CN106291081A - Far-field region electrical verification system and method - Google Patents

Abstract

A kind of far-field region electrical verification system that the present invention provides, including electroscopic device and user terminal.Electroscopic device includes: range cells, electrical verification unit, the first communication unit and the first processor being attached each other.User terminal includes: the second communication unit, display unit, memory element, input block and the second processor being attached each other.Described electroscopic device and user terminal carry out data communication by the first communication unit and the second communication unit, by the data communication between electroscopic device and user terminal, user can assign electrical verification by described user terminal to described electroscopic device and instruct, it is possible to observe electrical verification result from described user terminal intuitively.

Description

Far-field region electrical verification system and method

Technical field

The present invention relates to high-tension power transmission and transformation equipment detection field, in particular to a kind of far-field region electrical verification system.

Background technology

Operating maintenance is to grasp charging equipment ruuning situation, in time discovery and the important means of processing equipment defect.According to Country's associated safety working regulation regulation, works on the electrical equipment of brownout or dead line job site installs ground connection Before line, need first to identify equipment or circuit the most really no-voltage, to ensure the safety of construction operation.Owing to super, extra-high voltage are handed over straight There is the factors such as circuit is high, device structure size is big in stream transmission line of electricity electrical verification, causes and contact electroscope cannot be used to connect Touch electrical verification, so carrying out electrical verification frequently with non-contact type electricity checking equipment in super, extra-high voltage electricity.

Inconvenient operation is assigned in the electrical verification order of traditional non-contact type electricity checking equipment, and it is the most straight that electrical verification result observes reading Seeing, the operation of user, reading efficiency are the highest, have a strong impact on the Consumer's Experience of maintainer.And traditional non-contact type electricity checking Equipment there is also and cannot judge DC line polarity, record electrical verification result other the defect such as inconvenient.

Summary of the invention

In order to overcome above-mentioned deficiency of the prior art, the technical problem to be solved is to provide a kind of far-field region Electrical verification system, it can be by the data cube computation between electroscopic device and user terminal, it is possible to use family can be entered on the subscriber terminal Issuing of row electrical verification order, and read electrical verification result easily and intuitively.

For system, a kind of far-field region electrical verification system that the present invention provides, described system includes electroscopic device and user Terminal；

Described user terminal includes:

For setting up the first communication unit of communication connection with described electroscopic device；

For receiving the input block of the operational order of user's input；

For showing the display unit of electrical verification procedural information；

For processing the first processor of described user terminal data；

Described first communication unit, display unit, memory element, input block are connected with first processor respectively；

Described electroscopic device includes:

For measuring the range cells of electrical verification distance, described electrical verification distance is between described electroscopic device and equipment to be tested Distance；

For detecting the electrical verification unit of the band electrical quantity of described equipment to be tested, described band electrical quantity includes described electroscopic device The electric field intensity of the equipment described to be tested detected on current location；

For processing data in described electroscopic device, generate electrical verification result according to described electrical verification distance and described band electrical quantity The second processor；

For receiving the described operational order that described user terminal sends, and by described electrical verification distance and described electrical verification result It is sent to the second communication unit of described user terminal；

Described range cells, described electrical verification unit and described second communication unit are connected with described second processor respectively.

Further, in the system, described electroscopic device also includes:

For detecting equipment direct-current polarity to be tested and the mirror that is connected with described second processor to unit.

Further, in the system, described electroscopic device is preset with the first distance threshold and second distance threshold value, institute State the first distance threshold more than described second distance threshold value；

Described second processor described electrical verification distance between described first distance threshold and described second distance threshold value it Between time, control described second communication unit to described user terminal send permit electrical verification signal；Described second processor is in institute State electrical verification distance not between described first distance threshold and described second distance threshold value time, control described second communication unit to Described user terminal sends the signal forbidding electrical verification.

Further, in the system, described electroscopic device obtains and its position pair according to described electrical verification distance The the first electric field reference value answered and the second electric field reference value；

Described second processor the electric field intensity that described electrical verification unit detects more than described first electric field reference value time, Control described second communication unit and there is the signal of induced voltage to described user terminal transmission equipment to be tested；Described second processes The electric field intensity that device detects at described electrical verification unit between described first electric field reference value and described second electric field reference value it Between time, control described second communication unit to described user terminal send the normal signal of equipment live to be tested；At described second Reason device, when the electric field intensity that described electrical verification unit detects is less than described second electric field reference value, controls described second communication unit Unit sends the uncharged signal of equipment to be tested to described user terminal.

Further, in the system, described first electric field reference value is tested by described with described second electric field reference value Distance between electric installation and described equipment to be tested determines, described first electric field reference value and described second electric field reference value and institute The distance stated between electroscopic device and equipment to be tested is inversely proportional to.

Further, in the system, described electroscopic device also includes that degree of protection is not less than the shell of IP54.

Further, in the system, described user terminal also includes memory element；Described memory element is used for preserving Described electrical verification result, forms the historical record of electrical verification；Described memory element is additionally operable to store the dress corresponding with described electroscopic device Confidence ceases, and described device information includes the time of making the product, the last checking time and checking time next time.

For method, the present invention provides a kind of far-field region electricity-testing method, is applied to the electrical verification of data communication each other Device and user terminal, described method includes:

Described user terminal sets up the communication connection with described electroscopic device；

The response user operation of described user terminal sends range finding order to described electroscopic device；

Described electroscopic device measures electrical verification distance after receiving described range finding order, and described electrical verification distance is described electrical verification Distance between device and equipment to be tested, and send allowance electrical verification according to described electrical verification distance or forbid that the information of electrical verification sends extremely Described user terminal；

Described user terminal is tested to the transmission of described electroscopic device according to user operation after receiving the information permitting electrical verification Electricity order；

Described electroscopic device measures the band electrical quantity of described equipment to be tested, and described band electrical quantity includes that described electroscopic device exists The electric field intensity of the equipment described to be tested detected on current location, and described band electrical quantity is calculated generation electrical verification result transmission To described user terminal；

Electrical verification result described in described user terminal displays.

Further, in the above-mentioned methods, described band electrical quantity also includes the polarity of equipment direct current to be tested.

Further, in the above-mentioned methods, described method also includes:

Described user terminal shows the device information of corresponding described electroscopic device, wherein, described device according to user operation Information includes the time of making the product, the last checking time and checking time next time；

Described user terminal shows the electrical verification record of corresponding described electroscopic device, wherein, described electrical verification according to user operation Record includes the historical record of electrical verification.

In terms of existing technologies, the method have the advantages that

The method and apparatus of a kind of far-field region electrical verification that the present invention provides, by the number between electroscopic device and user terminal According to connection, make user conveniently can assign electrical verification instruction to described electroscopic device from described user terminal, it is possible to by institute State user terminal and obtain electrical verification result intuitively.

Accompanying drawing explanation

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

The far-field region electrical verification systematic difference environment schematic that Fig. 1 provides for the embodiment of the present invention；

A kind of structured flowchart of the user terminal that Fig. 2 provides for the embodiment of the present invention；

The another kind of structured flowchart of the user terminal that Fig. 3 provides for the embodiment of the present invention；

A kind of structured flowchart of the electroscopic device that Fig. 4 provides for the embodiment of the present invention；

The another kind of structured flowchart of the electroscopic device that Fig. 5 provides for the embodiment of the present invention；

A kind of schematic flow sheet of the far-field region electricity-testing method that Fig. 6 provides for the embodiment of the present invention；

The schematic flow sheet setting up communication connection that Fig. 7 provides for the embodiment of the present invention；

The visualization interface schematic diagram that Fig. 8 provides for the embodiment of the present invention；

The visualization interface interfacial structure schematic diagram that Fig. 9 provides for the embodiment of the present invention；

The another kind of schematic flow sheet of the far-field region electricity-testing method that Figure 10 provides for the embodiment of the present invention.

In above-mentioned accompanying drawing, corresponding entitled of each reference:

Far-field region electrical verification system	10
		User terminal	100
First processor	110
		First communication unit	120
Display unit	130
		Input block	140
Memory element	150
		Electroscopic device	200
Second processor	210
		Second communication unit	220
Range cells	230
		Electrical verification unit	240
Mirror is to unit	250
		Self-test unit	260
Equipment to be tested	30

Detailed description of the invention

For making the purpose of the embodiment of the present invention, technical scheme and advantage clearer, below in conjunction with the embodiment of the present invention In accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is The a part of embodiment of the present invention rather than whole embodiments.Generally implement with the present invention illustrated described in accompanying drawing herein The assembly of example can be arranged with various different configurations and design.

Therefore, detailed description to the embodiments of the invention provided in the accompanying drawings is not intended to limit claimed below The scope of the present invention, but be merely representative of the selected embodiment of the present invention.Based on the embodiment in the present invention, this area is common The every other embodiment that technical staff is obtained under not making creative work premise, broadly falls into the model of present invention protection Enclose.

It should also be noted that similar label and letter represent similar terms, therefore, the most a certain Xiang Yi in following accompanying drawing Individual accompanying drawing is defined, then need not it be defined further and explains in accompanying drawing subsequently.

Describe additionally, term " first ", " second " etc. are only used for distinguishing, and it is not intended that indicate or imply relatively important Property.

In describing the invention, in addition it is also necessary to explanation, unless otherwise clearly defined and limited, term " arrange ", " install ", " being connected ", " connection " should be interpreted broadly, and connect for example, it may be fixing, it is also possible to be to removably connect, or one Body ground connects；Can be to be mechanically connected, it is also possible to be electrical connection；Can be to be joined directly together, it is also possible to indirect by intermediary It is connected, can be the connection of two element internals.For the ordinary skill in the art, can be with in concrete condition understanding State term concrete meaning in the present invention.

The present embodiment provides the system of a kind of far-field region electrical verification, refer to Fig. 1, and described far-field region electrical verification system 10 includes testing Electric installation 200 and user terminal 100, described electroscopic device 200 and described user terminal 100 data cube computation.Need treating of electrical verification Test equipment 30 and be generally arranged at the eminence away from bottom surface, in electrical verification operation, described electroscopic device 200 be generally located on described in treat Test the lower section of equipment 30.Described equipment to be tested 30 can be transformator, power transmission cable etc..What deserves to be explained is, described electrical verification fills Put 200 and can also be arranged on different positions as the case may be.

In the present embodiment, described user terminal 100 can be the electric terminal equipment of a kind of Portable movable.Example As, described user terminal 100 may be, but not limited to, smart mobile phone, PC (personal computer, PC), flat Plate computer, personal digital assistant (personal digital assistant, PDA), mobile internet surfing equipment (mobile Internet device, MID) etc..

Specifically, refer to Fig. 2, described user terminal 100 includes the first communication unit 120, input block 140, display Unit 130 and first processor 110.

Described first communication unit 120 is connected with described first processor 110, for setting up with described electroscopic device 200 Communication connection.Described user terminal 100 issues operational order by described first communication unit 120 to described electroscopic device 200, And receive, by described first communication unit 120, the electrical verification result that described electroscopic device 200 sends.In the present embodiment, described First communication unit 120 is it may be that but be not limited only to, Bluetooth communication module, WIFI communications module, low frequency wireless communication module Deng, it is preferably and uses WIFI communications module.

Described display unit 130 is connected with described first processor 110, for display one visual operation interface, and Different identification informations is shown according to the electrical verification result that described electroscopic device 200 sends.In the present embodiment, described display unit 130 are additionally operable to show electrical verification historical record, and show the device information of described electroscopic device 200.

Described input block 140 is connected with described first processor 110, for receiving the operational order of user's input, institute State operational order and include range finding order and electrical verification order.In the present embodiment, described input block 140 is additionally operable to receive user's Check historical record operation and check that device information operates.

Refer to Fig. 3, in the present embodiment, described user terminal 100 can also include memory element 150, described storage Unit 150 is connected with described first processor 110, and described memory element 150 is used for preserving described electrical verification result, forms electrical verification and goes through The Records of the Historian is recorded.Described first processor 110 can checking historical record operation calls and passing through described display unit 130 according to user Show described electrical verification historical record.

Described memory element 150 is additionally operable to store the device information corresponding with described electroscopic device 200, described device information Including the time of making the product, the last checking time and checking time next time.Described first processor 110 can checking according to user Device information operation calls also shows described device information by described display unit 130.

Specifically, refer to Fig. 4, described electroscopic device 200 includes second processor the 210, second communication unit 220, surveys Away from unit 230 and electrical verification unit 240.

Described second communication unit 220 is connected with described second processor 210, for setting up with described user terminal 100 Communication, receives the described operational order that described user terminal 100 sends, and by the described operation of response of described electroscopic device 200 The data message of order is sent to described user terminal 100.In the present embodiment, described second communication unit 220 be additionally operable to by Electroscopic device 200 device identification code that described second processor 210 generates is sent to described user terminal 100.At the present embodiment In, described second communication unit 220 it may be that but be not limited only to, Bluetooth communication module, WIFI communications module, low-frequency wireless are logical Letter modules etc., are preferably and use WIFI communications module.

Described range cells 230 is connected with described second processor 210, tests for measuring after obtaining described range finding order Electrical distance, and the electrical verification distance recorded is sent to described second processor 210, described electrical verification distance is described electroscopic device Distance between 200 and equipment to be tested 30.Described range cells 230 is it may be that but be not limited only to, infrared distance measurement module, laser Range finding module, ultrasonic ranging module etc..

Described electrical verification unit 240 is connected with described second processor 210, described for measuring after receiving electrical verification order The band electrical quantity of equipment 30 to be tested, and the described band electrical quantity recorded is sent to described second processor 210.At the present embodiment In, described electrical verification unit 240 can include electric field intensity detection module and corona detection module, and described band electrical quantity can include The electric field intensity of the equipment 30 described to be tested that described electroscopic device detects on current location.Wherein, according to equipment 30 to be tested Difference, described electric field intensity detection module can select correspondence ac electric field strength detection module or DC electric field intensity inspection Survey module.

Described second processor 210 is used for processing data in described electroscopic device 200, according to described electrical verification distance and described Band electrical quantity generates electrical verification result, and is sent to described user terminal 100 by described second communication unit 220.

In the present embodiment, described electroscopic device 200 is preset with the first distance threshold and second distance threshold value, and described first Distance threshold is more than described second distance threshold value.

Described second processor 210 in described electrical verification distance between described first distance threshold and described second distance threshold value Between time, control described second communication unit 220 to described user terminal 100 send permit electrical verification signal；At described second Reason device 210, when described electrical verification distance is not between described first distance threshold and described second distance threshold value, controls described the Two communication units 220 send the signal forbidding electrical verification to described user terminal 100.

Described first distance threshold and described second distance threshold value are determined by the electric pressure of equipment 30 to be tested, equipment to be tested 30 electric pressures are the highest, and the value of described first threshold and described Second Threshold is the biggest, and concrete value arranges and refer to existing skill Art and relevant regulations, repeat no more again.

In the present embodiment, described electroscopic device 200 obtains corresponding with its position the according to described electrical verification distance One electric field reference value and the second electric field reference value, described first electric field reference value is more than described second electric field reference value.

The electric field intensity that described second processor 210 detects at described electrical verification unit 240 is more than described first electric field base During quasi-value, control described second communication unit 220 and send equipment 30 to be tested to described user terminal 100 and there is the letter of induced voltage Number；The electric field intensity that described second processor 210 detects at described electrical verification unit 240 between described first electric field reference value with Time between described second electric field reference value, control described second communication unit 220 and send equipment to be tested to described user terminal 100 30 charged normal signals；The electric field intensity that described second processor 210 detects at described electrical verification unit 240 is less than described the During two electric field reference values, controlling described second communication unit 220, to send equipment 30 to be tested to described user terminal 100 uncharged Signal.

Described first electric field reference value is determined by described electrical verification distance with described second electric field reference value, described first electric field Reference value and described second electric field reference value are inversely proportional to described electrical verification distance, and concrete value arranges and refer to prior art and phase Close regulation, do not repeat them here.

Refer to Fig. 5, in the present embodiment, detect DC equipment time, described electroscopic device 200 can also include reflect to Unit 250, described mirror is connected with described second processor 210 to unit 250, for detecting after receiving described electrical verification order The polarity of described equipment to be tested 30 direct current, and described polarity information is sent to described second processor 210.Described second processes Device 210 calculates according to described electrical verification distance, electrical verification information and polarity information and generates electrical verification result, and by described second communication unit Unit 220 issues to described user terminal 100.

Refer to Fig. 5, in the present embodiment, the described operational order of the user that described input block 140 receives also may be used To include self-inspection order.Described electroscopic device 200 can also include self-test unit 260, and described self-test unit 260 is with described second Processor 210 connects.Described self-test unit 260 is for receiving by described second processor 210 at described electroscopic device 200 After self-inspection order, detect the running status of described electroscopic device 200, and by described running status by described second communication unit 220 are sent to described user terminal 100.Described running status can include battery electric quantity, start number of times, each component working of device Situation etc..

In the present embodiment, described electroscopic device 200 can also include shell, and described shell uses water proof and dust proof design, Its shell protection grade is not less than IP54.To ensure that described electroscopic device 200 can be normally carried out electrical verification work under rugged environment Make.

The present embodiment also provides for a kind of far-field region electricity-testing method based on above-mentioned far-field region electrical verification system 10.

Refer to the schematic flow sheet that Fig. 6, Fig. 6 are described method, said method comprising the steps of:

Step S110, described user terminal 100 is set up the communication connection with described electroscopic device 200, be refer to Fig. 7, institute State step S110 and can include following sub-step,

Sub-step S111, described user terminal 100 sets up data cube computation with described electroscopic device 200.Wherein, in this enforcement In example, described data connection approach is it may be that but be not limited only to, Bluetooth communication, WIFI communication, low frequency wireless communication etc., preferably For using the WIFI communication of 2.4G.

Sub-step S112, described user terminal 100 obtains the device identification code of described electroscopic device 200.

In the present embodiment, different electroscopic devices 200 has a unique device id number, and has one uniquely to fill Put identification code corresponding with described device id number.Described electroscopic device 200 data cube computation set up after by described device identification code It is sent to described user terminal 100.

Sub-step S113, described user terminal 100 mates corresponding described device id number according to described device identification code, And described device id number is sent to described electroscopic device 200.

Sub-step S114, the described electroscopic device 200 described device id number that receives of checking whether with own device ID Numbers match.

Sub-step S115, is verified the operational order states to be received such as rear described electroscopic device 200 entrance.So guarantee The one-to-one relationship of described electroscopic device 200 and described user terminal 100.

Step S120, described user terminal 100 responds user operation and sends range finding order to described electroscopic device 200.

Specifically, refer to Fig. 8, described user terminal 100 shows a visualized operation interface.Described visualization interface Including multistage sub-interface, concrete sub-interfacial structure refer to Fig. 9, do not repeats them here.Of course, it will be understood that this enforcement Visualization interface given by example is only used to conveniently describe the technology contents of the application, should not constitute and protect the application The restriction of scope, the most in other embodiments, the content of visualization interface can also differ.

Described user terminal 100 receives user's operation of corresponding button on described visualization interface, fills to described electrical verification Put 200 transmission range finding orders.

Step S130, described electroscopic device 200 receiving described range finding order after measure electrical verification distance, described electrical verification away from From for the distance between described electroscopic device 200 and equipment to be tested 30, and send according to described electrical verification distance and permit electrical verification or taboo Only the information of electrical verification sends to described user terminal 100.

Specifically, after described electroscopic device 200 receives described range finding order, measure between itself and described equipment to be tested 30 Distance, it is thus achieved that described electrical verification distance.Described electroscopic device is preset with the first distance threshold and second distance threshold value, and described first Distance threshold is more than described second distance threshold value.

Described second processor 210 in described electrical verification distance between described first distance threshold and described second distance threshold value Between time, control described second communication unit 220 to described user terminal 100 send permit electrical verification signal；At described second Reason device 210, when described electrical verification distance is not between described first distance threshold and described second distance threshold value, controls described the Two communication units 220 send the signal forbidding electrical verification to described user terminal 100.

Step S140, described user terminal 100 is tested to described according to user operation after receiving the information permitting electrical verification Electric installation 200 sends electrical verification order.

Specifically, in the present embodiment, when forbidding electrical verification information described in described user terminal 100 receives, described use Family terminal 100 goes beyond the scope at its visualization interface display reminding, please adjust the mark found range again in position.And by electrical verification button Invalid, as being set to Lycoperdon polymorphum Vitt (the most optional).When described user terminal 100 receives described allowance electrical verification information, described use Family terminal 100 identifies normally at its visualization interface display reminding distance range, and makes described electrical verification order button effective.

Described user terminal 100 receives user's operation to described electrical verification button, sends electrical verification to described electroscopic device 200 Order.

Step S150, described electroscopic device 200 measures the band electrical quantity of described equipment to be tested 30, and described band electrical quantity includes The electric field intensity of the equipment 30 described to be tested that described electroscopic device 200 detects on current location, and by described band electrical quantity Calculate and generate the transmission of electrical verification result to described user terminal 100.

Specifically, described electroscopic device 200, according to described electrical verification distance, calculates and generates this electroscopic device 200 current location Described first field intensity threshold value and the second field intensity threshold value.After receiving described electrical verification order, described electroscopic device 200 measures it The electric field intensity of position, and with described first field intensity threshold value and the second field intensity threshold ratio relatively,

The electric field intensity that described second processor 210 detects at described electrical verification unit 240 is more than described first electric field base During quasi-value, control described second communication unit 220 and send equipment 30 to be tested to described user terminal 100 and there is the letter of induced voltage Number；The electric field intensity that described second processor 210 detects at described electrical verification unit 240 between described first electric field reference value with Time between described second electric field reference value, control described second communication unit 220 and send equipment to be tested to described user terminal 100 30 charged normal signals；The electric field intensity that described second processor 210 detects at described electrical verification unit 240 is less than described the During two electric field reference values, controlling described second communication unit 220, to send equipment 30 to be tested to described user terminal 100 uncharged Signal.

In the present embodiment, when described equipment 30 to be tested is DC equipment, in step S150, described band electrical quantity is also The polarity of equipment 30 direct current to be tested can be included.Specifically, described electroscopic device 200, after receiving described electrical verification order, is examined Survey the polarity obtaining described equipment 30 to be tested, and with send to described user terminal 100.

Step S160, described user terminal 100 shows described electrical verification result.

Specifically, described user terminal 100 receive store described electrical verification result, and show on described visualization interface right The mark answered.

In the present embodiment, refer to Figure 10, can also S170, step in steps between step S110 and step S120 S180 and step S190.

Step S170, described user terminal 100 responds user operation and sends self-inspection order to described electroscopic device 200.

Specifically, described user terminal 100 is set up with described electroscopic device 200 after being connected, described visualized operation circle Face display self-inspection button, described user terminal 100 receives user's operation to described self-inspection button, to described electroscopic device 200 Send self-inspection order.

Step S180, after described electroscopic device 200 receives described self-inspection order, detects self-operating state, and will inspection Survey self-inspection data to send to described user terminal 100.

Specifically, described electroscopic device 200 detects self-operating state and can include but not limited to, and battery electric quantity, opens Machine number of times, device each component working situation etc..Described self-inspection data are sent to described user terminal by described electroscopic device 200 100。

Step S190, described user terminal 100 receives and stores described self-inspection data, and according to described self-checking number it is judged that The most normal.

If described self-inspection data are undesirable, during as too low in battery electric quantity or certain component working exception, described user is eventually End 100 mark of display reminding fail self-test on described visualization interface.And button inactive of finding range, as being set to Lycoperdon polymorphum Vitt (the most optional).

If described self-inspection data meet the requirements, the display reminding self-inspection on described visualization interface of described user terminal 100 The mark passed through, and make range finding button effective.

In the present embodiment, described method can also comprise the following steps.

Described user terminal 100 shows the device information of corresponding described electroscopic device 200 according to user operation.

Specifically, described visualization interface also shows device information button, described user terminal 100 according to user to institute State the operation of device information button, the device letter of the described electroscopic device 200 that display is currently connected with described user terminal 100 Breath.Wherein, described device information includes the time of making the product, the last checking time and checking time next time.So user is permissible Get information about the device information of corresponding described electroscopic device 200, the convenient periodic maintenance to described electroscopic device 200 and school Accurate.

In the present embodiment, described method can also comprise the following steps.

Described user terminal 100 is according to the electrical verification record of the user operation corresponding electroscopic device 200 of display, wherein, described in test Electrographic recording includes the historical record of electrical verification.

Specifically, described visualization interface also shows historical record button, described user terminal 100 according to user to institute State the operation of historical record button, the electrical verification historical record that display stores.

In sum, the method and apparatus of a kind of far-field region electrical verification that the present invention provides, by electroscopic device 200 and user Data cube computation between terminal 100, makes user can assign to described electroscopic device 200 easily from described user terminal 100 Electrical verification instructs, it is possible to obtained electrical verification result intuitively by described user terminal 100.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for the skill of this area For art personnel, the present invention can have various modifications and variations.All within the spirit and principles in the present invention, that is made any repaiies Change, equivalent, improvement etc., should be included within the scope of the present invention.

Claims (10)

1. a far-field region electrical verification system, it is characterised in that described system includes electroscopic device and user terminal；

Described user terminal includes:

For setting up the first communication unit of communication connection with described electroscopic device；

For receiving the input block of the operational order of user's input；

For showing the display unit of electrical verification procedural information；

For processing the first processor of described user terminal data；

Described first communication unit, display unit, memory element, input block are connected with first processor respectively；

Described electroscopic device includes:

For measuring the range cells of electrical verification distance, described electrical verification distance between described electroscopic device and equipment to be tested away from From；

For detecting the electrical verification unit of the band electrical quantity of described equipment to be tested, described band electrical quantity includes that described electroscopic device is being worked as The electric field intensity of the equipment described to be tested detected on front position；

For processing data in described electroscopic device, generate the of electrical verification result according to described electrical verification distance and described band electrical quantity Two processors；

For receiving the described operational order that described user terminal sends, and described electrical verification distance and described electrical verification result are sent To the second communication unit of described user terminal；

Described range cells, described electrical verification unit and described second communication unit are connected with described second processor respectively.

System the most according to claim 1, it is characterised in that described electroscopic device also includes:

For detecting equipment direct-current polarity to be tested and the mirror that is connected with described second processor to unit.

System the most according to claim 1, it is characterised in that described electroscopic device is preset with the first distance threshold and second Distance threshold, described first distance threshold is more than described second distance threshold value；

Described second processor when described electrical verification distance is between described first distance threshold and described second distance threshold value, Control described second communication unit and send the signal permitting electrical verification to described user terminal；Described second processor is in described electrical verification When distance is not between described first distance threshold and described second distance threshold value, control described second communication unit to described use Family terminal sends the signal forbidding electrical verification.

System the most according to claim 1, it is characterised in that described electroscopic device obtains and it according to described electrical verification distance The first electric field reference value that position is corresponding and the second electric field reference value；

Described second processor, when the electric field intensity that described electrical verification unit detects is more than described first electric field reference value, controls Described second communication unit sends equipment to be tested to described user terminal and there is the signal of induced voltage；Described second processor exists When the electric field intensity that described electrical verification unit detects is between described first electric field reference value and described second electric field reference value, Control described second communication unit and send the normal signal of equipment live to be tested to described user terminal；Described second processor exists When the electric field intensity that described electrical verification unit detects is less than described second electric field reference value, control described second communication unit to institute State user terminal and send the uncharged signal of equipment to be tested.

System the most according to claim 4, it is characterised in that described first electric field reference value and described second electric field benchmark It is worth and is determined by the distance between described electroscopic device and described equipment to be tested, described first electric field reference value and described second electric field Distance between reference value and described electroscopic device and equipment to be tested is inversely proportional to.

System the most according to claim 1, it is characterised in that described electroscopic device also includes that degree of protection is not less than IP54 Shell.

System the most according to claim 1, it is characterised in that: described user terminal also includes memory element；Described storage Unit is used for preserving described electrical verification result, forms the historical record of electrical verification；Described memory element is additionally operable to storage and described electrical verification The device information that device is corresponding, described device information includes the time of making the product, the last checking time and checking time next time.

8. a far-field region electricity-testing method, is applied to electroscopic device and the user terminal of data communication each other, and its feature exists In, described method includes:

Described user terminal sets up the communication connection with described electroscopic device；

The response user operation of described user terminal sends range finding order to described electroscopic device；

Described electroscopic device measures electrical verification distance after receiving described range finding order, and described electrical verification distance is described electroscopic device And the distance between equipment to be tested, and send allowance electrical verification according to described electrical verification distance or forbid that the information of electrical verification sends to the most described User terminal；

Described user terminal sends electrical verification life according to user operation to described electroscopic device after receiving the information permitting electrical verification Order；

Described electroscopic device measures the band electrical quantity of described equipment to be tested, and described band electrical quantity includes that described electroscopic device is currently The electric field intensity of the equipment described to be tested detected on position, and described band electrical quantity is calculated generation electrical verification result transmission to institute State user terminal；

Electrical verification result described in described user terminal displays.

Method the most according to claim 8, it is characterised in that described band electrical quantity also includes the pole of equipment direct current to be tested Property.

Method the most according to claim 8, it is characterised in that described method also includes:

Described user terminal shows the device information of corresponding described electroscopic device, wherein, described device information according to user operation Including the time of making the product, the last checking time and checking time next time；

Described user terminal shows the electrical verification record of corresponding described electroscopic device, wherein, described electrical verification record according to user operation Historical record including electrical verification.