CN114693051A - On-duty monitoring method, system, equipment and medium for power change station - Google Patents
On-duty monitoring method, system, equipment and medium for power change station Download PDFInfo
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Abstract
The invention discloses a method, a system, equipment and a medium for monitoring on duty of a power change station, wherein the method comprises the following steps: acquiring behavior data triggered by an on-duty person of the power change station; when the behavior data are abnormal data, generating an abnormal signal; and pushing the abnormal signal to a management terminal with management authority so that the management terminal reconfirms whether the behavior data is abnormal data or not, and triggering an abnormal processing instruction when the behavior data is confirmed to be the abnormal data. The behavior data triggered by the on-duty personnel of the power change station is acquired and pushed to the management terminal for confirmation when the behavior data is abnormal, and if the behavior data is confirmed to be abnormal, an abnormal processing instruction is triggered, so that the on-duty personnel of the power change station can be timely processed when abnormal conditions occur, and the life health safety of the on-duty personnel and the operation safety of the power change station are guaranteed.
Description
Technical Field
The invention relates to the field of power exchanging stations, in particular to a duty monitoring method, system, equipment and medium for a power exchanging station.
Background
Along with the improvement of the intelligent level of the power changing station, the work load of the on-duty personnel is gradually reduced, and the daily management of the power changing station is changed to less-manual operation. However, safety supervision on the on-duty personnel of the power switching station is lacked in the prior art, and the on-duty personnel cannot find and process the safety-related problems in time, so that the life health safety of the on-duty personnel of the power switching station and the operation safety of the power switching station cannot be guaranteed, and the defect is particularly obvious in a less-human operation scene.
Disclosure of Invention
The invention provides a method, a system, equipment and a medium for monitoring on duty of a power change station, aiming at overcoming the defects that the life health safety of the on-duty personnel of the power change station and the operation safety of the power change station cannot be guaranteed in the prior art.
The invention solves the technical problems through the following technical scheme:
a duty monitoring method for a power swapping station comprises the following steps:
acquiring behavior data triggered by an on-duty person of the power change station;
when the behavior data are abnormal data, generating an abnormal signal;
and pushing the abnormal signal to a management terminal with management authority so that the management terminal reconfirms whether the behavior data is abnormal data or not, and triggering an abnormal processing instruction when the behavior data is confirmed to be the abnormal data.
According to the scheme, the behavior data triggered by the person on duty in the power change station is automatically acquired, the abnormal signal is pushed to the management terminal to trigger to be confirmed again when the behavior data are abnormal, and then the abnormal processing instruction can be triggered when the abnormality exists, so that the person on duty in the power change station can be timely processed when the abnormality occurs, and therefore the life health safety of the person on duty and the operation safety of the power change station are guaranteed.
Preferably, the method further comprises:
judging whether the behavior data are valid data or not according to the operation time of the power change station;
and when the behavior data is judged to be valid data, continuously judging whether the behavior data is abnormal data according to a preset abnormal judgment condition.
According to the scheme, the travel is judged to be valid data valid in time in the data according to the operation time of the power conversion station, and whether the behavior data are abnormal data or not is continuously judged according to the preset abnormal judgment condition, so that invalid data outside the operation time is eliminated during abnormal judgment, and the accuracy of the judgment result is improved.
Preferably, the person on duty comprises a single shift and a shift; the judging whether the behavior data is valid data according to the operation time of the power swapping station comprises the following steps:
determining the working time of the single shift personnel or the shift personnel according to the operation time and the scheduling information of the battery changing station;
and judging whether the behavior data is valid data or not according to the working time.
According to the scheme, the working time of different operators on duty is determined by combining the operation time and the scheduling information of the battery replacement station, invalid data except the working time are eliminated, and the accuracy of the judgment result is improved.
Preferably, the preset abnormality judgment condition includes an evaluation parameter and a limit threshold corresponding to the evaluation parameter;
when the behavior data is judged to be valid data, whether the behavior data is abnormal data or not is continuously judged according to a preset abnormal judgment condition, and the method comprises the following steps:
when the behavior data is judged to be valid data, acquiring a parameter value corresponding to the evaluation parameter in the behavior data;
judging whether the parameter value exceeds the limit threshold value;
and when the parameter value exceeds the limit threshold value, judging the behavior data to be abnormal data.
According to the scheme, the preset abnormal judgment condition is formed by selecting the evaluation parameters and setting the limit threshold value for the evaluation parameters, so that the parameter values corresponding to the evaluation parameters in the behavior data and the preset abnormal judgment condition can be obtained, the parameter values are compared with the limit threshold value to realize abnormal judgment, and the accuracy of the judgment result is improved.
Preferably, the pushing the exception signal to a management terminal having a management authority so that the management terminal reconfirms whether the behavior data is the exception data, and when the behavior data is confirmed to be the exception data, triggering an exception handling instruction includes:
and pushing the abnormal signal to a management terminal with management authority, so that the management terminal remotely calls the field video information of the power swapping station according to the abnormal signal to reconfirm whether the behavior data is abnormal data, and triggering an abnormal processing instruction when the behavior data is confirmed to be abnormal data.
According to the scheme, the management terminal remotely calls the field video information of the power switching station according to the abnormal signals to reconfirm whether the behavior data are abnormal data or not, and triggers the abnormal processing instruction when the behavior data are confirmed to be the abnormal data, so that the condition that the abnormal processing instruction is triggered by mistake is avoided, and the accuracy of processing the abnormal condition is improved.
Preferably, the pushing the abnormal signal to a management terminal with a management authority so that the management terminal remotely retrieves the field video information of the power swapping station according to the abnormal signal to reconfirm whether the behavior data is abnormal data, and when the behavior data is reconfigured to be abnormal data, triggering an abnormal processing instruction includes:
pushing the abnormal signal to a first management terminal with a first management authority, so that the first management terminal remotely calls field video information of the power swapping station according to the abnormal signal to reconfirm whether the behavior data are abnormal data or not, and triggering an abnormal processing instruction when the behavior data are confirmed to be abnormal data;
after the preset time length, when the behavior data of the person on duty is still abnormal data, the abnormal signal is pushed to a second management terminal with a second management authority;
the management range of the second management authority is larger than that of the first management authority.
According to the scheme, the management terminals with different management authorities are arranged, and the abnormal signals are reported to the management terminals with different management authorities step by step, so that the abnormal conditions are ensured to be correspondingly processed, the situation that the abnormal conditions are omitted is prevented, the accuracy of processing the abnormal conditions is improved, and the safety of operators on duty and the safe operation of the power station are ensured.
Preferably, the pushing the exception signal to a management terminal having a management authority so that the management terminal reconfirms whether the behavior data is the exception data, and when the behavior data is confirmed to be the exception data, triggering an exception handling instruction includes:
determining an abnormal grade corresponding to the abnormal data;
and pushing the abnormal signal to a management terminal with management authority corresponding to the abnormal grade so that the management terminal generates a processing instruction matched with the abnormal grade.
According to the scheme, the abnormity grades are set, the abnormity of different abnormity grades is pushed to different management terminals for processing, and the efficiency of abnormal condition processing is improved.
An on-duty monitoring system of a power swapping station, comprising:
the behavior data acquisition module is used for acquiring behavior data triggered by an on-duty person of the power swapping station;
the abnormal signal generation module is used for generating an abnormal signal when the behavior data is abnormal data;
and the exception handling module is used for pushing the exception signal to a management terminal with management authority so as to enable the management terminal to reconfirm whether the behavior data are the exception data or not, and triggering an exception handling instruction when the behavior data are confirmed to be the exception data.
According to the scheme, the behavior data triggered by the person on duty in the power change station is automatically acquired, the abnormal signal is pushed to the management terminal to trigger to be confirmed again when the behavior data are abnormal, and then the abnormal processing instruction can be triggered when the abnormality exists, so that the person on duty in the power change station can be timely processed when the abnormality occurs, and therefore the life health safety of the person on duty and the operation safety of the power change station are guaranteed.
Preferably, the system further comprises:
the judging module is used for judging whether the behavior data are valid data or not according to the operation time of the power swapping station;
and the continuous judging module is used for continuously judging whether the behavior data is abnormal data according to a preset abnormal judging condition when the behavior data is judged to be valid data.
The trip is judged to be valid data valid in time in the data according to the operation time of the power conversion station, and whether the behavior data are abnormal data or not is continuously judged according to the preset abnormal judgment condition, so that invalid data outside the operation time is eliminated during abnormal judgment, and the accuracy of the judgment result is improved.
Preferably, the person on duty comprises a single shift and a shift;
the judgment module is specifically configured to: determining the working time of the single shift personnel or the shift personnel according to the operation time and the scheduling information of the battery changing station;
and judging whether the behavior data is valid data or not according to the working time.
According to the scheme, the working time of different operators on duty is determined by combining the operation time and the scheduling information of the battery replacement station, invalid data except the working time are eliminated, and the accuracy of the judgment result is improved.
Preferably, the preset abnormality judgment condition includes an evaluation parameter and a limit threshold corresponding to the evaluation parameter;
the continuous judging module is specifically configured to: when the behavior data is judged to be valid data, acquiring a parameter value corresponding to the evaluation parameter in the behavior data;
judging whether the parameter value exceeds the limit threshold value;
and when the parameter value exceeds the limit threshold value, judging the behavior data to be abnormal data.
According to the scheme, the preset abnormal judgment condition is formed by selecting the evaluation parameters and setting the limit threshold value for the evaluation parameters, so that the parameter values corresponding to the evaluation parameters in the behavior data and the preset abnormal judgment condition can be obtained, the parameter values are compared with the limit threshold value to realize abnormal judgment, and the accuracy of the judgment result is improved.
Preferably, the exception handling module is specifically configured to: and pushing the abnormal signal to a management terminal with management authority, so that the management terminal remotely calls the field video information of the power swapping station according to the abnormal signal to reconfirm whether the behavior data is abnormal data, and triggering an abnormal processing instruction when the behavior data is confirmed to be abnormal data.
According to the scheme, the management terminal remotely calls the field video information of the power conversion station according to the abnormal signal to reconfirm whether the behavior data are abnormal data or not, and triggers the abnormal processing instruction when the behavior data are confirmed to be the abnormal data, so that the condition that the abnormal processing instruction is triggered by mistake is avoided, and the accuracy of processing the abnormal condition is improved.
Preferably, the exception handling module is further specifically configured to: pushing the abnormal signal to a first management terminal with a first management authority so that the first management terminal remotely calls field video information of the power swapping station according to the abnormal signal to reconfirm whether the behavior data are abnormal data or not, and triggering an abnormal processing instruction when the behavior data are confirmed to be abnormal data;
after the preset time length, when the behavior data of the person on duty is still abnormal data, the abnormal signal is pushed to a second management terminal with a second management authority;
the management range of the second management authority is larger than that of the first management authority.
According to the scheme, the management terminals with different management authorities are arranged, and the abnormal signals are reported to the management terminals with different management authorities step by step, so that the abnormal conditions are ensured to be correspondingly processed, the situation that the abnormal conditions are omitted is prevented, the accuracy of processing the abnormal conditions is improved, and the safety of operators on duty and the safe operation of the power station are ensured.
Preferably, the exception handling module is further specifically configured to: determining an abnormal grade corresponding to the abnormal data;
and pushing the abnormal signal to a management terminal with management authority corresponding to the abnormal grade so that the management terminal generates a processing instruction matched with the abnormal grade.
According to the scheme, the abnormity grades are set, the abnormity of different abnormity grades is pushed to different management terminals for processing, and the efficiency of abnormal condition processing is improved.
An electronic device includes a memory, a processor, and a computer program stored in the memory and executable on the processor, wherein the processor implements the on-duty monitoring method of any one of the above power conversion stations when executing the program.
A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method for monitoring on duty at a power conversion station of any of the above.
The positive progress effects of the invention are as follows: the behavior data triggered by the on-duty personnel of the power change station is acquired and pushed to the management terminal for confirmation when the behavior data is abnormal, and if the behavior data is confirmed to be abnormal, an abnormal processing instruction is triggered, so that the on-duty personnel of the power change station can be timely processed when abnormal conditions occur, and the life health safety of the on-duty personnel and the operation safety of the power change station are guaranteed.
Drawings
Fig. 1 is a flowchart of an on-duty monitoring method for a power swapping station in embodiment 1 of the present invention.
Fig. 2 is a flowchart of an on-duty monitoring method for a power swapping station in embodiment 2 of the present invention.
Fig. 3 is a partial flowchart of a duty monitoring method for a power swapping station in embodiment 2 of the present invention.
Fig. 4 is a schematic view of an application scenario of the on-duty monitoring method for a power swapping station in embodiment 2 of the present invention.
Fig. 5 is a schematic structural diagram of an on-duty monitoring system of a power swapping station in embodiment 3 of the present invention.
Fig. 6 is a schematic structural diagram of an on-duty monitoring system of a power swapping station according to another embodiment of embodiment 3 of the present invention.
Fig. 7 is a schematic structural diagram of an electronic device according to embodiment 4 of the present invention.
Detailed Description
The invention is further illustrated by the following examples, which are not intended to limit the scope of the invention.
Example 1
The embodiment provides a monitoring method on duty for a power swapping station, as shown in fig. 1, including the following steps:
the behavior data includes, but is not limited to, attendance data. The attendance data can be generated through hardware equipment (such as a fingerprint machine and the like) configured by the battery replacement station, and also can be generated through electronic equipment (such as a mobile phone and the like) held by an attendant or an application program (such as an attendance APP and the like) on the electronic equipment.
102, generating an abnormal signal when the behavior data are abnormal data;
and 103, pushing the abnormal signal to a management terminal with management authority so that the management terminal reconfirms whether the behavior data is abnormal data or not, and triggering an abnormal processing instruction when the behavior data is confirmed to be the abnormal data.
In the embodiment, the management terminal carries out secondary judgment or finally judges whether the abnormal behavior actually exists in the on-duty personnel of the power changing station, so that the behavior data is confirmed again to be the abnormal data, the accuracy of the judgment result is improved through the secondary judgment, and the misjudgment is avoided.
According to the monitoring method for on-duty monitoring of the power change station, the behavior data triggered by the on-duty personnel of the power change station is automatically acquired, and the abnormal signals are pushed to the management terminal to trigger for reconfirmation when the behavior data are abnormal, so that the abnormal processing instruction can be triggered when the abnormality exists, the on-duty personnel of the power change station can be timely processed when the abnormality occurs, and the life health safety of the on-duty personnel and the operation safety of the power change station are guaranteed.
Example 2
The on-duty monitoring method for the swap station provided in this embodiment is a further improvement of embodiment 1, and as shown in fig. 2, after step 101, the on-duty monitoring method for the swap station further includes the following steps:
The operation time in this embodiment indicates the time for the power station to operate normally, for example, the operation time is 9: 00-17:00, in the operation time, the behavior data triggered by the on-duty personnel of the power change station is valid data, and outside the operation time, the behavior data triggered by the on-duty personnel of the power change station is invalid data. And continuously carrying out abnormity judgment on effective behavior data triggered by the on-duty personnel of the power change station in the operation time according to the preset abnormity judgment condition, and judging effective abnormal data meeting the preset abnormity judgment condition.
According to the scheme, the travel is judged to be valid data valid in time in the data according to the operation time of the power conversion station, and whether the behavior data are abnormal data or not is continuously judged according to the preset abnormal judgment condition, so that invalid data outside the operation time is eliminated during abnormal judgment, and the accuracy of the judgment result is improved.
In an alternative embodiment, the attendant includes both a single attendant and a shift attendant; step 110 specifically includes:
1101, determining the working time of a single shift or shift personnel according to the operation time and the scheduling information of the power change station;
and step 1102, judging whether the behavior data is valid data according to the working time. If yes, go to step 1111, otherwise, go back to step 101.
According to the scheme, the working time of different operators on duty is determined by combining the operation time and the scheduling information of the battery replacement station, invalid data except the working time are eliminated, and the accuracy of the judgment result is improved.
In another alternative embodiment, the preset abnormality determination condition includes an evaluation parameter and a limit threshold corresponding to the evaluation parameter.
Wherein the evaluation parameter is a parameter for evaluating whether data is abnormal. The limit threshold corresponding to the evaluation parameter is a boundary value for dividing normal data and abnormal data.
In a specific embodiment, the behavior data triggered by the on-duty person in the power conversion station includes at least one of card punching information of the on-duty person, pulse information of the on-duty person acquired through an intelligent terminal, position movement information of the on-duty person acquired through NFC (near field communication technology), and life information of the on-duty person acquired through camera live body detection. The evaluation parameters in the preset abnormality judgment condition include at least one of time to punch a card, number of times to lack a card, pulse value, position information and life information value. Correspondingly, the limiting threshold corresponding to the evaluation parameter refers to a threshold corresponding to the time of card punching, a threshold corresponding to the number of times of card missing, a threshold corresponding to the pulse value, a threshold corresponding to the position information, and a threshold corresponding to the life information value.
Step 111 specifically includes:
step 1111, obtaining a parameter value corresponding to the evaluation parameter in the behavior data;
The judgment of whether the parameter value exceeds the limit threshold specifically means whether at least one of the time taken to punch the card, the number of times of card missing, the pulse value, the position information and the life information value exceeds the corresponding threshold.
And step 1113, judging the behavior data to be abnormal data.
According to the scheme, the preset abnormal judgment condition is formed by selecting the evaluation parameters and setting the limit threshold value for the evaluation parameters, so that the parameter values corresponding to the evaluation parameters in the behavior data and the preset abnormal judgment condition can be obtained, the parameter values are compared with the limit threshold value to realize abnormal judgment, and the accuracy of the judgment result is improved.
In another optional embodiment, step 103 specifically includes:
and step 1031, pushing the abnormal signal to a management terminal with management authority, so that the management terminal remotely calls the field video information of the power swapping station according to the abnormal signal to re-confirm whether the behavior data is abnormal data, and triggering an abnormal processing instruction when the behavior data is confirmed to be abnormal data. The management terminal can be mobile communication software such as nails or WeChat; or a mobile terminal, such as a mobile phone.
According to the scheme, the management terminal remotely calls the field video information of the power switching station according to the abnormal signals to reconfirm whether the behavior data are abnormal data or not, and triggers the abnormal processing instruction when the behavior data are confirmed to be the abnormal data, so that the condition that the abnormal processing instruction is triggered by mistake is avoided, and the accuracy of processing the abnormal condition is improved.
In another optional embodiment, as shown in fig. 3, step 1031 specifically includes:
the management range of the second management authority is larger than that of the first management authority.
According to the scheme, the management terminals with different management authorities are arranged, and the abnormal signals are reported to the management terminals with different management authorities step by step, so that the abnormal conditions are ensured to be correspondingly processed, the situation that the abnormal conditions are omitted is prevented, the accuracy of processing the abnormal conditions is improved, and the safety of operators on duty and the safe operation of the power station are ensured.
In another optional embodiment, step 103 specifically includes:
determining an abnormal grade corresponding to the abnormal data;
and pushing the abnormal signal to a management terminal with management authority corresponding to the abnormal level so that the management terminal generates a processing instruction matched with the abnormal level.
According to the scheme, the abnormity grades are set, the abnormity of different abnormity grades is pushed to different management terminals for processing, and the efficiency of abnormal condition processing is improved.
The on-duty monitoring method for the power swapping station in the embodiment is suitable for monitoring a single on-duty scene, as shown in fig. 4: the method comprises the steps that operators of a power change station punch cards regularly in working time, a station end control program of the power change station collects card punching information of the operators once every five minutes and sends the card punching information to a power change cloud after collecting and summarizing the card punching information, the power change cloud judges whether the card punching information is normal or not according to the operation time, shift information table and preset abnormal judgment conditions of the power change station, when an abnormality is found, the power change cloud sends an abnormal signal to a main pipe mobile end, the main pipe mobile end is used for checking, monitoring and confirming the abnormality, specifically, the power change cloud searches for finding that a control terminal of the power change station is short of cards and the card shortage time exceeds the elastic card punching time, area management personnel are informed through mobile communication software (nails or micro-communication), for example, the abnormal signal is sent to an area responsible nail group, if the preset time is passed, the power change cloud searches for finding that the control terminal of the power change station is still short of cards, the abnormal signal is sent to the upper-level area responsible nail group, and recording the card punching information of the operator by the power exchange cloud. The regional management personnel remotely call and obtain the on-site video acquisition information of the battery replacement site through the battery replacement cloud video software to check the situation, or inquire the situation of the operator through a telephone, and if the abnormal situation is confirmed, inform the nearest patrol personnel to go to the safety patrol and assist the on-site disposal of the abnormal situation so as to ensure the life health safety of the battery replacement station operator and the operation safety of the battery replacement station.
According to the on-duty monitoring method for the power swapping station, the management terminals with different management authorities are set, and the abnormal signals are reported to the management terminals with different management authorities step by step, so that the abnormal conditions are correspondingly processed, the situation that the abnormal conditions are omitted to be processed is prevented, the accuracy of processing the abnormal conditions is improved, and the safety of on-duty personnel and the safe operation of the power swapping station are ensured.
Example 3
The present embodiment provides a monitoring system on duty of a power swapping station, as shown in fig. 5, including:
the behavior data acquisition module 1 is used for acquiring behavior data triggered by an on-duty person of the power swapping station;
the behavior data includes, but is not limited to, attendance data. The attendance data can be generated through hardware equipment (such as a fingerprint machine and the like) configured by the battery replacement station, and also can be generated through electronic equipment (such as a mobile phone and the like) held by an attendant or an application program (such as an attendance APP and the like) on the electronic equipment.
The abnormal signal generating module 2 is used for generating an abnormal signal when the behavior data is abnormal data;
and the exception handling module 3 is used for pushing the exception signal to a management terminal with management authority so that the management terminal reconfirms whether the behavior data is the exception data or not, and triggers an exception handling instruction when the behavior data is confirmed to be the exception data.
According to the scheme, the behavior data triggered by the person on duty in the power change station is automatically acquired, the abnormal signal is pushed to the management terminal to trigger to be confirmed again when the behavior data are abnormal, and then the abnormal processing instruction can be triggered when the abnormality exists, so that the person on duty in the power change station can be timely processed when the abnormality occurs, and therefore the life health safety of the person on duty and the operation safety of the power change station are guaranteed.
In another optional implementation manner, as shown in fig. 6, the on-duty monitoring system of the power swapping station of this embodiment further includes the following modules:
the judging module 4 is used for judging whether the behavior data is valid data or not according to the operation time of the power change station;
and the continuous judging module 5 is used for continuously judging whether the behavior data is abnormal data according to a preset abnormal judging condition when the behavior data is judged to be valid data.
The operation time in this embodiment refers to the time for the power station to operate normally, for example, the operation time is 9: 00-17:00, in the operation time, the behavior data triggered by the on-duty personnel of the power change station is valid data, and outside the operation time, the behavior data triggered by the on-duty personnel of the power change station is invalid data. And continuously judging the abnormal data triggered by the power exchange station attendant in the operation time according to the preset abnormal judgment condition, and judging the effective abnormal data meeting the preset abnormal judgment condition.
The trip is judged to be valid data valid in time in the data according to the operation time of the power conversion station, and whether the behavior data are abnormal data or not is continuously judged according to the preset abnormal judgment condition, so that invalid data outside the operation time is eliminated during abnormal judgment, and the accuracy of the judgment result is improved.
In an alternative embodiment, the shift operator comprises a single shift operator and a shift operator;
the judgment module 4 is specifically used for determining the working time of a single shift or a shift according to the operation time and the scheduling information of the battery changing station;
and judging whether the behavior data is valid data or not according to the working time.
According to the scheme, the working time of different operators on duty is determined by combining the operation time and the scheduling information of the battery replacement station, invalid data except the working time are eliminated, and the accuracy of the judgment result is improved.
In another alternative embodiment, the preset abnormality determination condition includes an evaluation parameter and a limit threshold corresponding to the evaluation parameter.
Wherein the evaluation parameter is a parameter for evaluating whether data is abnormal. The limit threshold corresponding to the evaluation parameter is a boundary value for dividing normal data and abnormal data.
In a specific embodiment, the behavior data triggered by the on-duty person in the power conversion station includes at least one of card punching information of the on-duty person, pulse information of the on-duty person acquired through an intelligent terminal, position movement information of the on-duty person acquired through NFC (near field communication technology), and life information of the on-duty person acquired through camera live body detection. The evaluation parameters in the preset abnormality judgment condition include at least one of time to punch a card, number of times to lack a card, pulse value, position information and life information value. Correspondingly, the limiting threshold corresponding to the evaluation parameter refers to a threshold corresponding to the time of card punching, a threshold corresponding to the number of times of card missing, a threshold corresponding to the pulse value, a threshold corresponding to the position information, and a threshold corresponding to the life information value.
The continuous judgment module 5 is specifically configured to: when the behavior data is judged to be valid data, acquiring a parameter value corresponding to the evaluation parameter in the behavior data;
and judging whether the parameter value exceeds a limit threshold value.
The judgment of whether the parameter value exceeds the limit threshold specifically means whether at least one of the time of card punching, the number of times of card missing, the pulse value, the position information and the life information value exceeds the corresponding threshold.
And when the parameter value exceeds the limit threshold value, judging the behavior data as abnormal data.
According to the scheme, the preset abnormal judgment condition is formed by selecting the evaluation parameters and setting the limit threshold value for the evaluation parameters, so that the parameter values corresponding to the evaluation parameters in the behavior data and the preset abnormal judgment condition can be obtained, the parameter values are compared with the limit threshold value to realize abnormal judgment, and the accuracy of the judgment result is improved.
In another optional embodiment, the exception handling module 3 is specifically configured to: and pushing the abnormal signal to a management terminal with management authority, so that the management terminal remotely calls the field video information of the power swapping station according to the abnormal signal to reconfirm whether the behavior data are abnormal data, and triggering an abnormal processing instruction when the behavior data are confirmed to be abnormal data.
The management terminal can be mobile communication software such as nails or WeChat; or a mobile terminal, such as a mobile phone.
According to the scheme, the management terminal remotely calls the field video information of the power conversion station according to the abnormal signal to reconfirm whether the behavior data are abnormal data or not, and triggers the abnormal processing instruction when the behavior data are confirmed to be the abnormal data, so that the condition that the abnormal processing instruction is triggered by mistake is avoided, and the accuracy of processing the abnormal condition is improved.
In another optional embodiment, the exception handling module 3 is further specifically configured to: the abnormal signals are pushed to a first management terminal with a first management authority, so that the first management terminal remotely calls the field video information of the power swapping station according to the abnormal signals to re-confirm whether the behavior data are abnormal data or not, and when the behavior data are confirmed to be the abnormal data, an abnormal processing instruction is triggered;
after the preset duration, when the behavior data of the person on duty is still abnormal data, the abnormal signal is pushed to a second management terminal with a second management authority;
the management range of the second management authority is larger than that of the first management authority.
According to the scheme, the management terminals with different management authorities are arranged, and the abnormal signals are reported to the management terminals with different management authorities step by step, so that the abnormal conditions are ensured to be correspondingly processed, the situation that the abnormal conditions are omitted is prevented, the accuracy of processing the abnormal conditions is improved, and the safety of operators on duty and the safe operation of the power station are ensured.
In another optional embodiment, the exception handling module 3 is further specifically configured to: determining an abnormal grade corresponding to the abnormal data;
and pushing the abnormal signal to a management terminal with management authority corresponding to the abnormal level so that the management terminal generates a processing instruction matched with the abnormal level.
According to the scheme, the abnormity grades are set, the abnormity of different abnormity grades is pushed to different management terminals for processing, and the efficiency of abnormal condition processing is improved.
The on-duty monitoring system of the power swapping station of this embodiment is suitable for monitoring a single on-duty scene, and the specific application is the same as that in embodiment 2 described above, and is not described here again.
The on-duty monitoring system for the power change station of the embodiment sets the management terminals with different management authorities and reports the abnormal signals to the management terminals with different management authorities step by step so as to ensure that abnormal conditions are correspondingly processed, prevent the abnormal conditions from omitting processing, improve the accuracy of processing the abnormal conditions, and ensure the safety of on-duty personnel and the safe operation of the power change station.
Example 4
An embodiment of the present invention further provides an electronic device, which may be represented in a form of a computing device (for example, may be a server device), and includes a memory, a processor, and a computer program stored in the memory and running on the processor, where when the processor executes the computer program, the on-duty monitoring method for a swap station in embodiment 1 or 2 of the present invention may be implemented.
Fig. 7 shows a schematic diagram of a hardware structure of the present embodiment, and as shown in fig. 7, the electronic device 9 specifically includes:
at least one processor 91, at least one memory 92, and a bus 93 for connecting the various system components (including the processor 91 and the memory 92), wherein:
the bus 93 includes a data bus, an address bus, and a control bus.
The processor 91 executes various functional applications and data processing, such as the duty monitoring method of the power exchange station according to embodiment 1 or 2 of the present invention, by running the computer program stored in the memory 92.
The electronic device 9 may further communicate with one or more external devices 94 (e.g., a keyboard, a pointing device, etc.). Such communication may be through an input/output (I/O) interface 95. Also, the electronic device 9 may communicate with one or more networks (e.g., a Local Area Network (LAN), a Wide Area Network (WAN), and/or a public network, such as the Internet) via the network adapter 96. The network adapter 96 communicates with the other modules of the electronic device 9 via the bus 93. It should be understood that although not shown in the figures, other hardware and/or software modules may be used in conjunction with the electronic device 9, including but not limited to: microcode, device drivers, redundant processors, external disk drive arrays, RAID (disk array) systems, tape drives, and data backup storage systems, etc.
It should be noted that although in the above detailed description several units/modules or sub-units/modules of the electronic device are mentioned, such a division is merely exemplary and not mandatory. Indeed, the features and functionality of two or more of the units/modules described above may be embodied in one unit/module, according to embodiments of the application. Conversely, the features and functions of one unit/module described above may be further divided into embodiments by a plurality of units/modules.
Example 5
The embodiment of the invention also provides a computer-readable storage medium, on which a computer program is stored, and when the program is executed by a processor, the steps of the on-duty monitoring method for a power change station in embodiment 1 or 2 of the invention are implemented.
More specific examples, among others, that the readable storage medium may employ may include, but are not limited to: a portable disk, a hard disk, random access memory, read only memory, erasable programmable read only memory, optical storage device, magnetic storage device, or any suitable combination of the foregoing.
In a possible implementation manner, the present invention can also be implemented in a form of a program product, which includes a program code, and when the program product runs on a terminal device, the program code is configured to enable the terminal device to execute the steps of implementing the on-duty monitoring method for a power swapping station in embodiment 1 or 2 of the present invention.
Where program code for carrying out the invention is written in any combination of one or more programming languages, the program code may be executed entirely on the user device, partly on the user device, as a stand-alone software package, partly on the user device and partly on a remote device or entirely on the remote device.
While specific embodiments of the invention have been described above, it will be appreciated by those skilled in the art that this is by way of example only, and that the scope of the invention is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the spirit and scope of the invention, and these changes and modifications are within the scope of the invention.
Claims (10)
1. A duty monitoring method for a power change station is characterized by comprising the following steps:
acquiring behavior data triggered by an on-duty person of the power change station;
when the behavior data are abnormal data, generating an abnormal signal;
and pushing the abnormal signal to a management terminal with management authority so that the management terminal reconfirms whether the behavior data are abnormal data or not, and triggering an abnormal processing instruction when the behavior data are confirmed to be abnormal data.
2. The on-duty monitoring method for a power change station as claimed in claim 1, wherein the method further comprises:
judging whether the behavior data are valid data or not according to the operation time of the power change station;
and when the behavior data is judged to be valid data, continuously judging whether the behavior data is abnormal data according to a preset abnormal judgment condition.
3. The on-duty monitoring method for the power change station as claimed in claim 2, wherein the on-duty personnel comprises a single duty personnel and a shift personnel;
the judging whether the behavior data is valid data according to the operation time of the power change station includes:
determining the working time of the single shift personnel or the shift personnel according to the operation time and the scheduling information of the battery changing station;
and judging whether the behavior data is valid data or not according to the working time.
4. The on-duty monitoring method for the power swapping station as claimed in claim 2, wherein the preset abnormality judgment condition comprises an evaluation parameter and a limit threshold corresponding to the evaluation parameter;
when the behavior data is judged to be valid data, whether the behavior data is abnormal data or not is continuously judged according to a preset abnormal judgment condition, and the method comprises the following steps:
when the behavior data is judged to be valid data, acquiring a parameter value corresponding to the evaluation parameter in the behavior data;
judging whether the parameter value exceeds the limit threshold value;
and when the parameter value exceeds the limit threshold value, judging the behavior data to be abnormal data.
5. The on-duty monitoring method for a power swapping station as claimed in claim 1, wherein the pushing the abnormal signal to a management terminal with management authority to make the management terminal reconfirm whether the behavior data is abnormal data and trigger an abnormal processing instruction when the behavior data is confirmed to be abnormal data comprises:
and pushing the abnormal signal to a management terminal with management authority, so that the management terminal remotely calls the field video information of the power swapping station according to the abnormal signal to reconfirm whether the behavior data is abnormal data, and triggering an abnormal processing instruction when the behavior data is confirmed to be abnormal data.
6. The on-duty monitoring method for a power swapping station as claimed in claim 5, wherein the pushing the abnormal signal to a management terminal with a management authority causes the management terminal to remotely call on-site video information of the power swapping station according to the abnormal signal to reconfirm whether the behavior data is abnormal data, and when the behavior data is reconfigured to be abnormal data, triggering an abnormal processing instruction includes:
pushing the abnormal signal to a first management terminal with a first management authority, so that the first management terminal remotely calls field video information of the power swapping station according to the abnormal signal to reconfirm whether the behavior data are abnormal data or not, and triggering an abnormal processing instruction when the behavior data are confirmed to be abnormal data;
after the preset time length, when the behavior data of the person on duty is still abnormal data, the abnormal signal is pushed to a second management terminal with a second management authority;
the management scope of the second management authority is larger than that of the first management authority.
7. The on-duty monitoring method for a power swapping station as claimed in claim 1, wherein the pushing the abnormal signal to a management terminal with management authority to make the management terminal reconfirm whether the behavior data is abnormal data and trigger an abnormal processing instruction when the behavior data is confirmed to be abnormal data comprises:
determining an abnormal grade corresponding to the abnormal data;
and pushing the abnormal signal to a management terminal with management authority corresponding to the abnormal grade so that the management terminal generates a processing instruction matched with the abnormal grade.
8. The utility model provides a monitoring system on duty that trades power station which characterized in that includes:
the behavior data acquisition module is used for acquiring behavior data triggered by an on-duty person of the power swapping station;
the abnormal signal generation module is used for generating an abnormal signal when the behavior data is abnormal data;
and the exception handling module is used for pushing the exception signal to a management terminal with management authority so as to enable the management terminal to reconfirm whether the behavior data are the exception data or not, and triggering an exception handling instruction when the behavior data are confirmed to be the exception data.
9. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor implements the on-duty monitoring method of any of claims 1 to 7 when executing the program.
10. A computer-readable storage medium, on which a computer program is stored, which program, when being executed by a processor, carries out the steps of the method for monitoring on duty at a power station according to any one of claims 1 to 7.
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CN116912036A (en) * | 2023-09-07 | 2023-10-20 | 北京玖行智研交通科技有限公司 | New energy vehicle trunk line power exchange station guard method |
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CN116912036A (en) * | 2023-09-07 | 2023-10-20 | 北京玖行智研交通科技有限公司 | New energy vehicle trunk line power exchange station guard method |
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