CN107991582A - A kind of cable fault positioner and method - Google Patents

Abstract

The present invention provides a kind of cable fault positioner,Including background server,For obtaining the estimating apparatus of Method of Cable Trouble Point approximate range,It is arranged on the first Quick Response Code and detection device of cable end,Each segmentation cable length linked with the first Quick Response Code and multiple second Quick Response Codes for being stored with each transition joint geographical location information respectively are provided with background server,Detection device includes being used for the first scanning means for scanning the first Quick Response Code,The control device that is connected with the first scanning means and the second scanning means that the second Quick Response Code of scanning is connected to control device,Control device is communicated to connect with estimating apparatus by communication module,The present invention also provides a kind of cable fault localization method,The present invention can significantly reduce fault location scope,Reduce cable repairing difficulty,Shorten emergency repair time,Avoid having a power failure for a long time,Ensure the reliability of power grid power supply.

Description

A kind of cable fault positioner and method

Technical field

The present invention relates to a kind of cable fault positioner and method.

Background technology

It is big at present in order to lift the overall city appearance in city and power supply reliability with the fast development of modern city Part In the distribution system of low voltage has all gradually adopted cable run to be arranged power supply, instead of and was transmitted electricity in the past using overhead transmission line Pattern.As the popularization of cable run, the extension of cable trace, the quantity of transition joint are also just more and more.Among cable Connector is the weak link of cable passage inspection, and the multiple place of failure.If cable run breaks down, since cable is embedded in ground Lower and laying actual condition is complex to be also not quite similar, and serious obstruction is caused to the investigation of failure.Cable fault at present After the lookup of point mostly measures the approximate distance of trouble point distance fault rangefinder using cable fault localization instrument, by by electricity Cable analysis expert, inquiry equipment owner, the path for understanding cable, specific trend, transition joint and cable shaft, again finally Cable repairing is carried out in fault coverage substantially by power distribution rush-repair troop.But since early stage cable statistics is not comprehensive, difficult A series of problems, such as to relate to insider, field failure record, cable trace, transition joint all have no way of learning, and failure is determined Position scope is larger, in repairing, it is necessary to be investigated one by one to all transition joints in the range of this, the repairing to cable run Many troubles, increase cable repairing difficulty and time are brought, influences the reliability of power grid power supply.

The content of the invention

, can the purpose of the present invention is in view of the deficiencies of the prior art, proposing a kind of cable fault positioner and method Fault location scope is significantly reduced, reduces cable repairing difficulty, shortens emergency repair time, avoid having a power failure for a long time, ensure that power grid supplies The reliability of electricity.

The present invention is achieved through the following technical solutions：

A kind of cable fault positioner, cable include the segmentation cable that multistage is connected by transition joint, positioner For positioning the transition joint of failure, including background server, the estimating apparatus for obtaining Method of Cable Trouble Point approximate range, set The first Quick Response Code and detection device in cable end are put, each segmentation linked with the first Quick Response Code is provided with background server Cable length and multiple second Quick Response Codes for being stored with each transition joint geographical location information respectively, detection device include being used to sweep The first scanning means for retouching the first Quick Response Code, the control device being connected with the first scanning means and it is connected to sweep with control device The second scanning means of the second Quick Response Code is retouched, control device is communicated to connect with estimating apparatus by communication module.

Further, first Quick Response Code is arranged on the cable head and/or end.

Further, the estimating apparatus includes cable fault localization instrument.

Further, the detection device is mobile phone, notebook or tablet computer.

Further, the communication module includes the transmitting module being arranged on estimating apparatus and is arranged on control device Receiving module.

The present invention is also achieved through the following technical solutions：

A kind of cable fault localization method, includes the following steps：

Each segmentation cable length is set in background server, the first Quick Response Code, each segmentation electricity are set in cable end A, Cable length is linked with the first Quick Response Code；

B, by each transition joint from cable head to end number consecutively, the geographical location information of each transition joint is obtained simultaneously Each geographical location information is generated into multiple second Quick Response Codes corresponding with each transition joint respectively, and each second Quick Response Code is set In background server, numbered on the second Quick Response Code with transition joint；

C, estimating apparatus obtains Method of Cable Trouble Point approximate range and the scope to the distance of cable end, and by the model of acquisition Enclose and distance information transmission to control device；

D, the first scanning means scans the first Quick Response Code and obtains the length information of each segmentation cable and each second Quick Response Code, and The length information is transmitted to control device；

E, control device is obtained according to the scope described in step C and the length information described in range information, step D The transition joint of failure；

F, control device controls the second scanning means to scan with corresponding according to the numbering of the transition joint described in step E Second Quick Response Code of numbering, positions the transition joint of failure.

Further, first Quick Response Code is arranged on cable head and/or end.

Further, the estimating apparatus includes cable fault localization instrument.

Further, the detection device is mobile phone, notebook or tablet computer.

The present invention has the advantages that：

1st, in fault location, each segmentation cable length is obtained by scanning the first Quick Response Code, is obtained by estimating apparatus Length between Method of Cable Trouble Point approximate range and the scope and cable end, according to the length information and each segmentation cable Length information, obtains the transition joint of failure, and the numbering scanning further according to the transition joint is two-dimentional with second accordingly numbered Code, the final transition joint for positioning failure, obtains the particular geographic location of the transition joint, can significantly reduce fault location model Enclose, reduce cable repairing difficulty, shorten emergency repair time, avoid having a power failure for a long time, ensure the reliability of power grid power supply.

2nd, by cable run information (such as each segmentation cable length, transition joint number and numbering, each transition joint geography position Put) it is arranged on background server or is arranged in the form of Quick Response Code in background server, ensure what is substituted in staff In the case of, cable information can completely be joined.

Brief description of the drawings

The present invention is described in further details below in conjunction with the accompanying drawings.

Fig. 1 is construction of cable schematic diagram.

Fig. 2 is the functional block diagram of apparatus of the present invention.

Fig. 3 is the flow chart of the method for the present invention.

Embodiment

As depicted in figs. 1 and 2, cable 1 includes six sections of segmentation cables 11, and 11 end of adjacent sectional cable passes through transition joint 12 link together, and cable fault positioner is used for the particular geographic location for positioning the transition joint 12 of failure, positioner Estimating apparatus 3 including background server 2, for obtaining Method of Cable Trouble Point approximate range, be arranged on 1 head end 13 of cable and end 14 two first Quick Response Codes 4 and detection device 5, each segmentation cable linked with the first Quick Response Code 4 is provided with background server 2 11 length and five the second Quick Response Codes 21 for being stored with each 12 geographical location information of transition joint respectively, detection device 5 include using Filled in the first scanning means 51 for scanning the first Quick Response Code 4, the control device 52 being connected with the first scanning means 51 and with control 52 the second scanning means 53 for being connected to the second Quick Response Code 21 of scanning are put, control device 52 passes through the mould that communicates with estimating apparatus 3 Block 6 communicates to connect.

In the present embodiment, estimating apparatus 3 includes cable fault localization instrument, can obtain 1 trouble point approximate range of cable And the length between the scope and 1 head end 13 of cable or end 14.Detection device 5 is mobile phone, first, second scanning means For the camera of mobile phone, control device 52 is the processing module of mobile phone.Communication module 6 is wireless communication module, including is arranged on Transmitting module on estimating apparatus 3 and it is arranged on control device 52 and the matched receiving module of transmitting module.

As shown in figure 3, a kind of cable fault localization method, includes the following steps：

A, newly it is being laid with cable or during cable inspection, is gathering design parameter (including 1 head end of cable and the end of cable 1 Location, voltage class, 12 numbers of transition joint, each segmentation 11 length of cable and undertake the construction of unit etc.), and by these parameters with platform The form of account is arranged in background server 2, each segmentation 11 length of cable is set in background server 2, in 1 head end 13 of cable The first Quick Response Code 4 is respectively provided with end 14, each 11 length of cable that is segmented is linked with the first Quick Response Code 4；

B, in account, by each transition joint from 1 head end 13 of cable to 14 number consecutively of end, by positioning software (such as Amap) geographical location information of each transition joint 12 is obtained, each geographical location information is given birth to using Quick Response Code generation software Into multiple second Quick Response Codes 21 corresponding with each transition joint 12 respectively, and each second Quick Response Code 21 is arranged on background server In 2, numbered on the second Quick Response Code 21 with transition joint 12；

C, estimating apparatus 3 obtain 1 trouble point approximate range of cable and the scope to 1 head end 13 of cable or end 14 away from From, and the scope of acquisition and range information are transmitted to control device 52 by communication module 6；

D, the first scanning means 51 scans the first Quick Response Code 4 and obtains the length information of each segmentation cable 11 and each second two dimension Code 21, and the length information is transmitted to control device 52；

E, control device 52 is obtained according to the scope described in step C and the length information described in range information, step D To the transition joint of failure, such as：The circle that the trouble point approximate range of the acquisition of estimating apparatus 3 is a diameter of 100m, the circle to electricity The distance of 1 head end 13 of cable is 580m, and the length that the first Quick Response Code 4 of scanning obtains each segmentation cable 11 is 300m, then can calculate Go out, the 2nd transition joint 12 is within the scope of the circle, you can the transition joint for obtaining failure is the 2nd transition joint；

F, control device 52 according to the numbering of the transition joint described in step E control the second scanning means 53 scan with The second Quick Response Code 21 accordingly numbered, so as to finally position the particular geographic location of the transition joint 12 of failure, navigates to specific Behind geographical location, repair personnel is substantially reduced investigation scope using navigation software i.e. 12 whereabouts of reachable transition joint.

The foregoing is only a preferred embodiment of the present invention, therefore the scope that the present invention is implemented cannot be limited with this, i.e., The equivalent changes and modifications made according to scope of the present invention patent and description, all should still belong to what patent of the present invention covered In the range of.

Claims (9)

1. a kind of cable fault positioner, cable includes the segmentation cable that multistage is connected by transition joint, and positioner is used In the transition joint of positioning failure, it is characterised in that：Including background server, for obtaining estimating for Method of Cable Trouble Point approximate range Survey device, be arranged on the first Quick Response Code and detection device of cable end, be provided with and the first Quick Response Code chain in background server Each multiple second Quick Response Codes for being segmented cable length and being stored with each transition joint geographical location information respectively connect, detection device Including the first scanning means, the control device and and control device being connected with the first scanning means for scanning the first Quick Response Code The second scanning means of the second Quick Response Code of scanning is connected to, control device is communicated to connect with estimating apparatus by communication module.

A kind of 2. cable fault positioner according to claim 1, it is characterised in that：First Quick Response Code is arranged on The cable head and/or end.

A kind of 3. cable fault positioner according to claim 1, it is characterised in that：The estimating apparatus includes cable Fault locator.

A kind of 4. cable fault positioner according to claim 1 or 2 or 3, it is characterised in that：The detection device is Mobile phone, notebook or tablet computer.

A kind of 5. cable fault positioner according to claim 1 or 2 or 3, it is characterised in that：The communication module bag Include the transmitting module being arranged on estimating apparatus and the receiving module being arranged on control device.

A kind of 6. cable fault localization method, it is characterised in that：Include the following steps：

Each segmentation cable length is set in background server, the first Quick Response Code is set in cable end A, it is each to be segmented cable length Degree is linked with the first Quick Response Code；

B, by each transition joint from cable head to end number consecutively, the geographical location information of each transition joint is obtained and by respectively Geographical location information generates multiple second Quick Response Codes corresponding with each transition joint respectively, and after each second Quick Response Code is arranged on In platform server, numbered on the second Quick Response Code with transition joint；

C, estimating apparatus obtains Method of Cable Trouble Point approximate range and the scope to the distance of cable end, and by the scope of acquisition and Distance information transmission is to control device；

D, the first scanning means scans the first Quick Response Code and obtains the length information of each segmentation cable and each second Quick Response Code, and should Length information is transmitted to control device；

E, control device obtains failure according to the scope described in step C and the length information described in range information, step D Transition joint；

F, control device controls the scanning of the second scanning means with corresponding numbering according to the numbering of the transition joint described in step E The second Quick Response Code, position the transition joint of failure.

A kind of 7. cable fault localization method according to claim 6, it is characterised in that：First Quick Response Code is arranged on Cable head and/or end.

A kind of 8. cable fault localization method according to claim 6, it is characterised in that：The estimating apparatus includes cable Fault locator.

A kind of 9. cable fault localization method according to claim 6 or 7 or 8, it is characterised in that：The detection device is Mobile phone, notebook or tablet computer.