CN113945749A - Insulator leakage current online monitoring method, system and device and storage medium - Google Patents
Insulator leakage current online monitoring method, system and device and storage medium Download PDFInfo
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- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
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Abstract
The application relates to an insulator leakage current online monitoring method, a system, a device and a storage medium, and relates to the field of power equipment, wherein the method comprises the steps of obtaining a monitoring range; calling corresponding personnel activity conditions according to the monitoring range; judging whether personnel move in the monitoring range or not according to the personnel movement condition; if the judgment result is yes, a warning instruction is generated, and the warning instruction is used for warning pedestrians to get away from the insulator. This application has and carries out the action to the pedestrian that is in danger within range and reminds, makes the pedestrian can dodge the effect of insulator place danger within range.
Description
Technical Field
The present disclosure relates to the field of power equipment, and in particular, to a method, a system, a device, and a storage medium for online monitoring of insulator leakage current.
Background
The insulator in the high-voltage transmission line plays a role in electrical insulation and mechanical support, and the working state of the insulator plays an important role in safe and reliable operation of a power system to ensure that the transmission line can normally operate under an overvoltage condition. The insulator exposed in the air can continuously accumulate pollutants in the air besides being subjected to strong electric field and mechanical stress for a long time, the insulating property of the insulator can be reduced when the insulator is wet, if the equivalent salt density on the surface of the insulator reaches a certain degree, the leakage current on the surface of the insulator can be increased, the whole transmission line and the whole distribution network are in failure, and the safe operation of a transmission system is greatly threatened.
The related technology can refer to Chinese patent with publication number CN107271833A, which discloses a method and a system for online monitoring leakage current of an insulator of a power transmission line, comprising the following steps: obtaining leakage current signals of each insulator on a power transmission line in real time, and transmitting the leakage current signals to a remote monitoring center through a wireless communication network; the remote monitoring center receives and stores the leakage current signal, separates the non-periodic component and the periodic component of the leakage current signal through Fourier transform, removes the natural frequency interference in the periodic component, removes the noise of the non-periodic component through time scale decomposition, and then reconstructs the leakage current signal from the de-noised non-periodic component and the periodic component; and when the leakage current signal is greater than the preset leakage current threshold value, the remote monitoring center sends out an alarm prompt.
With respect to the related art among the above, the inventors consider that the following drawbacks exist: when the insulator works, if irrelevant personnel are close to the insulator, the insulator is easy to have electric shock danger, and the insulator has the possibility of harming personal safety.
Disclosure of Invention
In order to enable the insulator not to harm the personal safety of pedestrians easily, the application provides an insulator leakage current online monitoring method, system, device and storage medium.
In a first aspect, the present application provides an insulator leakage current online monitoring method, which adopts the following technical scheme:
the insulator leakage current on-line monitoring method comprises the following steps:
acquiring a monitoring range;
calling corresponding personnel activity conditions according to the monitoring range;
judging whether personnel move in the monitoring range or not according to the personnel movement condition;
if the judgment result is yes, a warning instruction is generated, and the warning instruction is used for warning pedestrians to get away from the insulator.
Through adopting above-mentioned technical scheme, the insulator during operation, detecting system continuously monitors the peripheral certain limit of insulator, when personnel near the activity of insulator, detecting system sends the police dispatch newspaper, warn the pedestrian and keep away from the dangerous scope at insulator place, can in time carry out the action to the pedestrian who is in the dangerous scope and remind, make the pedestrian can dodge the dangerous scope at insulator place, and then make the insulator in the course of the work, be difficult for causing the injury to the pedestrian in the working range, and then improve the security in the insulator use.
Optionally, before the step of obtaining the monitoring range, the method further includes:
responding a setting request sent by a user through an intelligent terminal, wherein the setting request carries setting information for adjusting a monitoring range, the setting information comprises the monitoring range and a warning range, and the area of the warning range is larger than that of the monitoring range.
By adopting the technical scheme, before the detection system works, a user inputs the monitoring range and the warning range of the detection system during the operation of the insulator through the intelligent terminal, so that the user can set the detection range of response according to different working conditions of various insulators, and the flexibility of the detection process of the detection system is improved.
Optionally, before the step of obtaining the monitoring range, the method further includes:
acquiring the actual leakage current amount;
according to the actual leakage current amount, a preset leakage current threshold value corresponding to the actual leakage current amount is obtained;
judging whether the actual leakage current amount reaches the preset leakage current threshold value or not according to the preset leakage current threshold value;
if the alarm range is judged to be the original monitoring range, a replacing instruction is generated, and the replacing instruction is used for enabling the alarm range to replace the original monitoring range.
Through adopting above-mentioned technical scheme, when the insulator during operation, detecting system real-time detection insulator's the actual electric leakage condition, when the actual electric leakage quantity of insulator reaches the electric leakage threshold value that the user predetermines, it is in high-risk operating condition to explain this moment the insulator, detecting system makes the original monitoring range of warning scope replacement through making, make the detection range increase, when personnel are when the distance far away from the insulator, detecting system just begins to carry out the expulsion warning to the personnel, make personnel can keep away from the insulator of electric leakage more, guarantee the vacuum state of insulator electric leakage scope, the electric shock possibility because the pedestrian does not pay attention to the fact has been reduced to a certain extent.
Optionally, after the step of generating the replacement instruction, the method further includes:
acquiring the position of a leakage insulator;
and pushing the position of the electric leakage insulator to an intelligent terminal of a user.
By adopting the technical scheme, when the detection system detects the insulator in the leakage state, the detection system acquires the specific position of the insulator and pushes the position of the leakage insulator to the intelligent terminal of the user, so that the user can timely know the leakage condition of the insulator, and the user can conveniently maintain and replace the leakage insulator in time.
Optionally, before the step of generating the warning instruction, the method further includes:
acquiring facial feature data;
calling corresponding facial features of the user according to the facial feature data;
judging whether the facial feature data are consistent with the facial features of the user or not according to the facial features of the user;
if not, executing the step of generating the warning instruction;
if the judgment result is yes, the step of generating the warning instruction is skipped.
By adopting the technical scheme, when a person enters the working range of the insulator, the detection system identifies the facial features of the current person and judges whether the facial features of the current person are consistent with the preset facial features of the user, when the detection system judges that the facial features of the current person are consistent with the preset facial features of the user, the fact that the user maintains the insulator is shown, and then the detection system does not generate a warning instruction at the moment, so that the user can maintain the insulator safely.
Optionally, after the step of generating the warning instruction is executed, the method further includes:
generating a corresponding monitoring video according to the personnel activity condition;
and generating an alarm instruction according to the monitoring video, wherein the alarm instruction is used for pushing alarm information to an intelligent terminal of a user, and the alarm information comprises the monitoring video and an alarm prompt corresponding to the monitoring video.
Through adopting above-mentioned technical scheme, when having the extraneous personnel activity near the insulator, detecting system pushes away the intelligent terminal of user with the personnel activity condition in the control range, makes the user can in time learn the peripheral actual conditions of insulator, and detecting system control user's intelligent terminal sends the police dispatch newspaper simultaneously, makes the user can in time take relevant measure to carry out the expulsion to the extraneous personnel, and then makes the peripheral personnel of insulator flow the testing process more perfect.
Optionally, the method further includes:
calling a preset maintenance period, wherein the preset maintenance period is generated by presetting of a user;
acquiring the actual working time of the insulator according to the preset maintenance period;
judging whether the actual working time length reaches the preset maintenance period or not according to the preset maintenance period and the actual working time length;
if the judgment result is yes, generating a prompt instruction and executing the prompt instruction on the premise of the judgment, wherein the prompt instruction is used for sending prompt information to an intelligent terminal of a user;
and generating a zero clearing instruction and executing, wherein the zero clearing instruction is used for controlling the actual working time length to be cleared and accumulated again.
By adopting the technical scheme, when the insulator works, a user needs to overhaul and maintain the insulator regularly, the maintenance period of the insulator is preset by the user at the moment, when the actual working time of the insulator reaches the maintenance period, the detection system prompts the user to overhaul and maintain the insulator, the user can maintain and clean the insulator conveniently, and the service life of the insulator is prolonged.
In a second aspect, the present application provides an insulator leakage current online monitoring system, which adopts the following technical scheme:
insulator leakage current on-line monitoring system includes:
the detection range acquisition module is used for acquiring a monitoring range;
the personnel activity monitoring module is used for calling corresponding personnel activity conditions according to the monitoring range;
the movable personnel judging module is used for judging whether personnel move in the monitoring range according to the personnel moving condition;
and the warning instruction generating module is used for generating a warning instruction, and the warning instruction is used for warning pedestrians to keep away from the insulator.
In a third aspect, the present application provides an intelligent terminal, which adopts the following technical scheme:
an intelligent terminal comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and can execute any one of the insulator leakage current online monitoring methods.
In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions:
a computer readable storage medium, storing a computer program capable of being loaded by a processor and executing any one of the above-mentioned insulator leakage current online monitoring methods.
In summary, the present application includes at least one of the following beneficial technical effects:
when the insulator works, the detection system continuously monitors a certain range around the insulator, when a person moves near the insulator, the detection system gives an alarm to warn the pedestrian to get away from the dangerous range where the insulator is located, the pedestrian in the dangerous range can be timely reminded of behaviors, the pedestrian can avoid the dangerous range where the insulator is located, and then the insulator is not easy to injure the pedestrian in the working range in the working process, so that the safety of the insulator in the using process is improved;
when the insulator works, the detection system detects the actual electric leakage condition of the insulator in real time, when the actual electric leakage amount of the insulator reaches an electric leakage threshold value preset by a user, the insulator is in a high-risk working state, the detection system enables the detection range to be enlarged by enabling the warning range to replace the original monitoring range, and when a person is far away from the insulator, the detection system starts to expel and warn the person, so that the person can be far away from the electric leakage insulator, the vacuum state of the electric leakage range of the insulator is ensured, and the possibility of electric shock caused by the fact that the person does not pay attention to the electric leakage is reduced to a certain extent;
when a person enters the working range of the insulator, the detection system identifies the facial features of the current person and judges whether the facial features of the current person are consistent with the preset facial features of the user or not, and when the facial features of the current person are consistent with the preset facial features of the user, the fact that the user is maintaining the insulator is indicated by the judgment of the detection system, so that the detection system does not generate a warning instruction at the moment, and the user can maintain the insulator safely.
Drawings
Fig. 1 is a schematic flow chart of an insulator leakage current online monitoring method according to an embodiment of the present application.
Fig. 2 is a schematic flow chart of obtaining an actual leakage current amount in the embodiment of the present application.
Fig. 3 is a schematic flowchart of pushing a position of a leaky insulator to an intelligent terminal of a user in an embodiment of the present application.
Fig. 4 is a schematic flow chart of retrieving corresponding facial features of a user in an embodiment of the present application.
Fig. 5 is a schematic flowchart of generating a corresponding surveillance video in the embodiment of the present application.
Fig. 6 is a schematic flowchart of generating and executing a hint instruction in an embodiment of the present application.
Fig. 7 is a block diagram of an online insulator leakage current monitoring system according to an embodiment of the present application.
Description of reference numerals: 1. a detection range acquisition module; 2. a personnel activity monitoring module; 3. an active personnel judgment module; 4. and an alarm instruction generation module.
Detailed Description
The present application is described in further detail below with reference to figures 1-7.
The embodiment of the application discloses an insulator leakage current online monitoring method, a system, a device and a storage medium.
Referring to fig. 1, the method for online monitoring of insulator leakage current includes:
s101: and acquiring a monitoring range.
Specifically, when the insulator works, the detection system calls a monitoring range around the insulator, and the monitoring range is arranged in a circular shape by taking the position of the insulator as a circle center.
S102: and calling corresponding personnel activity conditions.
Specifically, when the insulator works, the detection system calls corresponding personnel activity conditions according to the monitoring range, and the detection system monitors the specific personnel activity conditions in the monitoring range in real time.
S103: judging whether personnel move in the monitoring range, and if not, continuously acquiring the personnel movement condition; and if the person is active, generating an alarm instruction and executing.
Specifically, detecting system includes infrared inductor, and it is in that personnel get into monitoring range, and infrared inductor perception arrives human temperature, and then learns that there is personnel's activity in monitoring range, and the insulator during operation, detecting system judge whether there is irrelevant personnel's activity in monitoring range according to the personnel's activity condition in monitoring range.
When personnel do not move in the monitoring range, the working environment of the insulator is relatively open at the moment, the damage to surrounding passers-by personnel is not easily caused, and the detection system repeatedly calls the personnel moving condition in the monitoring range at the moment to monitor the working environment of the insulator in real time.
When personnel flow in the monitoring range, the fact that personnel move nearby the insulator is described, the insulator can possibly cause electric shock injury to pedestrians at the moment, therefore, the detection system generates a warning instruction and sends the warning instruction, the warning instruction is used for warning pedestrians to keep away from the insulator, the detection system sends an alarm, the pedestrians are warned to keep away from the dangerous range where the insulator is located, the pedestrians in the dangerous range can be timely reminded of behaviors, and the pedestrians can avoid the dangerous range where the insulator is located.
Referring to fig. 1, before S101, the monitoring range is further adjusted according to the setting request, which specifically includes the following steps:
s201: and responding to a setting request sent by the user through the intelligent terminal.
The setting request carries setting information used for adjusting the monitoring range, the setting information comprises the monitoring range and a warning range, and the area of the warning range is larger than that of the monitoring range. Before the detection system works, a user inputs the monitoring range and the warning range of the detection system during the working of the insulators through the intelligent terminal, so that the user can set the detection range of response according to different working conditions of various insulators, and the flexibility of the detection process of the detection system is improved.
For example, a user sets a relevant monitoring range and an area of an alarm range by presetting a radius of the monitoring range and the area of the alarm range, specifically, the radius of the preset monitoring range of the user is 1 meter, and then the monitoring range is a circular area with the position of the insulator as a center of a circle and 1 meter as a radius, and the detection system further generates a corresponding area of the monitoring range; the radius of the warning range preset by the user is 2 meters, and then the warning range is a circular area taking the position of the insulator as the center of a circle and 2 meters as the radius, and the detection system further generates the corresponding warning range area.
Referring to fig. 2, before S101, a replacement command is generated according to the actual leakage current amount, which specifically includes the following steps:
s301: the actual amount of leakage current is obtained.
Specifically, when the insulator works, the detection system detects the actual leakage condition of the insulator in real time, and monitors and obtains the leakage current on the surface of the insulator.
S302: a preset leakage current threshold value corresponding to the actual amount of leakage current is retrieved.
Specifically, the detection system calls a preset leakage current threshold corresponding to the actual amount of leakage current according to the actual amount of leakage current. The preset leakage current threshold value is generated by presetting for a user, the user is a manager of the insulator, and the user is convenient to control the working state of the insulator by setting the critical state of the leakage current of the insulator.
S303: judging whether the actual leakage current amount reaches a preset leakage current threshold value, if not, continuously acquiring the actual leakage current amount; if so, a replacement instruction is generated and executed.
Specifically, the detection system judges whether the actual leakage current amount reaches a preset leakage current threshold value according to the preset leakage current threshold value, and when the actual leakage current amount of the insulator does not reach a leakage current threshold value preset by a user, the insulator is in a normal working state at the moment; and when the actual leakage amount of the insulator reaches a leakage threshold preset by a user, indicating that the insulator is in a degraded working state at the moment.
When the insulator is in a normal working state, the detection system carries out conventional continuous monitoring on the leakage current quantity at the insulator, and the real-time monitoring and management process of the insulator leakage condition is realized.
And if the insulator is in a degradation working state, the detection system generates and executes a replacement instruction, and the replacement instruction is used for enabling the warning range to replace the original monitoring range. Detection system makes current detection range increase through making the original monitoring range of warning scope replacement, when personnel when the distance far away from the insulator, detection system just begins to carry out the expulsion warning to the personnel, makes personnel can keep away from the insulator that has the electric leakage condition more, guarantees the unmanned state of insulator electric leakage scope, has reduced to a certain extent because the electric shock possibility that the pedestrian carelessly caused.
Referring to fig. 3, after S303, the position of the leaky insulator is also obtained and sent, which specifically includes the following steps:
s401: and acquiring the position of the leakage insulator.
Specifically, when the detection system detects an insulator in a leakage state, the detection system obtains a specific position of the insulator to generate a leakage insulator position, where the leakage insulator position is a geographical navigation position of the leakage insulator.
S402: and pushing the position of the leakage insulator to an intelligent terminal of a user.
Specifically, after the detection system acquires and determines the position of the leakage insulator, the position of the leakage insulator is pushed to the intelligent terminal of the user, so that the user can know the leakage condition of the insulator in time, and the user can maintain and replace the leakage insulator in time.
Referring to fig. 4, before S103, an alert instruction is further generated according to the facial feature data, which specifically includes the following steps:
s501: facial feature data is acquired.
Specifically, the insulator during operation, when personnel got into the working range of insulator, personnel's activity was experienced to infrared inductor, and detecting system takes a candid photograph and discerns current personnel's facial characteristic through the camera this moment, is convenient for carry out authentication to personnel.
S502: and calling corresponding facial features of the user.
Specifically, the detection system calls corresponding user facial features according to the facial feature data, wherein the user facial features are preset and generated for a user, and before the detection system works, the user inputs the facial features of the user into a database of the detection system, so that the detection system can call the related facial features conveniently.
S503: judging whether the facial feature data are consistent with the facial features of the user or not, and if not, executing a step of generating a warning instruction; and if the two signals are consistent, skipping the step of generating the warning instruction.
Specifically, the detection system judges whether the facial feature data of the current person is consistent with the facial features of the user preset in the database according to the facial features of the user, and then judges whether the current person is a manager.
When the facial feature data is inconsistent with the facial features of the user, the detection system further generates an alarm instruction to alarm the irrelevant personnel to leave the risk area as soon as possible, which indicates that the personnel at the moment are not managers, namely the irrelevant personnel.
When the face feature data is consistent with the face features of the user, it is indicated that the person is a manager at the moment, that is, the user is a professional, and the insulator is maintained around the insulator, so that the detection system does not generate a warning instruction at the moment, and the user can maintain the insulator safely.
Referring to fig. 5, after S503, creating shortcut adjustment area information according to the creation request, specifically including the following steps:
s601: and generating a corresponding monitoring video.
Specifically, the detection system generates a corresponding monitoring video according to the activity condition of the personnel. When irrelevant personnel move nearby the insulator, the detection system shoots and records the personnel movement condition in the monitoring range through the camera to generate a monitoring video at the moment.
S602: an alert instruction is generated.
Specifically, the detection system generates an alarm instruction according to the monitoring video, the alarm instruction is used for pushing alarm information to an intelligent terminal of a user, and the alarm information comprises the monitoring video and an alarm prompt corresponding to the monitoring video. Make the user can in time learn the peripheral actual conditions of insulator, simultaneously detecting system control user's intelligent terminal sends out the police dispatch newspaper, makes the user can in time take relevant measure to carry out the expulsion to irrelevant personnel, and then makes the peripheral personnel of insulator flow the testing process more perfect.
Referring to fig. 6, the present embodiment discloses an insulator leakage current online monitoring method, which specifically includes the following steps:
s701: a preset maintenance period is invoked.
Wherein, the preset maintenance period is preset and generated by a user. When the insulator works, a user needs to overhaul and maintain the insulator regularly, and at the moment, the user presets a maintenance period corresponding to the insulator according to the required detection frequency of the insulator.
S702: and acquiring the actual working time of the insulator.
Specifically, the detection system obtains the actual working time of the insulator according to a preset maintenance period. When the insulator works, the detection system performs timing operation on the working time of the insulator through the timer, and then the actual working time of the insulator is obtained.
S703: and judging whether the actual working time reaches a preset maintenance period or not.
Specifically, the detection system judges whether the actual working time length reaches the preset maintenance period according to the preset maintenance period and the actual working time length. When the timer records the actual working time of the insulator in real time, the actual working time of the insulator is continuously increased when the insulator works, and at the moment, the detection system judges whether the actual working time of the insulator reaches the maintenance period preset by a user in real time.
If not, jumping to S702;
if yes, the process goes to S704 to S705.
S704: and generating and executing a prompt instruction.
The prompt instruction is used for sending prompt information to an intelligent terminal of a user, when the actual working time of the insulator reaches a maintenance period, the fact that the maintenance time preset by the user is reached at the moment is indicated, the insulator needs to be overhauled, the detection system prompts the user to overhaul and maintain the insulator at the moment, the user can maintain and clean the insulator conveniently, and the service life of the insulator is prolonged.
S705: and generating a zero clearing instruction and executing.
And the zero clearing instruction is used for controlling the actual working time length to be cleared and accumulated again. When the actual working time of the insulator reaches the maintenance period preset by the user, the detection system prompts the user to remind the user to overhaul, meanwhile, the accumulated working time in the timer is reset, the timer starts to count the actual working time of the insulator again, and then the detection device can periodically prompt the user according to the maintenance period preset by the user.
The implementation principle of the insulator leakage current online monitoring method in the embodiment of the application is as follows: when the insulator during operation, detecting system continuously monitors the peripheral risk range of insulator, and when five sense organs personnel were near the activity of insulator, detecting system sent out the police dispatch newspaper, and the dangerous scope at insulator place is kept away from to the warning pedestrian, makes the pedestrian can in time dodge the dangerous scope at insulator place.
Based on the method, the embodiment of the application also discloses an insulator leakage current online monitoring system. Referring to fig. 7, the insulator leakage current on-line monitoring system includes:
the detection range acquisition module 1, the detection range acquisition module 1 is used for acquiring the monitoring range.
Personnel activity monitoring module 2, personnel activity monitoring module 2 is used for according to the monitoring range, retrieves corresponding personnel activity condition.
The activity personnel judging module 3 is used for judging whether personnel move in the monitoring range according to the personnel moving condition.
Warning instruction generation module 4, warning instruction generation module 4 is used for generating the warning instruction, and the warning instruction is used for warning the pedestrian and keeps away from the insulator.
The embodiment of the application also discloses an intelligent terminal which comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and can execute the insulator leakage current online monitoring method.
The embodiment of the application also discloses a computer readable storage medium. The computer readable storage medium stores therein a computer program that can be loaded by a processor and executes the insulator leakage current online monitoring method as described above, and includes, for example: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.
The above examples are only used to illustrate the technical solutions of the present invention, and do not limit the scope of the present invention. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from these embodiments without making any inventive step, fall within the scope of the present invention. Although the present invention has been described in detail with reference to the above embodiments, those skilled in the art may still make various combinations, additions, deletions or other modifications of the features of the embodiments of the present invention according to the situation without conflict, so as to obtain different technical solutions without substantially departing from the spirit of the present invention, and these technical solutions also fall within the protection scope of the present invention.
Claims (10)
1. The insulator leakage current online monitoring method is characterized by comprising the following steps:
acquiring a monitoring range;
calling corresponding personnel activity conditions according to the monitoring range;
judging whether personnel move in the monitoring range or not according to the personnel movement condition;
if the judgment result is yes, a warning instruction is generated, and the warning instruction is used for warning pedestrians to get away from the insulator.
2. The on-line insulator leakage current monitoring method according to claim 1, further comprising, before the step of obtaining the monitoring range:
responding a setting request sent by a user through an intelligent terminal, wherein the setting request carries setting information for adjusting a monitoring range, the setting information comprises the monitoring range and a warning range, and the area of the warning range is larger than that of the monitoring range.
3. The on-line insulator leakage current monitoring method according to claim 2, further comprising, before the step of obtaining the monitoring range:
acquiring the actual leakage current amount;
according to the actual leakage current amount, a preset leakage current threshold value corresponding to the actual leakage current amount is obtained;
judging whether the actual leakage current amount reaches the preset leakage current threshold value or not according to the preset leakage current threshold value;
if the alarm range is judged to be the original monitoring range, a replacing instruction is generated, and the replacing instruction is used for enabling the alarm range to replace the original monitoring range.
4. The on-line insulator leakage current monitoring method according to claim 3, further comprising, after the step of generating the replacement command:
acquiring the position of a leakage insulator;
and pushing the position of the electric leakage insulator to an intelligent terminal of a user.
5. The on-line insulator leakage current monitoring method according to claim 1, further comprising, before the step of generating the warning command:
acquiring facial feature data;
calling corresponding facial features of the user according to the facial feature data;
judging whether the facial feature data are consistent with the facial features of the user or not according to the facial features of the user;
if not, executing the step of generating the warning instruction;
if the judgment result is yes, the step of generating the warning instruction is skipped.
6. The on-line insulator leakage current monitoring method according to claim 5, further comprising, after the step of generating the warning command:
generating a corresponding monitoring video according to the personnel activity condition;
and generating an alarm instruction according to the monitoring video, wherein the alarm instruction is used for pushing alarm information to an intelligent terminal of a user, and the alarm information comprises the monitoring video and an alarm prompt corresponding to the monitoring video.
7. The insulator leakage current online monitoring method according to claim 1, further comprising:
calling a preset maintenance period, wherein the preset maintenance period is generated by presetting of a user;
acquiring the actual working time of the insulator according to the preset maintenance period;
judging whether the actual working time length reaches the preset maintenance period or not according to the preset maintenance period and the actual working time length;
if the judgment result is yes, generating a prompt instruction and executing the prompt instruction on the premise of the judgment, wherein the prompt instruction is used for sending prompt information to an intelligent terminal of a user;
and generating a zero clearing instruction and executing, wherein the zero clearing instruction is used for controlling the actual working time length to be cleared and accumulated again.
8. Insulator leakage current on-line monitoring system, its characterized in that includes:
the detection range acquisition module (1) is used for acquiring a monitoring range;
the personnel activity monitoring module (2) is used for calling corresponding personnel activity conditions according to the monitoring range;
the movable personnel judging module (3) is used for judging whether personnel move in the monitoring range according to the personnel moving condition;
and the warning instruction generating module (4) is used for generating a warning instruction, and the warning instruction is used for warning pedestrians to keep away from the insulator.
9. The utility model provides an intelligent terminal which characterized in that: comprising a memory and a processor, said memory having stored thereon a computer program which can be loaded by the processor and which performs the method of any of claims 1 to 7.
10. A computer-readable storage medium characterized by: a computer program which can be loaded by a processor and which performs the method according to any one of claims 1 to 7.
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