CN105785161A - Uninterruptible power supply static by-pass switch voltage monitoring card testing system and method - Google Patents

Abstract

The invention discloses an uninterruptible power supply static by-pass switch voltage monitoring card testing system and a method. The testing method comprises: a server transmitting test case information which is configured via a man-machine interaction terminal to a front-end processor; the front-end processor parsing the test case information, a replay protection tester outputting an excitation signal; an acquisition control apparatus separately accessing the excitation signal and a power supply signal to an acquisition adaptation apparatus through corresponding channels, and acquiring the excitation signal; the acquisition adaptation apparatus conditioning the excitation signal and the power supply signal and inputting the excitation signal and the power supply signal to a minimum function system; acquiring a responding signal output by the minimum function system, and uploading the responding signal to the front-end processor; the front-end processor transmitting the responding signal and the excitation signal to the server; the server processing the responding signal and the excitation signal and transmitting the responding signal and the excitation signal to the man-machine interaction terminal; the man-machine interaction terminal outputting the excitation signal, the responding signal and processed result information. According to the invention, the technical solution reduces requirements for man labor and can achieve the purpose of reducing personnel and increasing efficiency.

Description

The test system of static bypass switch voltage monitoring fastener of uninterrupted power source, method

Technical field

The present invention relates to nuclear power field, particularly relate to the test system of static bypass switch voltage monitoring fastener of a kind of uninterrupted power source, method.

Background technology

Present Daya Gulf, ridge Australia one phase, ridge Australia second phase nuclear power station commonly use uninterrupted power source and ensure the safe and stable operation in power station, inverter fastener is the internal very important ingredient of uninterrupted power source, being to ensure that nuclear power station inverter and the properly functioning important fastener of rectifier control system, different types of inverter fastener can be used for different electric power systems.

Uninterrupted power source static bypass switch voltage monitoring fastener is the important component part in inverter AEGII series, for monitoring bypass alternating voltage and inverter output AC voltage, when monitoring bypass alternating voltage and inverter output AC is too low or too high for voltage, pointed out by fastener panel leds, the process such as inverter startup, operation, output is grid-connected serves the effect of important monitoring and warning.But it is likely to cause the aging of fastener and produce various potential faults after longtime running or maloperation, if advanced processing is not by affecting the properly functioning of power supply unit, causes unnecessary loss.

Currently, nuclear power station inverter internal fastener is studied by domestic shortage targetedly, the maintenance of the type fastener or replacement depend on the relevant cabinet to inverter total system and carry out the artificial regular inspection of complete machine or simple outward appearance identification to determine the duty of fastener, it is impossible to automatically or batch old fastener is powered on test analysis.

Summary of the invention

The technical problem to be solved in the present invention is in that, nuclear power station inverter fastener cannot be carried out the defect of electrical testing on automatic batch by above-mentioned for prior art, the test system of static bypass switch voltage monitoring fastener of a kind of uninterrupted power source, method are provided, the work efficiency of tester can be improved, reduce material cost and the time cost of maintenance.

The technical solution adopted for the present invention to solve the technical problems is: construct the test system of the static bypass switch voltage monitoring fastener of a kind of uninterrupted power source, for voltage monitoring fastener is tested, and described voltage monitoring fastener is connected to form minimum function system with subtest fastener by ash row, described test system includes: human-computer interaction terminal, server, front end processor, relay protection tester, Switching Power Supply, acquisition control device, collection adaptive device；

Human-computer interaction terminal, for receiving the test case information of tester's configuration and sending it to server, and output drive signal, response signal and processing result information；

Server, for test case information, pumping signal, response signal and processing result information are stored, and carries out the mutual of data and program with human-computer interaction terminal and front end processor；

Front end processor, being used for the test case information analysis received is stimulation arrangement instruction, passage configuration-direct, sequencing contro instruction and signals collecting instruction, and is issued to relay protection tester, acquisition control device and collection adaptive device respectively；And the pumping signal that the response signal exported by described collection adaptive device and described relay protection tester export sends to server；

Relay protection tester, exports corresponding pumping signal for the stimulation arrangement instruction issued according to front end processor；

Switching Power Supply, for out-put supply signal；

Acquisition control device, passage configuration-direct for issuing according to front end processor carries out passage configuration, and pumping signal and power supply signal are accessed described collection adaptive device and the pumping signal of the signals collecting instruction acquisition relay protection tester output issued according to front end processor respectively through respective channel by the sequencing contro instruction issued according to front end processor；

Gathering adaptive device, the power supply signal for the pumping signal that relay protection tester is exported and Switching Power Supply output is nursed one's health, and is input to minimum function system；It is additionally operable to carry out passage configuration according to the passage configuration-direct that front end processor issues, and the response signal that minimum function system described in the signals collecting instruction acquisition issued according to front end processor exports, and it is uploaded to front end processor.

Preferably, described acquisition control device includes:

Master control borad, for the respective channel of the passage configuration-direct configuration digital output module issued according to front end processor, analog input, and to front end processor feedback excitation signal；

Digital output module, is connected with relay protection tester and Switching Power Supply, exports pumping signal and power supply signal to gathering adaptive device for the sequencing contro instruction issued according to front end processor；

Analog input, is connected with relay protection tester, the pumping signal of the signals collecting instruction acquisition relay protection tester output for issuing according to front end processor.

Preferably, described collection adaptive device includes:

Adaptation board, is connected with voltage monitoring fastener and subtest fastener, for the response signal of pumping signal and required collection is nursed one's health；

Distributed control and testing board, is connected with adaptation board, and the passage configuration-direct for issuing according to front end processor carries out passage configuration, and the response signal after conditioned is acquired by the signals collecting instruction issued according to front end processor, and is uploaded to front end processor.

Preferably, also including rack, and described rack includes multiple interlayer, the plurality of interlayer is accommodating front end processor, switch, acquisition control device, collection adaptive device independently.

Preferably, also include:

It is arranged on the fan of described enclosure top；

It is arranged on the warm-air drier below described rack；

Temperature and humidity filed plate, is used for gathering actual temperature in rack, humidity information, and gathers the power supply signal that Switching Power Supply exports, and send power supply signal and humiture information to front end processor.

Preferably,

Described front end processor, being additionally operable to the test case information analysis by receiving is humiture configuration-direct, and is issued to temperature and humidity filed plate；

Described temperature and humidity filed plate, is additionally operable to, according to humiture configuration-direct, the operating of fan and warm-air drier is carried out closed loop control.

Preferably, also include: for providing the switch of multi-channel data transmission passage, and, described front end processor adopts unified ethernet communication agreement to carry out information transmission with described relay protection tester, described acquisition control device, collection adaptive device, temperature and humidity filed plate by described switch.

Preferably, described subtest fastener includes by the interface board of ash row's connection, communication board, remote signal plate, the first remote alarms plate and the second remote alarms plate.

Preferably, described pumping signal is biphase reversely combined ac voltage signal.

The present invention also constructs the method for testing of the static bypass switch voltage monitoring fastener of a kind of uninterrupted power source, and for voltage monitoring fastener is tested, and described voltage monitoring fastener is connected to form minimum function system by ash row with subtest fastener, including:

Server is sent to front end processor after the test case information configured by human-computer interaction terminal being processed；

The test case information analysis received is stimulation arrangement instruction, passage configuration-direct, sequencing contro instruction and signals collecting instruction by front end processor, and be issued to relay protection tester, acquisition control device and collection adaptive device respectively, so that relay protection tester exports corresponding pumping signal according to electric excitation configuration-direct；

The passage configuration-direct that acquisition control device issues according to front end processor carries out passage configuration, and the power supply signal of the pumping signal that exported by relay protection tester of the sequencing contro instruction issued according to front end processor and Switching Power Supply output accesses described collection adaptive device respectively through respective channel, and pumping signal described in the signals collecting instruction acquisition issued according to front end processor；

Gather adaptive device pumping signal and power supply signal are nursed one's health, and be input to minimum function system；And the passage configuration-direct issued according to front end processor carries out passage configuration, and the response signal that minimum function system described in the signals collecting instruction acquisition issued according to front end processor exports, and it is uploaded to front end processor；

The pumping signal gathering the response signal that exports of adaptive device and relay protection tester exports is sent to server by front end processor；

The server pumping signal to receiving, response signal process, and send pumping signal, response signal and processing result information to human-computer interaction terminal；

Human-computer interaction terminal output drive signal, response signal and processing result information.

Implement technical scheme, it is achieved that to the automatization of static bypass switch voltage monitoring fastener of uninterrupted power source, intelligent test, reduce artificial demand, the purpose cut payroll to improve efficiency can be realized.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the invention will be further described, in accompanying drawing:

Fig. 1 is the building-block of logic of the test system embodiment one of the static bypass switch voltage monitoring fastener of uninterrupted power source of the present invention；

Fig. 2 is the building-block of logic of the test system embodiment two of the static bypass switch voltage monitoring fastener of invention uninterrupted power source；

Fig. 3 is the flow chart of the method for testing embodiment one of the static bypass switch voltage monitoring fastener of invention uninterrupted power source.

Detailed description of the invention

Fig. 1 is the building-block of logic of the test system embodiment one of the static bypass switch voltage monitoring fastener of uninterrupted power source of the present invention, the test system of this embodiment specifically includes that rack 101, relay protection tester 102, acquisition control device 103, front end processor 104, gathers adaptive device 105, temperature and humidity filed plate 106, switch 107, Switching Power Supply 108, server 109, human-computer interaction terminal 110, voltage monitoring fastener 111 to be tested and subtest fastener 112, and voltage monitoring fastener 111 is connected to form minimum function system by ash row with subtest fastener 112.Acquisition control device 103 mainly includes master control borad 1031, digital output module 1032, analog input 1033.Gather adaptive device 105 and mainly include adaptation board 1051 and distributed control and testing board 1052.Additionally, the experimental subject of this test system is voltage monitoring fastener 111, but need to ensure that voltage monitoring fastener 111 is operated in a minimum function system in AEGII system, therefore, in order to analog voltage monitors the fastener 111 function in inverter system, experiment need by subtest fastener 112, this subtest fastener 112 includes interface board 1121, communication board 1122, remote signal plate the 1123, first remote alarms plate 1124 and the second remote alarms plate 1125, is attached by ash row between voltage monitoring fastener 111 and these subtest fasteners 112.

Acquisition control device 103, front end processor 104 are installed in rack 101, gather adaptive device 105, temperature and humidity filed plate 106, switch 107, Switching Power Supply 108.Preferably, rack 101 includes multiple interlayer and the plurality of interlayer independently accommodating acquisition control device 103, front end processor 104, collection adaptive device 105, temperature and humidity filed plate 106, switch 107.

In this embodiment, the feature of each several part is as follows:

Human-computer interaction terminal 110 provides the interaction platform of system and user, and user is by being managed the information of test fastener, equipment in human-computer interaction terminal；The test case of experiment can be configured, to experimentation control and supervision；Test case can be called, it is possible to check historical testing information etc..It addition, human-computer interaction terminal 110 has alarm analysis function, when the data monitored exceed setting value, carrying out early warning or alarm on interface, when occurring reporting to the police, system will stop process of the test immediately.

Server 109 is as data and application service center, and storage has the test case of all experiments, system program, experimental data etc., carries out the mutual of data and program with human-computer interaction terminal 110 and front end processor 104 simultaneously.Preferably, server 109 remains to normal operation when power is off UPS power supply mechanism can be adopted to guarantee.

The parsing of front end processor 104 primary responsibility test case and issuing of order, wherein the classification of test case includes strike-machine test case, emulation testing use-case, fault diagnosis test case, wherein, whether strike-machine test case is mainly used in test fastener work stable, test and excitation only has power supply to encourage, and the persistent period is generally longer (7 days)；Emulation testing use-case mainly tests the reliability of the concrete a certain item function of fastener, test and excitation except power supply excitation also include specific function test signal, be used for triggering fastener action, the time is shorter, control minute in；Fault diagnosis test case is mainly used in judging the fault type that suspected malfunctions fastener is concrete, similar to emulation testing use-case test content, has different test cases for different fault types.In addition, front end processor 104 also has certain data memory function, first all Real-time Monitoring Datas in experimentation are uploaded to front end processor 104 after being gathered by acquisition control device 103, and feeding server 09 orderly again after front end processor carries out pretreatment carries out structured storage.

Switch 107 is connected with front end processor 104 and slave computer equipment, there is provided multi-channel data transmission passage, front end processor 104 to be used uniformly across ethernet communication agreement by switch 107 and relay protection tester 102, acquisition control device 103, temperature and humidity filed plate 106, distributed control and testing board 1052 for front end processor 104 to carry out data transmission.The link of front end processor 104 and relay protection tester 102 is the transmission of unidirectional information, and stimulation arrangement instruction is issued to relay protection tester by this link by front end processor 104；Front end processor 104 and acquisition control device 103, temperature and humidity filed plate 106, distributed control and testing board 1052 link then for bidirectional information transmission, experiment starts front front end processor 104 and issues passage configuration-direct and testing and control instruction by this chain road direction three of the above equipment, the response signal that in experiment, acquisition control device 103, temperature and humidity filed plate 106, distributed control and testing board 1052 then upload, to front end processor 104, pumping signal that relay protection tester 102 exports by this link respectively, power supply signal and humiture information, the voltage monitoring fastener tested export.

Relay protection tester 102 is the exciting signal source of experiment test, ac voltage signal is provided, it specifically exports the stimulation arrangement instruction that size, phase angle, frequency and output time etc. issue according to front end processor 104 and performs, and relay protection tester 102 sets up electrical connection loop with acquisition control device 103 by wire.

Switching Power Supply 108 provides the power supply signal of 24V for gathering adaptive device 105, is linked into the input pin of adaptation board 1051 by the digital output module 1032 of acquisition control device 103.

Control command configuration digital output module 1032 that master control borad 1031 issues according to front end processor 104, the respective channel of analog input 1033, and to front end processor 104 pump back test Monitoring Data (pumping signal).

Digital output module 1032 is connected with relay protection tester 102, Switching Power Supply 108, for realizing the control to plant-grid connection, turn-off time, and exports pumping signal and power supply signal to adaptation board 1051.

Analog input 1033 is connected with relay protection tester 102, for gathering the pumping signal of relay protection tester 102 output.

Temperature and humidity filed plate 106 is connected with front end processor 104 by switch 107, for gathering the parameter information such as actual temperature, humidity in rack 101, meanwhile, temperature and humidity filed plate 106 is connected with Switching Power Supply 108, gathers the power supply signal of Switching Power Supply 108 output as direct current monitoring board.

Adaptation board 1051 is connected with voltage monitoring fastener 111 to be measured and subtest fastener 112, and the response signal being responsible for the pumping signal needed for voltage monitoring fastener 111 and the voltage monitoring fastener 111 that gathers are exported is nursed one's health.

Distributed control and testing board 1052 is connected with adaptation board 1051, is responsible for carrying out sending in in-site collecting and data to the response signal after conditioned.

Additionally, be also equipped with bulb, warm-air drier and fan in rack 101.Wherein, bulb is installed on the top of rack 101, is used for illuminating；Warm-air drier is installed on the lower section of rack 101, and fan is installed on the top of rack 101, works in specific temperature for the device guaranteed in rack 101.It is outside equipped with switching handle at rack 101, for controlling fan and warm-air drier, wherein switching handle is divided into three to control gear, when switching handle and being positioned at heating gear, warm-air drier enters duty, and when switching handle and being positioned at ventilation gear, fan enters duty, when switching handle and being positioned at remote control gear, the instruction that the switching of warm-air drier and fan is accepted higher level by temperature and humidity filed plate 106 is controlled.

It addition, it should be noted that, test case is a kind of structurized test process configuration documentation, is used for defining in testing experiment and tests the information such as signal type, size, sequential, duration, acquisition channel.Test case is made up of totally use-case essential information (header), test preparation (preparation), acquisition channel configuration (configure), test process sequencing contro (time) and device definition (devicedefine) five parts.

Preferably, UPS power supply mechanism is adopted to guarantee that server remains to normal operation when power is off.When civil power is stopped power supply because of fault, UPS powers to power distributor through air switch, and the outfan of power distributor accesses front end processor, switch, it is thus possible to ensure in the event of a power failure, human-computer interaction terminal still can read required data from backstage.

Use the process that voltage monitoring fastener 111 is tested by this test system as follows:

After tester logs in test system from human-computer interaction terminal 110, carry out experiment preliminary preparation and related experiment configuration, wherein, preparation includes: the inspection of test fastener (voltage monitoring fastener 11), test system initialization, unlatching relay protection tester 102, Switching Power Supply 108, front end processor 104 etc.；Experimental configuration includes: test fastener and draw-in groove apolegamy, test cases selection configuration.The test case selected will be issued to front end processor 104 by server 109.

Switching Power Supply 108 is linked into adaptation board 1051 by digital output module 1032, provides working power for adaptation board 1051.

Test case is resolved to stimulation arrangement instruction, passage configuration order, humiture configuration-direct, sequencing contro order and signals collecting instruction by front end processor 104, and by switch 107, these instructions is issued to relay protection tester 102, temperature and humidity filed plate 106, acquisition control device 103 and distributed control and testing board 1052 respectively.

Relay protection tester 102 is according to the pumping signal needed for stimulation arrangement instruction output experiment, this pumping signal is the biphase reversely combined ac voltage signal of A, B, and by electrical principle by A, B two phase voltage merge into a phase voltage signal and be linked in digital output module 1032.

The internal humiture situation of rack 101 monitored in real time by temperature and humidity filed plate 106, and according to humiture configuration-direct, the operating of fan and warm-air drier carried out closed loop control, thus regulating the humiture environment within rack 101.

Master control borad 1031 in acquisition control device 103 realizes the passage configuration of On-off signal plate 1032, analog input 1033 according to the passage configuration-direct that front end processor 104 issues, and control the pumping signal that exports of relay protection tester 102 according to sequencing contro instruction and be linked into the input terminal of adaptation board 1051, finally it is adapted plate 1051 lead-out terminal and pumping signal is sent into the input pin of test fastener.

The pumping signal of input is linked into the test corresponding input pin of fastener by adaptation board 1051 after conditioning, for the pumping signal that the test offer of voltage monitoring fastener 111 is reliable and stable；The response signal of voltage monitoring fastener 111 is linked into distributed control and testing board 1052 simultaneously.

Distributed control and testing board 1052 carries out the configuration of related channel program according to passage configuration-direct, and according to the response signal of sequencing contro instruction acquisition and the output above giving test fastener to front end processor 104.

After interface board 1121 is injected into pumping signal, provide pumping signal by output pin to all the other test fasteners.During test, the response signal of all test fasteners will be acquired by distributed control and testing board 1052, and distributed control and testing board 1052 is configured on adaptation board, it is to avoid signal long-distance transmissions distortion, it is achieved the in-site collecting to the response signal of fastener output.

Meanwhile, relay protection tester 102 pumping signal provided is acquired by analog input 1033, and power supply signal, temperature-humidity signal that Switching Power Supply 108 is exported by temperature and humidity filed plate 106 are acquired.The data that analog input 1033 gathers by the master control borad 1031 call format according to ethernet mac message is delivered to signal that front end processor 104, distributed control and testing board 1052 and temperature and humidity filed plate 106 gather then by switch 107 directly on deliver to front end processor 104.

The real time data sent on analog input 1033, distributed control and testing board 1052, temperature and humidity filed plate 106 is uploaded to human-computer interaction terminal 110 and carries out real-time exhibition by front end processor, experimental data is uploaded onto the server 109 simultaneously, and adopts reference format to store.

Relay protection tester 102 changes ac voltage signal amplitude according to stimulation arrangement instruction, carries out variable working condition test, the warning function of detection voltage monitoring fastener 111.

Experiment overall process can be monitored in real time by user by human-computer interaction terminal 110, interface provides the virtual value display frames of ambient parameter, power supply signal, pumping signal, fastener switching value represents break-make situation by display lamp, being represented by red light and green light respectively, being specifically defined user can modify in test case.Signal is exported for ac input signal and fastener alternating current-direct current then shown by real-time waveform figure.

Fig. 2 is the building-block of logic of the test system embodiment two of the static bypass switch voltage monitoring fastener of invention uninterrupted power source, in this embodiment, it is connected by ash row between voltage monitoring fastener 111 with subtest fastener, specific as follows: X11, X12 terminal block of voltage monitoring fastener 111 is connected with X11, X12 terminal block of interface board 1121 respectively.The pin X1:1 of interface board 1121, X1:3, the internal short circuit of X1:4, X1:5 and X1:6.The terminal block X6 of interface board 1121 is all connected with the terminal block X1 of communication board 1122 with the terminal block X1 of remote signal plate 1123.The terminal block X7 of remote signal plate 1123 is connected with the terminal block X3 of communication board 1122.The X2 terminal block of remote signal plate 1123 is connected with the X1 terminal block of the first remote alarms plate 1124.The X2 terminal block of the first remote alarms plate 1124 is connected with the X1 terminal block of the second remote alarms plate 1125.

Before experiment formally starts, the power supply signal of the 24V DC voltage-stabilizing of Switching Power Supply 108 output is linked into the pin 1# of adaptation board 1051 through digital output module 1032 channel C J1, provides working power for adaptation board 1051 and distributed control and testing board 1052.Meanwhile, the power supply signal of Switching Power Supply 108 output is incorporated in temperature and humidity filed plate 106, passage IO5 be acquired.

The pumping signal of test is provided by relay protection tester 102, relay protection tester 102 phase difference output is the two-phase alternating current pressure of 180 °, this two phase voltage signal reversely merges into a drive test examination voltage excitation signals in rack, this test and excitation signal is linked into digital output module 1032 after the transformator PT that no-load voltage ratio is 100:220, be linked into pin X2:1, X2:3 of interface board 1021 respectively through adaptation board 1051 by the channel C J31 of digital output module 1032, CJ33, N pole meets pin X2:2.

Distributed control and testing board 1052 is by the response signal between pin X1:5, X1:1 of analog acquisition passage ANI1 acquisition interface plate 1021, and is gathered the break-make situation between pin X3:7, X3:8 of the first remote alarms plate 1024 by switch acquisition passage KI2.

Whether the test system of this embodiment is normal in order to detect the function of voltage monitoring fastener 111, and detection content includes its job stability and functional reliability etc..The major function of voltage monitoring fastener 111 is the abnormal alarm to bypass alternating voltage and inverter output AC voltage, can call different test cases respectively and realize the many-sided detection of fastener service behaviour.Specific as follows:

When experiment starts, pin X2:1, X2:3 of interface board 1121 accesses 220VAC, now observe that on voltage monitoring fastener 111, display lamp H104, H105 light, by human-computer interaction terminal 110 it can be seen that disconnect to the X3 pin of the first remote alarms plate 1124, keep voltage monitoring fastener 111 for a long time in this case, it is possible to the job stability of detection voltage monitoring fastener 111.Change the input quantity of pin X2:1, X2:3 of interface board 1121 to reach warning bound, the X3 pin break-make situation of the first remote alarms plate 1124 in viewing lamp action situation and human-computer interaction terminal 110, it can be determined that whether fastener function is normal.

In whole test process, signal dosage and collection are all that test system is automatically performed, and user does not need to be operated manually.In sum, the test overall process of this test system is easy and simple to handle, uses safety, it is achieved that to the automatization of voltage monitoring fastener, intelligent test, reduces artificial demand, can realize the purpose cut payroll to improve efficiency.

Fig. 3 is the flow chart of the method for testing embodiment one of the static bypass switch voltage monitoring fastener of invention uninterrupted power source, the method of testing of this embodiment is for testing voltage monitoring fastener, and described voltage monitoring fastener is connected to form minimum function system by ash row with subtest fastener, and it specifically includes following steps:

S11. server is sent to front end processor after the test case information configured by human-computer interaction terminal being processed；

S12. the test case information analysis received is stimulation arrangement instruction, passage configuration-direct, sequencing contro instruction and signals collecting instruction by front end processor, and be issued to relay protection tester, acquisition control device and collection adaptive device respectively, so that relay protection tester exports corresponding pumping signal according to electric excitation configuration-direct；

S13. the passage configuration-direct that acquisition control device issues according to front end processor carries out passage configuration, and the power supply signal of the pumping signal that exported by relay protection tester of the sequencing contro instruction issued according to front end processor and Switching Power Supply output accesses described collection adaptive device respectively through respective channel, and pumping signal described in the signals collecting instruction acquisition issued according to front end processor；

S14. gather adaptive device pumping signal and power supply signal are nursed one's health, and be input to minimum function system；And the passage configuration-direct issued according to front end processor carries out passage configuration, and the response signal that minimum function system described in the signals collecting instruction acquisition issued according to front end processor exports, and it is uploaded to front end processor；

S15. the pumping signal gathering the response signal that exports of adaptive device and relay protection tester exports is sent to server by front end processor；

S16. the server pumping signal to receiving, response signal process, and send pumping signal, response signal and processing result information to human-computer interaction terminal；

S17. human-computer interaction terminal output drive signal, response signal and processing result information.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.All within the spirit and principles in the present invention, any amendment of making, equivalent replacement, improvement etc., should be included within scope of the presently claimed invention.

Claims (10)

1. the test system of the static bypass switch voltage monitoring fastener of a uninterrupted power source, for voltage monitoring fastener is tested, and described voltage monitoring fastener is connected to form minimum function system by ash row with subtest fastener, it is characterized in that, described test system includes: human-computer interaction terminal, server, front end processor, relay protection tester, Switching Power Supply, acquisition control device, collection adaptive device；

Human-computer interaction terminal, for receiving the test case information of tester's configuration and sending it to server, and output drive signal, response signal and processing result information；

Server, for test case information, pumping signal, response signal and processing result information are stored, and carries out the mutual of data and program with human-computer interaction terminal and front end processor；

Front end processor, being used for the test case information analysis received is stimulation arrangement instruction, passage configuration-direct, sequencing contro instruction and signals collecting instruction, and is issued to relay protection tester, acquisition control device and collection adaptive device respectively；And the pumping signal that the response signal exported by described collection adaptive device and described relay protection tester export sends to server；

Relay protection tester, exports corresponding pumping signal for the stimulation arrangement instruction issued according to front end processor；

Switching Power Supply, for out-put supply signal；

Acquisition control device, passage configuration-direct for issuing according to front end processor carries out passage configuration, and pumping signal and power supply signal are accessed described collection adaptive device and the pumping signal of the signals collecting instruction acquisition relay protection tester output issued according to front end processor respectively through respective channel by the sequencing contro instruction issued according to front end processor；

Gathering adaptive device, the power supply signal for the pumping signal that relay protection tester is exported and Switching Power Supply output is nursed one's health, and is input to minimum function system；It is additionally operable to carry out passage configuration according to the passage configuration-direct that front end processor issues, and the response signal that minimum function system described in the signals collecting instruction acquisition issued according to front end processor exports, and it is uploaded to front end processor.

2. the test system of the static bypass switch voltage monitoring fastener of uninterrupted power source according to claim 1, it is characterised in that described acquisition control device includes:

Master control borad, for the respective channel of the passage configuration-direct configuration digital output module issued according to front end processor, analog input, and to front end processor feedback excitation signal；

Digital output module, is connected with relay protection tester and Switching Power Supply, exports pumping signal and power supply signal to gathering adaptive device for the sequencing contro instruction issued according to front end processor；

Analog input, is connected with relay protection tester, the pumping signal of the signals collecting instruction acquisition relay protection tester output for issuing according to front end processor.

3. the test system of the static bypass switch voltage monitoring fastener of uninterrupted power source according to claim 1, it is characterised in that described collection adaptive device includes:

Adaptation board, is connected with voltage monitoring fastener and subtest fastener, for the response signal of pumping signal and required collection is nursed one's health；

Distributed control and testing board, is connected with adaptation board, and the passage configuration-direct for issuing according to front end processor carries out passage configuration, and the response signal after conditioned is acquired by the signals collecting instruction issued according to front end processor, and is uploaded to front end processor.

4. the test system of the static bypass switch voltage monitoring fastener of uninterrupted power source according to claim 1, it is characterized in that, also including rack, and described rack includes multiple interlayer, the plurality of interlayer is accommodating front end processor, acquisition control device, collection adaptive device independently.

5. the test system of the static bypass switch voltage monitoring fastener of uninterrupted power source according to claim 4, it is characterised in that also include:

It is arranged on the fan of described enclosure top；

It is arranged on the warm-air drier below described rack；

Temperature and humidity filed plate, is used for gathering actual temperature in rack, humidity information, and gathers the power supply signal that Switching Power Supply exports, and send power supply signal and humiture information to front end processor.

6. the test system of the static bypass switch voltage monitoring fastener of uninterrupted power source according to claim 5, it is characterised in that

Described front end processor, being additionally operable to the test case information analysis by receiving is humiture configuration-direct, and is issued to temperature and humidity filed plate；

Described temperature and humidity filed plate, is additionally operable to, according to humiture configuration-direct, the operating of fan and warm-air drier is carried out closed loop control.

7. the test system of the static bypass switch voltage monitoring fastener of uninterrupted power source according to claim 6, it is characterized in that, also include: for providing the switch of multi-channel data transmission passage, and, described front end processor adopts unified ethernet communication agreement to carry out information transmission with described relay protection tester, described acquisition control device, collection adaptive device, temperature and humidity filed plate by described switch.

8. the test system of the static bypass switch voltage monitoring fastener of uninterrupted power source according to claim 1, it is characterized in that, described subtest fastener includes the interface board, communication board, remote signal plate, the first remote alarms plate and the second remote alarms plate that are connected by ash row.

9. the test system of the static bypass switch voltage monitoring fastener of uninterrupted power source according to claim 1, it is characterised in that described pumping signal is biphase reversely combined ac voltage signal.

10. the method for testing of the static bypass switch voltage monitoring fastener of a uninterrupted power source, for voltage monitoring fastener is tested, and described voltage monitoring fastener is connected to form minimum function system by ash row with subtest fastener, it is characterised in that including:

Server is sent to front end processor after the test case information configured by human-computer interaction terminal being processed；

The test case information analysis received is stimulation arrangement instruction, passage configuration-direct, sequencing contro instruction and signals collecting instruction by front end processor, and be issued to relay protection tester, acquisition control device and collection adaptive device respectively, so that relay protection tester exports corresponding pumping signal according to electric excitation configuration-direct；

The passage configuration-direct that acquisition control device issues according to front end processor carries out passage configuration, and the power supply signal of the pumping signal that exported by relay protection tester of the sequencing contro instruction issued according to front end processor and Switching Power Supply output accesses described collection adaptive device respectively through respective channel, and pumping signal described in the signals collecting instruction acquisition issued according to front end processor；

Gather adaptive device pumping signal and power supply signal are nursed one's health, and be input to minimum function system；And the passage configuration-direct issued according to front end processor carries out passage configuration, and the response signal that minimum function system described in the signals collecting instruction acquisition issued according to front end processor exports, and it is uploaded to front end processor；

The pumping signal gathering the response signal that exports of adaptive device and relay protection tester exports is sent to server by front end processor；

The server pumping signal to receiving, response signal process, and send pumping signal, response signal and processing result information to human-computer interaction terminal；

Human-computer interaction terminal output drive signal, response signal and processing result information.