CN113300761A - Hand-held type electron optical cable route accurate mark appearance - Google Patents

Abstract

The invention discloses a handheld electronic optical cable route precise marking instrument, which belongs to the technical field of optical cable route checking and comprises a control unit, wherein the output end of the control unit is electrically connected with the input end of a data processing system, the data processing system comprises an acquisition unit, the input end of the acquisition unit is electrically connected with the output end of the control unit, and the input end of the acquisition unit is electrically connected with the output end of an optical cable detection unit. Compared with the traditional mode, the handheld electronic optical cable route precise marking instrument can be linked in the front and back stages, data are automatically butted in a bidirectional mode, system data and field real objects are automatically associated through position real-time presentation and comparison, the system data are automatically updated through field checking results, comparison and analysis can be conducted through a map, the efficiency is high, the quality is good, the test results of the field instrument can be automatically photographed and returned, the online quality inspection of managers is facilitated, and the management effect is further improved.

Description

Hand-held type electron optical cable route accurate mark appearance

Technical Field

The invention belongs to the technical field of optical cable route checking, and particularly relates to a handheld electronic optical cable route precise marking instrument.

Background

The optical cable routing accuracy is related to the optical cable fault positioning and processing time limit, and further network safety is affected. In actual maintenance work, the optical cable route may be changed due to the identifier, so that the system route and the display route are different, and the system route and the display route need to be confirmed in the maintenance process, and then a handheld electronic optical cable route precise marking instrument needs to be used for detection.

The method comprises the steps that data of the optical cable routing data of a system are generated into data, a maintainer carries out investigation and marking on the site through special work, and then the data are compared to modify the system data, the manual operation mode is low in efficiency and easy to generate data deviation, an optical cable routing point is found, the optical cable is knocked through instrument monitoring, if the optical cable is found out, the optical cable routing point is manually judged, then positioning and reporting are carried out, a manager marks the optical cable routing based on the reported data, so that the steps of reporting the data by field personnel are prone to errors, background personnel are not on the site, whether the field personnel operate according to specifications or not can not be determined, and the data accuracy is difficult to guarantee; the actual optical cable route can be confirmed through the optical cable route general survey instrument, but the confirmation result cannot be automatically associated to generate the optical cable route, and the on-site general survey letter-taking result cannot be uploaded to a system for future survey, so that a handheld electronic optical cable route precise marking instrument which can be networked and automatically receive and display the optical cable route is needed.

Disclosure of Invention

Technical problem to be solved

In order to overcome the defects of the prior art, the invention provides a handheld electronic optical cable route precise marking instrument, which solves the problems that a maintainer carries out investigation and marking on the site through special work and then carries out data comparison to modify system data, the manual operation mode has low efficiency, data deviation is easy to occur, whether the field staffs are operating according to the standard or not cannot be determined, the data accuracy is difficult to guarantee, the optical cable actual route can be confirmed through the optical cable route precise marking instrument, but the confirmed result cannot be automatically associated to generate the optical cable route, and the site general checking and letter obtaining result cannot be uploaded to the system for future checking.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a smart mark appearance of hand-held type electronic optical cable route, includes the control unit, the output of control unit is connected with data processing system's input electricity, data processing system includes the acquisition unit, the input of acquisition unit is connected with the output electricity of control unit, the input of acquisition unit is connected with the output electricity of optical cable detection unit, the output of acquisition unit passes through the optical cable route and is connected with the input electricity of route propelling movement unit, the output of route propelling movement unit is connected with the output electricity of route display element, the output of route display element is connected with the input electricity of acquisition unit.

The output of the control unit is electrically connected with the input of the statistical query system, the statistical query system comprises a query unit and a historical database, the input of the query unit is electrically connected with the output of the control unit, the output of the control unit is electrically connected with the input of the data classification processing module, the output of the data classification processing module is electrically connected with the input of the comparison feedback module, the input of the comparison feedback module is electrically connected with the output of the historical database, and the input of the historical database is electrically connected with the output of the data classification processing module.

As a further scheme of the invention: the output end of the acquisition unit is electrically connected with the input ends of the positioning unit and the alarm module.

A positioning unit: and acquiring and displaying the accurate position, and returning the coordinates by calling a positioning interface.

An alarm module: when data are acquired through the acquisition unit, if the acquired data are no longer within the rated range value, the alarm module performs alarm work to prompt related personnel and take emergency measures.

As a further scheme of the invention: the route pushing unit can be connected with a background historical database to obtain the existing optical cable route bearing point data.

As a further scheme of the invention: the route display unit can generate the optical cable route based on the satellite map by analyzing the route data of the route pushing unit.

As a further scheme of the invention: the optical cable detection unit is connected with the precise marking operation unit, the precise marking operation unit can start testing through clicking, a test instruction is automatically sent to the optical cable detection unit, an optical cable knocking curve is detected and displayed in real time, when the curve monitoring energy value reaches a window threshold, confirmation operation can be carried out, and when the window threshold reaches the standard, prompt is carried out through an alarm mark and voice.

As a further scheme of the invention: the control unit can report the collected data and package the optical cable routing point attribute data, the coordinate data and the monitoring curve data into a transmission data classification processing module.

As a further scheme of the invention: the data classification processing module can perform classification planning on the reported data so as to facilitate the subsequent comparison and feedback of the data.

As a further scheme of the invention: the comparison feedback module can compare the data reported by the data classification processing module with the optical cable routing data, and automatically generates new optical cable data.

As a further scheme of the invention: the route display unit comprises an image-text display module and a voice broadcasting module, the image-text display module and the voice broadcasting module can reflect detected information in an image-text and audio mode, the query unit comprises a keyword query module, a time query module and a data value query module, and when the reported data is queried, the information can be searched in a mode of inputting keywords, time and data values.

As a further scheme of the invention: a use method of the handheld electronic optical cable route precise marking instrument comprises the following steps:

s1, firstly, the accurate position is obtained and displayed through the positioning unit, the coordinate is returned through calling the positioning interface, the positioning precision needs to be checked, only the data meeting the precision requirement can be used as the effective coordinate and displayed based on the map, and the inspector can verify and confirm based on the map terrain.

S2, selecting a bearing point to be subjected to fine marking through the fine marking operation unit, entering a fine marking page, connecting the optical cable detector through the calling interface, displaying the monitoring signal waveform of the optical cable detector on the screen, and confirming a fine marking result when the signal strength reaches a threshold value.

And S3, submitting the precise mark data to a background database through an interface.

S4, the optical cable is opened by the manager through the background, the optical cable route and the fine label route are displayed based on the map, the attached instrument monitoring signal waveform can be checked, and whether the fine label field operation meets the standard or not is verified.

S5, the optical cable key points can be clearly marked and displayed in a precise marking page in a key mode, and precise marking personnel can be guided to operate in a key mode.

S6, calculating by an optical cable fine calibration rate calculation formula, wherein the calculation method comprises the following steps:

and (4) calculating the optical cable precise marking rate, namely the precise marking point number/(the optical cable length slice number + the key point number), wherein the slice number is automatically adjusted along with the laying type of the optical cable.

(III) advantageous effects

Compared with the prior art, the invention has the beneficial effects that:

the handheld electronic optical cable route fine-marking instrument starts fine-marking and automatic positioning of optical cable route points by automatically receiving and displaying optical cable routes, automatically monitors and displays optical cable knocking waveforms, judges whether an optical cable is found, automatically reports the position and the monitoring waveforms after confirmation, automatically generates optical cable routes by background processing reported data, can record on-site monitoring result pictures, and prevents on-site monitoring personnel from walking out of the field; the method comprises the steps of pushing optical cable route bearing points to be checked based on the inspection position through a route pushing unit, displaying the positions based on a map, displaying urban pipelines to be checked nearby, counting the points again, acquiring the actual bearing point positions through an acquisition unit, and the optical cable is detected and monitored to confirm the signal curve and the energy value through the optical cable, and the uploading system is used as the basis for the position survey and the verification of the bearing point of the optical cable, compared with the traditional mode, the method provided by the invention can be linked in the front and the back, the data is automatically butted in a bidirectional way, the system data and the field real object are automatically associated through position real-time presentation and comparison, the system data is automatically updated according to the field checking result, and can compare the analysis through the map, it is efficient, of high quality, can also shoot the test result of the on-the-spot instrument and return automatically, the online quality inspection of managers of being convenient for, thus further improve the management effect.

Drawings

FIG. 1 is a schematic diagram of the system of the present invention;

in the figure: the system comprises a control unit 1, a data processing system 2, a 201 positioning unit, a 202 alarm module, a 203 acquisition unit, a 204 optical cable detection unit, a 205 route display unit, a 2051 image-text display module, a 2052 voice broadcast module, a 206 route push unit, a 207 optical cable route, a 3 statistic query system, a 301 historical database, a 302 query unit, a 3021 keyword query module, a 3022 time query module, a 3023 data value query module, a 4 data classification processing module and a 5 comparison feedback module.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

As shown in the figure, the present invention provides a technical solution: the utility model provides a smart mark appearance of hand-held type electronic optical cable route, including the control unit, the output of control unit is connected with data processing system's input electricity, data processing system includes the acquisition unit, the input of acquisition unit is connected with the output electricity of control unit, the input of acquisition unit is connected with the output electricity of optical cable detection unit, the output of acquisition unit passes through the optical cable route and is connected with the input electricity of route propelling movement unit, the output of route propelling movement unit is connected with the output electricity of route display element, the output of route display element is connected with the input electricity of acquisition unit.

The output end of the control unit is electrically connected with the input end of the statistical query system, the statistical query system comprises a query unit and a historical database, the input end of the query unit is electrically connected with the output end of the control unit, the output end of the control unit is electrically connected with the input end of the data classification processing module, the output end of the data classification processing module is electrically connected with the input end of the comparison feedback module, the input end of the comparison feedback module is electrically connected with the output end of the historical database, and the input end of the historical database is electrically connected with the output end of the data classification processing module.

The output end of the acquisition unit is electrically connected with the input ends of the positioning unit and the alarm module.

A positioning unit: and acquiring and displaying the accurate position, and returning the coordinates by calling a positioning interface.

An alarm module: when data are acquired through the acquisition unit, if the acquired data are no longer within the rated range value, the alarm module performs alarm work to prompt related personnel and take emergency measures.

The route pushing unit can be connected with a background historical database to obtain the existing optical cable route bearing point data.

The route display unit can generate the optical cable route based on the satellite map by analyzing the route data of the route pushing unit.

The optical cable detection unit is connected with the precise marking operation unit, the precise marking operation unit can start testing through clicking, a test instruction is automatically sent to the optical cable detection unit, an optical cable knocking curve is detected and displayed in real time, when the curve monitoring energy value reaches a window threshold, confirmation operation can be carried out, and when the window threshold reaches the standard, prompt is carried out through an alarm mark and voice.

The control unit can report the collected data and package the optical cable routing point attribute data, the coordinate data and the monitoring curve data into a transmission data classification processing module.

The data classification processing module can perform classification planning on the reported data so as to facilitate the subsequent comparison and feedback of the data.

The comparison feedback module can compare the data reported by the data classification processing module with the optical cable routing data, and automatically generates new optical cable data.

The route display unit comprises an image-text display module and a voice broadcasting module, the image-text display module and the voice broadcasting module can reflect detected information in an image-text and audio mode, the query unit comprises a keyword query module, a time query module and a data value query module, and when the reported data is queried, the information can be searched in a mode of inputting keywords, time and data values.

A use method of the handheld electronic optical cable route precise marking instrument comprises the following steps:

s1, firstly, the accurate position is obtained and displayed through the positioning unit, the coordinate is returned through calling the positioning interface, the positioning precision needs to be checked, only the data meeting the precision requirement can be used as the effective coordinate and displayed based on the map, and the inspector can verify and confirm based on the map terrain.

S2, selecting a bearing point to be subjected to fine marking through the fine marking operation unit, entering a fine marking page, connecting the optical cable detector through the calling interface, displaying the monitoring signal waveform of the optical cable detector on the screen, and confirming a fine marking result when the signal strength reaches a threshold value.

And S3, submitting the precise mark data to a background database through an interface.

S4, the optical cable is opened by the manager through the background, the optical cable route and the fine label route are displayed based on the map, the attached instrument monitoring signal waveform can be checked, and whether the fine label field operation meets the standard or not is verified.

S5, the optical cable key points can be clearly marked and displayed in a precise marking page in a key mode, and precise marking personnel can be guided to operate in a key mode.

S6, calculating by an optical cable fine calibration rate calculation formula, wherein the calculation method comprises the following steps:

and (4) calculating the optical cable precise marking rate, namely the precise marking point number/(the optical cable length slice number + the key point number), wherein the slice number is automatically adjusted along with the laying type of the optical cable.

In conclusion, the following results are obtained:

the optical cable route is automatically received and displayed, the optical cable route points are accurately and automatically positioned, the optical cable knocking waveform is automatically monitored and displayed, whether the optical cable is found or not is judged, the position and the monitoring waveform are automatically reported after confirmation, the reported data is processed in a background mode to automatically generate the optical cable route, in addition, the on-site monitoring result picture can be recorded, and the on-site monitoring personnel are prevented from walking through the field; the method comprises the steps of pushing optical cable route bearing points to be checked based on the inspection position through a route pushing unit, displaying the positions based on a map, displaying urban pipelines to be checked nearby, counting the points again, acquiring the actual bearing point positions through an acquisition unit, and the optical cable is detected and monitored to confirm the signal curve and the energy value through the optical cable, and the uploading system is used as the basis for the position survey and the verification of the bearing point of the optical cable, compared with the traditional mode, the method provided by the invention can be linked in the front and the back, the data is automatically butted in a bidirectional way, the system data and the field real object are automatically associated through position real-time presentation and comparison, the system data is automatically updated according to the field checking result, and can compare the analysis through the map, it is efficient, of high quality, can also shoot the test result of the on-the-spot instrument and return automatically, the online quality inspection of managers of being convenient for, thus further improve the management effect.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (10)

1. The utility model provides a smart mark appearance of hand-held type electronic optical cable route, includes the control unit, its characterized in that: the output end of the control unit is electrically connected with the input end of a data processing system, the data processing system comprises an acquisition unit, the input end of the acquisition unit is electrically connected with the output end of the control unit, the input end of the acquisition unit is electrically connected with the output end of the optical cable detection unit, the output end of the acquisition unit is electrically connected with the input end of a route pushing unit through an optical cable route, the output end of the route pushing unit is electrically connected with the output end of a route display unit, and the output end of the route display unit is electrically connected with the input end of the acquisition unit;

the output of the control unit is electrically connected with the input of the statistical query system, the statistical query system comprises a query unit and a historical database, the input of the query unit is electrically connected with the output of the control unit, the output of the control unit is electrically connected with the input of the data classification processing module, the output of the data classification processing module is electrically connected with the input of the comparison feedback module, the input of the comparison feedback module is electrically connected with the output of the historical database, and the input of the historical database is electrically connected with the output of the data classification processing module.

2. The hand-held electronic optical cable route fine marking instrument according to claim 1, characterized in that: the output end of the acquisition unit is electrically connected with the input ends of the positioning unit and the alarm module;

a positioning unit: acquiring and displaying an accurate position, and returning a coordinate by calling a positioning interface;

an alarm module: when data are acquired through the acquisition unit, if the acquired data are no longer within the rated range value, the alarm module performs alarm work to prompt related personnel and take emergency measures.

3. The hand-held electronic optical cable route fine marking instrument according to claim 1, characterized in that: the route pushing unit can be connected with a background historical database to obtain the existing optical cable route bearing point data.

4. The hand-held electronic optical cable route fine calibration instrument according to claim 3, wherein: the route display unit can generate the optical cable route based on the satellite map by analyzing the route data of the route pushing unit.

5. The hand-held electronic optical cable route fine calibration instrument according to claim 4, wherein: the optical cable detection unit is connected with the precise marking operation unit, the precise marking operation unit can start testing through clicking, a test instruction is automatically sent to the optical cable detection unit, an optical cable knocking curve is detected and displayed in real time, when the curve monitoring energy value reaches a window threshold, confirmation operation can be carried out, and when the window threshold reaches the standard, prompt is carried out through an alarm mark and voice.

6. The hand-held electronic optical cable route fine calibration instrument according to claim 5, wherein: the control unit can report the collected data and package the optical cable routing point attribute data, the coordinate data and the monitoring curve data into a transmission data classification processing module.

7. The hand-held electronic optical cable route fine marking instrument according to claim 6, characterized in that: the data classification processing module can perform classification planning on the reported data so as to facilitate the subsequent comparison and feedback of the data.

8. The hand-held electronic optical cable route fine calibration instrument according to claim 7, wherein: the comparison feedback module can compare the data reported by the data classification processing module with the optical cable routing data, and automatically generates new optical cable data.

9. The hand-held electronic optical cable route fine calibration instrument according to claim 5, wherein: the route display unit comprises an image-text display module and a voice broadcasting module, the image-text display module and the voice broadcasting module can reflect detected information in an image-text and audio mode, the query unit comprises a keyword query module, a time query module and a data value query module, and when the reported data is queried, the information can be searched in a mode of inputting keywords, time and data values.

10. A hand-held electronic optical cable route fine-marking instrument according to claims 1-9, characterized in that: the using method comprises the following steps:

s1, firstly, obtaining and displaying an accurate position through a positioning unit, returning coordinates by calling a positioning interface, checking positioning accuracy, taking data meeting accuracy requirements as effective coordinates and displaying based on a map, and enabling an inspector to verify and confirm based on the map terrain;

s2, selecting a bearing point to be subjected to fine marking through a fine marking operation unit, entering a fine marking page, connecting an optical cable detector through a calling interface, displaying a monitoring signal waveform of the optical cable detector on a screen, and confirming a fine marking result when the signal intensity reaches a threshold value;

s3, submitting the precise mark data to a background database through an interface;

s4, the manager opens the optical cable through the background, displays the optical cable route and the fine label route based on the map, can check the attached instrument monitoring signal waveform, and verifies whether the fine label field operation meets the standard;

s5, specific identification of optical cable key points can be displayed in a precise marking page in a key mode, and precise marking personnel are guided to operate in a key mode;

s6, calculating by an optical cable fine calibration rate calculation formula, wherein the calculation method comprises the following steps:

and (4) calculating the optical cable precise marking rate, namely the precise marking point number/(the optical cable length slice number + the key point number), wherein the slice number is automatically adjusted along with the laying type of the optical cable.

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