prepared auto restart checking command, to the backup auto-activating device to be verified Carry out powered verification.

2. backup auto-activating device check system according to claim 1, it is characterised in that also include：Power module；

The power module respectively with the control module, the voltage output module, the current output module, the signal Feedback module, the mimic-disconnecting switch group, the auxiliary relay, described image harvester and the input/output module Connection.

3. backup auto-activating device check system according to claim 2, it is characterised in that the power module uses secondary electricity Pond.

4. backup auto-activating device check system according to claim 3, it is characterised in that

Described power module is provided with power input, the first power output end and second source output end；Control module is provided with Voltage output control end, electric current output control terminal, feedback signal input terminal, mimic-disconnecting switch signal end, auxiliary relay control End, input/output module control end；Voltage output module is provided with control signal input, first voltage output end, second voltage Output end and power end；Current output module is provided with control signal input, current output terminal and power end；Signal feedback module Provided with the first sampled signal end, the second sampled signal end, the 3rd sampled signal end, signal output part and power end；Simulation open circuit Device group is provided with multiple mimic-disconnecting switches, the first signal end, secondary signal end and power end；Auxiliary relay is defeated provided with control signal Enter end, output end and power end；Input/output module is provided with signal output part and power end；Interface module include interface board and It is arranged on first voltage output connection terminal, second voltage output connection terminal, electric current output connection terminal, mould on interface board Intend breaker connection terminal to arrange and auxiliary relay output connection terminal, the multiple mimic-disconnecting switch, including：First simulation is disconnected Road device, the second mimic-disconnecting switch and the 3rd mimic-disconnecting switch；

The control signal input of voltage output module is electrically connected with the voltage output control end of control module；Voltage output module The first voltage output connection terminal of first voltage output end and interface module electrically connect；The second voltage of voltage output module Output end is electrically connected with the second voltage output connection terminal of interface module；The control signal input of current output module and control The electric current output control terminal electrical connection of molding block；The current output terminal of current output module and the electric current output of interface module are connected Terminal is electrically connected；First sampled signal end of signal feedback module is electrically connected with the first voltage output end of voltage output module； Second sampled signal end of signal feedback module is electrically connected with the second voltage output end of voltage output module；Signal feedback module The 3rd sampled signal end electrically connected with the current output terminal of current output module；The signal output part of signal feedback module and control The feedback signal input terminal electrical connection of molding block；Multiple mimic-disconnecting switches in mimic-disconnecting switch group respectively with the first signal end, Secondary signal end and power end connection；First signal end of mimic-disconnecting switch group and the mimic-disconnecting switch signal end of control module are double Electrically connected to signal；The secondary signal end of mimic-disconnecting switch group is electrically connected with the mimic-disconnecting switch connection terminal row of interface module； The control signal input of auxiliary relay is electrically connected with the auxiliary relay control end of control module；The output of auxiliary relay Hold and electrically connected with the auxiliary relay output connection terminal of interface module；

The signal output part of input/output module is electrically connected with the input/output module control end of control module；

The mimic-disconnecting switch connection terminal row of the interface module includes the closing line of each mimic-disconnecting switch in mimic-disconnecting switch group End, switching winding end are enclosed, position end is closed and jumps position end, for being connected when being verified with the backup auto-activating device；

Control module, mimic-disconnecting switch group, auxiliary relay, input/output module power end respectively with power module One power output end is electrically connected；The power end of voltage output module, current output module and signal feedback module respectively with power supply The second source output end electrical connection of module.

5. a kind of backup auto-activating device verification side of the backup auto-activating device check system described in utilization the claims any one of 1-4 Method, it is characterised in that including：

The prepared auto restart checking command of user's triggering is obtained, the prepared auto restart checking command carries the identification information of user, user The first facial image and checking command information；

According to the identification information of the user, the second facial image of the user prestored is inquired；

The first facial image of the user is divided into multiple images region；

From multiple described image regions, select k image-region to be spliced respectively, obtain multiple face subgraphs Picture, wherein, multiple described image regions are averagely divided and obtained from top to bottom by first facial image,M represents the image-region that first facial image is divided Quantity；

Deep learning is carried out to obtained the multiple face subgraph and second facial image, obtains described the first The feature difference figure of face image and second facial image；

Deep learning is carried out to the obtained feature difference figure, first facial image and second facial image is obtained Comparison result；

When obtaining first facial image comparing result similar with second facial image, sent out to the user terminal Send eye movement prompt message so that user carries out eye according to the eye movement prompt message shown on the user terminal Ball is moved；

Obtain multiple eye movement images when user carries out eye movement；

From multiple eye movement images of the obtained user, the motion rail of the blinkpunkt of the eyes of the user is obtained Mark；

When the movement locus of the blinkpunkt according to the eyes got, the eyes for determining the user are pointed out according to eye movement During the motion that the prompting of information is carried out, according to the verification content recorded in the checking command information to it is to be verified it is described it is standby oneself Throw device and carry out powered verification.

6. method according to claim 5, it is characterised in that to obtained the multiple face subgraph and described Two facial images carry out deep learning, obtain the feature difference figure bag of first facial image and second facial image Include：

Deep learning is carried out to multiple face subgraphs and second facial image, multiple first facial images are obtained special Levy figure and the second facial image characteristic pattern；

Value regional center is characterized with each pixel point coordinates stored in default pixel coordinate set, according to default feature It is worth area size, ex-first lady's face image characteristic pattern will be worked as respectively and the second facial image characteristic pattern is divided into multiple first Characteristic value region and multiple Second Eigenvalue regions；

Profile maxima is obtained respectively from the multiple the First Eigenvalue region and the multiple Second Eigenvalue region；

Calculate the feature obtained from the First Eigenvalue region and Second Eigenvalue region with same characteristic features value regional center The difference of maximum, obtains multiple feature differences；

Using the multiple feature difference as pixel value, according to default feature difference figure size, generation is described to work as ex-first lady's face The feature difference figure of characteristics of image figure and the second facial image characteristic pattern.

7. method according to claim 5, it is characterised in that deep learning is carried out to the obtained feature difference figure, The comparison result of first facial image and second facial image is obtained, including：

Deep learning is carried out to obtained each feature difference figure, the corresponding face subgraph of each feature difference figure is obtained With the similar parameter of second facial image；

It is determined that similarity of the maximum similar parameter as first facial image and second facial image；

When the similarity is more than or equal to the similarity threshold of setting, first facial image and second face are obtained The similar comparison result of image.

8. method according to claim 5, it is characterised in that from multiple eye movement images of the obtained user In, the movement locus of the blinkpunkt of the eyes of the user is obtained, including：

Carry out eyes positioning respectively to the ball moving image of often opening one's eyes in multiple eye movement images described in obtaining, and from positioning The eyes subgraph of the ball moving image of often opening one's eyes is intercepted in the ball moving image of often opening one's eyes afterwards；

Extract the iris image and/or pupillogram of the eyes respectively from the eyes subgraph of the ball moving image of often opening one's eyes Picture；

According to the iris image and/or the pupil image extracted in the eye movement image from every, eyes are calculated Relative displacement between in multiple described eye movement images, and the relative displacement obtained according to calculating determines the eye The movement locus of the blinkpunkt of eyeball.

9. method according to claim 5, it is characterised in that according to the movement locus of the blinkpunkt of the eyes got, The eyes for determining the user are the motions carried out according to the prompting of eye movement prompt message, including one of in the following manner：

When it is determined that the blinkpunkt of the eyes of the user targeted by target fiducials object, the eyes for determining the user be according to The motion that the prompting of eye movement prompt message is carried out, wherein, the target fiducials object is pointed out by the eye movement Information prompts the user with the object that need to be watched attentively in advance；

When it is determined that the user eyes blinkpunkt movement locus and user terminal on the target fiducials object that shows Movement locus it is consistent when, the eyes for determining the user be according to the eye movement prompt message prompting carry out fortune It is dynamic.

10. method according to claim 5, it is characterised in that the backup auto-activating device, including：Three-phase bus, the first electricity Potential relay, second voltage relay, the first time-delay relay, the second time-delay relay, the 3rd time-delay relay, the 4th delay Relay, change-over switch, the first inlet wire sub-loop, the second inlet wire sub-loop and contact sub-loop；

The first voltage relay and second voltage relay include the first switching switch and the second switching switch respectively, described First voltage relay and second voltage relay connect each circuitry phase of the three-phase bus respectively；The first voltage after One end of first switching switch connection first time-delay relay of electrical equipment, the other end connection of first time-delay relay Zero line；One end of second switching switch connection the 3rd time-delay relay of the first voltage relay, the described 3rd prolongs When relay the other end connection zero line；First switching switch connection the second delay relay of the second voltage relay One end of device, the other end connection zero line of second time-delay relay；Second switching switch of the second voltage relay Connect one end of the 4th time-delay relay, the other end connection zero line of the 4th time-delay relay；The three-phase bus Conjunction position end in being arranged with mimic-disconnecting switch connection terminal described in the interface module is connected with jumping position end, and the zero line connects It is connected to closing coil end and switching winding end in the mimic-disconnecting switch connection terminal row；

The first inlet wire sub-loop connects the first mimic-disconnecting switch the first inlet wire control loop of formation, and the second inlet wire is returned Road connects the second mimic-disconnecting switch the second inlet wire control loop of formation, and the contact sub-loop connects the 3rd mimic-disconnecting switch and formed Get in touch with control loop；The first inlet wire control loop, the second inlet wire control loop and contact control loop pass through the conversion Switch is connected to the bus；

It is described that powered verification is carried out to the backup auto-activating device to be verified according to the checking command information, including：

When the checking command information indicates the first inlet wire control loop dead electricity, the first inlet wire control loop is disconnected Higher level's power switch, make after the first mimic-disconnecting switch described in the backup auto-activating device tripping, control it is described 3rd simulation open circuit Device closes a floodgate, and runs in-put of spare power supply, verify the first inlet wire control loop power supply backup automatically engage it is working properly；

When the checking command information indicates the second inlet wire control loop dead electricity, the second inlet wire control loop is disconnected Higher level's power switch, make after the second mimic-disconnecting switch described in the backup auto-activating device tripping, control it is described 3rd simulation open circuit Device closes a floodgate, and runs in-put of spare power supply, verify the second inlet wire control loop power supply backup automatically engage it is working properly；

When the checking command information indicates to disconnect first mimic-disconnecting switch and the second mimic-disconnecting switch button, institute is disconnected The first mimic-disconnecting switch and the second mimic-disconnecting switch button are stated, makes first mimic-disconnecting switch and second mimic-disconnecting switch The first opening button residing for loop, loop residing for the second opening button be in blocking, verify the first simulation open circuit Device and second mimic-disconnecting switch are normally run；

When three switch knob of the 3rd mimic-disconnecting switch described in the checking command information indicating closing, closure the described 3rd 3rd switch knob of mimic-disconnecting switch, makes loop residing for the 3rd switch knob be in blocking, and the 3rd mimic-disconnecting switch is protected Hold separating brake operation；

When the checking command information indicates first mimic-disconnecting switch with the second mimic-disconnecting switch accident, institute is controlled The first mimic-disconnecting switch and the second mimic-disconnecting switch tripping and the 3rd breaker closing are stated, and disconnects the described 3rd and is broken 3rd opening button of road device, makes loop residing for the 3rd opening button be in blocking, verifies that the 3rd breaker is kept Adhesive running status.